Apparatus for use with service loops in an oil derrick |
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申请号 | EP10190787.1 | 申请日 | 2010-11-11 | 公开(公告)号 | EP2322754B1 | 公开(公告)日 | 2017-05-31 |
申请人 | Delafield Corporation; | 发明人 | Schiefelbein Jr., John P.; | ||||
摘要 | |||||||
权利要求 | |||||||
说明书全文 | The present invention is related to oil drilling equipment, and more particularly, to an apparatus having improved interlocking units to restrain service loops which transfer electrical, hydraulic and compressed-air power to the oil derrick top drive. Referring to Referring again to The service loops 6 of the hoses vary from about 2 inches to 7 inches in diameter. In addition, there are also variations of the hose structure and materials according to their usages in the drilling process. For example, a hydraulic pressure could be up to 3000 psi, and therefore, a hose to transfer the hydraulic fluid must be mechanically enhanced by having a sufficient thickness and an appropriate material structure. In general, the service loops have a composite structure to achieve reinforced mechanical properties. The composite structure is comprised of an inner liner, a middle braid and an outer liner. The inner and outer liners are made of thermoplastic materials or rubber. The middle braid is the composite of the thermoplastics and enhanced polymeric threads or metal wires. Therefore, the mechanically enhanced hoses have large longitudinal rigidities. It will be appreciated that due to the variations of the hose diameters, material and structure which all affect the longitudinal flexibility of the hoses, each service loop does not always have the same bend radius. The hoses having a smaller diameter usually have a smaller bend radius, and the hoses having a larger diameter have a larger bend radius. For example, in general, hoses with two inches in diameter will have 30 inches in bend radius, hoses having three inches in diameter will have a bend radius of 42 inches, and hoses having four and half inches in diameter will have a bend radius of 48 inches. Therefore, the bottoms of the service loops travel in different paths when all the Loops having the same length travel in the longitudinal direction. The variation in paths during operation of the machinery causes the loops to become entangled. When this happens, loops with the larger diameter have the tendency to force loops with the smaller diameter into unnatural positions, which results in premature failure of the loops with the smaller diameter. In this situation, an environmental condition such as a strong wind also plays a factor to accelerate the failure of the loops. In addition, in some cases two or more loops with the smaller diameter can displace a loop with the larger diameter, which can cause problems including broken loops. If the loop failure happens, it will not only cause a loss in economic value due to costs to replace the damaged loops and down time for replacing the loops, but also create a hazardous situation such as leakage of the high pressured air or fluids to machine operators. Therefore, finding a solution to this problem becomes an industry priority. Over the years there have been several attempts to design metal clamps to wrap around the loops so that proper spacing and consistent travel paths could be maintained. However, these attempts have failed due to the continual forces on the rigid clamps and the harsh environment the clamps are subjected to. In order to overcome these difficulties, there was disclosed and claimed in The invention as disclosed in An embodiment of the present invention is an apparatus for flexibly restraining service loops which are part of hoses in an oil derrick to prevent entangling of the loops, comprising a plurality of identical apparatus wherein each apparatus is positioned at different longitudinal levels to restrain the service loops, so that the service loops will have the same path and bend radius when they travel longitudinally during operation of an oil well drilling machine to minimize damage of the service loops. In a preferred embodiment regarding structural configuration of multiple identical apparatus, each apparatus is comprised of three or more interlocking units which are flexibly connected together through identical first and second flexible cables, wherein three units are positioned in a same transverse level to affix the respective three service loops. In addition, each of the interlocking units has an identical structural configuration, comprising a central steel ring which is adhesively bonded to a middle section of braid of a service loop positioned to penetrate therethrough and is also exteriorly affixed to first and second interconnecting rings which are connected to the respective first and second flexible cables. Therefore, the service loops are flexibly restrained to have a uniform path and bend radius when they travel longitudinally. Each of three steel rings is a circular upward cylindrical wall which is longitudinally positioned to adhesively bond to the braid of a service loop and affixed to the first and second interconnecting rings. The interconnecting rings are positioned to align with a plane which is transverse to the longitudinal cylindrical wall of the steel ring, wherein their ring diameters are further aligned with a diameter of the steel ring, so that the first and second interconnecting rings are symmetrically positioned relative to the centrally positioned steel ring. A first improved interlocking unit has a shape similar to an axle sleeve, comprising first and second symmetrical members, which are affixed by a plurality of attachment bands. Each member, which is half of the unit, comprises an insert steel enhanced molded rubber structure, comprising an inner insert steel section and an outer molded rubber section, which are combined together in a sandwich fashion. The inner insert steel section is an arcuate plate, wherein a plurality of threaded openings penetrate therethrough and an interconnecting ring is affixed at a middle position on the exterior surface of the inner insert steel section. The ring is additionally positioned to be aligned with a plane which is transverse to the longitudinal orientation of the unit. The outer molded rubber section is an arcuate hollow structure including first and second closed transverse sides, an exterior surface, an interior surface and an a open middle layer of space to thereby form two longitudinal openings