COVER MEMBER FOR A WORKING IMPLEMENT OF A TOOL

COVER MEMBER FOR A WORKING IMPLEMENT OF A TOOL

TECHNICAL FIELD

The present invention relates to a tool, and more particularly to a cover member for a working implement of the tool .

BACKGROUND

Tools including an extension handle detachably coupled with a working implement are well known in the art. The working implements may be attached to a male connector, while the extension handle may be attached to a female connector configured to receive the male connector. The male connector may include a locking portion. Further, a locking member may be provided on the female connector. The male connector is coupled to the female connector in order to attach the extension handle to the working implement. The locking member may be then actuated to engage with the locking portion of the male connector.

However, the working implement may have to occasionally used with a short handle. The extension handle may then have to be removed from the working implement by disengaing the locking member from the locking portion. The male connector and the female connector are then detached from each other. Further, a short handle including a female connector has to be provided separately. The short handle is then coupled to the working implement as in the case of the extension handle. Further, in order to use the working implement with the extension handle, the short handle has to be removed again. This may increase a cost, design and manufacutring complexity. Repeated detachment and attachment of the extension handle and the short handle may also be inconvenient for the user.

During usage of the tool, the actuating member may contact obstacles, such as, branches. This may result in unintenional actuation of the actuating member such that the male connector and the female connector get detached from each other. Consequently, the working implement may get detached from the extension handle and fall downwards. The working implement may get damaged or may cause harm to the user. Therefore, in light of the foregoing, there is a need for an improved tool.

SUMMARY

In view of the above, it is an objective of the present invention to solve or at least reduce the problems discussed above. The objective is at least partially achieved according to a tool, according to an embodiment of the present invention. The tool includes a working implement, a handle and a coupling apparatus configured to detachably couple the working implement to the handle. The coupling apparatus includes a first connecting portion attached to the working implement, the first connecting portion comprising a recess; and a second connecting portion attached to the handle, the second connecting portion being configured to at least partly receive the first connecting portion. The coupling apparatus further includes a locking member disposed on the second connecting portion, the locking member being configured to engage with the recess of the first connecting portion to detachably couple the handle to the working implement. The locking member includes an actuating member, the actuating member at least partly projecting from an outer surface of the handle and/or second connecting portion. A cover member is configured to at least partly enclose the first connecting portion proximate to the recess. The cover member is further configured to at least partly enclose the handle and/or the second connecting portion when the handle is detachably coupled to the working implement. The cover member may prevent the coupling apparatus to come in contact with obstacles, such as, branches during usage of the tool.

According to an embodiment, the cover member includes an opening, the opening being configured to allow access to the actuating member. The opening may facilitate manual actuation of the actuating member after the first connecting portion is at least partly received within the second connecting portion.

According to an embodiment, the cover member further includes a safety member, the safety member being configured to at least partly enclose the handle and/or the second connecting portion proximate to a handle side of the actuating member. The handle side of the actuating member is opposite to that side of the actuating member facing the working implement.

The safety member may therefore prevent the handle to completely detach from the working implement even after at least partial disengagement of the locking member from the recess of the first connecting portion.

According to an embodiment, the safety member includes a body and a connecting portion, the connecting portion being configured to be detachably connected to the cover member. The body is configured to at least partly enclose the handle and/or the second connecting portion proximate to the handle side of the actuating member when the connecting portion is detachably connected to the cover member.

According to an embodiment, the connecting portion includes one of at least one aperture, at least one hook, or at least one rib configured to detachably engage with one of a projection, an aperture, or a groove of the cover member. Thus the engagement and disengagement between the safety member and the cover member can be manually done by a user without the need to use any tool.

According to a further embodiment, the body is shaped to conform at least partly to an outer surface of the actuating member. This adds further safety functionality to the safety member as it further restricts unintentional movement of the actuating member.

According to an embodiment, the safety member further includes a strap, the strap being configured to detachably connect the body to the cover member. According to an alternative embodiment, the safety member is a strap.

