JP2008290840A - Lift chain mounting structure and lift chain mounting unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a lift chain mounting structure and a lift chain mounting unit capable of enhancing a layout flexibility near the end part of the lift chain thereof. <P>SOLUTION: The lift chain mounting structure 1 where the lift chain 3 having an annular part 4 at the end part is mounted to a lift bracket 5, has a pin member 6, a pulling-out preventive part 7 and a mounting means 8. The pin member 6 has a bar shape part 6d and is fixed to the lift bracket 5. The pulling-out preventive part 7 prevents the annular part 4 from being withdrawn from the pin member 6. The mounting means 8 mounts the pulling-out preventive part 7 so as not to be withdrawn from the pin member 6. The pulling-out preventive part 7 is mounted to the pin member 6 in such a state that a projection part 7b of the pulling-out preventive part 7 is fit to a recessed part 6b of the pin member 6, and the part most separated from the lift bracket 5 with respect to the axial direction of the bar shape part 6d is the surface 7s of an expanded diameter part 7k in the pulling-out preventive part 7 and the mounting means 8. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a lift chain mounting structure and a lift chain mounting unit for mounting a lift chain used in a forklift to a support member of a forklift.

  Generally, in a forklift cargo handling device, one end of a lift chain is attached to a lift bracket that supports the fork, and the other end of the lift chain is attached to a support member of an outer mast. The lift bracket and the fork are moved up and down with the expansion and contraction motion.

As an example of the means for attaching the chain end, there is known an eyeglass type as shown in Patent Document 1 (see FIG. 5). In the glasses type, the through hole of the chain anchor is fitted to the small diameter part of the stepped pin that is fixed to the back of the lift bracket and extends horizontally, and this is locked with a plain washer and split pin so that it cannot be pulled out. Is.
Japanese Utility Model Publication No. 63-157093

  In the configuration of Patent Document 1, the tip of the stepped pin is protruded from the flat washer position in order to provide an insertion hole into which the split pin is inserted. In this case, since the tip end portion of the projecting pin easily comes into contact with another member, the degree of freedom in layout near the chain end portion is reduced. Moreover, in the structure of patent document 1, it is possible that the split pin itself will rotate after insertion of a split pin. In this case, there is a possibility that the tip of the split pin protrudes and comes into contact with other members and damages the split pin itself or the mating member. It will decrease.

  Accordingly, an object of the present invention is to provide a lift chain mounting structure and a lift chain mounting unit capable of increasing the degree of freedom in layout near the end of the lift chain.

Means and effects for solving the problems

  In order to achieve the above object, a lift chain mounting structure according to the present invention includes a lift chain that is used in a forklift and has an annular portion formed in an annular shape at least at one end portion with respect to a support member of the forklift. A lift chain mounting structure for mounting, wherein the pin member includes a rod-shaped portion formed in a rod shape to be inserted into the annular portion, and fixed to the support member; and the pin member And a retaining portion for preventing the annular portion from being detached from the pin member, and an attaching means for attaching the retaining portion to the pin member so as not to be detached. In addition, a concave portion that is recessed in the axial direction of the rod-shaped portion is formed at a tip portion of the rod-shaped portion, and the retaining portion includes a plate-shaped enlarged diameter portion having a diameter larger than the inner diameter of the annular portion. A protrusion formed so as to be fitted into the recess, and the retaining portion restricts the movement amount of the annular portion with respect to the axial direction by the enlarged-diameter portion, whereby the pin member The portion of the diameter-enlarged portion that is the most distant from the support member in the axial direction in the retaining portion and the attachment means is prevented from detaching the annular portion.

  According to this configuration, the amount of movement in the axial direction of the rod-shaped portion in the annular portion of the lift chain is limited by the diameter-enlarging portion of the retaining portion, and the annular portion is prevented from being detached from the pin member. It is attached. The retaining portion itself is attached to the pin member by the attaching means so as not to be detached from the pin member. Further, in the retaining portion and the attachment means, the portion farthest from the support member in the axial direction is the surface of the enlarged diameter portion, so that in the lift chain mounting structure, the surface of the plate-like enlarged diameter portion is in the axial direction. It is the portion farthest from the support member, and the tip of the pin member does not protrude from the retaining portion. Further, since the split pin is not used, it is not necessary to consider contact between the tip of the split pin and another member. From the above, compared with the configuration of the above-mentioned Patent Document 1, the degree of freedom in layout near the end of the lift chain can be increased.

