KR20210121800A - Channel reforming apparatus for battery - Google Patents

Abstract

The present invention relates to a correction apparatus of a channel for accommodating a battery, and more specifically, to a correction apparatus of a channel for accommodating a battery, which restores a measurement error caused by deformation in manufacturing a channel to a normal measurement to enable a battery to be readily inserted and protect the battery from external impact. The correction apparatus for a channel for accommodating a battery in accordance with the present invention comprises: a supply means supplying a channel having an accommodation unit where a battery is to be inserted; a primary correction means having upper and lower rollers which respectively press lateral edges of an upper part and a lower part of the channel supplied by the supply means; a transfer means transferring the channel subjected to the process of the primary correction means forward; and a secondary correction means using four compression rollers to press upper, lower, right and left lateral surfaces of the channel supplied by the transfer means, thereby restoring the channel to a normal measurement.

Description

Channel reforming apparatus for battery

The present invention relates to a device for correcting a channel for battery storage, and more specifically, it restores the dimensional error caused by deformation in the manufacturing process of the channel to its normal size to facilitate insertion of the battery and external shock. It relates to a correction device for a battery storage channel that can be safely protected from

Due to environmental problems, the demand for batteries, which are widely used electric vehicle driving sources, is increasing day by day.

In this way, batteries used in automobiles must be covered with an outer surface to safely protect people or vehicles from short circuit or explosion accidents while driving.

As described above, the covering material safely enclosing the battery is lightweight and has excellent impact resistance to withstand external impact, and must maintain sufficient strength to respond to fire or explosion accidents.

For this reason, a square or rectangular channel having a hollow portion is formed long using aluminum, cut to a required length, and a battery is inserted and mounted in a receiving portion formed inside to be mounted in a vehicle.

However, these channels inevitably cause dimensional deformation during the molding process. Because it is impossible to insert the battery into the receiving part due to this deformation, the battery is inserted and seated after calibrating to the normal size one by one.

The present invention has been proposed in view of the above problems, and the main object of the present invention is to quickly correct the shape or dimensional deformation occurring during the manufacturing process to the normal size so that the battery can be inserted smoothly. It is intended to provide a corrective device.

The overall configuration of the present invention proposed for achieving the above object is a supply means for supplying a channel having a receiving portion for inserting a battery; Primary correction means for pressing the upper and lower corners of the upper and lower sides of the channel transferred from the supply means with upper and lower rollers; a transport means for transferring the channel that has completed the first calibration means to the front side; It consists of a secondary correction means that restores the four sides of the channel supplied by the transport means to the normal size by pressing the compression roller.

In addition, the supply means includes a support installed with a support roller for supporting the bottom of the channel; On both sides of the support, movable pieces for adjusting the width of the side rollers while moving left and right by a screw shaft operated by a handle; The upper and lower portions of the screw shaft, the two support rods passing through the movable piece and a fixing bar for coupling the outer end portion; One of the side rollers has a structure in which a motor to which a reduction gear is integrally added is installed, and the side roller is rotated by its power.

On the other hand, the first correction means is a movable block moved forward and backward by a handle, and an upper portion whose position is controlled by a slide plate that is moved up and down along a fixed block coupled to an angle adjustment piece added to the movable block. with rollers; A fixed plate moved forward and backward by a screw shaft attached to the handle, an angle adjusting piece installed at the outer end of the fixed plate, and a motor integrally coupled to the speed reducer are mounted on the angle adjusting piece, and extend long from the reducer It is a structure coupled with a lower roller coupled to the rotating shaft.

And the transport means is operated forward and backward along the rail and the guide rod by the rotation of the screw shaft on one side of the two bearing rollers and the two bearing rollers rotatably mounted on the fixing member to support both sides of the bottom surface of the channel. It is composed of a block and an upright roller that is rotatably mounted on the upper surface of the block and moves the channel forward while rotating in reverse with each other.

In addition, the secondary correction means is made of a structure in which the upper and lower rollers press each side of the channel through the transport means, and the left and right rollers having a function of compressing both sides of the channel are pressed with the same pressure. .

The present invention having the configuration as described above corrects the channel from the first straightening means to the second straightening means to correct the deformed shape and dimensions, so that the battery can be easily inserted and mounted in the receiving part formed inside the channel. .

1 is a perspective view showing the configuration of the supply means of the present invention;
Figure 2 is a perspective view illustrating the first correction means constituting the present invention;
3 is a perspective view showing a transport means constituting the present invention;
Figure 4 is a perspective view showing the secondary correction means constituting the present invention;
5 (a) to 5 (d) are front views illustrating the entire process of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 1 is a perspective view showing the configuration of the supply means of the present invention, Figure 2 is a perspective view illustrating the first correction means constituting the present invention, Figure 3 is a perspective view showing the transport means constituting the present invention, Fig. 4 is a perspective view showing the secondary correction means constituting the present invention.