between the exterior surface and the interior surface of the molded rubber section. On the exterior surface of the molded rubber section there are opposite disposed ring receiving openings for positioning an interconnecting ring from each respective half of the inner insert steel sections, and a plurality of attachment band receiving openings for positioning the respective attachment bands to thereby affix the first and second inner insert steel sections together. When assembling the first improved interlocking unit, the first and second members are affixed together and further adhered by adhesive placed at the interface between the unit and service loop. The affixation is additionally enhanced by fasteners including the attachment bands and screws which penetrate through the respective bands to connect to respective threaded openings of the respective two inner insert steel sections of a member. The fasteners function as first intra-unit affixing means. A second improved interlocking unit has the same shape of an axle sleeve as the first improved interlocking unit, and also comprises first and second symmetrical members. However, the first and second members of the second improved unit have a different structure which serves as second intra-unit affixing means for connecting them together, as compared with the first intra-unit affixing means of the first improved interlocking unit. Each symmetrical member of the second improved interlocking unit is an inner insert steel section with an enhanced molded rubber structure, comprising an inner insert steel section and an outer molded rubber section. The inner insert steel section comprises a plurality of forward extensions and corresponding recesses along the respective first and second longitudinal interconnecting edges, wherein a respective one extension connects to a respective one recess in series. In addition, an identical pin receiving hole penetrates through each forward extension, so that the identical pin holes are aligned with the longitudinal orientation of each of the two longitudinal interconnecting edges. Similar to the extensions and recesses of the inner insert steel sections, the outer molded rubber section also comprises corresponding extensions and recesses on the respective exterior surface and interior surface along each of two longitudinal openings of the outer molded rubber section. Therefore, in manufacturing each member the extensions and corresponding recesses of the insert steel sections are positioned between the respective extensions and corresponding recesses on the respective exterior surface and interior surface along each of the two longitudinal openings of the outer molded rubber sections. When assembling the second improved interlocking unit, the first and second members are first positioned to tightly surround the service loop at an appropriate location, wherein their extensions and corresponding recesses are respectfully matched to each other to form a cylindrical structure. Therefore, the first and second longitudinal interconnecting edges of the first inner insert steel section matches corresponding recesses in the second inner insert steel section and the interconnecting sections of the second inner insert steel section matches the corresponding recesses in the first inner insert steel section. Therefore, first and second identical pins penetrate through the pin receiving holes of the respective first and second members to thereby connect the first and second member together along the respective two longitudinal sides. In this setting, the extensions and corresponding recesses of the respective first and second members, the pin receiving holes of the respective first and second inner insert steel sections, and the two pins serve as the respective intra-unit affixing means. In addition, adhesive is placed onto an interface location between the unit and service loop, including the interior surface of the first member, the interior surface of the second member, and the outer layer of the service loop. The adhesion forces provided by the adhesives positioned on the interface of the unit and service loop play a predominant role to affix the improved interlocking unit and the service loop together, in addition to mechanical forces provided by the intra-unit affixing means, which additionally contribute the affixation of the unit to the service loop. For all of the variations as described in In another preferred embodiment for all variations regarding flexibly connecting three interlocking units, four identical cables are used, wherein a first flexibly restraining cable is affixed to the first interconnecting rings of the respective first and second interlocking units, a second flexibly restraining cable is affixed to the second interconnecting rings of the respective first and second interlocking units, a third flexibly restraining cable is affixed to the first interconnecting rings of the respective second and third interlocking units, and a fourth flexibly restraining cable is affixed to the second interconnecting rings of the respective second and third interlocking units. Therefore, three service loops will have restrained transverse vibrational movement to reduce stresses applied to the apparatus which results in a reduced strain on the apparatus to thereby lead to a long usable life of apparatus embodying the present invention. In an additional embodiment regarding structural variations of the steel ring in In a further embodiment regarding achieving a controlled tear-drop shaped loop for all variations in The present invention has a second preferred embodiment of the apparatus regarding varied structural configurations of the multiple identical apparatus. Each apparatus is comprised of first and third interlocking units which only have the respective single interconnecting rings to affix the respective steel rings and a second interlocking unit which have first and second interconnecting rings, wherein a first looped flexibly restraining cable connects the interconnecting ring of the first unit and the first interconnecting ring of the second interlocking unit, and a second looped flexibly restraining cable connects the interconnecting ring of the third unit and the second interconnecting ring of the second interlocking unit, which results in the ring diameters of all the interconnection rings to align with a central line penetrating through diameters of the respective service loops. In this