  The attachment means includes a bolt having a shaft portion and a head portion, a bolt hole formed in the pin member, and a through hole formed in the retaining portion and through which the shaft portion passes. The diameter of the through hole is equal to or larger than the diameter of the shaft portion and smaller than the diameter of the head portion, and the shaft portion penetrates the through hole and is inserted into the bolt hole. By setting the state, the retaining portion may be attached so as not to be detached from the pin member.

  In the configuration of the glasses type of Patent Document 1, it is necessary to insert a split pin and bend (break) the tip of the split pin when the chain is mounted. Here, the operation of bending the tip of the split pin requires skill and is often performed in a narrow space, which increases the work time for chain mounting. On the other hand, according to this configuration, the lift chain can be attached to the support member by a simple and possible operation in a narrow space by installing a retaining portion on the pin member and inserting the shaft portion of the bolt into the through hole and the bolt hole. It can be easily installed. Therefore, the lift chain can be mounted in a short time.

  The “head” in the bolt means an enlarged diameter portion (for example, a hexagonal portion) integrated with the shaft portion when a washer is not used, and an enlarged diameter portion and a washer when a washer is used. is there.

  The convex portion is a cup-shaped portion that is formed by projecting to a plate-shaped member, the diameter-expanding portion is formed so as to expand in a bowl shape from the mouth portion of the cup-shaped portion, and the through-hole is You may form in the baseplate part of the said cup-shaped part. According to this, the head portion of the bolt is accommodated inside the cup-shaped portion, and in the retaining portion and the attaching means, the portion farthest from the support member in the axial direction becomes the surface of the enlarged diameter portion. The configuration can be easily realized. In addition, by attaching the retaining portion to the pin member with the convex portion of the retaining portion fitted to the concave portion of the rod-shaped portion, the outer surface of the rod-shaped portion and the annular portion can be used during operation after mounting. Since the contact with the inner surface is prevented and contact between the outer surface of the convex portion and the inner surface of the annular portion is prevented, damage and deformation of the convex portion having low strength can be prevented.

  The bolt hole may be formed along the axial direction. According to this, the retaining portion can be attached to the pin member with a simple configuration. In addition, the bolt can be easily attached.

  In order to achieve the above object, a lift chain mounting unit according to the present invention includes any one of the above lift chain mounting structures and a lift chain used for a forklift, and the lift chain includes at least one of the lift chains. And an annular portion formed in an annular shape at the end. With this configuration, the degree of freedom in layout near the end of the lift chain can be increased.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic side view of a cargo handling apparatus including a lift chain mounting structure and a lift chain mounting unit according to an embodiment of the present invention. FIG. 2 is a perspective view of the lift chain mounting structure and the lift chain mounting unit of FIG. FIG. 3 is an exploded perspective view showing the components of the lift chain mounting structure and the lift chain mounting unit of FIG. FIG. 4 is a schematic side view showing the configuration of the retaining portion of FIG. FIG. 5 is a schematic side view showing the configuration of the bolt and pin member of FIG. 3. 6 is a schematic cross-sectional view of the lift chain mounting structure and the lift chain mounting unit of FIG. FIG. 6 is a cross-sectional view taken along the line AA ′ in FIG.

(overall structure)
First, the cargo handling apparatus according to the present embodiment will be described with reference to FIG. The cargo handling apparatus shown in FIG. 1 is provided at the front of a forklift main body (not shown), and includes a lift chain 3, a fork 10, a lift bracket (support member) 5, a chain wheel 11, an inner mast 12, and an outer mast 13. The lift cylinder 14, the anchor bracket 15, and the lift chain mounting structure 1 are configured. The lift chain mounting unit 2 includes a lift chain mounting structure 1 and a lift chain 3. FIG. 1 shows a state where the fork 10 is raised to the highest position. In practice, the cargo handling section of the forklift is configured by arranging two cargo handling devices shown in FIG. 1 symmetrically. Since these two cargo handling devices are configured in the same manner, only one cargo handling device will be described in the following description.

  The inner mast 12 moves up and down with respect to the outer mast 13, and the outer mast 13 functions as a rail in the lifting operation of the inner mast 12. Further, the fork 10 is fixed to the lift bracket 5. The lift bracket 5 and the fork 10 are moved up and down with respect to the inner mast 12, and the inner mast 12 functions as a rail in the lifting operation of the lift bracket 5. The lift cylinder 14 includes a cylinder tube 14t and a piston rod 14r. The cylinder tube 14t is fixed to the lower portion of the outer mast 13, and the tip of the piston rod 14r is fixed to the inner mast 12.