According to an embodiment, the safety member is pivotably connected to the cover member at one or more pivot points. According to a further embodiment, the one or more pivot points are located vertically between the first connecting portion and the actuating member. The location of the pivot points may cause a force exerted on the safety member by the actuating member to reinforce a position of the safety member at which the safety member at least partly encloses the handle and/or the second connecting portion proximate to a handle side of the actuating member.

According to an embodiment, the cover member further comprises a protruding portion, the protruding portion being proximate to a side of the actuating member facing the working implement in case the handle and/or second connecting portion is detachable coupled to the working implement. The protruding portion may prevent the actuating member to come in contact with obstacles, such as, branches during usage of the tool. Thus, an unintentional actuation of the actuating member may be avoided. Consequently, any accidental disengagement of the locking member from the recess of the first connecting portion may be prevented. The working implement may be therefore securely coupled to the handle during usage of the tool.

According to a further embodiment, the cover member is configured as a short handle. Thus, to use the working implement with the cover member as the short handle, the handle needs to be just detached from the working implement.

According to an embodiment, the first connecting portion further includes an implement attachment portion, the implement attachment portion being attached to the working implement. The cover member further includes an extension portion, the extension portion being configured to partially enclose the implement attachment portion,

According to an embodiment, a closing member is detachably coupled to the extension portion of the cover member.

According to an embodiment, the first connecting portion further includes gripping portions, the gripping portions being configured to detachably engage with the cover member. According to an alternative embodiment, the cover member is integral with the first connecting portion.

According to an embodiment, multiple working implements are exchangeably coupled to the first connecting portion. BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be described in more detail with reference to the enclosed drawings, wherein:

FIG. 1 illustrates a partially assembled perspective view of a tool, according to an embodiment of the present invention;

FIG. 2 illustrates a perspective view of a cover member of the tool with a safety member in an open position, according to an embodiment of the present invention;

FIG. 3 illustrates a perspective view of the cover member of the tool with the safety member in a closed position, according to the embodiment of FIG. 2;

FIG. 4 illustrates a side view of the cover member, according to the embodiment of FIG. 2;

FIG. 5 illustrates a side sectional view of the cover member, according to an embodiment of the present invention;

FIG. 6 illustrates a top sectional view of the cover member, according to the embodiment of FIG. 5;

FIG. 7 illustrates a detailed sectional view of the cover member, according to the embodiment of FIG. 6

FIG. 8 illustrates a front sectional view of the cover member, according to the embodiment of FIG 7;

FIG. 9 illustrates a perspective view of the tool with a working implement and a handle detachably coupled to each other, according to the embodiment of FIG. 1 ;

FIG. 10 illustrates a perspective view of the tool with the safety member in the closed position, according to the embodiment of FIG. 1 ; and

FIG. 11 illustrates a perspective view of the tool, according to a further embodiment of the present invention; and

FIG. 12 illustrates a top sectional view of the cover member, according to an embodiment of the present invention. DESCRIPTION OF EMBODIMENTS

The present invention will be described more fully hereinafter with reference to the accompanying drawings, in which example embodiments of the invention incorporating one or more aspects of the present invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. For example, one or more aspects of the present invention can be utilized in other embodiments and even other types of structures and/or methods. In the drawings, like numbers refer to like elements.

Certain terminology is used herein for convenience only and is not to be taken as a limitation on the invention. For example, "upper", "lower", "front", "rear", "side", "lateral", "upwards", "downwards", "forward", "backward", "sideward", "left," "right," "horizontal," "vertical," "upward", "inner", "outer", "inward", "outward", "top", "bottom", "higher", "above", "below", "central", "middle", "intermediate", "between", "end", "adjacent", "proximate", "near", "distal", "remote", "radial", "circumferential", or the like, merely describe the configuration shown in the Figures. Indeed, the components may be oriented in any direction and the terminology, therefore, should be understood as encompassing such variations unless specified otherwise.