setting, the loops are flexibly restrained, so that they have limited transverse vibrational movement to reduce stresses applied to the apparatus, which results in a reduced strain on the apparatus to thereby lead to long usable life of apparatus embodying the present invention. It is desirable to provide an apparatus for flexibly restraining service loops which are part of hoses in an oil derrick to prevent entangling of the loops, comprising a plurality of identical apparatus wherein each apparatus is positioned at different longitudinal levels to restrain the service loops, so that the service loops will have the same path and bend radius when they travel longitudinally during operation of an oil well drilling machine to minimize damage of the service loops. It is also desirable to provide a preferred embodiment regarding structural configurations of multiple identical apparatus. Each apparatus is comprised of three interlocking units which are flexibly connected together through identical first and second flexible cables, wherein the three units are positioned in a same transverse level to affix the respective three service loops. In addition, each of the interlocking units has an identical structural configuration, comprising a central steel ring which is adhesively bonded to a middle section of braid of a service loop positioned to penetrate therethrough and is also exteriorly affixed to first and second interconnecting rings which are connected to the respective first and second flexible cables. Therefore, the service loops are flexibly restrained to have a uniform path and bend radius when they travel longitudinally. It is also desirable to provide each of three steel rings being a circular upward cylindrical wall which is longitudinally positioned to adhesively bond the braid of a service loop and affixed to the first and second interconnecting rings. The interconnecting rings are positioned to align with a plane which is transverse to the longitudinal cylindrical wall of the steel ring, wherein their ring diameters are further aligned with a diameter of the steel ring, so that the first and second interconnecting rings are symmetrically positioned relative to the centrally positioned steel ring. It is also desirable to provide the first and second flexibly restraining cables. The first cable at its first end penetrates through the first interconnecting ring of the second interlocking unit, and the first end is then crimped after forming a loop to connect to the first interconnecting ring of the third unit, whereas its second end is also crimped after forming another loop to connect to the first interconnecting ring of the first unit. The second flexibly restraining cable is similarly connected to the second interconnecting rings of the respective interlocking units. Therefore, the first and third service loops are flexibly restrained to thereby have a limited transverse vibrational movement and the second service loop can have a limited sliding transverse movement between the first and third service loops when they travel longitudinally, so that their transverse movement reduces stresses applied to the apparatus which results in a reduced strain on the apparatus to thereby lead a long usable life of apparatus embodying the present invention. It is also desirable to provide another preferred embodiment regarding flexibly connecting three interlocking units, wherein four identical cables are used. The first flexibly restraining cable is affixed to the first interconnecting rings of the respective first and second interlocking units, the second flexibly restraining cable is affixed to the second interconnecting rings of the respective first and second interlocking units, the third flexibly restraining cable is affixed to the first interconnecting rings of the respective second and third interlocking units, and the fourth flexibly restraining cable is affixed to the second interconnecting rings of the respective second and third interlocking units. Therefore, three service loops will have restrained transverse vibrational movement to reduce stresses applied to the apparatus which results in a reduced strain of the apparatus to thereby lead a long usable life of apparatus embodying the present invention. It is also desirable to provide an additional embodiment regarding structural variations of the steel ring, wherein a varied steel ring is manufactured by combining four pieces of arcuate wall instead of using a single circular wall. The ring is comprised of a first outer piece which is threadedly connected to ends at one side of respective first and second inner pieces, and a second outer piece which is threadedly connected to ends at opposite sides of the respective first and second inner pieces. Therefore, application of the varied steel ring significantly reduces the manufacturing costs by enabling the use of commercially available mechanically strengthened hoses in the manufacture of the service loops incorporating an embodiment of the present invention, wherein there only needs to be cut a circular strip of an outer liner of a commercial hose to thereby adhesively bond the varied steel ring to a middle section of braid of the hose, which is eventually a service loop. It is desirable to provide a further embodiment regarding achievement of a controlled tear-drop shaped loop. In the embodiment, the apparatus having the preferred multiple apparatus is comprised of additional three longitudinal supporting members such as rods or cables where their upper and lower ends are affixed. Each of the supporting members penetrates through the respective repeating first interconnecting rings of the respective repeating first, second and third interlocking units of the apparatus wherein a plurality of identical apparatus which are positioned at different longitudinal positions of the service loops, so that the straight supporting members support service loops at one side to thereby push the other side of the service loops outward, which forms controlled tear-drop shaped loops of the service loops in operation of the oil well drilling machine. It is desirable to provide a second preferred embodiment of the apparatus incorporating varied structural configurations of the multiple identical apparatus. In the embodiment, each apparatus is comprised of first and third interlocking units which only have the respective single interconnecting rings to affix the respective steel rings and a