  The anchor bracket 15 is a support member fixed to the outer mast 13. The chain wheel 11 is attached to the inner mast 12 so as to be rotatable. The lift chain 3 is supported by the chain wheel 11 and has one end attached to the lift bracket 5 and the other end attached to the anchor bracket 15. More specifically, one end side of the lift chain 3 is mounted on the lift bracket 5 by using the lift chain mounting structure 1. Detailed configurations of the lift chain mounting structure 1 and the lift chain mounting unit 2 will be described later. With the above configuration, in the forklift cargo handling device, the inner mast 12 moves up and down as the lift cylinder 14 extends and retracts, and the lift bracket 5 and the fork 10 move up and down as the inner mast 12 moves up and down.

(About lift chain mounting structure)
Next, the lift chain mounting structure 1 will be described with reference to the drawings. The lift chain mounting structure 1 is for mounting the lift chain 3 to a lift bracket (support member) 5 of a forklift, and includes a pin member 6, a retaining portion 7, and an attaching means 8. (See FIGS. 2, 3 and 6). Details of each will be described below.

(Lift chain)
The lift chain 3 is used in a forklift for raising and lowering the fork 10 and has an annular portion 4 formed in an annular shape as a chain anchor at one end (see FIG. 3). The other end opposite to the annular portion 4 is coupled to a connecting portion of a bolt (not shown), and this bolt is attached to the anchor bracket 15 by a lock nut (not shown). That is, the other end of the lift chain 3 is not an annular portion. In addition, the lift chain should just be comprised with the cyclic | annular part formed cyclically | annularly in at least one edge part. Therefore, like this embodiment, you may have the annular part 4 only in one edge part, and you may have the annular part in both edge parts.

(Pin member)
The pin member 6 includes a rod-shaped portion 6d and a base portion 6c. The rod-like portion 6d is formed in a rod shape and is inserted into the annular portion 4 (see FIGS. 3, 5, and 6). That is, the diameter of the rod-shaped portion 6d of the pin member 6 is equal to or smaller than the inner diameter Di (see FIGS. 3 and 6) of the annular portion 4. The base portion 6c is formed in a disc shape and has a diameter that is slightly larger than the diameter of the rod-shaped portion 6d. The rod-shaped portion 6d and the base portion 6c are integrally formed.

  The pin member 6 is fixed to the lift bracket (support member) 5. Specifically, the base portion 6c is directly fixed to the lift bracket 5 (see FIGS. 3, 5, and 6). Note that the base portion 6c may not be provided, and in that case, the rod-like portion may be directly fixed to the lift bracket. In the present embodiment, the pin member 6 and the lift bracket 5 are formed as separate members. However, the pin member and the lift bracket are integrally formed so that the pin member is fixed to the lift bracket. It may be. The pin member 6 is fixed to the lift bracket 5 by, for example, welding or screws.

  A concave portion 6b that is recessed in the axial direction of the rod-shaped portion 6d is formed at the tip of the rod-shaped portion 6d (see FIGS. 3, 5, and 6). Although details will be described later, the convex portion of the retaining portion 7 is fitted in the concave portion 6b. Further, a bolt hole 6h is formed in the central portion of the concave portion 6b of the rod-like portion 6d (see FIGS. 3, 5, and 6 for details). Moreover, the recessed part 6b contains the plane part 6w located in the center, and the inclination part 6v formed in the circumference | surroundings of the plane part 6w (refer FIG. 5). The flat surface portion 6w is perpendicular to the axial direction of the rod-shaped portion 6d, and the inclined portion 6v is inclined with respect to both the flat surface portion 6w and the axial direction. Moreover, the bolt hole 6h is opened in the plane part 6w.

(Retaining part)
The retaining portion 7 is a member for preventing the annular portion 4 from detaching from the pin member 6, and includes a cup-shaped convex portion (cup-shaped portion) 7b and a plate-shaped enlarged diameter portion 7k. (See FIGS. 3 and 4). The convex portion 7b is a cup-shaped portion that is formed to protrude by drawing the plate-like member, and a mouth portion 7m is formed at the upper portion in FIG. Moreover, the convex part 7b is formed in the bottomed cylindrical shape, and is formed so that it may fit in the recessed part 6b formed in the pin member 6 (refer FIG. 6). The retaining portion 7 is attached to the pin member 6 with the convex portion 7b fitted to the concave portion 6b. The state in which the lift chain mounting structure 1 is assembled will be described later.

