专利汇可以提供Pin apparatuses and methods专利检索,专利查询,专利分析的服务。并且Pin apparatuses and methods are disclosed having particular suitability for use with machine handles such as those associated with walk-behind machines such as lawnmowers. A pin apparatus can include a housing defining an opening for receiving at least a portion of a pin. A pin can be provided having an elongated pin body with a proximal end section and a distal end section. The pin body can be adapted for positioning at least partially through the opening of the housing where the pin is movable with respect to the housing according to a method disclosed herein from an extended position where at least a portion of the distal end section extends to a predetermined extent outside of the opening, and a retracted position where the distal end section is in a retracted position from the predetermined extent. A handle can be provided external from the housing for moving the pin whereby movement of the handle moves the pin between the extended position and the retracted position.,下面是Pin apparatuses and methods专利的具体信息内容。
The subject matter disclosed herein relates generally to pin apparatuses and methods. More particularly, the subject matter disclosed herein relates to pin apparatuses and methods having particular suitability for use with a machine handle, such as a machine handle of a walk-behind machine such as a lawnmower.
Conventional technology used to adjust a handle of a waik-behind machine such as a lawnmower to adjust into different positions utilizes bolts, and sometimes knobs, typically tightened by hand. In light of the trend for walk-behind machines such as lawnmowers to be assembled and set up by customers rather than by dealers, it is desirable for the machines to be designed to provide for easy setup out of the box with virtually no required assembly. Since walk-behind machines such as lawnmowers are now many times being sold to customers that take them home in the box as shipped, an even greater need for easy handle setup and adjustability built into the same mechanism is desirable.
A variety of apparatuses and methods exist in the prior art for use with handles or handle components.
Despite the existence of the prior art such as that described above, much room for improvement exists for pin apparatuses and methods such as that having particular use with machine handles associated with walk-behind machines such as lawnmowers.
In accordance with the subject matter disclosed herein, novel pin apparatuses and methods are disclosed. While the pin apparatuses and methods can be adapted for any suitable use, the pin apparatuses and methods have particular use with machine handles such as those associated with walk-behind machines such as lawnmowers. A pin apparatus according to the disclosure herein can comprise a housing defining an opening for receiving at least a portion of a pin. A pin can be provided having an elongated pin body with a proximal end section and a distal end section. The pin body can be adapted for positioning at least partially through the opening of the housing where the pin is movable with respect to the housing according to a method disclosed herein from an extended position where at least a portion of the distal end section extends to a predetermined extent outside of the opening, and a retracted position where the distal end section is in a retracted position from the predetermined extent. A handle can be provided external from the housing for moving the pin whereby movement of the handle moves the pin between the extended position and the retracted position.
It is therefore an object of the present disclosure to provide novel pin apparatuses and methods having particular suitability for use with a machine handle of a walk-behind machine, such as, for example, a lawnmower.
An objecting having been stated hereinabove, and which is achieved in whole or in part by the subject matter disclosed herein, other objects will become evident as the description proceeds when taken in connection with the accompanying drawings as best described hereinbelow.
In accordance with the subject matter disclosed herein, and with particular reference to the exploded view provided by Figure 1 of the drawings, a pin apparatus generally designated 10 is provided and comprises a pin with a pin body generally designated 100, a housing generally designated 200, and a handle generally designated 300. Pin body 100, housing 200 and handle 300 are illustrated and discussed in greater detail herein below. While it is envisioned that pin apparatus 10 can be adapted for any suitable use, pin apparatus 10 in Figure 1 is illustrated in an exploded view for assembly with a machine handle that can be associated with a walk-behind machine.
When assembled, pin apparatus 10 can extend at least partially through machine handle H and be used to maintain machine handle H in a desired alignment with respect to a positioning plate P. A retaining pin 150 can be used with pin body 100 to securely maintain the position of pin body 100 with respect to handle 300 when pin apparatus 10 is fully assembled as described in detail below. A biasing member, such as spring S, can be positioned around a portion of pin body 100 as further shown and described below. Positioning plate P can be attached to a walk-behind machine, such as a lawnmower, as further illustrated and described below. Machine handle H can be an elongated, pipe-type handle of any suitable cross-sectional configuration. As illustrated in Figure 1, a portion of machine handle H is illustrated as machine handle H is shown with a triangular cross section and wherein machine handle H defines an opening 400 that can be defined transversely through machine handle H and can be adapted for receiving at least a portion of housing 200. When housing 200 is positioned through opening 400 of machine handle H, at least a portion of pin body 100 can extend through housing 200 such that handle 300 can attach to a portion of pin body 100. As described in greater in detail below, handle 300 can be utilized to cause movement of pin body 100 within housing 200 such that pin body 100 can be in an extended position where a portion of pin body 100 extends at least partially into an opening defined in positioning plate P. As shown in Figure 1, positioning plate P can define at least one or more positioning holes or openings, such as openings 01 and 02. It is envisioned that positioning plate P can define any number of suitable openings adapted for receiving at least a portion of pin body 100 in accordance with the present disclosure. Positioning plate P can be of any suitable shape or configuration adapted for attachment to a machine such as a walk-behind machine.