FIG. 1 illustrates a partially assembled view of a tool 100, according to an embodiment of the present invention. The tool 100 includes a working implement 102 and a handle 104. In an embodiment, the working implement 102 may be a saw with a cutting edge 105 and a hooked end 106. The cutting edge 105 may be serrated. Further, the hooked end 106 includes an eyelet 107 that may be used for suspending the working implement 102 from a support. Moreover, the working implement 102 may be curved. The working implement 102 may be used for cutting branches and/or twigs. Further, the handle 104 may be substantially cylindrical tube. However, the handle 104 may be of any other cross-section, for example, elliptical, polygonal, or the like within the scope of the present invention. The handle 104 may be an extension handle for the working implement 102.

A coupling apparatus 108 detachably couples the working implement 102 to the handle 104. In an embodiment, the coupling apparatus 108 includes a first connecting portion 110 attached to the working implement 102. Further, the first connecting portion 110 includes a recess 112. The coupling apparatus 108 further includes a second connecting portion 114 attached to the handle 104. The second connecting portion 114 is configured to at least partly receive the first connecting portion 110.

Further, a locking member 116 is disposed on the second connecting portion 114. The locking member 116 is configured to detachably engage with the recess 112 of the first connecting portion 110 in order to removably couple the handle 104 to the working implement 102. Further, the locking member 116 includes an actuating member 118. In an embodiment, the locking member 116 may be a screw which may be rotated by the actuating member 118 in a closing direction such that the screw may detachably engage with the recess 112 of the first connecting portion 110. In an embodiment, a cover member 120 at least partly encloses the first connecting portion 110 proximate the recess 112. In an embodiment, the cover member 120 includes a safety member 122.

In an embodiment, the second connecting portion 114 includes a sleeve member 124. The sleeve member 124 may enclose at least partly enclose a portion of the handle 104 proximate an end of the handle 104 facing the cover member 120. Further, the sleeve member 124 includes an open portion 126 such that a portion of the handle 104 is exposed through the open portion 126. The second connecting portion 114 also includes an end member 128. In an embodiment, the end member 128 may be configured as an insert that may partially extend into the handle 104. The end member 128 may include a channel (not shown) that at least partially receives the first connecting portion 110. Further, the locking member 116 may be inserted into a projecting region 130 of the sleeve member 124. The locking member 116 may extend through aligned apertures (not shown) of the projecting region 130, the handle 104 and the end member 128. The end member 128 may also limit an insertion of the first connecting portion 110 into the channel. This may align the recess 112 with the locking member 116 when the first connecting portion 110 is at least partly inserted into the end member 128 till the permissible limit. Further, the actuating member 118 may at least partly project from an outer surface 132 of the sleeve member 124. In an embodiment, the actuating member 118 includes an inner portion 133 that may be coupled to the locking member 116. The projecting region 130 of the sleeve member 124 may be substantially cylindrical and at least partly encloses the inner portion 133.

Further, the actuating member 118 includes extensions 134 that extend towards an outer surface of the inner portion 133. The extensions 134 may facilitate gripping during manual rotation of the actuating member 118. As illustrated in FIG. 1 , a working implement side A of the actuating member 118 faces the working implement 102. The actuating member 118 may therefore function as a knob for rotating the locking member 116. Further, a handle side B of the actuating member 118 is opposite to the side A, the handle side B facing the handle 104.

FIGS. 2 and 3 illustrate perspective views of the cover member 120, according to an embodiment of the present invention. As illustrated in FIG. 2, the safety member 122 is pivotably connected to the cover member 120 at pivot points 202. The safety member 122 is therefore pivotable about the pivot points 202. Further, the safety member 122 is in an open position. In the open position, the safety member 122 may be pivotably suspended from the cover member 120 with no other connection between the safety member 122 and the cover member 120. The cover member 120 includes pivot portions 204 that receive fastening portions 206 of the safety member 122. However, in alternate embodiments, a separate fastening member (not shown) may provide a pivotable coupling between the safety member 122 and the cover member 120. The safety member 122 further includes a body 208, connecting portions 210 and two arms 212. The two arms 212 extend from the body 208 to the pivot points 202. Further, the body 208 includes protrusions 214 on an inner surface. The protrusions 214 may be on both sides (only shown on one side) of the body 208. Each of the protrusions 214 may have an extended end that tapers towards the opposite end of the protrusion 214.