  The convex portion 7b includes a central bottom plate portion 7t and an inclined portion 7v formed around the bottom plate portion 7t (see FIG. 4). The bottom plate portion 7t is parallel to the enlarged diameter portion 7k and is perpendicular to the axial direction of the rod-shaped portion 6d when attached to the pin member 6. The inclined portion 7v is inclined with respect to both the bottom plate portion 7t and the axial direction when attached to the pin member 6. The axial direction indicated by the arrow in FIG. 4 indicates the axial direction of the rod-shaped portion 6 d in a state where the retaining portion 7 is attached to the pin member 6.

  The enlarged diameter portion 7k is formed in an annular shape and has a diameter (Df) larger than the inner diameter (Di) of the annular portion 4 (see FIGS. 3, 4 and 6). Further, the enlarged diameter portion 7k is formed so as to expand in a bowl shape from the mouth portion 7m of the convex portion (cup-shaped portion) 7b (see FIG. 3). Further, the retaining portion 7 is formed with a through hole 7h through which the shaft portion 9s of the bolt 9v penetrates as a part of the attachment means 8 (details will be described later).

(Mounting means)
The attachment means 8 is used to attach the retaining portion 7 to the pin member 6 so as not to be detached, and includes a bolt 9v, a bolt hole 6h, and a through hole 7h (see FIGS. 3 to 6). ). The bolt 9v includes a shaft portion 9s and a head portion 9t. A spiral groove is formed on the outer surface of the shaft portion 9s. The head portion 9t in the bolt 9v is a diameter-enlarged portion (hexagonal portion) integrated with the shaft portion and a washer. In this embodiment, a washer is used. However, when the washer is not used, the head portion of the bolt may be only an enlarged diameter portion (such as a hexagonal portion) integrated with the shaft portion.

  The bolt hole 6h is formed at the center of the recess 6b of the rod-shaped portion 6d as described above. Specifically, the bolt hole 6h is formed along the axial direction of the rod-shaped portion 6d (see FIG. 5). . Although omitted in the figure, a spiral groove is formed on the inner surface of the bolt hole 6h.

  The through hole 7h is formed in the bottom plate portion 7t of the convex portion (cup-shaped portion) 7b in the retaining portion 7 (see FIGS. 3 and 4). The diameter Da of the through hole 7h is not less than the diameter Ds of the shaft portion 9s and is smaller than the diameter Dt of the head portion 9t (see FIGS. 4, 5, and 6). In this embodiment, the diameter Dt of the head 9t is the diameter of the washer. However, when the washer is not used and when the diameter of the washer is smaller than the diameter of the enlarged portion, the diameter of the head is the axis. This is the diameter of the enlarged diameter part integrated with the part.

(Assembled state)
The lift chain mounting structure 1 is constructed by assembling the above-described members (see FIGS. 2 and 6). In the lift chain mounting structure 1, the shaft portion 9s passes through the through hole 7h and is inserted into the bolt hole 6h, whereby the retaining portion 7 is detached from the pin member 6. It is in the state attached with respect to the pin member 6 so that it may not. The retaining portion 7 prevents the annular portion 4 from detaching from the pin member 6 by restricting the movement amount of the annular portion 4 in the axial direction by the enlarged diameter portion 7k. Further, in the lift chain mounting structure 1, in the retaining portion 7 and the attachment means 8, the portion farthest from the lift bracket 5 in the axial direction is the surface 7 s of the enlarged diameter portion 7 k (see FIG. 6). Here, as shown in FIGS. 4 and 6, the surface 7 s is a surface of the opposite side of the surface on the lift bracket (support member) 5 side (upper surface in FIG. 6) in the enlarged diameter portion 7 k. That is, the lift chain mounting structure 1 (and the lift chain mounting unit 2) is configured such that members such as the pin member 6 and the bolt 9v do not protrude from the retaining portion 7 in the axial direction of the rod-shaped portion 6d. Therefore, in the lift chain mounting structure 1, the member does not protrude upward from the BB ′ position (the position of the surface 7s) in FIG.

