JP2000053390A - Tilt cylinder connecting device for forklift - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make finer adjustments of limping of left and right tilt cylinders and of a tilt angle of a mast than conventional adjustments, in a tilt cylinder connecting device for a forklift. SOLUTION: In this tilt cylinder connecting device for the forklift connecting a tilt bracket 2 fixed to a mast and a tilt cylinder 3 via an eccentric pin 5 so that a cylinder limping and a mast tilt angle may be adjusted, a fixing plate 6 for fixing the eccentric pin 5 to an adjusting location is provided with an angular hole 6a of a regular hexagonal shape fitted into a head part 5a of the same shape of the eccentric pin 5 and two through holes 6b, 6c across an apex angle on a circular arc concentric with a center of the angular hole 6a. The one through hole 6b is set to a location at 7, 5 deg. from the apex angle and the other through hole 6c is set to a location at 15 deg. from the apex angle. The tilt bracket 2 is provided with two bolt holes 2c, 2d for mounting fixing bolt 7 for fixing the fixing plate 6 to an adjusting location at intervals of 45 deg..

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a tilt cylinder connecting device for connecting a mast of a forklift and a tilt cylinder for tilting the mast back and forth.

[0002]

2. Description of the Related Art As shown in FIG. 7, a conventional general cargo handling device for a forklift generally includes a fork 21 as a loading device, a mast 22 for guiding the fork 21 up and down, and a lift for lifting and lowering the fork. Cylinder (not shown)
And a tilt cylinder 23 for tilting the mast back and forth. The lower end of the mast 22 is supported by the vehicle body via a mast support device 24 so that the mast 22 can be tilted back and forth, and is tilted by a tilt cylinder 23. The tilt cylinder 23 has a base end rotatably connected to the vehicle body and a rod end rotatably connected to the mast 22.

FIGS. 8 and 9 show a connecting device between the mast 22 and the tilt cylinder 23. FIG. As shown in the drawing, a tilt bracket 25 having a substantially U-shaped connecting portion 25a on the rear end side on the outer surface of the mast 22 in plan view.
Are connected by welding, and a joint 26 at the tip of the rod of the tilt cylinder 23 is rotatably connected to the connecting portion 25a via an eccentric pin 27. The eccentric pin 27 has a regular hexagonal head 27a, a concentric shaft 27b concentric with the head 27a, and a concentric shaft 27b.
Eccentric shaft portion 27c eccentric with respect to
7b is fitted to the tilt bracket 25 and the eccentric shaft 2
7c is fitted to the joint 26.

Accordingly, the mast 22 and the tilt cylinder 2
3, the relative position of the mast 22 and the tilt cylinder 23 in the front-rear direction is adjusted by rotating the eccentric pin 27, and the lame adjustment of the left and right tilt cylinders 23 and the rotation of the mast support device 24 are performed. The tilt angle of the mast 22 as the moving center can be adjusted. After the adjustment, the fixing plate 28 for preventing rotation is fitted to the hexagonal head 27a of the eccentric pin 27, and the fixing plate 28 is fixed to the connecting portion 25a of the tilt bracket 25 by the fixing bolt 29. The eccentric pin 27 is fixed at the adjustment position.

[0005]

In the above-described conventional tilt cylinder connecting device, the fixing plate 28 is provided.
Is provided with a square hole 28a of the same shape that can be fitted to the head 27a of the eccentric pin 27 and one through hole 28b, and two bolt holes 25b are provided on the bracket side. And FIG.
As shown in the figure, the through-hole 28b has one apex angle to one side.
It is provided at a position of 5 degrees, that is, on a straight line that forms 15 degrees with respect to a straight line connecting the center of the square hole 28a and one apex angle, and the two bolt holes 25c on the bracket side are circular arcs centered on the pin mounting hole 25b. It is provided at intervals of 45 degrees above. That is,
The conventional tilt cylinder coupling device includes a fixing plate 28
The position adjustment of the eccentric pin 27 is performed using both the front and back surfaces, and two patterns are fixed to one of the two bolt holes 25c on the front side and two bolts on the rear side. The configuration is such that the eccentric pin 27 can be adjusted in increments of 15 degrees by combining four patterns with two patterns fixed to any of the holes 25c. However, there is a case where the lame adjustment of the left and right tilt cylinders or the tilt angle adjustment of the mast cannot be properly performed at the intervals of 15 degrees.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to make it possible to finely adjust the tilting of the tilt cylinder or the tilt angle of the mast. A forklift tilt cylinder connecting device.