Referring specifically to Figures 2a, 2b and 2c of the drawings, pin body 100 is illustrated in greater detail and comprises a proximal end section generally designated 102 and a distal end section generally designated 104. Proximal end section 102 of pin body 100 can comprise an elongated, cylindrical outer configuration and define a transverse opening 106 therethrough for receiving retaining pin 150. Handle 300 (shown in Figure 1) can be positioned on proximal end section 102 of pin body 100 prior to placement of retaining pin 150. After proper placement of handle 300 on proximal end section 102, placement of retaining pin 150 through transverse opening 106 securely maintains handle 300 on proximal end section 102 of pin body 100. Distal end section 104 of pin body 100 can comprise an outer wall section with a cylindrical shape of a greater diameter than the diameter of the outer wall section of proximal end section 102. At one end of distal end section 104, a tapered shelf 108 can be formed by distal end section 104 and extend peripherally around pin body 100. At an opposite end of distal end section 104, a flat shelf 110 can be formed by distal end section 104 and extend peripherally around pin body 100. Flat shelf 100 can be adapted for engaging spring S as further described below.
Pin body 100 as shown can therefore extend and be disposed along a central, longitudinal axis as both proximal end section 102 and distal end section 104 can be disposed along the same central axis. As illustrated, a majority of the length of pin body 100 comprises a cylindrical or tubular portion with an outer wall 112 of which at least a portion of which constitutes proximal end section 102. Also as shown, distal end section 104 can comprise a cylindrical or tubular portion with an outer wall 114 of a diameter substantially less than the diameter of outer wall 112. It is envisioned according to the present disclosure that any suitable diameters of outer walls 112 and 114 can be utilized for pin body 100.
Referring now to Figures 3a, 3b, and 3c of the drawings, housing 200 is illustrated and comprises an elongated housing body 202 that defines an opening generally designated 204 that can be disposed along a central, longitudinal axis of an elongated housing body 202. Opening 204 can be in a top end 206 of elongated housing body 202, and opening 204 can be suitably shaped and adapted for receiving proximal end section 102 of pin body 100 as shown and described further below. In top end 206 of elongated housing body 202, opening 204 can have an inner wall 208 that can be cylindrical in shape and form an opening diameter suitable for receiving proximal end section 102 of pin body 100 as described further below. Further inside and toward an opposite end of elongated housing body 202, opening 204 can have an expanded, inner wall 210 that can be cylindrical in shape and have an opening diameter greater than the opening diameter formed by inner wall 208. Expanded inner wall 210 can extend entirely through elongated housing body 202 along a central axis thereof and be open at a bottom end 212 of elongated housing body 202. The opening diameter formed by inner wall 210 can be suitably shaped and adapted for receiving distal end section 104 of pin body 100. At the intersection of inner wall 208 and inner wall 210 of opening 204, elongated housing body 202 can form a shelf 214 which can be suitably shaped and adapted for engaging an end of spring S as further illustrated and described below. A collar 216 can be attached to or formed as a part of bottom end 212 of elongated housing body 202.
While it is envisioned in accordance with the present disclosure that the outer shape of elongated housing body 202 can be any shape suitable for use as described herein, elongated housing body 202 is illustrated for example only and without limitation as having an outer cylindrical shape that can be of a size and shape adapted for positioning through opening 400 of machine handle H as shown and described further below.