  Further, in the assembled lift chain mounting structure 1, the gap between the inclined portion 7v of the convex portion 7b of the retaining portion 7 and the inclined portion 6v of the concave portion 6b of the pin member 6 is about 0.1 mm (gap The degree of fitting). Thereby, the pin member 6 and the retaining portion 7 are fitted together without rattling. The size of the gap is not limited to this.

(About lift chain mounting unit)
The lift chain mounting unit 2 includes the lift chain mounting structure 1 and the lift chain 3 (see FIGS. 2 and 6).

(assembly)
Next, assembly of the lift chain mounting structure 1 and the lift chain mounting unit 2 will be described. It is assumed that the pin member 6 is fixed to the lift bracket 5 in the initial state. First, the annular portion 4 of the lift chain 3 is fitted into the pin member 6 so that the rod-shaped portion 6 d is inserted into the annular portion 4.

  Next, in a state where the annular portion 4 is fitted into the pin member 6, the retaining portion 7 is disposed so that the positions of the bolt hole 6 h and the through hole 7 h coincide with the pin member 6. Here, the retaining portion 7 can be easily positioned with respect to the pin member 6 by fitting the concave portion 6b and the convex portion 7b.

  Next, with the convex portion 7b fitted to the concave portion 6b, the tip of the shaft portion 9s of the bolt 9v is manually positioned with respect to the through hole 7h and the bolt hole 6h. The shaft portion 9s of the bolt 9v is screwed into the through hole 7h and the bolt hole 6h and inserted. Thereby, the retaining portion 7 is attached so as not to be detached from the pin member 6.

  As described above, the lift chain mounting structure 1 and the lift chain mounting unit 2 are easily assembled, and the retaining portion 7 prevents the annular portion 4 from being detached from the pin member 6.

(effect)
Next, effects of the lift chain mounting structure 1 and the lift chain mounting unit 2 according to the present embodiment will be described. The lift chain mounting structure 1 is a lift chain mounting structure 1 for mounting a lift chain 3 used for a forklift and having an annular portion 4 formed in an annular shape at one end to a lift bracket 5 of the forklift. A pin member 6d formed in a rod shape to be inserted into the annular portion 4 and fixed to the lift bracket 5, and preventing the annular portion 4 from being detached from the pin member 6. And a retaining portion 7 for attaching the retaining portion 7 to the pin member 6 so as not to be detached. Further, a concave portion 6b that is recessed in the axial direction of the rod-shaped portion 6d is formed at the tip portion of the rod-shaped portion 6d, and the retaining portion 7 is a plate-shaped enlarged diameter portion having a diameter larger than the inner diameter of the annular portion 4. 7k and a projection 7b that is formed to project into the recess 6b, and is attached to the pin member 6 with the projection 7b fitted to the recess 6b. By restricting the amount of movement of the annular portion 4 in the axial direction by the enlarged diameter portion 7k, the annular portion 4 is prevented from being detached from the pin member 6, and in the retaining portion 7 and the attachment means 8, the lift bracket 5 in the axial direction The portion farthest from the surface is the surface 7s of the enlarged diameter portion 7k.

  According to this configuration, the amount of movement in the axial direction of the rod-shaped portion 6 d in the annular portion 4 of the lift chain 3 is limited by the enlarged diameter portion 7 k of the retaining portion 7, and the annular portion 4 does not separate from the pin member 6. It attaches with respect to the pin member 6 like this. The retaining portion 7 itself is attached to the pin member 6 by the attaching means 8 so as not to be detached from the pin member 6. Further, in the retaining portion 7 and the attaching means 8, the portion farthest from the lift bracket 5 in the axial direction is the surface 7 s of the enlarged diameter portion 7 k, so that in the lift chain mounting structure 1, the plate-like enlarged diameter portion 7 k. The surface 7s is the portion farthest from the lift bracket 5 in the axial direction, and the tip of the pin member 6 does not protrude from the retaining portion 7. Further, since the split pin is not used, it is not necessary to consider contact between the tip of the split pin and another member. From the above, compared with the configuration of the above-mentioned Patent Document 1, the degree of freedom in layout near the end of the lift chain can be increased. In addition, when the retaining portion 7 is attached to the pin member 6 in a state where the convex portion 7b of the retaining portion 7 is fitted to the recessed portion 6b of the rod-shaped portion 6d of the pin member 6, the operation can be performed after mounting. , The outer surface of the rod-shaped part 6d and the inner surface of the annular part 4 are in contact with each other. Therefore, contact between the outer surface of the convex portion 7b and the inner surface of the annular portion 4 is prevented, so that damage and deformation of the convex portion can be prevented even when the strength of the convex portion is weak. Further, by fitting the concave portion 6b and the convex portion 7b, it is easy to position the retaining portion 7 with respect to the pin member 6 during assembly.

