CN213139238U - Coil stock packing frame - Google Patents

Abstract

The utility model relates to an industrial technical field discloses coil stock packing frame, include: the upper end of the vertical component is provided with a plurality of first sliding rails which extend horizontally and are parallel to each other, and a first sliding block is slidably mounted on each first sliding rail; the horizontal assembly comprises a second slide rail arranged on each first slide block and a second slide block arranged on the second slide rail in a sliding way; and the suspension assembly comprises a third slide rail arranged on the second slide block, a third slide block arranged on the third slide rail in a sliding way and a suspension rod arranged on the third slide block. Use the utility model provides an in-process that coil stock packing frame packed the coil stock only needs the adjustment hang the pole self can, need not artifical adjustment coil stock and shallow, easy operation, facility. In addition, the suspension rod has a certain adjustable stroke, can adapt to coil stocks of various sizes, and has strong adaptability and low application cost.

Description

Coil stock packing frame

Technical Field

The utility model relates to an industrial technical field especially relates to coil stock packing frame.

Background

The packaging frame used in the lithium battery industry is used for packaging roll materials such as carbon-coated aluminum foils and carbon-coated copper foils. The fixed packing frame among the prior art needs following step in the packing process: (1) manually adjusting the position of the coil stock up, down, left and right to make the suspension rod of the packing frame align with the central hole of the coil stock supporting tube; (2) pushing the trolley to enable the coil supporting tube to be sleeved on the packing frame suspension rod, then lowering the coil trolley, and suspending the coil on the packing frame suspension rod; (3) sheathing an aluminum plastic film sealing bag from the other end of the coil stock, and then lifting the coil stock vehicle to prevent the coil stock supporting tube and the packing frame suspension rod from being stressed; (4) and moving the coil car to separate the coil from the packing frame, and moving the coil to a sealing machine for sealing.

In the process, the suspension rod is mounted on the coil and the coil is taken down from the suspension rod, the positions of the coil in the vertical direction and the horizontal direction need to be adjusted manually, the trolley is controlled to move, and the operation difficulty is high. Moreover, if the suspension rod of the packing frame is too thin and too short, the coil stock is unsafe after being suspended, and has the risk of falling off due to sliding, so that safety accidents are easy to occur. If the suspension rod of the packing frame is too thick and too long, the coil stock is not easy to separate from the supporting tube, and when the packing frame is operated by personnel, the coil stock slides easily, so that the product quality is problematic. In addition, the existing packaging frame cannot meet the requirements of packaging the coil materials of supporting tubes with various sizes.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a coil stock packing frame aims at solving the packing frame among the prior art and goes up the problem that the unloading operation degree of difficulty is high and poor to coil stock size adaptability.

The utility model discloses a realize like this, provide coil stock packing frame, include: the upper end of the vertical component is provided with a plurality of first sliding rails which extend horizontally and are parallel to each other, and a first sliding block is slidably mounted on each first sliding rail; the horizontal assembly comprises a second slide rail arranged on each first slide block and a second slide block arranged on the second slide rail in a sliding way; and the suspension assembly comprises a third slide rail arranged on the second slide block, a third slide block arranged on the third slide rail in a sliding way and a suspension rod arranged on the third slide block.

Further, the second slide rail direction is perpendicular to the first slide rail.

Further, the third slide rail is perpendicular to the first slide rail and the second slide rail at the same time.

Furthermore, the vertical assembly comprises two symmetrically arranged support frames, each support frame comprises a vertically arranged upright post and a cross rod horizontally arranged at the upper end of the upright post, and the first slide rail is arranged at the upper end of the cross rod; the horizontal assembly is positioned between the two support frames.

Further, each of the first sliders moves synchronously.

Furthermore, the first slide rail is of a linear module structure.

Further, the hanger bar includes an expansion structure capable of expanding or contracting to change an outer diameter.

Further, the suspension rod has an elastic outer wall and a closed inner cavity, and the expansion structure includes an inflation device capable of pressurizing and inflating the closed inner cavity.

Further, the hanging rod side wall is provided with a plurality of telescopic supporting parts, and the expansion structure comprises a motor for driving the telescopic supporting parts to expand and contract.

Further, an operating handle for controlling the vertical assembly, the horizontal assembly, the suspension assembly and the expansion structure is also included.

Compared with the prior art, use the utility model provides an in-process that coil stock packing frame packed the coil stock only needs the adjustment hang the pole self can, need not artifical adjustment coil stock and shallow, easy operation, facility. In addition, the suspension rod has a certain adjustable stroke, can adapt to coil stocks of various sizes, and has strong adaptability and low application cost.