The cover member 120 includes a first opening 216 and a second opening 218. The first opening 216 may be an end opening while the second opening 218 may be a lateral opening adjacent to the first opening 216. The first opening 216 may enable at least a partial insertion of the second connecting portion 114 along with the handle 104 into the cover member 120 along a sliding direction S. Further, the second opening 218 may be delimited laterally by two straight edges 220. The cover member 120 further includes a first portion 224 and a second portion 226. In an embodiment, each of the first portion 224 and/or the second portion 226 may have two halves attached to each other. Each half may be connected to each other using adhesives, mechanical couplings (E.g., snap-fit connections), fasteners, or the like. The first portion 224 and/or the second portion 226 may be shaped in order to facilitate grasping. Further, the first portion 224 and/or the second portion 226 may be made of a material or have a texture in order to improve a grip on the cover member 120. Therefore, the cover member 120 may be configured as a short handle.

In an embodiment, the cover member 120 includes an extension portion 228. The extension portion 228 and the first opening 216 may be at opposite ends of the cover member 120. The first portion 224 may include a first indentation 230 in the extension portion 228. In an embodiment, the extension portion 228 may at least partially enclose an implement attachment portion (shown in FIGS. 5 - 8) of the working implement 102.

FIG. 3 illustrates a closed position of the safety member 122. The safety member 122 is pivoted about the pivot points 202 from the open position (illustrated in FIG. 2) to reach the closed position. In the closed position, the connecting portions 210 of the safety member 122 detachably engage with projections 231 of the cover member 120. In an embodiment, the connecting portions 210 and the projections 231 may form a snap-fit connection. The connecting portions 210 are embodied as apertures in FIGS. 2 and 3. However, in various alternative embodiments, the connecting portions 210 of the safety member 122 may include one of at least one hook, at least one rib, or the like (not shown) configured to detachably engage with one of at least one aperture, at least one groove, or the like, respectively, of the cover member 120. In another embodiment, the safety member 122 may include a strap (not shown) that is configured to detachably connect the body 208 to the cover member 120. The strap may be a Velcro strap. In yet another embodiment, the safety member 122 may be a strap (described with reference to FIG. 11 ). The extended end of each of the protrusions 214 may also engage with the straight edges 220 (only with one straight edge 220 is shown) of the cover member 120 in the closed position. The protrusions 214 may help in fixing the closed position of the safety member 122 and prevent any pivoting of the safety member 122 beyond the closed position.

Further, the body 208 includes a middle portion 232 and two lateral portions 234 on both sides of the middle portion 232. The middle portion 232 includes an extended region 233. The extended region 233 extends from the middle portion 232 and has a curved shape. The arms 212 extend from the lateral portions 234. Further, the protrusions 214 may be disposed on proximate to a boundary between the middle portion 232 and each of the lateral portions 234. Moreover, the connecting portions 210 may be disposed on the lateral portions 234. In an embodiment, the lateral portions 234 may be shaped to at least partly conform to an outer surface 236 of the first portion 224 of the cover member 120. End region 238 of each of the lateral portions 234 may be inclined away from the outer surface 236 of the first portion 224. This allows for a better grip during manual engagement or disengagement of the safety member 122 with the cover member 120.