  The attachment means 8 includes a bolt 9v having a shaft portion 9s and a head portion 9t, a bolt hole 6h formed in the pin member 6, and a through hole 7h formed in the retaining portion 7 and through which the shaft portion 9s passes. The diameter of the through hole 7h is not less than the diameter of the shaft portion 9s and smaller than the diameter of the head portion 9t, and the shaft portion 9s passes through the through hole 7h and The retaining portion 7 is attached to the pin member 6 so as not to be detached by being inserted into the bolt hole 6h. In the configuration of the glasses type of Patent Document 1, it is necessary to insert a split pin and bend (break) the tip of the split pin when the chain is mounted. Here, the operation of bending the tip of the split pin requires skill and is often performed in a narrow space, which increases the work time for chain mounting. On the other hand, according to this configuration, the pin member 6 is provided with the retaining portion 7 and the shaft portion 9s of the bolt 9v is inserted into the through hole 7h and the bolt hole 6h. The lift chain 3 can be easily attached to the lift bracket 5. Therefore, the lift chain 3 can be mounted in a short time.

  Moreover, the convex part 7b is a cup-shaped part protrudingly formed by drawing to the plate-like member, and the enlarged diameter part 7k is formed so as to expand in a bowl shape from the mouth part 7m of the convex part (cup-shaped part) 7b. The through hole 7h is formed in the bottom plate portion 7t of the convex portion (cup-shaped portion) 7b. Therefore, the head portion 9t of the bolt 9v is accommodated inside the cup-shaped portion, and in the retaining portion 7 and the attachment means 8, the portion farthest from the lift bracket 5 in the axial direction is the surface of the enlarged diameter portion 7k. A configuration of 7 s can be easily realized. Further, when the convex portion 7b is configured as a cup-shaped portion in this way, the convex portion 7b becomes hollow and the strength is weakened, but the convex portion of the retaining portion 7 with respect to the concave portion 6b of the rod-shaped portion 6d. When the retaining portion 7 is attached to the pin member 6 with the 7b fitted, the outer surface of the rod-shaped portion 6d and the inner surface of the annular portion 4 come into contact with each other during the operation after mounting, and the convex portion Since the contact between the outer surface of 7b and the inner surface of the annular portion 4 is prevented, damage and deformation of the convex portion 7b having a low strength can be prevented.

  Moreover, since the bolt hole 6h is formed along the axial direction, the retaining portion 7 can be attached to the pin member 6 with a simple configuration. Moreover, the attachment work of the bolt 9s becomes easy.

  The lift chain mounting unit 2 includes a lift chain mounting structure 1 and a lift chain 3 used for a forklift. The lift chain 3 includes an annular portion 4 formed in an annular shape at one end. With this configuration, the degree of freedom in layout near the end of the lift chain can be increased.

(Modification)
Next, modified examples of the lift chain mounting structure and the lift chain mounting unit according to the above-described embodiment will be described with a focus on differences from the above-described embodiment. In addition, about the part similar to said embodiment, the same code | symbol is attached | subjected to a figure and the description is abbreviate | omitted. FIG. 7 is a schematic cross-sectional view of a lift chain mounting structure and a lift chain mounting unit according to a first modification. FIG. 8 is a schematic sectional view of a lift chain mounting structure and a lift chain mounting unit according to a second modification. The cross sections of FIGS. 7 and 8 correspond to FIG. 6 in the above-described embodiment. Hereinafter, the first and second modified examples will be described with a focus on differences from FIG.

(First modification)
In the lift chain mounting structure 101 and the lift chain mounting unit 102 according to the first modification, the configuration of the pin member 106 and the mounting means 108 is different from the configuration of the pin member and the mounting means in the above embodiment. Specifically, the attachment means 108 includes a protruding portion 106t formed to protrude along the axial direction of the rod-shaped portion 106d, an annular ring 109r, and a through hole 7h at the end of the rod-shaped portion 106d. (See FIG. 7). The ring 109r is a snap ring (C-type retaining ring), and a ring cut and holes on both sides of the cut are formed at positions not shown in the cross section of FIG. Further, a groove 106v for fitting the ring 109r is formed in the protruding portion 106t. As shown in FIG. 7, since the protruding portion 106t is formed to protrude, the recessed portion 106b of the pin member 106 is formed as an annular recessed portion.