second interlocking unit which has first and second interconnecting rings, wherein a first looped flexibly restraining cable connects the interconnecting ring of the first unit and the first interconnecting ring of the second interlocking unit, and a second looped flexibly restraining cable connects the interconnecting ring of the third unit and the second interconnecting ring of the second interlocking unit, which results in the ring diameters of all the interconnection rings being aligned with a central line penetrating through diameters of the respective service loops. In this setting, the loops are flexibly restrained so that they have limited transverse vibrational movement to reduce stresses applied to the apparatus, which results in a reduced strain on the apparatus to thereby prolong the life of apparatus embodying the present invention. It is also desirable to provide additional variations of the structural configurations of apparatus embodying the present invention, where the variations are as follows:
It is desirable to provide preferred embodiments of the first and second improved interlocking units which can be assembled over the outer covering of the service loops and therefore can be installed on-site. The improved interlocking units have a shape similar to a sleeve, which include respective first and second symmetrical members, and respective intra-unit affixing means. Each member, which is one half of the unit, is an insert steel enhanced molded rubber structure having a shape of a half of the outer sleeve , comprising an inner insert steel section and an outer molded rubber section, which are combined together in a sandwich fashion. In a first improved interlocking unit in an embodiment of the present invention, each symmetrical member may comprise an inner insert steel section and outer molded rubber section. The inner insert steel section is an arcuate plate, wherein a plurality of threaded openings penetrate therethrough and an interconnecting ring is affixed to a middle position of the exterior surface of an inner insert steel section. The outer molded rubber section is an arcuate hollow structure including first and second closed transverse sides, an exterior surface, an interior surface and an open middle layer of space between the exterior surface and interior surface to thereby form two longitudinal openings. On the exterior surface, there is a ring receiving opening for positioning the interconnecting ring of the inner insert steel section, and a plurality of attachment band receiving openings for positioning respective attachment bands when the two halves are connected together. When assembling the first improved interlocking unit to the service loop, the first and second members are affixed together to the service loop by adhesive positioned at the interface of the unit and service loop, and additionally by the fasteners including the attachment bands and screws that penetrate through the respective bands to connect to the respective threaded openings of the respective two inner insert steel sections. In this setting the fasteners serve as first intra-unit affixing means. This variation is installed over the outer covering of the service loops and therefore can b installed on-site at the oil drilling platform. In a second improved interlocking unit in an embodiment of the present invention, each symmetrical member may comprise an inner insert steel section and an outer molded rubber section. Each inner insert steel section comprises a plurality of forward extensions and corresponding recesses along the respective two longitudinal interconnecting edges of the two sections, wherein a respective one extension connects in series to a respective one recess. In addition, an identical pin receiving hole penetrates through each forward extension, so that the identical pin holes are aligned with the longitudinal orientation of each of the two longitudinal interconnecting edges. The outer molded rubber sections also comprise the extensions and corresponding recesses on the respective exterior surface and interior surface along each of the two longitudinal openings. Therefore in manufacturing each member, the extensions and corresponding recesses of the inner insert steel sections are positioned between the respective extensions and corresponding recesses along each of the two longitudinal openings of the outer molded rubber section. When assembling the second improved interlocking unit, the first and second members are first positioned to tightly surround a service loop, wherein their extensions and recesses are respectfully matched to each other, so that first and second pins penetrate through the pin receiving holes of the respective first and second members to thereby connect them together. In this setting, the extensions and corresponding recesses of the respective first and second members, the pin receiving holes on the respective extensions of the first and second inner insert steel sections, and the two pins serve as the respective intra-unit affixing means. In addition, additional adhesive is pasted onto an interface of the unit and service loop. This variation is also installed over the outer covering of the services loops and therefore also can be installed on-site at the location of the oil drilling platform. It is desirable to provide adhesive positioned between the interior surfaces of the first and second members of the respective first and second improved interlocking units and outer layer of the service loop, so that the adhesion force plays a predominant role to affix the respective improved interlocking units to the service loop. In addition, affixation is further supported by the mechanical forces provided by the intra-unit affixing means including the respective attachment bands, threaded openings and screws of the first improved interlocking unit, and the pins, pin receiving holes and extersions and corresponding recesses of the second improved interlocking unit. Further advantages and embodiments of the present invention will become apparent from the following detailed description and discussion. Referring particularly to the drawings for the purpose of illustration only and not limitation, there is illustrated:
