CN219383698U - Lower cross beam of stacker - Google Patents

Abstract

The utility model provides a lower beam of a stacker, which comprises a beam body, wherein the beam body comprises a first channel steel and a second channel steel which are connected, the first channel steel and the second channel steel respectively extend along the length direction, and the first channel steel and the second channel steel are oppositely arranged, so that the cross section of the beam body is rectangular. Compared with the traditional lower beam welded by plates, the lower beam is small in number of parts, greatly reduces the number of welding seams, is lighter in overall weight, and is more stable in operation of the stacker, and the lower beam is simpler in manufacturing process and higher in assembly efficiency.

Description

Lower cross beam of stacker

Technical Field

The utility model belongs to the technical field of logistics storage stacker equipment, and particularly relates to a lower cross beam of a stacker.

Background

The lower cross beam of the conventional heavy stacker is formed by welding steel plates and partial rectangular pipes in a splicing mode, the shape and the size of the plates used in welding are many, the welding between the steel plates is troublesome, the number of welding seams is large, and the processing time is long.

Disclosure of Invention

Aiming at the defects in the prior art, the embodiment of the utility model provides the lower beam of the stacker, which has the advantages of less welding lines and high processing efficiency. In order to achieve the technical purpose, the technical scheme adopted by the embodiment of the utility model is as follows:

the embodiment of the utility model provides a lower beam of a stacker, which comprises a beam body, wherein the beam body comprises a first channel steel and a second channel steel which are connected, the first channel steel and the second channel steel respectively extend along the length direction, and the first channel steel and the second channel steel are oppositely arranged, so that the cross section of the beam body is rectangular.

Further, at least one rectangular plate is arranged in the beam body, the rectangular plate is arranged along the width direction, and the rectangular plate is fixedly connected with the beam body;

the rectangular plate is provided with a through hole, and the through hole penetrates through the rectangular plate along the length direction.

Further, a wire slot baffle is further arranged in the beam body, the wire slot baffle extends along the length direction, and the wire slot baffle is fixedly connected with the beam body.

Further, the first channel steel and/or the second channel steel are/is provided with a wire slot hole.

Further, the device also comprises two end plates, wherein one end plate is fixedly connected with one end of the beam body, the other end plate is fixedly connected with the other end of the beam body, and the end plates are used for connecting the beam body and the top rail guide wheels.

Further, the beam comprises two flanges, wherein the two flanges are arranged on one side of the beam body, a first connecting hole and a second connecting hole are formed in any flange, and the first connecting hole is used for mounting a stand column, and the second connecting hole is used for connecting the flange with the beam body.

Further, any one of the flanges comprises two side edges, the side edges extend in the length direction, and shaft shoulders are arranged on the side edges.

Further, the beam body is further provided with a clamping groove mounting plate, and the clamping groove mounting plate is used for clamping the ground rail.

Further, the beam body is also provided with a pulley bracket, and the pulley bracket is used for installing a pulley block.

The technical scheme provided by the embodiment of the utility model has the beneficial effects that:

compared with the traditional lower beam welded by plates, the lower beam is small in number of parts, the number of welding seams is greatly reduced, the whole weight is lighter, the stacker is stable in operation, the manufacturing process of the lower beam is simpler, and the assembly efficiency is higher.

Drawings

Fig. 1 is a front view of a lower beam of a stacker in an embodiment of the present utility model.

Fig. 2 is a top view of a lower cross member of the stacker in the embodiment of the present utility model.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The utility model provides a lower beam of a stacker, which comprises a beam body 1, and comprises a first channel steel 11 and a second channel steel 12 which are connected, wherein the first channel steel 11 and the second channel steel 12 respectively extend along a length direction A, and the first channel steel 11 and the second channel steel 12 are oppositely arranged so that the cross section of the beam body 1 is rectangular.

In a specific embodiment, as shown in fig. 1 and fig. 2, the first channel steel 11 and the second channel steel 12 are C-shaped channel steels, the first channel steel 11 and the second channel steel 12 are oppositely arranged and welded, the welding seams are only two, two welding seams are straight and parallel to each other, compared with the traditional plate, the number of structural parts is reduced, the welding seams are reduced, the production efficiency is greatly improved, the whole cross section of the first channel steel 11 and the whole cross section of the second channel steel 12 is rectangular, the structure is stable, and the strength of the beam body 1 is ensured to meet the use requirement.

