CN215324183U - Motor blank axle bin - Google Patents

Abstract

The utility model discloses a motor blank shaft storage box which comprises a box body, wherein four corners of the box body are provided with cylindrical structures, springs and support blocks are arranged in the cylindrical structures, the support blocks are positioned above the springs, and the support blocks horizontally protrude out of the cylindrical structures and are positioned in the box body; a pair of carrier plates is arranged in the box body, and each carrier plate is carried by two adjacent support blocks. The blank shaft is placed on a pair of support plates, the stress of the support plates is increased, the springs are compressed, and the support plates descend. When the blank shaft is taken, the spring gradually extends upwards along with the gradual taking away of the blank shaft on the upper layer, and the support plate and the rest blank shafts on the support plate are supported. Therefore, the blank shaft can be conveniently and quickly taken and placed by workers.

Description

Motor blank axle bin

Technical Field

The utility model relates to storage of motor parts, in particular to storage equipment of a motor blank shaft.

Background

And (4) boxing and carrying the motor blank shaft, and taking materials from the box by workers.

SUMMERY OF THE UTILITY MODEL

The technical problems solved by the utility model are as follows: a motor blank shaft storage box is provided.

In order to solve the technical problems, the utility model provides the following technical scheme: a motor blank shaft storage box comprises a box body, wherein four corners of the box body are provided with cylindrical structures, springs and support blocks are arranged in the cylindrical structures, the support blocks are located above the springs, and the support blocks horizontally protrude out of the cylindrical structures and are located in the box body; a pair of carrier plates is arranged in the box body, and each carrier plate is carried by two adjacent support blocks.

Two ends of the blank shaft are placed on the pair of support plates and stacked on the pair of support plates layer by layer. The increase of support plate atress makes the support plate pass through tray compression spring, and the support plate descends, so, the workman can place the blank axle in the box at the upper portion of box or the first half in the box, need not go deep into the box latter half or bottom half and place the blank axle, and this can make the workman become simple, convenient with the blank axle vanning. The box is full-load, and the support plate is located the bottommost of box, and the spring is compressed to the shortest.

When the workman got the blank axle in following the box, got the blank axle at box top or box first half, taken away gradually along with the blank axle on upper strata, the spring upwards extends gradually, holds up support plate and the last remaining blank axle of going up. So, the workman only need get the blank axle at box top or box first half, need not to go deep into box latter half or bottom. This can make the workman get the blank axle convenient, swift.

Drawings

The utility model is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic view of a motor blank shaft storage bin;

FIG. 2 is a partial exploded view of FIG. 1;

FIG. 3 is a front view of a motor blank shaft storage bin;

FIG. 4 is a top view of FIG. 3;

FIG. 5 is a schematic view of a pallet.

The symbols in the drawings illustrate that:

10. a box body; 11. a horizontal bar;

20. a cylindrical structure; 201. an opening; 202. a strip-shaped groove; 21. a spring; 22. a support block; 221. a guide portion; 223. a bearing part; 224. a connecting portion; 23. a cover;

30. a carrier plate; 31. and (5) a concave structure.

Detailed Description

With reference to fig. 1 to 4, the motor blank shaft storage box comprises a box body 10, wherein four corners of the box body are provided with cylindrical structures 20, springs 21 and support blocks 22 are arranged in the cylindrical structures, the support blocks are located above the springs, and the support blocks horizontally protrude out of the cylindrical structures and are located in the box body; a pair of carrier plates 30 are provided in the housing, each carrier plate being carried by two adjacent carrier blocks.

The housing 10 and the four tubular structures 20 may be integrally formed, such as by casting or injection molding. Alternatively, four cylindrical structures 20 are welded to the tank. A vertical strip-shaped groove 202 is arranged between the cylindrical structure 20 and the box body 10 as a communicating structure.

Four support blocks 22 are respectively a left front support block, a right front support block, a left rear support block and a right rear support block, the front support plates of a pair of support plates 30 are placed on the left front support block and the right front support block, and the rear support plates are placed on the left rear support block and the right rear support block.

The two ends of the blank shaft are placed on a pair of support plates 30 and stacked layer by layer. The carrier plate is gradually stressed to be increased and acts on the support block 22, the support block compresses the spring 21, and the carrier plate 30 gradually descends. The case 10 is fully loaded with the pair of carrier plates 30 at the lowermost portion of the case and the springs 21 are compressed to the shortest. When a worker takes the blank shaft from the box body 10, the blank shaft is taken from the top of the box body or the upper half part of the box body, and the spring 21 gradually extends upwards along with the gradual taking of the blank shaft on the upper layer to support the support plate 30 and the rest blank shafts on the support plate.