Although specific embodiments of the present invention will now be described with reference to the drawings, it should be understood that such embodiments are by way of example only and merely illustrative of but a small number of the many possible specific embodiments which can represent applications of the principles of the present invention. Referring to The apparatus 10 is comprised of three interlocking units 12, 20 and 28, which are flexibly connected to first and second restraining cables 40 and 50, wherein they are all positioned at a same transverse level of the longitudinal service loops. However, it will be appreciated that apparatus embodying the present invention is a grouped system, comprised of a plurality of the identical apparatus 10, wherein each of them is positioned at different longitudinal level to restrain the service loops. The service loop 6 is comprised of an inner liner 6a, a braid 6b and an outer liner 6c. The first interlocking unit 12, which is additionally illustrated in Although the symmetrically positioned first and second interconnecting rings are preferred, it will be appreciated that they also can be positioned non-symmetrically as long as the interlocking unit 12 can function appropriately. This means that the first and second interconnecting rings 16a and 16b which are affixed to the steel ring 14 are not positioned to align with the same plane which is transverse to the longitudinal cylindrical wall 14 of the steel ring, and the first and second interconnecting rings 16a and 16b are positioned wherein their diameters are not aligned with the diameter of the steel ring 14. In addition, the interconnecting rings 16a and 16b are not limited to have a round shape. Instead, other shapes including a "D" shape are also within the scope of the present invention. In the preferred embodiment, the first and second interconnecting rings 16a and 16b are welded to the jacket ring 14, wherein the weld structure is illustrated as the arcuate connecting sections 15. However, they can also be affixed to the steel ring through mechanical connection such as applying fasteners including nuts and bolts. It will be appreciated that after the welding process, the outer liner 6c is attached to the braid 6b of the hose having the inner liner 6a during manufacturing of the service loop 6 embodying the present invention. There is a gap in the outer liner 6c to accommodate each interconnecting ring 16a. Referring further to Reference to Following the above illustrated varied steel ring 140, it will be appreciated that a structure of a varied first interlocking unit can be realized, comprising the varied steel ring 140 which is affixed including being welded to the first and second interconnecting rings 16a and 16b. In this embodiment, the first interconnecting ring 16a is affixed to an outer surface 154a of the first inner piece 154 of the arcuate wall, and a second interlocking ring 16b is affixed to an outer surface 157a of the second inner piece 157. Similarly, for an additional embodiment, the first and second interlocking rings 16a and 16b can be affixed to the respective outer surface 142a and 148a of the respective first and second outer pieces 142 and 148 of the arcuate wall. The inner pieces 154 and 157 are also affixed to the braid 66. It will be appreciated that the above illustrated varied steel ring 140 comprising four individual pieces is just an example of various structural variations of the steel ring 14. In fact, at least two pieces of the arcuate wall can be used for manufacturing a varied steel ring, which can be further manufactured to corresponded with a varied interlocking unit. Therefore, all these variations are within the scope of the present invention. It will be further appreciated that an advantage to employing the varied steel ring 140 or the varied interlocking unit is to significantly reduce manufacturing costs since it enables the use of commercially available mechanically strengthened hoses in manufacturing of the service loops incorporating an embodiment of the present invention. Application of the varied steel ring 140 or the varied first interlocking unit only requires cutting a circular strip of the outer liner of the commercial hose to thereby adhesively bond the varied steel ring or the varied first interlocking unit to the braid of the hose, as compared with the process of using the thermoplastic materials to wrap the braid of the entire hose for forming the outer liner of the service loop 6, which is illustrated in While two sets of rings 16a, 16b, 24a, 24b and 32a and 32b are illustrated and have been disclosed, it is also within the scope of the present invention to have only one aligned series of rings such as 16a, 24a, and 32a or 16b, 24b and 32b on only one side of the three service loops. Referring to It will be appreciated that a service loop could have any appropriate dimensional sizes including the cross-sectional diameter, the loop length and distance between the respective flanges and interlocking units or between two adjacent interlocking units. For example, the first service loop 6 shown in Referring to As additionally illustrated in In addition to the interlocking units, a completed apparatus of the preferred embodiment of the present invention is comprised of first and second flexible restraining cables 40 and 50 having appropriate lengths. The first flexible restraining cable 40 at its first end 42 penetrates through the first interconnecting ring 24a of the second interlocking unit 20, and the first end 42 is then fed through the interconnection ring 32a of the third unit 28 and crimped with a crimping structure 43 after forming a loop to connect to the first interconnecting ring 32a of the third unit 28. Its second end 44 is fed through interconnecting ring 16a of the first unit 12a and is crimped with a crimping structure 46 after forming another loop around the first interconnecting ring 16a of the first unit 12. Similarly, the second flexible restraining cable 50 at its first end 52 penetrates through the second interconnecting ring 24b of the second unit 20 and the first end 42 is fed through interconnecting ring 32b and is then crimped at the second interconnecting ring 32b of the third unit 28 with a crimping structure 53. Its second end 54 is fed through interconnecting ring 16b and is crimped at the second interconnecting ring 16b of the first unit 12 with the crimping structure 56. Therefore, in this embodiment a gap between the second service loop 7 and the first or third service loops 6 and 8 can be arranged to be approximately 3 to 5 inches by providing the first and second flexibly restraining cables 40 and 50 with appropriate