Further, at least one rectangular plate 13 is arranged in the beam body 1, the rectangular plate 13 is arranged along the width direction B, and the rectangular plate 13 is fixedly connected with the beam body 1;

the rectangular plate 13 is provided with a through hole 130, and the through hole 130 penetrates through the rectangular plate 13 along the length direction A.

It can be appreciated that the rectangular plate 13 can increase the structural strength of the lower beam of the stacker, and in this application, the number and positions of the rectangular plate 13 and the through holes 130 are not limited, and may be adaptively adjusted according to actual needs. In a specific embodiment, as shown in fig. 1, four rectangular plates 13 are disposed in the lower beam of the stacker, and the four rectangular plates 13 are disposed at intervals along the length direction a. The through hole 130 penetrates through the rectangular plate along the length direction a, and the wire harness can be arranged in the beam body 1 through the through hole 130, the through hole 130 can be arranged on any side of the rectangular plate 13, namely, the section of the rectangular plate 13 is in a concave shape, and the through hole 130 can also be arranged in the middle of the rectangular plate 13. In a specific embodiment, as shown in fig. 1, the through hole 130 is a long waist hole formed in the middle of the rectangular plate 13, which is reasonable in structure, so that the lower beam of the stacker has practicability.

Further, a slot baffle 14 is further provided in the beam body 1, the slot baffle 14 extends along the length direction a, and the slot baffle 14 is fixedly connected with the beam body 1.

The wire slot baffle 14 is used for separating wire harnesses with different voltages, so that the wire harnesses are prevented from being disordered, the wire slot baffle 14 is beneficial to later maintenance, the length, the number and the shape of the wire slot baffle 14 are not limited in the application, the wire slot baffle 14 can be rectangular plates or L-shaped bending pieces, in a specific embodiment, as shown in fig. 1, three rectangular wire slot baffles 14 are adopted in the beam body 1, the three wire slot baffles 14 extend along the length direction A, and the lower end of any wire slot baffle 14 is welded and connected with the beam body 1; in another specific embodiment (not shown), an L-shaped slot baffle 14 is adopted in the beam body 1, and the side edge of the L-shaped bending piece is welded with the beam body 1, so as to play a role in separation.

As shown in fig. 1, during assembly, one side of the slot baffle 14 is welded to one side of the first channel steel 11, and then the first channel steel 11 is welded to the second channel steel 12, so that the structure is simple, and the assembly efficiency is high.

Further, the first channel steel 11 and/or the second channel steel 12 are provided with a wire slot 15.

In a specific embodiment, as shown in fig. 1, the bottom of the first channel 11 and the bottom of the second channel 12 are provided with the wire slot hole 15, and the wire harness may pass through the wire slot hole 15 and be disposed on one side of the wire slot baffle 14.

Further, the beam comprises two end plates 31, one end plate 31 is fixedly connected with one end of the beam body 1, the other end plate 31 is fixedly connected with the other end of the beam body 1, and the end plates 31 are used for connecting the beam body 1 with the head rail guide wheel.

Further, the beam further comprises two flanges 32 disposed on one side of the beam body 1, wherein a first connecting hole 321 and a second connecting hole 322 are disposed on any one of the flanges 32, and the first connecting hole 321 is used for mounting a column, and the second connecting hole 322 is used for connecting the flange 32 with the beam body 1.

Further, any one of the flanges 32 includes two sides extending in the length direction a, and a shoulder 323 is provided on the side.