Referring now to Figure 4 of the drawings, a bottom, perspective view of handle 300 is provided. As shown, handle 300 includes an upper grip portion 302 and a lower, cover portion generally designated 304. Grip portion 302 can be of any suitable shape and configuration adapted for a user to grip and rotate, turn or twist handle 300. Cover portion 304 can be formed as a part of handle 300 as a lower extension from grip portion 302 or cover portion 304 could be suitably attached to grip portion 302. Cover portion 304 can be shaped and adapted for fitting onto a portion of machine handle H (shown in Figure 1). As shown in Figure 4, cover portion 304 can be at least generally concave or V-shaped in cross-sectional shape and include a lower surface 306 that can have a shape and configuration at least substantially identical to the shape, configuration and profile of an upper surface of machine handle H as shown and described further below. On opposite ends of cover portion 304, edges 308a and 308b can be formed by cover portion 304 and can be curved in a profile adapted to fit on an upper edge of machine handle H as shown and described further below. In order to allow handle 300 to fit and attach to proximal end section 102 of pin body 100 (shown previously), a central opening 310 can be defined from the bottom of handle 300 through cover portion 304 and extend into the inside of grip portion 302 where proximal end section 102 of pin body 100 can be positioned. As described with reference to Figure 1, a retaining pin 150 (shown in Figure 1) can be used and positioned through an opening 312 defined through grip portion 302 of handle 300.
Figures 5a and 5b of the drawings illustrate the positions of handle 300 with respect to machine handle H when pin body 100 (shown previously) is in a retracted position versus an extended position. When pin body 100 is a retracted position, handle 300 is positioned as illustrated in Figure 5a where grip portion 302 extends in a direction at least generally perpendicular to the direction of extension of machine handle H. In this position, cover portion 304 of handle 300 is aligned and positioned such that edge 308a and edge 308b (shown in Figure 4) of cover portion of 304 engage and rest upon an upper surface 402 of machine handle H. In this position, a space or gap can exist between upper surface 402 of machine handle H and at least a portion of cover portion 304 of handle 300.
When pin body 100 (shown previously) is in an extended position, handle 300 can be positioned as illustrated in Figure 5b where grip portion 302 extends in a direction at least generally parallel to the direction of extension of machine handle H. In this position, cover portion 304 of handle 300 can fit flush and entirely against upper surface 402 of machine handle H. Edge 308a and edge 308b (shown in Figure 4) are positioned further down the sides and toward the bottom of upper surface 402 of machine handle H from their positions in Figure 5a. Additionally, no gap exists between upper surface 402 and cover portion 304 of handle 300.
Referring now to Figure 6a of the drawings, pin apparatus 10 is illustrated in a fully assembled form and where pin body 100 is in a retracted position such that no portion of pin body 100 extends into or through opening 01 of positioning plate P. Movement of machine handle H is therefore permitted since no portion of pin body 100 extends into or through opening 01 of positioning plate P. To achieve this position, handle 300 is positioned as illustrated and described as in Figure 5a where grip 302 extends in a direction at generally perpendicular to the direction of extension of machine handle H and where cover portion 304 of handle 300 only contacts upper surface 402 of machine handle H by edges 308a and 308b (shown in Figure 5a) of cover portion 304 engaging and resting upon the upper portion of upper surface 402 of machine handle H. In this position, proximal end section 102 of pin body 100 is maintained a distance away from machine handle H by retaining pin 150 securing and maintaining pin body 100 in its attachment with handle 300. Spring S can be compressed in this position as spring S can be positioned peripherally around outer wall 112 of pin body 100 and extend between flat shelf 110 of distal end section 104 and shelf 214 of housing 200. Collar 216 is positioned outside of the bottom of machine handle H and can limit and prevent upper movement of housing 200 while top end 206 of housing 200. Top end 206 of housing 200 is illustrated as contained within machine handle H and can be of a size larger than the size of opening 400 in machine handle H in order to prevent movement of housing 200 through opening 400 in upper surface 402 of machine handle H. It is also envisioned according to the present disclosure that opening 400 in upper surface 402 of machine handle H could be larger than top end 206 and the overall outer diameter of elongated housing body 202 of housing 200. In such a configuration, collar 216 can by itself retain housing 200 in a fixed position with respect to limited or prevented upward movement of housing 200 within machine handle H.
Outer wall 114 of distal end section 104 is positioned and adapted for vertical, sliding movement within the area within an elongated housing body 202 defined by expanded inner wall 210. As shown in Figure 6a, tapered shelf 108 of distal end section 104 of pin body 100 is maintained at a predetermined position and does not extend into or through opening 01 of positioning plate P.