FIG. 4 illustrates a side view of the cover member 120, according to the embodiment of FIG. 3. As illustrated in FIG. 4, the first portion 224 extends downwards in the extension portion 228 of the cover member 120. Further, the first indentation 230 in the extension portion 228 includes two apertures (shown in FIGS. 7 and 8) that are configured to receive two bushings 301. In an embodiment, the first portion 224 may include a second indentation (shown in FIGS. 7 and 8) on an opposite side of the first indentation 230. The extension portion 228 includes a receiving member 302 that at least partly receives the working implement 102. The receiving member 302 may be coupled to the first portion 224. Further, an edge 303 of the receiving member 302 may be inclined upwards and then become substantially straight. The edge 303 may include one or more chamfers (not shown). The cover member 120 further includes a protruding portion 304. The protruding portion 304 may be part of the second portion 226 of the cover member 120. The pivot points 202 may be located adjacent to the protruding portion 304.

FIGS. 5 and 6 illustrate side and top sectional views of the cover member 120, according to an embodiment of the present invention. The first connecting portion 110 includes a channel 306 extending along its length. The first connecting portion 110 includes an engaging portion 308 and an intermediate portion 310. The engaging portion 308 includes the recess 112 on an outer surface. The intermediate portion 310 may be wider than the engaging portion 308 with a stepped portion 311 between the engaging portion 310 and the intermediate portion 310. In an embodiment, the engaging portion 308 may be at least partly received within the end member 128 of the second connecting portion 114 (illustrated in FIG. 1 ). The stepped portion 311 may engage with the end member 128 to prevent further insertion of the first connecting portion 110. The first connecting portion 110 further includes a wide portion 312 adjacent to the intermediate portion 310. The wide portion 312 may have the largest width of the first connecting potion 110. The wide portion 312 may substantially conform to shapes of the first and the second portions 224, 226 of the cover member 120 along its length. Further, wide portion 312 includes gripping portions 314 that may engage with inner surfaces of the first and the second portions 224, 226. The gripping portions 314 may detachably engage the first connecting portion 110 with the cover member 120. In an alternate embodiment, the first connecting portion 110 may be integral with the cover member 120.

The first connecting portion 110 further includes an implement attachment portion 316 adjacent to the wide portion 312. The implement attachment portion 316 may be at least partially enclosed by the extension portion 228 of the cover member 120. In an embodiment, the working implement 102 may be disposed between the receiving member 302 of the extension portion 228 and the implement attachment portion 316 of the first connecting portion 110 (described in detail with reference to FIGS. 7 and 8). As illustrated in FIG. 5, the receiving member 302 includes a main body 317 with two apertures 318 and a main opening 319.

FIGS. 7 and 8 are detailed sectional views of the cover member 120.

The first portion 224 of the cover member 120 includes the first indentation 230 and the second indentation 320 on opposite sides in the extension portion 228. The first indentation 230 includes two apertures 240 that receive the two bushings 301. Similarly, the second indentation 320 includes two apertures 321 that receive two fasteners 322. The implement attachment portion 316 of the first connecting portion 110 includes two apertures 324 that may be aligned with the apertures 240. The working implement 102 also include apertures 326 that may be aligned with the apertures 240. The apertures 318 of the receiving member 302 may also be aligned with the apertures 240. The bushings 301 extend through the apertures 240, 324, 326 and 318 of the first indentation 230, the implement attachment portion 316, the working implement 102 and the receiving member 302, respectively. The fasteners 322 extend through the apertures 321 of the second indentation 318 and into the bushings 301.

The main body 317 of the receiving member 302 may engage with the working implement 102 and the first portion 224 of the cover member 120 on both sides of the main opening 319. Further, as illustrated in FIG. 8, the implement attachment portion 316 of the first connecting portion 110 includes a protruding region 330 that projects towards the working implement 102. Thus, the working implement 102 is disposed between the main body 317 of the receiving member 302 and the implement attachment portion 316. Further, the implement attachment portion 316 is at least partly enclosed by the first portion 224 in the extension portion 228 of the cover member 120. The fasteners 322 and the bushings 301 together attach the working implement 102 to the implement attachment portion 316, the main body 317 of the receiving member 302 and the first portion 224 of the cover member 120. The working implement 102 may therefore be securely attached to the first connecting portion 110 and the cover member 120. The receiving member 302 may prevent any undesired lateral movement of the working implement 102 during usage. The protruding region 330 of the first connecting portion 110 may also reduce any lateral movement of the working implement 102. Further, as illustrated in FIG. 8, the end regions 238 of the lateral portions 234 may facilitate detachment of the connecting portions 210 from the projections 231 since the end regions 238 are inclined away from the outer surface 236 of the cover member 120