[0007]

To achieve the above object, the present invention is configured as follows. That is, the invention of claim 1 connects a mast, which is disposed at the front part of the vehicle body to be able to tilt forward and backward, and a tilt cylinder that operates the mast to tilt forward and backward, via an eccentric pin so as to be rotatable. In a tilt cylinder coupling device of a forklift capable of adjusting the tilting of the tilt cylinder and adjusting the tilt angle of the mast by adjusting and rotating, a fixing plate for fixing the eccentric pin at the adjustment position is provided on the eccentric pin. Square hole that can be fitted to the head of a regular polygon having a square or more, and two arcs concentric with the center of the square hole
Are provided on the mast side for fixing bolts for fixing the fixing plate to the mast side.
Bolt holes are provided, and the fixing plate side through-holes are disposed so as to sandwich one apex angle of the square hole, and one of the through-holes has a central angle from the apex angle to one side of the square hole. , And the other through-hole is provided at a position 1/4 or 3/8 from the apex angle.

According to the first aspect of the present invention, the fixing plate is used upside down, and two through holes provided at an angle ratio of 1: 2 with respect to the apex angle. Since it can be selectively fixed to the two bolt holes on the mast side by utilizing the eccentric pin, it is possible to adjust the position of the eccentric pin with respect to one apex angle of the eccentric pin in a total of eight patterns, and the adjustment pitch is miniaturized. . Therefore, the lameness adjustment of the tilt cylinder or the tilt angle adjustment of the mast can be performed more finely than before. For this reason, for example, in the tilt cylinder device of the forklift according to the first aspect, when the head of the eccentric pin and the square hole of the fixed plate are each formed in a regular hexagon, one of the sides is formed. Since the through hole is at 7.5 degrees and the other through hole is at 15 degrees, in this case, the position of the eccentric pin can be adjusted in steps of 7.5 degrees. That is, the adjustment can be made twice as much as the conventional one.

According to a third aspect of the present invention, the eccentric pin includes a mast disposed at a front portion of the vehicle body so as to be capable of tilting forward and backward, and a tilt cylinder for tilting the mast forward and backward through an eccentric pin. In the tilt cylinder coupling device of a forklift, which is capable of adjusting the tilting of the tilt cylinder and adjusting the tilt angle of the mast by rotating and adjusting the tilt cylinder, the fixing plate for fixing the eccentric pin in the adjustment position includes the eccentric pin. A square hole having the same shape that can be fitted to the head of a regular polygon having a square or more, and a square hole having the same phase difference as a half of the central angle with respect to one side of the square hole. In order to provide a composite square hole formed by synthesis, and to provide one through hole on an arc concentric with the center of the composite square hole, and to fix the fixing plate to the mast side on the mast side Two bolt holes for fixing bolts are provided, and the through hole is provided at one-eighth of a central angle with respect to one side of the square hole from one apex angle of the square hole to one side. Things.

According to the third aspect of the present invention, the eccentric pin is used by using the fixing plate upside down and selectively fixing it to two bolt holes on the mast side using one through hole. Can be adjusted,
In this case, the square hole of the fixing plate is a regular polygon having a phase difference of の of the central angle with respect to one side of the square hole, and a composite square hole including two square holes of the same shape.
Since the apex angle of the fixed plate fitted to the apex angle of the eccentric pin is doubled, the adjustment pitch of the eccentric pin is miniaturized. Therefore, the lameness adjustment of the tilt cylinder or the tilt angle adjustment of the mast can be performed more finely than before.

Therefore, in the tilt cylinder connecting device for a forklift according to the third aspect, for example, the head of the eccentric pin is a regular hexagon,
When the composite square hole of the fixing plate is formed by combining two regular hexagons, the position of the eccentric pin can be adjusted in steps of 7.5 degrees as in the second aspect of the invention.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. First, a tilt cylinder connecting device of a forklift according to the present embodiment will be described with reference to FIGS. The cargo handling device of the forklift itself is not different from the conventional one shown in FIG. 7, and therefore illustration and description thereof are omitted. FIG. 1 shows a mast 1 and a tilt cylinder 2 for tilting the mast 1 back and forth.
It is a side view which shows the connection part with this. FIG. 2 is an exploded perspective view of the same. Tilt brackets 2 are respectively welded to the side surfaces of the left and right masts 1 whose lower ends are supported at the front of the vehicle body (not shown) so as to be able to tilt forward and backward. U-shaped connecting portion 2a
Is provided.