lengths. It will be appreciated that with the application of the apparatus 10 having the flexible restraining cables which are flexibly connected to the interlocking units adhesively bonded to the respective service loops, the first and third service loops 6 and 8 will have a vibration movement with limited transverse moving distance due to flexibility of the restraining cables 40 and 50 which are also limited when the loops move up and down in the longitudinal direction. In addition, the middle loop 7 is allowed to have a sliding movement with a relatively large transverse distance between the first and third service loops 6 and 8, Therefore, the transverse movement of the loops 6, 7 and 8 provides advantages of reduced stresses applied to the apparatus which results in reduced strains on the apparatus, as compared with the rigid clamp systems of the prior art. The advantages of the present invention lead a long usable life of the apparatus with excellent performance wherein all three service loops have a uniform bend radius and path when they travel longitudinally. It will be appreciated that although there is illustrated five repeating interlocking units for each service loop in An embodiment of the present invention has been described using three service loops. It will be appreciated that the present invention can be used with at least two service loops and can also be used when there are more than three service loops. While an embodiment of the invention is preferably used with spaced apart sets of flexible restraining means which include the interior retaining means and at least one interconnecting means but preferably two interconnecting means, it will be appreciated that the use of one set of flexible restraining means using an interior retaining means and at least one but preferably two interconnecting means used with at least two service loops is within the scope of the present invention. Referring to It will be appreciated that with the application of the varied apparatus 100 also provides the advantages of the transverse vibrational movement of service loops, as compared with the apparatus 10 in It will be further appreciated that by using either the apparatus 10 or the varied apparatus 100, all of the service loops 6, 7 and 8 will have bottom loops with a uniform shape of a symmetric water drop when the service loops move up and down. However, such symmetric water drop shaped loops sometimes are not convenient to the operation of the oil well drilling machine. Therefore, there is a need to control the loop shape to form a shape similar to a teardrop shape. Referring to Therefore, due to support provided by the longitudinal supporting member 62, the right side of the first service loop 6 is regulated to have an almost straight linear shape to thereby push the left side of the loop leftward, which results in the service loop 6 having the controlled teardrop shape 68. Referring now to As illustrated, the structural variations of the apparatus 200 include (1) the first and third interlocking units 212 and 228 only have the respective single interconnecting rings 216 and 232 to affix the respective steel rings 14 and 30, (2) two flexibly restraining looped cables 240 and 250 are used, wherein the looped cable 240 connects the interconnecting ring 216 of the first unit 212 and first interconnecting ring 24a of the second interlocking unit 20, and the looped cable 250 connects the interconnecting ring 232 of the third unit 228 and second interconnecting ring 24b of the second interlocking unit 20, and (3) all the interconnection rings are aligned with a central line which penetrates through diameters of the respective service loops 6, 7 and 8. It will be appreciated, with application of a plurality of the apparatus 200, wherein each of them is positioned at different longitudinal levels, the service loops 6, 7, and 8 can be flexibly restrained to thereby have a uniform path and bend radius when they travel longitudinally. It will be further appreciated that, in a similar fashion as described in In application of the present invention, although dimensional sizes of the interconnecting rings and cables can vary according particular applications, a preferred ring diameter of the interconnecting rings ranges from one-half inch to three inches, a diameter of the ring cross section ranges from one-eighth inches to a half inch, and a preferred width of the restraining steel cables is ranging from one-eighth inch to one-half inch from regular operations of the oil well drilling machines. It will be appreciated that the apparatus as disclosed in It has been discovered that the nature of the retaining means or steel band as disclosed in Referring to The first inner insert steel section 424 is formed as an arcuate plate having a shape of one half of the covering sleeve with appropriate length and thickness. Described more broadly, the steel section 424 is an interior strength enhancing means to strengthen the mechanical properties of the first half member 422. The insert steel section is comprised of an exterior surface 428, an interior surface 430, a first longitudinal side 434, and a second longitudinal side 436. A first interconnecting ring 432 is affixed at a middle position of the exterior surface 428 of the steel section 424, wherein the interconnecting ring is positioned so that it is oriented in a plain which is transverse to the orientation of the respective first and second longitudinal sides 434 and 436. The first interconnecting ring 432 can be more broadly described as a first interconnecting means. In addition, the interconnecting ring 432 is not limited to being formed in a round shape. Other shapes such as a "D" shape are also within the scope of the present invention. In a preferred embodiment, the first interconnecting ring 432 is welded the first inner insert steel section 424, wherein the portion is illustrated in A plurality of threaded openings 426 are positioned so that they penetrate through the insert steel section to facilitate receiving a respective multiplicity of screws 468, as illustrated in The first outer molded rubber section 440 is an arcuate hollow structure having a shape of a half of the axle sleeve. The rubber section 440 includes a first transverse closed end 442, a second transverse end 444, an exterior surface 450, an interior surface 452, and a central open layer of space 458 sandwiched between the exterior surface 450 and interior surface 452. The