An exemplary operation of the tool 100 will now be described with reference to FIGS. 1 , 9 and 10. A user may require the handle 104 as an extension handle for using the working implement 102. The first connecting portion 110 and the second connecting portion 114 may be aligned, as illustrated in FIG. 1. The safety member 122 may be in the open position. The first connecting portion 110 may be then inserted along the sliding direction S (shown in FIG. 1 ) into the second connecting member 114, as illustrated in FIG. 2. The actuating member 118 may be then rotated in the closing direction such that the locking member 116 may engage with the recess 112 of the first connecting portion 110 (shown in FIG. 1 ). The first connecting portion 110 and the second connecting portion 114 may be then coupled to each other. The safety member 122 may be then pivoted to the closed position about the pivots points 202 and the connecting portions 210 of the safety member 122 detachably coupled with the projections 231 of the cover member 120. Hence, the working implement 102 may be used using the handle 104.

To detach the handle 104 from the cover member 120, the reverse operation may be executed. Firstly, the connecting portions 210 may be detached from the projections 231. The end regions 238 of the lateral portions 234 may facilitate detachment of the connecting portions 210 from the projections 231 since the end regions 238 are inclined away from the outer surface 238 of the cover member 120 (shown clearly in FIG. 8). The safety member 122 may be then moved to the open position. The actuating member 118 may be then rotated in an opening direction to disengage the locking member 116 from the recess 112 of the first connecting portion 110. The second connecting portion 114 may be then detached from the first connecting portion 110. The handle 104 along with the second connecting portion 114 may be then moved away from the cover member 120. A user may then use the working implement 102 using the cover member 120 as the short handle.

The working implement 102 may be attached to the first connecting portion 110 by inserting a portion of the working implement 102 into the extension portion 228 of the cover member 120. The bushings 301 and the fasteners 322 are the inserted and retain the working implement 102 to the implement attachment portion 316 of the first connecting portion 110, the receiving member 302, and the first portion 224 of the cover member 120. The working implement 102 may be easily detached from the first connecting portion 110 by removing the bushings 301 and the fasteners 322, and sliding the working implement 102 out of the extension portion 228. In an embodiment, multiple working implements (not shown) may be exchangeably coupled to the first connecting portion 110. The multiple working implements may be, for example, but not limited to, trowels, hoes, rakes, sickles, weeders, grubbers, tillers, or the like.

The cover member 120 may be configured as a short handle. In an embodiment, the first portion 224 and the second portion 226 of the cover member 120 may be configured to facilitate grasping by a user. Further, the protruding portion 304 of the cover member 120 may also facilitate gripping and substantially prevent slipping of a user's hand off the cover member 120. Since the cover member 120 may be configured as a short handle, a separate short handle with a coupler may not be required. Further, the cover member 120 may be used exchangeably with various types of working implements. Each of the working implements may also not require a separate coupler. Therefore, a user may not be required to procure separate short handles, and working implements with couplers. Consequently, the cover member 120 may reduce cost from the perspective of both a user and a manufacturer. The cover member 120 may also simplify design and/or manufacturing. Further, a user may not have to repeatedly replace the separate short handle with the handle 104. A user may have to just detach the handle 104 from the cover member 120 in order to user the cover member 120 as the short handle. This may be more convenient for the user.

The cover member 120 may also not interfere with the coupling and detachment of the second connecting portion 114 to the first connecting portion 110 due to the first and the second openings 216, 218. The first opening 216 may enable easy movement of the second connecting portion 114 relative to the first connecting portion 110 along the sliding direction S. The second opening 218 may allow easy access to the actuating member 118 once the first connecting portion 110 is received within the second connecting portion 114, as illustrated in FIG. 9. Therefore, the actuating member 118 may be easily rotated either in the opening direction or the closing direction.