The left and right tilt cylinders 3 for tilting the mast 1 back and forth are disposed between the mast 1 and the vehicle body in a slightly upwardly inclined shape, and the cylinder body 3a is rotatably connected to the vehicle body side. A joint 4 provided at the tip of the piston rod 3b is rotatably connected to a connecting portion 2a of the tilt bracket 2 via an eccentric pin 5. Eccentric pin 5
2, a regular hexagonal head 5a and a tilt bracket 2 formed concentrically with the head 5a.
A circular concentric shaft portion 5b that fits into the pin hole on the side, and a circular eccentric shaft portion 5c that is eccentric with respect to the concentric shaft portion 5b and that fits into the pin hole of the joint 4. At the time of assembly, by rotating the eccentric pin 5, the relative position between the mast 1 and the tilt cylinder 3 in the front-rear direction is adjusted, and the lameness adjustment of the left and right tilt cylinders 3 and the tilt angle adjustment of the mast 1 are performed. It is possible.

After the position of the eccentric pin 5 is adjusted, a fixed plate 6 for preventing rotation is fitted to the regular hexagonal head 5a, and the fixed plate 6 is fixed to the connecting portion 2a of the tilt bracket 2 by fixing bolts 7. By doing so, it is fixed at the adjustment position. A fixing plate 6 for fixing the eccentric pin 5 at the adjustment position includes a regular hexagonal square hole 6a having the same shape as the head 5a that can be fitted to the head 5a of the eccentric pin 5, and concentric with the center of the square hole 6a. First for bolt insertion set on a circular arc
And two second circular through holes 6b and 6c.
As shown in FIG. 3, two through holes 6 in the fixing plate 6 are provided.
b and 6c are straight lines P connecting the center of the square hole 6a and one apex angle.
-P are disposed on opposite sides of each other. The first through-hole 6b is on a straight line that forms an angle of 1/8 of a central angle (60 degrees in the case of a regular hexagon) with respect to one side of the square hole 6a with respect to the straight line PP, that is, 7,5 from the vertex angle. Second position
Is formed on a straight line that forms an angle of 1/4 or 3/8 of the central angle with respect to the straight line PP, that is, 15 degrees from the apex angle.
Degrees or 22.5 degrees. On the other hand, the connecting portion 2a of the bracket 2 is provided with first and second two bolt holes 2c and 2d for attaching a fixing bolt 7 for fixing the fixing plate 6, and the two bolt holes 2c and 2d are eccentric. The pins 5 are provided at intervals of 45 degrees on an arc concentric with the center of the mounting hole 2b of the pin 5.

The tilt cylinder connecting device according to the present embodiment is constructed as described above. Therefore, the apex angle of one head 5a of the eccentric pin 5 is defined as a unit.
The position of the eccentric pin 5 can be adjusted for each of the two bolt holes 2c and 2d in four patterns, that is, eight patterns in total. That is, with respect to the first bolt hole 2c,
(7,5 degree position) pattern using the through hole 6b,
The pattern using the second (15-degree or 22.5-degree position) through-hole 6c, after turning the fixing plate 6 upside down,
Pattern using first through hole 6b, second through hole 6
c), and in addition to the above, it is possible to adjust the position of the other bolt hole 2d in the same four patterns. The combination of the patterns is determined by the apex angle of the eccentric pin 5. The eccentric pin 5 can be adjusted at intervals of 7.5 degrees by performing each time. As described above, according to the present embodiment, it is possible to adjust the position of the eccentric pin 5 in steps of 7.5 degrees, and it is possible to perform a fine adjustment twice as much as in the related art that can be adjusted only in steps of 15 degrees. It becomes possible. For this reason, the lameness adjustment of the tilt cylinder or the tilt angle adjustment of the mast can be performed more finely than before.

Next, another embodiment of the present invention will be described with reference to FIGS. In this embodiment, the shape of the head 5a of the eccentric pin 5 is formed as a regular hexagon,
The square hole 6a of the fixing plate 6 fitted to the head 5a is
It is formed into a composite shape obtained by combining two regular hexagons with a phase difference of 30 degrees. In this case, a position 7.5 degrees from one apex angle of the composite square hole 6a, that is, the composite square hole 6a
One through hole 6b is provided on a straight line that forms an angle of 1/8 of the central angle with respect to one side of a regular hexagon with respect to a straight line PP that connects the center of a with one apex angle. The rest is configured in the same manner as in the above-described embodiment.