  In the assembly of the lift chain mounting structure 101 and the lift chain mounting unit 102, the protruding portion 106t passes through the through hole 7h with respect to the pin member 106 in a state where the annular portion 4 is fitted in the pin member 106. In addition, the retaining portion 7 is disposed. In that state, the ring 109r is fitted into the groove 106v of the protruding portion 106t using a tool so that the retaining portion 7 is attached to the pin member 106 so as not to be detached. The retaining portion 7 prevents the annular portion 4 from being detached from the pin member 106. Also in the lift chain mounting structure 101 and the lift chain mounting unit 102, the portion of the retaining portion 7 and the mounting means 108 that is farthest from the lift bracket 5 in the axial direction is the surface 7s of the enlarged diameter portion 7k (see FIG. 7). Even in such a configuration, the degree of freedom in layout near the end of the lift chain can be increased. Further, since there is no need for retightening, a configuration with excellent maintainability compared to the case of bolts can be obtained.

(Second modification)
In the lift chain mounting structure 201 and the lift chain mounting unit 202 according to the second modification, the configurations of the retaining portion 207 and the attaching means 208 are different from the configurations of the retaining portion and the attaching means in the above embodiment. Specifically, the attachment means 208 is configured to include a shaft portion 209s having a spiral groove formed on the surface thereof, a bolt hole 6h of the pin member 6, and a hexagonal hole 207j. 207 is formed so as to include the shaft portion 209s integrally. Further, a hexagonal hole 207j is formed instead of the bolt head in the above embodiment, and the retaining portion 207 can be inserted into the pin member 6 using a tool such as a hexagonal bar wrench. Further, in the retaining portion 207, the convex portion 207b is not a cup-shaped member. Specifically, when described by comparison with the cup-shaped member in the above-described embodiment, the convex portion 207b is in a state in which the inside of the cup-shaped member is filled except for the hexagonal hole 207j.

  In the assembly of the lift chain mounting structure 201 and the lift chain mounting unit 202, the position of the bolt hole 6h and the shaft portion 209s with respect to the pin member 6 in the state where the annular portion 4 is fitted into the rod-shaped portion 6d. The retaining portion 207 is disposed so as to match. In this state, the shaft 209 s is screwed into the bolt hole 6 h of the pin member 6 and inserted using a tool. In this way, the retaining portion 207 is attached so as not to be detached from the pin member 6. The retaining portion 207 prevents the annular portion 4 from detaching from the pin member 6. Also in the lift chain mounting structure 201 and the lift chain mounting unit 202, in the retaining portion 207 and the mounting means 208, the portion farthest from the lift bracket 5 in the axial direction becomes the surface 207s of the enlarged diameter portion 207k (see FIG. 8). Even with such a configuration, the degree of freedom in layout near the end of the lift chain can be increased.

  The configuration of the attaching means is not limited to the one having the bolt, the bolt hole, and the through hole as in the above-described embodiment, and may be, for example, the configurations as in the first and second modifications.

  Although the embodiments of the present invention have been described above, the present invention is not limited to the above-described embodiments, and various modifications can be made as long as they are described in the claims.

  For example, the lift chain mounting structure in the above embodiment is used for mounting the lift chain at the end of the lift chain on the lift bracket side, but the opposite end (end on the anchor bracket side) May be used for mounting. That is, the support member may be an anchor bracket instead of a lift bracket.

  Further, the attachment means is not limited to those in the above embodiment and the first and second modifications as long as the attachment means is attached so as not to be detached from the pin member.

  Further, in the above embodiment, the enlarged diameter portion is formed in an annular shape. However, as long as it has a diameter larger than the maximum inner diameter of the annular portion, other shapes, for example, a contour having a rectangular shape. It may be.

  In the above-described embodiment, the convex portion is a cup-shaped portion, but is not limited to such a configuration (for example, see the second modified example). Moreover, when a convex part is a cup-shaped part, it is not restricted to a drawing process, You may be based on the shaping | molding process using a metal mold | die.