Drawings

Fig. 1 is an overall schematic view of a coil packaging frame structure provided in an embodiment of the present invention;

fig. 2 is a schematic view of a suspension rod and a coil material of a coil material packaging frame according to an embodiment of the present invention;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The implementation of the present embodiment is described in detail below with reference to specific drawings.

As shown in fig. 1 and 2, the present embodiment provides a roll packaging stand, including: vertical module 1, horizontal module 2 and suspension module 3. Wherein vertical subassembly 1 upper end is equipped with a plurality of first slide rails 11 that extend horizontally and be parallel to each other, and slidable mounting has first slider 12 on each first slide rail 11. The horizontal assembly 2 includes a second slide rail 21 mounted to each first slide 12 and a second slide 22 slidably mounted on the second slide rail 21. The suspension assembly 3 comprises a third slide rail 31 mounted on the second slide 22, a third slide 32 slidably mounted on the third slide rail 31, and a suspension bar 33 mounted on the third slide 32.

When each first slider 12 moves on the corresponding first slide rail 11, the second slide rail 21 slides with respect to the plurality of first slide rails 11, and the movement in the first direction is realized. The second slide 22 is itself able to move relative to the second slide rail 21, effecting movement in a second direction. The third slide rail 31 is mounted on the second slide block 22, and the third slide block 32 moves relative to the third slide rail 31 to realize movement in a third direction. Therefore, the suspension bar 33 mounted on the third slider 32 can be moved in three directions in practice.

When the coil stock 4 is packed by using the coil stock packing frame in the embodiment, in the process of aligning the suspension rod 33 with the support tube 41 of the coil stock 4, the up-down and left-right directions of the coil stock 4 do not need to be adjusted manually, and the suspension rod 33 can move and adjust the coil stock 4 in the direction thereof to align with the central hole of the support tube 41 of the coil stock 4. In the feeding and discharging processes, the cart 5 does not need to be manually controlled to advance or retreat, and the supporting tube 41 of the coil stock 4 can be inserted or pulled out from the supporting tube 41 of the coil stock 4 by adjusting the position of the suspension rod 33, so that the feeding and discharging processes are realized.

From the process, the coil packaging frame in the embodiment is adopted, only the position of the suspension rod 33 needs to be adjusted in the process of packaging the coil 4, the coil 4 and the trolley 5 do not need to be adjusted manually, and the operation is simple and convenient. In addition, the adjustment of the suspension rod 33 has a large stroke (the length of each slide rail can be set adaptively), so that the suspension rod can adapt to the coil stock 4 with various sizes, and the suspension rod has strong adaptability and low application cost.

Preferably, as shown in fig. 1, the direction of the second slide rail 21 in the present embodiment is perpendicular to the first slide rail 11, and if the direction of the first slide rail 11 is Y, the direction of the second slide rail 21 is X, and both the directions are on the horizontal plane and perpendicular to each other to form a plane coordinate system (X, Y), so that the suspension rod 33 freely moves on the plane coordinate system (X, Y), wherein the maximum moving stroke in the X direction is the length of the second slide rail 21, and the maximum moving stroke in the Y direction is the length of the first slide rail 11.

Preferably, the third slide rail 31 is perpendicular to the first slide rail 11 and the second slide rail 21 at the same time, and if the direction of the third slide rail 31 is Y, the first slide rail 11, the second slide rail 21, and the third slide rail 31 form a three-dimensional coordinate system (X, Y, Z), so that the suspension rod 33 can move freely on the three-dimensional coordinate system (X, Y, Z), and the maximum moving stroke in the Z direction is the length of the third slide rail 31.

As can be seen from fig. 1 and 2, in the operation of adjusting the alignment of the suspension bar 33 with the central hole of the support tube 41 of the coil 4, the suspension bar 33 is moved in the plane (Z, X), i.e. the position of the second slider 22 and the third slider 32 is changed. During the feeding and discharging, the suspension bar 33 is moved in the Y direction, i.e., the position of each first slider 12 is changed.

Preferably, the vertical assembly 1 comprises two symmetrically arranged support frames 13, each support frame 13 comprises a vertically arranged upright 131 and a cross bar 132 horizontally arranged at the upper end of the upright, and the first slide rail 11 is mounted at the upper end of the cross bar 132; the horizontal assembly 2 is located between two support frames 13, and the horizontal assembly 2 is supported by two cross bars 132. In other embodiments, the vertical assembly 1 may also have other structures, such as a rectangular parallelepiped structure, and the first slide rail 11 is mounted on two parallel sides of the upper end thereof.