Therefore, according to another embodiment configured as described above, the first bolt hole 2c provided on the connecting portion 2a side of the tilt bracket 2 is penetrated using the front side of the fixing plate 6. A pattern using the holes 6b,
It is possible to adjust the position of the eccentric pin 5 in the pattern using the through hole 6b using the back side of the fixing plate 6 and in the same two patterns for the other bolt hole 2d.
Then, the combination of such patterns is set to the eccentric pin 5.
In this case, in this embodiment, the square hole 6a of the fixed plate 6 is formed into a composite shape of two regular hexagons synthesized with a phase difference of 30 degrees, so that the eccentric pin The apex angle of the fixed plate 6 fitted to the apex angle of 5 is doubled, and as a result, the eccentric pin 5 can be adjusted by 7.5 degrees in the same manner as in the above-described embodiment. it can.

In the illustrated embodiment, the eccentric pin 5
Although the case where the head 5a and the square hole 6a of the fixing plate 6 are regular hexagons has been described, the present invention is not necessarily limited to regular hexagons and may be regular polygons including squares.

[0019]

As described in detail above, according to the present invention,
In the forklift tilt cylinder coupling device,
The lameness adjustment of the left and right tilt cylinders and the tilt angle adjustment of the mast can be finely adjusted as compared with the related art.

[Brief description of the drawings]

FIG. 1 is a side view showing a tilt cylinder coupling device of a forklift.

FIG. 2 is an exploded perspective view of the same.

FIG. 3 is an explanatory diagram relating to position adjustment of an eccentric pin.

FIG. 4 is a side view showing a tilt cylinder coupling device according to another embodiment.

FIG. 5 is an exploded perspective view of the same.

FIG. 6 is an explanatory diagram relating to position adjustment of an eccentric pin.

FIG. 7 is a side view of the forklift cargo handling device.

FIG. 8 is a side view of a conventional tilt cylinder coupling device.

FIG. 9 is a side view of the same.

FIG. 10 is an explanatory diagram relating to position adjustment of an eccentric pin.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Mast 2 ... Tilt bracket 2a ... Connection part 2c, 2d ... Bolt hole 3 ... Tilt cylinder 5 ... Eccentric pin 5a ... Head 6 ... Fixing plate 6a ... Square hole 6b, 6c ... Through-hole

Claims (4)

[Claims] An eccentric pin connects a mast, which is disposed at the front part of the vehicle body to be tiltable back and forth, and a tilt cylinder for tilting the mast back and forth via an eccentric pin, and adjusts and rotates the eccentric pin. In the tilt cylinder coupling device of a forklift capable of adjusting the lameness adjustment of the tilt cylinder and the tilt angle of the mast, the fixing plate for fixing the eccentric pin at the adjustment position has a square or more provided on the eccentric pin. A square hole of the same shape that can be fitted to the head of a regular polygon, and two through holes are provided on an arc concentric with the center of the square hole, and the fixing plate is mounted on the mast side on the mast side. Two bolt holes for fixing bolts for fixing are provided, and the through holes on the fixing plate side are arranged so as to sandwich one apex angle of the square hole, and one of the through holes is in front. Provided from the top angle 1/8 position of the center angle with respect to one side of the rectangular holes, the other through holes tilt cylinder coupling device for a forklift which is provided at a position of 1/4 or 3/8 from the top angle. 2. The tilt cylinder coupling device for a forklift according to claim 1, wherein the head of the eccentric pin and the square hole of the fixed plate are each formed in a regular hexagon. 3. A mast disposed at a front portion of the vehicle body so as to be capable of tilting forward and backward, and a tilt cylinder for operating the mast to tilt forward and backward are rotatably connected via an eccentric pin, and the eccentric pin is adjusted and rotated. In the tilt cylinder coupling device of a forklift capable of adjusting the lameness adjustment of the tilt cylinder and the tilt angle of the mast, the fixing plate for fixing the eccentric pin at the adjustment position has a square or more provided on the eccentric pin. It is formed by synthesizing a square hole of the same shape that can be fitted to the head of a regular polygon and a square hole of the same shape having a phase difference of 1/2 of the central angle of one side of the square hole with respect to the square hole. A composite square hole is provided, and one through hole is provided on an arc concentric with the center of the composite square hole, and a fixing bolt is mounted on the mast side for fixing the fixing plate to the mast side. Two bolt holes formed, the through hole is the rectangular holes side tilt cylinder coupling device for a forklift which is provided at a position of 1/8 of the central angle with respect to the one from one vertical angle of the corner holes of. 4. The tilt cylinder connecting device for a forklift according to claim 3, wherein the head of the eccentric pin is a regular hexagon, and the compound rectangular hole of the fixed plate is formed by combining two regular hexagons. The tilt cylinder connecting device of the forklift described in the above.