As shown in fig. 5, each pad 22 includes a guide portion 221 and a support portion 223, the guide portion is fitted in the tubular structure 20, follows the inner cavity of the tubular structure, and can be lifted and lowered along the tubular structure. The supporting portion is located in the box 10, is lower than the guiding portion, and a connecting portion 224 is disposed between the supporting portion and the guiding portion 221, and the supporting portion supports the carrier plate 30. The height of the receiving portion 223 is designed to be lower than that of the guide portion 221 because: the spring 21 is compressed to the shortest, a certain height difference is still formed between the guide part 221 and the bottom surface of the box body 10, the height of the support part 223 and the height of the guide part 221 are designed, when the spring is compressed to the shortest, the support part 223 reaches the bottommost part of the box body 10 and is flush with the bottom surface of the box body, and therefore the space in the box body is fully utilized, and as many blank shafts as possible can be loaded.

The bottom end of the cylindrical structure 20 is lower than the bottom plane of the box body 10, and has two functions: firstly, four cylindrical structures are also used as supporting legs of the box body; second, the bottom end of the spring 21 can be lower than the bottom plane of the case, and the height of the bracket 22 can be reduced as much as possible when the spring is compressed to the shortest, and further, the height of the carrier plate 30 can be reduced as much as possible, so as to fully utilize the space in the case 10.

The bottom end face of the cylindrical structure 20 is provided with an opening 201 through which dust can be discharged out of the cylindrical structure, facilitating the normal operation of the spring 21. The top end face of the cylindrical structure is matched with a cover 23, dust is prevented from entering the cylindrical structure, and the cover is taken down, so that a worker can maintain the spring 21 and the support block 22 in the cylindrical structure.

The lateral wall of the box body 10 is provided with a pair of transverse bars 11, the number of the transverse bars is at least one, the transverse bars are arranged on the left side and the right side of the box body, and two ends of any transverse bar are connected with a pair of front and back adjacent cylindrical structures 20. The worker carries the box 10 by holding a pair of the cross bars 11 with both hands. The cylindrical structure 20 makes both ends of any cross bar 11 have no sharp edges and corners, and makes the cross bar and the box body combined more firmly.

The box 10 is vertically through, and the carrier for carrying the blank shaft is a pair of carrier plates 30, so that dust in the box can be discharged through the bottom of the box. The utility model adopts a pair of carrier plates to bear the blank shaft instead of a whole plate with the same area as the bottom of the box body, which is beneficial to reducing the stress of the spring 21, is beneficial to increasing the maximum extension of the spring, and further, the spring can support the blank shaft on the carrier plate 30 higher.

The carrier plate 30 is provided with a sunken structure 31 which is profiled on a motor blank shaft, an upper layer blank shaft and a lower layer blank shaft are arranged in the box body 10, the blank shafts at the lowest layer are placed in the sunken structure 31, the positions of the blank shafts are stable, and further, the positions of the blank shafts at the upper layer and the lower layer are also stable.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description herein, since various changes and modifications can be made in the details of the embodiment and the application range according to the spirit of the present invention.

Claims (7)

1. The utility model provides a motor blank axle bin, includes box (10), its characterized in that: the four corners of the box body are provided with cylindrical structures (20), springs (21) and support blocks (22) are arranged in the cylindrical structures, the support blocks are positioned above the springs, and the support blocks horizontally protrude out of the cylindrical structures and are positioned in the box body; a pair of support plates (30) is arranged in the box body, and each support plate is supported by two adjacent support blocks.

2. The motor blank shaft storage bin as claimed in claim 1, wherein: the support block (22) comprises a guide part (221) and a support part (223), the guide part is matched in the cylindrical structure (20), the support part is positioned in the box body (10), the support part is lower than the guide part, and the support part supports the support plate (30).

3. The motor blank shaft storage bin as claimed in claim 1, wherein: the bottom end of the cylindrical structure (20) is lower than the bottom plane of the box body (10).

4. The motor blank shaft storage bin as claimed in claim 1, wherein: an opening (201) is arranged on the bottom end surface of the cylindrical structure (20), and a cover (23) is matched on the top end surface of the cylindrical structure.

5. The motor blank shaft storage bin as claimed in claim 1, wherein: the outer side wall of the box body (10) is provided with a transverse bar (11), and two ends of the transverse bar are connected with a pair of adjacent cylindrical structures (20).

6. The motor blank shaft storage bin as claimed in claim 1, wherein: the box body (10) is through up and down.

7. The motor blank shaft storage bin as claimed in claim 1, wherein: the carrier plate (30) is provided with a concave structure (31) which is profiled on a motor blank shaft.

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