central open layer of space 458 extends to the longitudinal sides to thereby form a first longitudinal opening 446 and a second longitudinal opening 448 of the rubber section 440. In addition, the rubber section 440 further comprises a ring receiving opening 454, which is positioned at the middle of the exterior surface 450 of the rubber section 440. The position of the ring receiving opening 454 matches the position of the first interconnecting ring 432 of the first inner insert steel section 424. Therefore, when the insert steel section 424 is positioned so that it is sandwiched within the central open middle layer of space 458 of the rubber section 440, the first interconnecting ring 432 extends through the ring receiving opening 454 of the rubber section 440. In addition to the ring receiving opening 454, there are a plurality of identical attachment band openings positioned on the exterior surface 450 of the rubber section 440. In a preferred embodiment, there are four identical openings including two upper openings 456a and 456b and two lower openings 456c and 456d. Each identical attachment band opening is in a shape of an elongated transverse slot, which has a first closed end, and a second opened end that connects to one of the respective first and second longitudinal openings 446 and 448. As illustrated in It will be appreciated that the first member 422 can be manufactured by a rubber molding process. Therefore, the exterior molded rubber section 440 and interior insert steel section 424 are integrated together. It will further be appreciated that the second member 522 is symmetrical to the first half member 422, comprising a second outer modeled rubber section 540, and a second inner insert steel section 524 having a second interconnecting ring 532. The first member 422 and the second member 522 are mirror images of one another. When assembling the improved interlocking unit 400, the first and second members 422 and 522 are first positioned so that they tightly surround the service loop 6 at an appropriate location to form a combined cylindrical structure. In addition, adhesive is applied onto an interface location of the interlocking unit 400 and service loop 6, which includes the interior surface 452 of the first member 422, a corresponding interior surface of the second member 522, and the outer layer 6c of the service loop 6. Described more broadly, the adhesive is adhesion means to adhere the unit 400 and service loop 6 together. It will be appreciated that two upper attachment band receiving openings of the first member 422 match the respective two upper attachment band receiving openings of the second member 522 to form the respective two combined upper transverse attachment band receiving openings 421a and 421b for positioning the respective two attachment bands 462a and 462b, which is illustrated in Similarly, two lower attachment band receiving openings of the first member 422 match the respective two lower attachment band receiving openings of the second member 522 to form the respective two combined lower transverse attachment band receiving openings 421c and 421d for positioning the respective two attachment bands 462c and 462d. Therefore, the first and second members 422 and 522 are fastened when a plurality of screws are threaded into the respective threaded openings of the first inner insert steel section 424 and second inner insert steel section of the respective first and second members 422 and 522. The adhesion forces provided by the adhesive positioned between the interface of the interlocking unit 400 and the service loop 6 provide further retention support in addition to the mechanical forces provided by the intra-unit affixing means including the attachment bands, screws and threaded openings of the first and second insert strengthening means. Referring to The second improved interlocking unit 600 also has a shape similar to an outer covering sleeve. As illustrated, the first member 612, which forms on half of the interlocking unit 600, is an insert steel enhanced molded rubber structure, comprising a first inner insert steel section 614 and a first outer molded rubber section 644. The first inner insert steel section 614 is positioned so that it is sandwiched within the first outer molded rubber section 644 to thereby form an integrated structure. Similarly, the second member 712 is comprised of a second inner insert steel; section 714 and a corresponding second outer molded rubber section. Referring to In addition, a first interconnecting ring 620 is affixed at a middle location of the exterior surface 616 of the first inner insert steel 614, and is further positioned so that it is aligned with a plain which is transverse to the orientation of the respective first and second longitudinal interconnecting edges 622 and 632. The first interconnecting ring 620 can be more broadly described as a first interconnecting means. In addition, the interconnecting ring 620 is not limited to have a round shape. By way of example, other shapes such as a "D" shape are also within the scope of the present invention. In a preferred embodiment, the first interconnecting ring 620 is welded to the first inner insert steel section 614, wherein a welded structure is illustrated as an arcuate connecting section 621. It is also within the scope of the present invention for the ring 620 to be affixed to the inner insert steel section 614 through mechanical connection means such as fasteners including nuts and bolts. As further illustrated in It will be appreciated that, the second insert steel section 714 is identical to the first insert steel 614, comprising first and second longitudinal interconnecting edges 722 and 732. A plurality of forward extensions 724 and corresponding recesses 729 are positioned along the first longitudinal interconnecting edge 722, wherein there is an in-series connection with a respective one extension 724 coming in contact with to a respective one recess 729. In addition, there are pin receiving holes 726 which penetrate through the respective forward extensions 724, which are aligned with the longitudinal orientation of the first longitudinal interconnecting edge 722. A plurality of forward extensions 734 and corresponding recesses 739 are positioned along the second longitudinal interconnecting edge 732, wherein there is an in-series connection with a respective one extension 734 coming in contact with a respective one recess 739. In