Referring now to Figure 6b of the drawings, pin apparatus 10 is shown in a fully assembled form and with pin body 100 in its extended position where at least a portion of pin body 100 extends into opening 01 of positioning plate P. In order to achieve this extended position from the retracted position shown in Figure 6a, handle 300 can simply be twisted to the position shown in Figure 6b where cover portion 304 of handle 300 fits against upper surface 402 of machine handle H. Lower surface 306 of cover portion 304 of handle 300 can fit directly on and against upper surface 402 of machine handle H as shown with no gap between any portion of cover portion 304 and machine handle H. Twisting or turning handle 300 from the position shown in Figure 6a to the position shown in Figure 6b moves pin body 100 downwardly within housing 200 such that proximal and section 102 of pin body 100 is closer to machine handle H than it was in the retracted position shown in Figure 6a. Such movement of handle 300 therefore forces pin body 100 downwardly through housing 200. Bias provided by spring S within housing 200 facilitates movement of pin body 100 into its extended position as spring S urges distal end section 104 of pin body 100 downwardly. As shown in Figure 6b, distal end section 104 of pin body 100 has now progressed from the retracted position shown in Figure 6a to the extended position shown in Figure 6b where at least a portion of distal end section 104 extends into and/or through opening 01 of positioning plate P. As shown for example in Figure 6b, a portion of outer wall 114 of distal end section 104 has extended through and below opening 01 of positioning plate P. In this position, pin apparatus 10 therefore securely maintains machine handle H in a desired position with respect to positioning plate P.
While Figure 6a and 6b show pin body 100 first in a retracted position and then in an extended position, it can be appreciated that moving pin body 100 from its extended position shown in Figure 6b back to its retracted position shown in Figure 6a can easily be accomplished by simply twisting handle 300 to rotate and move handle 300 back to its position shown in Figure 6a.
Figures 7a and 7b of the drawings illustrate, for example only and without limitation, use of pin apparatus 10 with association with a walk-behind machine shown as a lawnmower 500. A positioning plate 502 can be attached to or formed as part of lawnmower 500, and machine handle H can be attached to positioning plate 502 at a pivot 504. Positioning plate 502 can define a plurality of positioning holes, such as for example positioning holes 504A, 504B and 504C shown in Figure 7a and also positioning hole 504D shown in Figure 7b. Positioning holes 504A-D are adapted for receiving at least a portion of pin body 100 (shown previously). Pin apparatus 10 can be used to selectively and securely position machine handle H in a desired alignment with respect to positioning plate 502. Proper alignment and adjustment of machine handle H is important since an upper end or attachment to machine handle H is typically engaged to push lawnmower 500. The pivotal attachment of machine handle H to positioning plate 502 permits pivotal movement of machine handle H such that machine handle H can be positioned adjacent either of positioning holes 504A-D. Handle 300 of pin apparatus 10 is shown in Figure 7a in its position as illustrated also in Figures 5a and 6a where pin body 100 (shown previously) is in its retracted position thereby allowing movement of machine handle H to selectively position machine handle H adjacent to a desired one of positioning holes 504A-D. Once machine handle H is positioned adjacent a desired one of positioning hole 504A-D, handle 300 can be twisted from the position shown in Figure 7a to the position shown in Figure 7b to secure and lock in place machine handle H in a desired alignment with respect to positioning plate 502. When pin apparatus 10 is in the position as shown in Figure 7b, at least a portion of pin body 100 (shown previously) extends into the adjacent positioning hole of positioning plate 502 to secure and prevent pivotal movement of machine handle H. As shown for exemplary purposes only in Figure 7b, handle 300 of pin apparatus 10 is positioned to secure and lock machine handle H into a position or alignment where pin body 100 (shown previously) extends into positioning hole 504a of position of plate 502.
It can therefore be readily understood that pin apparatus 10 can be used in association with lawnmower 500 to secure machine handle H in a desired position and alignment with respect to positioning plate 502 of lawnmower 500. Once pin apparatus 10 has been utilized to secure machine handle H in a desired position with respect to positioning plate 502 it can be readily be understood that subsequent alignment adjustments of machine handle H can be easily accomplished by simply again twisting handle 300 of pin apparatus 10 to move handle 300 from the position shown in Figure 7b back to the position shown in Figure 7a allowing pivotal movement of machine handle H with respect to positioning plate 502.
It will be understood that various details of the presently disclosed subject matter may be changed without departing from the scope of the present subject matter. Furthermore, the foregoing description is for the purpose of illustration only, and not for the purpose of limitation.
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