The body 208 of the safety member 122 in the closed position (as illustrated in FIG. 10) may be located towards the handle side B of the actuating member 118. In the closed position, the safety member 122 may be prevented from pivoting because of the detachable connection between the connecting portions 210 and the projections 231. The body 208 of the safety member 122 may at least party enclose the sleeve member 124 of the second connecting portion 114 proximate to the handle side B of the actuating member 118. In an embodiment, the extended region 233 of the middle portion 232 of the body 208 may be shaped to conform at least partly to an outer surface of the actuating member 118. In an embodiment, the extended region 233 may contact at least one of the extensions 134 of the actuating member 118. Further, the protruding portion 304 of the cover member 120 is proximate to the working implement side A of the actuating member 118.

During operation, the actuating member 118 may tend to come in contact with branches or other obstacles. Such obstacles may tend to rotate the actuating member 118 in the opening direction. The safety member 122 may minimise any undesired contact of the actuating member 118 with such obstacles since the body 208 of the safety member 122 at least partly encloses the sleeve member 124 of the second connecting portion 114 towards the handle side B of the actuating member 118. However, in case such obstacles contact the actuating member 118, the extended region 233 may prevent such accidental rotation of the actuating member 118 in the opening direction as the extended region 233 conforms to the outer shape of the actuating member 118. In some cases, the actuating member 118 may accidentally rotate in the opening direction, and the locking member 116 may get at least partly disengaged from the recess 112. This may loosen the coupling between the first connecting portion 110 and the second connecting portion 114. Since the handle 104 may be manipulated by a user during an operation, the handle 104 along with the second connecting portion 114 may tend to move away from the first connecting portion 110. However, the safety member 122 may prevent such accidental detachment of the second connecting portion 114 and the handle 104 as the body 208 at least partly encloses the sleeve member 124 of the second connecting portion 114 proximate to the handle side B of the actuating member 118. This may prevent the cover member 120 and the working implement 102 to get completely detached. Thus, the cover member 120 and the working implement 102 may not get stuck in an elevated position or may not fall on the ground, thereby sustaining damage or causing harm to a user. In case, the coupling between the first connecting portion 110 and the second connecting portion 114 may get loosened during operation, the safety member 122 enables a user to lower the tool 100 safely and tighten the actuating member 118 again.

In an embodiment, the pivot points 202 may be located vertically between the first connecting portion 110 and the actuating member 118. In particular, the pivots points 202 may be closer to a central axis D of the first connecting portion 110 than the actuating member 118. In an embodiment, central axis D may be co-axial with a central axis of the handle 104 when the handle 104 is coupled to the cover member 120 (as illustrated in FIG. 10). A force F1 may act on the handle 104, the force F1 tending to detach the handle 104 and the second coupling portion 114 from the cover member 120 and the first coupling portion 110. The actuating member 118 may also exert a force F2 on the body 208 of the safety member 122. Since, the pivot points 202 may be closer to the central axis D, a moment M due to the force F2 may tend to rotate the safety member 122 about the pivot points 202 towards the closed position. Therefore, the force F1 on the handle 104 may tend to reinforce the safety member 122 in the closed position, thereby preventing any accidental detachment of the handle 104 and the second coupling portion 114. The protrusions 214 (illustrated in FIG. 1) of the safety member 122 may prevent any pivoting of the safety member 122 beyond the closed position due to engagement with the straight edges 220 of the cover member 120. The protrusions 214 may therefore reduce a force exerted on the detachable connection between the connecting portions 210 and the projections 231 due to the moment M, thereby minimizing any damage to the connecting portions 210 and/or the projections 231. Further, in case, the connecting portions 210 and the projections 231 get detached due to the moment M, the protrusions 214 may prevent any pivoting of the safety member 122 beyond the closed position. Thus, the safety member 122 may continue to prevent detachment of the handle 104 and the second connecting portion 110.