  Further, in the above embodiment, the concave portion and the convex portion are formed with a flat portion perpendicular to the axial direction of the rod-shaped portion (the bottom plate portion in the convex portion, the flat portion in the concave portion). However, the recessed part should just be inserted about the axial direction in the front-end | tip part of a rod-shaped part, and the convex part should just be protrudingly formed so that it may fit in a recessed part. For example, the concave portion and the convex portion may have a generally curved shape in cross section.

  In the above-described embodiment, the through hole is formed in the bottom plate portion of the cup-shaped portion. However, the present invention is not limited to such a form. For example, the through-hole may be formed in the inclined portion of the cup-shaped portion.

  In the above embodiment, the bolt hole is formed along the axial direction of the rod-shaped portion. However, the present invention is not limited to such a configuration, and the bolt hole is formed inclined with respect to the axial direction of the rod-shaped portion. May be.

1 is a schematic side view of a cargo handling apparatus including a lift chain mounting structure and a lift chain mounting unit according to an embodiment of the present invention. It is a perspective view of the lift chain mounting structure and lift chain mounting unit of FIG. It is a disassembled perspective explanatory drawing which shows each structural member of the lift chain mounting structure and lift chain mounting unit of FIG. FIG. 4 is a schematic side view showing the configuration of the retaining portion of FIG. 3. FIG. 4 is a schematic side view showing the configuration of the bolt and pin member of FIG. 3. It is the cross-sectional schematic of the lift chain mounting structure and lift chain mounting unit of FIG. It is the cross-sectional schematic of the lift chain mounting structure and lift chain mounting unit which concern on a 1st modification. It is the cross-sectional schematic of the lift chain mounting structure and lift chain mounting unit which concern on a 2nd modification.

Explanation of symbols

1, 101, 201 Lift chain mounting structure 2, 102, 202 Lift chain mounting unit 3 Lift chain 4 Annular portion 5 Lift bracket (supporting member)
6, 106 Pin members 6b, 106b Recessed portions 6d, 106d Rod-shaped portion 6h Bolt holes 7,207 Retaining prevention portion 7b Convex portion (cup-shaped portion)
207b Protruding portion 7h Through hole 7k, 207k Expanded diameter portion 7m Opening portion 7s, 207s Surface 7t (of expanded diameter portion) Bottom plate portion 8, 108, 208 Mounting means 9v Bolt 9s Shaft portion 9t Head

Claims (5)

A lift chain mounting structure for mounting a lift chain used for a forklift and having an annular portion formed in an annular shape at at least one end to a support member of the forklift,
A pin member provided with a rod-shaped portion inserted into the annular portion and fixed to the support member;
A retaining portion for preventing the annular portion from being detached from the pin member;
Mounting means for mounting the retaining portion so as not to be detached from the pin member,
At the tip of the rod-shaped portion, a recess is formed that is recessed with respect to the axial direction of the rod-shaped portion,
The retaining portion includes a plate-shaped enlarged diameter portion having a diameter larger than the inner diameter of the annular portion, and a convex portion that is formed to protrude into the concave portion,
The retaining portion prevents the annular portion from detaching from the pin member by limiting the movement amount of the annular portion with respect to the axial direction by the enlarged diameter portion,
The lift chain mounting structure characterized in that, in the retaining portion and the attaching means, a portion farthest from the support member in the axial direction is a surface of the enlarged diameter portion. The attachment means includes a bolt having a shaft portion and a head portion, a bolt hole formed in the pin member, and a through hole formed in the retaining portion and through which the shaft portion passes. ,
The diameter of the through hole is equal to or larger than the diameter of the shaft portion and smaller than the diameter of the head portion,
The shaft portion is in a state of penetrating the through hole and inserted into the bolt hole, so that the retaining portion is attached so as not to be detached from the pin member. The lift chain mounting structure according to claim 1. The convex portion is a cup-shaped portion that is formed to protrude by drawing the plate-like member,
The expanded diameter portion is formed so as to expand in a bowl shape from the mouth portion of the cup-shaped portion,
The lift chain mounting structure according to claim 2, wherein the through hole is formed in a bottom plate portion of the cup-shaped portion.   The lift chain mounting structure according to claim 2 or 3, wherein the bolt hole is formed along the axial direction. The lift chain mounting structure according to any one of claims 1 to 4,
A lift chain used for a forklift,
The lift chain mounting unit characterized in that the lift chain has an annular portion formed in an annular shape at at least one end.

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