addition, there are pin receiving holes 736 which penetrate through the respective forward extensions 734, which are aligned with the longitudinal orientation of the second longitudinal interconnecting edge 732. Therefore, when the first and second inner insert steel sections 614 and 714 are connected together, the first interconnecting edge 622 matches the second interconnecting edge 732 and the second interconnecting edge 632 matches the first interconnecting edge 722. Furthermore, the multiple forward extensions 624 and corresponding recesses 630 of the first inner insert steel section 614 match the respective multiple recesses 739 and corresponding forward extensions 734 of the second inner insert steel 714. The multiple forward extensions 634 and corresponding recesses 639 of the first inner insert steel section 614 match the respective multiple recesses 729 and corresponding forward extensions 724 of the second inner insert steel section 714. Pin receiving holes 626 and 736 of the respective insert steel sections are aligned together, which allows a first pin 628 to penetrate through them to thereby connect the first and second inner insert steel sections together. Pin receiving holes 626 and 726 are aligned together, which allows second pin 728 to penetrate through them to further connect first and second inner insert steel sections together. Described more broadly, the pins, pin holes and multiple forward extensions and corresponding recesses of the respective first and second inner insert steel sections serv as intra-unit affixing means for the second improved interlocking unit 600. The first outer molded rubber section 644 is an arcuate hollow structure having a shape of a half of the axle sleeve. The rubber section 644 includes a first transverse closed end 646, a second transverse end 648, an exterior surface 666, and an interior surface 664, wherein between the exterior and interior surfaces, there is an a central middle layer of space 670. The central middle layer of space 670 connects to both longitudinal ends to thereby form a first longitudinal opening 649 and a second longitudinal opening 650 of the rubber section 644. Surrounding the first longitudinal opening 649, there are multiple forward extensions 651 and corresponding recesses 652 aligned in series on the exterior surface 666, wherein a respective one extension 651 comes in contact with a respective one recess 652. Identical to such structure on the exterior surface, there are multiple forward extensions 653 and corresponding recesses 654 aligned in series on the interior surface 664. In addition, as illustrated in Similarly, surrounding the second longitudinal opening 650 there are multiple forward extensions 655 and corresponding recesses 656 aligned in series on the exterior surface 666, and the multiple forward extensions 657 and corresponding recesses 658 aligned in series on the interior surface 664. In addition, there are paired second pin entering passage and pin existing passage, which are positioned at the respective first and second transverse closed ends 646 and 648 for locating two ends of a second pin 728. As illustrated in It will be appreciated that the first member 612 is manufactured by a rubber molding process. Therefore, the exterior molded rubber section 644 and interior insert steel section 614 are integrated together. It will be further appreciated that the second member 712 is symmetrical to the first member 612, comprising a second outer molded rubber section 744, and a second inner insert steel section 714, with corresponding components as described for the first member 612. When the second improved interlocking unit 600 is assembled, the first and second members 612 and 712 are first positioned to tightly surround the service loop 6 at the desired appropriate location so that their respective extensions and recesses are matched to each other to form a cylindrical structure. In addition, adhesive is placed onto an interface including the interior surface 664 of the first half member 612, an interior surface 764 of the second half member 712, and the outer layer 6c of the service loop 6. Described more broadly, the adhesive is adhesion means to adhere the unit 600 and service loop together. As illustrated in The adhesion forces provided by the adhesive positioned between the interface of the interlocking unit 600 and the service loop 6 provide further retention support in addition to the mechanical forces provided by the intra-unit affixing means including the attachment bands, screws and threaded openings of the first and second insert strengthening means. This embodiment is affixed over the outer covering of the service loop and therefore can also be performed on-site at the location of the oil drilling platform. It will be further appreciated that it is within the scope of the present invention for an improved interlocking unit to have the first and second members be asymmetrical to each other, as long as the intra-unit affixing means can function appropriately. It is also possible for interconnecting rings to not be positioned in the middle of the respective first and second members, and the plane of orientation can also be varied from being transverse to the longitudinal direction of the improved interlocking units. It will be additionally appreciated that an improved interlocking unit embodying the present invention significantly increases the mechanical strength of the section of the service loop where the improved interlocking unit is positioned due to the inner insert steel having a relatively large surface area and a shape which accommodates the circular shape of the service loop. It will further be appreciated that it is within the scope of the present invention for the molded rubber sections of the respective first and second improved interlocking units to be directly molded to the outer layer of the service loop, which forms a molded rubber interface, as an alternative to applying an adhesive between the service loop and improved interlocking unit. Therefore, the molded rubber interface serves as the adhesion means to adhere the respective improved interlocking units and service loop together. While variations for the improved interlocking units 400 and 600 described in the present application have been described with affixation to service loop 6, it will be appreciated that units 400 and 600 can be affixed at spaced apart locations on a service loop as illustrated in |