The overall configuration of the channel correction device proposed in the present invention is composed of a supply means 10, a primary correction means 20, a transport means 30 and a secondary correction means 40, and the supply means 10 is It is configured as illustrated in FIG. 1 .

That is, in the center, a support roller 2 is added to support the bottom surface of the channel 100, and both sides of the support 3 are left by a screw shaft 4a operated by a handle 4 . , It is composed of two movable pieces 6 for adjusting the width of the side roller 5 while moving to the right, and a fixing table 8 installed on the outside of the movable piece 6 in a vertical state on the substrate 50 .

In addition, the upper and lower portions of the screw shaft 4a have a structure in which two support rods 7 penetrate the movable piece 6 and the outer ends are integrally coupled to the fixing table 8 .

On the other hand, in one of the two side rollers 5, a motor 9 integrally added with a reduction gear 9a is added to rotate the side roller 5 by the power thereof, which is the inner side of the side roller 5 It performs the function of pushing the channel 100 located in the front side.

In addition, the channel 100, which gradually moves to the front according to the guidance of the supply means 10, is subjected to the primary correction of restoring the shape deformed by the first correction means 10 to the normal shape.

This primary correction means 20 has a structure as shown in FIG. 2 , which has an upper side edge 93 and a bottom side edge 96 of the channel 100 provided with the receiving part 95 . ), the upper roller 14 and the lower roller 18 for compressing are installed at an angle of 45° up and down.

The upper roller 14 is a structure that operates forward, backward, and up and down to press the channel 100, and the structure that operates this is mounted on the upper part of the housing 11 and moved forward and backward by the handle 12b. A structure integrally mounted on the movable block 12 that is moved and the sliding plate 14b that moves up and down along the fixed block 14a coupled to the angle adjustment piece 13 added to the movable block 12 is made of

The angle adjustment piece 13 has two through-holes 13a and 13b formed, which change the angle of the upper roller 14, which passes through the fixing block 14a on which the upper roller 14 is mounted. When coupled to 13a), 45° is maintained, and when the fixing block 14a is coupled to the through hole 14b, 30° is maintained.

And the lower roller 18 interlocked with the upper roller 14 includes a fixing plate 16 that is moved forward and backward by a screw shaft 16b added to the handle 16a, and the outer end of the fixing plate 16. An angle adjusting piece 16c for adjusting the angle of the lower roller 18 while rotating left and right is installed.

The angle adjusting piece 16c is equipped with a motor 17 having a reducer 17a integrally disposed thereon, and a lower roller 18 is integrally coupled to a rotating shaft 17b extending long from the reducer 17a. made up of the composition.

And the channel 100 restored to the square shape with the dimensions deformed by the first correction means 20 is transported to the transport means 30, and its configuration is as follows.

That is, as illustrated in FIG. 3 , two bearing rollers 22 rotatably mounted on the fixing member 24 to support both sides of the bottom surface of the channel 100 , and the two bearing rollers 22 . On one side, a block 28 that is operated forward and backward along the rail 27 and the guide rod 26 by rotation of the screw shaft 25, and the block 28 are rotatably mounted on the upper surface of the block 28 to rotate in reverse. It is composed of an upright roller 29 that moves the channel 100 to the front while doing so.

Finally, the configuration of the secondary correction means 40 for correcting the same as desired dimensions by pressing the upper, lower, left, and right surfaces of the channel 100 supplied from the transport means 30 is as shown in FIG. 4 . It is composed of upper and lower rollers 32 and 34 for pressing the upper and lower surfaces of 100, and a left and right roller 36 and a right roller 38 having a function of pressing the left and right sides of the channel 100.

Each of the rollers can freely adjust its position according to the size of the channel 100 while moving forward, backward and up and down by the position controllers 32a, 34a, 36, a, and 38a added to one side thereof. made up of structures.

As described above, by the supply means 10, the primary correction means 20, and the transport means 30 and the secondary correction means 40, which inevitably occurs in the manufacturing process, deformation of the shape or dimensional error It is to be corrected in terms of dimensions, and it is as follows.

That is, as shown in FIG. 5, the channel 100 manufactured in a square or rectangular shape in which a receiving part 95 for inserting a battery is formed is a channel 100 deformed in the molding process as shown in FIG. 5(a). It is formed by a support roller 1 that supports the bottom of the and two rollers 5 that are in surface contact with both sides of the The width of the roller 5 is determined by the movable piece 6 moved forward and backward along the screw shaft 4a rotated by the handle 4 .