In a specific embodiment, as shown in fig. 1 and 2, eight second connecting holes 322 are provided on any one of the flanges 32, four second connecting holes 322 are provided on the left side, and four second connecting holes 322 are provided on the right side, and any one of the second connecting holes 322 and the beam body may be welded or connected by screws or pins. The middle part of the flange 32 is collinear with the welding seam connection position of the first groove body 11 and the second groove body 12, the first connecting hole 321 is formed in the middle part of the flange 32, and when the flange 32 is connected with the upright post, the beam body 1 is more stable on the upright post. During assembly, two welding seams of the beam body 1 are placed in the vertical direction, two ends of the beam body 1 are welded with end plates 31 respectively, flanges 32 are placed above the beam body 1, the sides extend in the length direction A, second connecting holes 322 are welded with the beam body 1, the relative positions of the beam body 1 and the stand columns are determined through shaft shoulders 323, the stand columns are inserted into the first connecting holes 321, and then assembly between the lower beam of the stacker and the stand columns is completed.

Further, the beam body 1 is further provided with a clamping groove mounting plate 4, and the clamping groove mounting plate 4 is used for clamping the ground rail.

During assembly, after the flange 32 and the beam body 1 are welded, the lower beam body 11 is turned over along the axis, the clamping groove mounting plates 5 are welded on the beam body 1, the clamping groove mounting plates 5 can prevent the beam body 1 from being separated from the ground rail, and the use safety performance of the beam body 1 is improved.

Further, the beam body 1 is further provided with a pulley bracket 5, the pulley bracket 5 is used for installing a pulley block, as shown in fig. 1 and fig. 2, three pulley brackets 5 are welded on the first channel steel 11 and the second channel steel 12 respectively, the pulley bracket 5 can fix the pulley block, and the pulley block plays a role in protecting the operation of the beam body 1.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same, and although the present utility model has been described in detail with reference to examples, it should be understood by those skilled in the art that modifications and equivalents may be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model, and all such modifications and equivalents are intended to be encompassed in the scope of the claims of the present utility model.

Claims (9)

1. A lower cross beam of a stacker is characterized in that,

including crossbeam body (1), including first channel-section steel (11) and second channel-section steel (12) that link to each other, first channel-section steel (11) with length direction (A) extension is followed respectively to second channel-section steel (12), first channel-section steel (11) set up with second channel-section steel (12) relatively to the transversal rectangle of making crossbeam body (1).

2. The lower beam of a stacker according to claim 1 wherein,

at least one rectangular plate (13) is arranged in the beam body (1), the rectangular plate (13) is arranged along the width direction (B), and the rectangular plate (13) is fixedly connected with the beam body (1);

the rectangular plate (13) is provided with a through hole (130), and the through hole (130) penetrates through the rectangular plate (13) along the length direction (A).

3. The lower beam of a stacker according to claim 1 wherein,

the novel cross beam is characterized in that a wire slot baffle (14) is further arranged in the cross beam body (1), the wire slot baffle (14) extends along the length direction (A), and the wire slot baffle (14) is fixedly connected with the cross beam body (1).

4. The lower beam of a stacker according to claim 1 wherein,

and the first channel steel (11) and/or the second channel steel (12) are/is provided with a wire slot hole (15).

5. The lower beam of a stacker according to claim 1 wherein,

the novel cross beam comprises a cross beam body (1), and is characterized by further comprising two end plates (31), wherein one end plate (31) is fixedly connected with one end of the cross beam body (1), the other end plate (31) is fixedly connected with the other end of the cross beam body (1), and the end plates (31) are used for connecting the cross beam body (1) with a top rail guide wheel.

6. The lower beam of a stacker according to claim 1 wherein,

the novel beam structure comprises a beam body (1), and is characterized by further comprising two flanges (32), wherein the two flanges are arranged on one side of the beam body (1), a first connecting hole (321) and a second connecting hole (322) are formed in any one flange (32), the first connecting hole (321) is used for mounting an upright column, and the second connecting hole (322) is used for connecting the flange (32) with the beam body (1).

7. The lower beam of the stacker of claim 6 wherein,

any flange (32) includes two sides, the side extends along length direction (A), be equipped with shoulder (323) on the side.

8. The lower beam of the stacker of claim 6 wherein,

the beam body (1) is also provided with a clamping groove mounting plate (4), and the clamping groove mounting plate (4) is used for clamping the ground rail.

9. The lower beam of a stacker according to claim 1 wherein,

the beam body (1) is also provided with a pulley bracket (5), and the pulley bracket (5) is used for installing a pulley block.