Preferably, the first sliding blocks 12 move synchronously to keep the second sliding rail 21 perpendicular to the first sliding rail 11 at all times.

Preferably, the first slide rail 11 is a linear module structure. The linear module structure is a mature structure, and it has linear guide and slip table, by the accurate removal of motor drive slip table, its linear guide is equivalent to first slide rail 11 promptly, and the slip table is equivalent to first slider 12 promptly, and its specific structure does not do the repeated description. In other embodiments, other structures may be adopted to realize the first slide rail 11 assembly, for example, a belt extending the whole first slide rail 11 is provided, and the motor drives the belt to operate to drive the first sliding block 12 to move.

The structure principle of the horizontal assembly 2 and the suspension assembly 3 in this embodiment is the same as that of the first slide rail 11 assembly, and in other embodiments, different structures may be adopted to implement the two assemblies.

Preferably, the hanger bar 33 includes an expansion structure capable of expanding or contracting to change an outer diameter. Before feeding, the outer diameter of the suspension rod 33 is reduced through the expansion structure, the support tube 41 of the coil stock 4 is convenient to insert, after the coil stock 4 is loaded, the outer diameter of the suspension rod 33 is increased through the expansion structure, so that the outer diameter of the suspension rod 33 is tightly attached to the support tube 41 of the coil stock 4 to avoid slipping, and the outer diameter is correspondingly reduced during blanking so as to be convenient to draw out. Because the outer diameter of the suspension rod 33 can be changed by the expansion structure, the suspension rod 33 in the embodiment can adapt to various coil stocks 4 and various coil stocks 4 supporting tubes 41, and the problems of falling of the coil stocks 4, sliding layers of the coil stocks 4 and the like caused by poor adaptability are avoided.

The expansion structure can be realized by adopting various structures, for example, the suspension rod 33 is provided with an elastic outer wall and a closed inner cavity, the expansion structure comprises an inflating device for pressurizing and inflating the closed inner cavity, the elastic outer wall expands after inflation and pressurization to realize the increase of the outer diameter, and the elastic outer wall contracts after deflation and pressure relief to realize the reduction of the outer diameter; or a plurality of telescopic supporting parts are arranged on the side wall of the suspension rod 33, the expansion structure comprises a motor for driving the telescopic supporting parts to expand and contract, and the actual outer diameter of the suspension rod 33 is changed through the expansion and contraction of the supporting parts.

Preferably, the coil packaging frame in the embodiment further comprises an operating handle for controlling the vertical assembly 1, the horizontal assembly 2, the hanging assembly 3 and the expansion structure. In the process of packing through coil stock packing frame, can realize through operating handle that the position control and the external diameter of hanging pole 33 are flexible, further reduce manual operation intensity, improve production degree of automation and the convenient degree of operation.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. Coil stock packing frame, its characterized in that includes:

the upper end of the vertical component is provided with a plurality of first sliding rails which extend horizontally and are parallel to each other, and a first sliding block is slidably mounted on each first sliding rail;

the horizontal assembly comprises a second slide rail arranged on each first slide block and a second slide block arranged on the second slide rail in a sliding way;

and the suspension assembly comprises a third slide rail arranged on the second slide block, a third slide block arranged on the third slide rail in a sliding way and a suspension rod arranged on the third slide block.

2. The coil packaging rack of claim 1, wherein said second slide rail is oriented perpendicular to said first slide rail.

3. The coil packaging stand of claim 2, wherein the third slide rail is perpendicular to both the first slide rail and the second slide rail.

4. The coil packaging frame according to claim 1, wherein the vertical assembly comprises two symmetrically arranged support frames, each support frame comprises a vertically arranged upright post and a cross bar horizontally arranged at the upper end of the upright post, and the first slide rail is mounted at the upper end of the cross bar; the horizontal assembly is positioned between the two support frames.

5. The roll packaging stand of claim 1, wherein each of said first slides moves in synchronization.

6. The coil packaging rack of claim 1, wherein said first slide rail is of a linear module structure.

7. A coil packaging stand according to any one of claims 1 to 6, wherein said suspension bar comprises an expansion structure capable of expanding or contracting to change the outer diameter.

8. The coil packaging stand of claim 7, wherein said suspension bar has a flexible outer wall and a closed interior, and said expansion structure includes an inflator capable of pressurizing and inflating said closed interior.

9. The coil packaging stand according to claim 7, wherein said hanger bar side wall has a plurality of support portions capable of telescoping, and said expansion structure includes a motor for driving said support portions to telescope.

10. The roll packaging stand of claim 7, further comprising an operating handle for controlling the vertical assembly, the horizontal assembly, the hanging assembly, and the expansion structure.

Images