This is to properly respond to the channel 100 having different dimensions and shapes, and transfer the power of the motor 9 to one of the rollers 5 to move the channel 100 to the front.

And the channel 100 supplied from the supply means 10 is to first correct the channel 100 deformed by the primary correction means 20, as shown in Fig. 5 (b).

This is done by the upper roller 14 pressing the edge 93 of one side of the upper surface of the channel 100 and the lower roller 18 pressing the edge 96 of the lower surface of the channel 100 .

The upper roller 14 is a movable block 12 that is moved forward and backward by the handle 12b, and is added to the movable block 12, as the position is adjusted while being operated forward and backward and up and down. It will be made by the slide plate (14b) moving up and down along the fixing block (14a) coupled to the angle adjustment piece (13).

In addition, the lower roller 18 has a fixing plate 16 that is moved forward and backward by a screw shaft 16b added to the handle 16a, and an angle adjustment piece 16c is installed at the outer end of the fixing plate 16. have.

A motor 17 to which a reduction gear 17a is integrally coupled is mounted to the housing 16c, and a lower roller 18 is integrally coupled to a rotary shaft 17b extending long from the reduction gear 17a. will be.

As shown in FIG. 5(c), the first-corrected channel 100 as described above includes two rollers 22 spaced apart from the bottom, and an upright surface contacting the outer surface of the channel 100. The upper and lower rollers 32 and 34 and the left and right rollers 36 and 38 that finally constitute the secondary correction means 40 via the unbanu end 30 composed of the roller 28 are connected to the channel 100 ), the upper, lower, left, and right sides are compressed to restore the normal shape and dimensions.

As described above, the deformation or dimensional error generated due to deformation in the manufacturing process is restored to a normal shape by using the first and second correction means 20 and 40 .

The channel 100 restored to its normal shape and dimensions by the corrective work can not only quickly and easily insert the battery into the accommodating part 95, but also have excellent impact resistance, durability and fire resistance. This will help prevent minor accidents.

It is not implemented only by the structure described in the embodiment of the present invention described above, but may be implemented through another structure realizing a function corresponding to the configuration of the embodiment of the present invention. It is obvious that an expert in the technical field to which the invention belongs can easily implement it, and this also falls within the scope of the present invention.

2: support roller 4: handle 4a: screw shaft 5: side roller
6: movable piece 8: fixed base 9: motor 10: channel supply means
11: housing 12: movable block 13: angle adjustment piece 14: upper roller
17: motor 20: primary correction means 22: transfer roller 29: upright roller
30: transport means 40: secondary straightening means 23,34,36,38: compression roller
40: secondary correction means 95: receiving part 100: channel

Claims (5)

a supply means for supplying a channel having an accommodating part for inserting a battery; a primary correction means for pressing one of the upper and lower corners of the channel supplied from the supply means with upper and lower rollers; a transport means for transferring the channel that has completed the first calibration means to the front side; A correction device for a channel for battery storage, characterized in that it consists of a secondary correction means for restoring the normal dimensions by pressing the upper, lower, left, and right sides of the channel supplied by the transport means using four compression rollers. The method of claim 1, wherein the supply means comprises: a support on which a support roller for supporting the bottom surface of the channel is installed; On both sides of the support, movable pieces for adjusting the width of the side rollers while moving left and right by a screw shaft operated by a handle; The upper and lower portions of the screw shaft, the two support rods passing through the movable piece and a fixing bar for coupling the outer end portion; A battery storage channel calibration device, characterized in that by installing a motor integrally added with a reduction gear to any one of the side rollers, and rotating the side rollers with the power thereof. The position of claim 1, wherein the primary correction means is positioned by a movable block moved forward and backward by a handle, and a slide plate that is moved up and down along a fixed block coupled to an angle adjustment piece added to the movable block. an upper roller that is controlled; A fixed plate moved forward and backward by a screw shaft attached to the handle, an angle adjusting piece installed at the outer end of the fixed plate, and a motor integrally coupled to the speed reducer are mounted on the angle adjusting piece, and extend long from the reducer A correction device for a channel for battery storage, characterized in that it has a structure coupled to a lower roller coupled to a rotating shaft. According to claim 1, wherein the transport means two support rollers rotatably mounted on a fixing member to support both sides of the bottom surface of the channel, and one side of the two support rollers by rotation of a screw shaft rail and guide rod A correction device for a channel for battery storage, characterized in that it consists of a block that is operated forward and backward accordingly, and an upright roller that is rotatably mounted on the upper surface of the block and moves the channel to the front while rotating in reverse with each other. The method of claim 1, wherein the secondary straightening means presses with the same pressure using upper and lower rollers for compressing each side of the channel via the transport means, and a left and right roller having a function of compressing both sides of the channel. Correction device of the channel for battery storage, characterized in that giving.

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