The protruding portion 304 may also substantially prevent unintentional contact with the actuating member 118 from the working implement side A of the actuating member 118. This may avoid accidental rotation of the actuating member 118 in the opening direction.

FIG. 11 illustrates the tool 400, according to another embodiment of the present invention. As illustrated in FIG. 10, the safety member 402 is embodied as a strap. The actuating member 404 may at least partly project from the outer surface 405 of the handle 104. The safety member 402 may be detachably connected to the cover member 410. Alternatively, the safety member 402 may be a Velcro strap. The safety member 402 may at least partly enclose the handle 104 proximate to the handle side B of the actuating member 404. The handle 104 is attached to the second connecting portion 412. Further, the second opening 414 may enable access to the actuating member 404. The extension portion 416 of the cover member 410 may include a closing member 418. The closing member 418 may be detachably coupled to the extension portion 416 by fasteners 420, as will be described with reference to FIG. 12. FIG. 12 illustrates the cover member 410 with the closing member 418 detachably connected to the extension portion 416 of the cover member 410 by fasteners 420. The fasteners 420 may pass the closing member 418, the extension portion 416, the working implement 102 and the implement attachment portion 422 of the first connecting portion 424. With the closing member 418 removed the working implement 102 can much more easily brought into the correct position before being fixed to the extension portion 416.

In the drawings and specification, there have been disclosed preferred embodiments and examples of the invention and, although specific terms are employed, they are used in a generic and descriptive sense only and not for the purpose of limitation of the scope of the invention being set forth in the following claims.

Parts List:

100, 400 Tool

102 Working Implement

104 Handle

105 Cutting Edge

106 Hooked End

107 Eyelet

108 Coupling Apparatus

1 10, 424 First Connecting Portion

1 12 Recess

1 14, 412 Second Connecting Portion

1 16 Locking Member

1 18, 404 Actuating Member

120, 410 Cover Member

122, 402 Safety Member

24 Sleeve Member of the Second Connecting Portion 126 Open Portion of the Sleeve Region

128 End Member of the Second Connecting Portion 130 Projecting Region of the Sleeve Member

132 Outer Surface of the Sleeve Member

133 Inner Portion of the Actuating Member

134 Extensions of the Actuating Member

A Working Implement Side of the Actuating Member B Handle Side of the Actuating Implement

202 Pivot Points

204 Pivot Portions

206 Fastening Portions

208 Body of the Safety Member

210 Connecting Portions of the Safety Member

212 Two Arms of the Safety Member

214 Protrusions of the Safety Member

216 First Opening 218 Second Opening

S Sliding Direction

220 Straight Edges

224 First Portion

226 Second Portion

228, 416 Extension Portion of the Cover Member

230 First Indentation

231 Projections of the Cover Member

232 Middle Portion of the Body

233 Extended Region of the Middle Portion

234 Lateral Portions of the Body

236 Outer Surface of the Cover Member

238 End Regions of the Lateral Portions

240 Apertures

301 Bushings

302 Receiving Member

303 Edge of the Receiving Member

304 Protruding Portion

306 Channel of the First Connecting Portion

308 Engaging Portion of the First Connecting Portion

310 Intermediate Portion of the First Connecting Portion

31 1 Stepped Portion of the First Connecting Portion

312 Wide Portion of the First Connecting Portion 314 Gripping Portions of the Wide Portion

316, 422 Implement Attachment Portion

317 Main Body of the Receiving Member

318 Apertures of the Receiving Member

319 Main Opening of the Receiving Member

320 Second Indentation

321 Apertures of the Second Indentation

322, 420 Fasteners

324 Apertures of the Implement Attachment Portion

326 Apertures of the Working Implement 330 Protruding Region of the First Connecting Portion

D Central Axis of the First Connecting Portion

F1 Force on the Handle

F2 Force on the Safety Member

M Moment

405 Outer Surface of the Handle

418 Closing Member