KR20160109061A - Tray Type Battery Cell Recieving Apparatus - Google Patents

Abstract

The present invention relates to a tray type battery cell storage device (1) which comprises: a main tray (3) including multiple storage grooves (17) formed with a lattice shape by multiple supports (13) to store multiple battery cells (C) in the lattice shape, but locking or unlocking the battery cell (C) stored in each of the storage grooves (17), through each of the supports (13); and a sub tray (5) including multiple holding grooves (47) formed in a position corresponding to the storage grooves (17) in order to insert the multiple battery cells (C) into the storage grooves (17) at the same time. The sub tray (5) is detachably combined with the main tray (3) when overlapped over the main tray (3) in order to insert the multiple battery cells (C), temporarily stored in each of the holding grooves (47), into the storage grooves (17) at the same time. Therefore, since the battery cells, stored in the storage grooves, are entirely pressurized and then are locked through a pressurizing unit when used for holding in a specific process increasing internal pressure of the battery cells, the present invention is capable of significantly improving the quality of the battery cells and the stability of the corresponding process for the battery cells by preventing the expansion of the battery cells during the process.

Description

TECHNICAL FIELD [0001] The present invention relates to a tray type battery cell retracting apparatus,

The present invention relates to a tray-type battery cell accommodating apparatus, and more particularly, to a tray-type battery cell accommodating apparatus for carrying a battery cell between each process and a process in a battery cell manufacturing facility of a secondary battery such as a lithium ion battery, Type battery cell accommodating apparatus.

In general, a production facility for manufacturing a battery cell is divided into several unit facilities according to a process, and accordingly, a storage device such as a tray for storing battery cells is inevitably provided for transporting battery cells between the processes. Furthermore, recently, in order to mount the battery cell during the process, the same storage device as the tray used for transportation has been utilized as it is.

An example of such a tray-type accommodating apparatus is a polymer battery tray (reference numeral 101 in Fig. 1) (Patent No. 10-1066235). 1, the tray 101 includes an insertion portion 103 into which the battery cell 110 is inserted, a support plate 105 which is spaced apart from the partition 109 by a predetermined distance, And a plurality of battery cells 110 are housed in the inserting unit 103 to transfer and move the cells between the processes.

When the battery cell 110 is housed in the insertion portion 103, the tray 101 is inserted into the insertion groove on the side of the insertion portion 103 with a body 111 relatively thicker than the auxiliary body 113 Therefore, when the battery cell 110 is used for mounting the battery cell 110 during the process, if a pressure is generated inside the battery cell 110 due to the characteristics of the process, So that the battery cell 110 can not be inflated. As a result, the reaction or phenomenon of the battery cell 110, which raises the internal pressure, is further accelerated and ultimately, the battery cell 110 is damaged.

KR 10-1066235

Disclosure of Invention Technical Problem [8] The present invention has been proposed in order to solve the problems of the above conventional tray type battery cell storage device. When the battery cell storage device is used for mounting a battery cell during a battery cell manufacturing process, It is possible to suppress the expansion of the battery cell due to the pressure rise and to prevent the reaction or phenomenon in the battery cell from being activated when the pressure inside the battery cell rises, There is a purpose for this.

In order to achieve the above object, the present invention provides a battery pack including a plurality of receiving grooves formed in a lattice pattern by a plurality of supports for receiving a plurality of battery cells in a lattice, A main tray for locking or unlocking the main tray by a support of the main tray; And a plurality of mounting grooves formed at positions corresponding to the receiving grooves so that the plurality of battery cells can be inserted into the receiving grooves at the same time, And is detachably coupled to the main tray so as to sandwich the battery cells temporarily accommodated in the respective mounting grooves into the receiving grooves at the same time.

The auxiliary tray may include a plurality of through holes penetrating the bottom surface to allow the plurality of supports to pass therethrough when the auxiliary tray is superimposed over the main tray so that the battery cells temporarily accommodated in the respective mounting grooves are simultaneously inserted into the receiving grooves. Slots.

A compression member formed on one side of the support so as to lock or release the battery cell stored in the storage groove by repeating expansion or contraction according to an internal pressure; And a pressure supply unit connected to the main tray to supply an intermittent pressure to the pressure port.

The support base further includes a pressure plate that is coupled to the compression fitting so as to be interposed between the battery cell accommodated in the accommodation groove and the compression fitting and locks or releases the battery cell in association with expansion or contraction of the compression fitting .

Preferably, the main tray includes a pressure-supply line integrated with a passage connected to the plurality of squeeze openings in the pressure supply unit.

In addition, the support member may include: a compression member formed on one side of the support to lock or unlock the battery cell stored in the storage groove by a contact surface that expands or contracts according to internal pressure; A pressure plate coupled to the compression surface of the compression fitting and directly pressing or releasing the battery cell; And a case having an outer body formed on the main tray so as to form the receiving groove and having an air passage leading to the pressing port.

According to the tray-type battery cell storage apparatus of the present invention, since the tray is double structured with the main tray and the auxiliary tray, when the plurality of battery cells are simultaneously stored in the storage device for carrying or mounting, It is possible to facilitate the handling of the battery cell due to the transportation or mounting of the battery cell.

Further, even when used in a specific step in which the internal pressure of the battery cell rises due to process characteristics, the battery cell accommodated in the accommodating groove can be entirely pressed and locked by the compression fitting, Therefore, the stability of the process for the battery cell can be greatly improved, and the quality of the battery cell itself can be improved.

1 is a perspective view showing a conventional battery cell tray;
BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a tray-
3 is a perspective view of the main tray shown in Fig.
FIG. 4 is a perspective view of the main tray support shown in FIG. 3; FIG.
5 is a front view of the compression fitting shown in Fig.
FIG. 6 is a perspective view of the auxiliary tray shown in FIG. 2; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a tray-type battery cell storage apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The battery cell storage device of the present invention comprises a main tray 3 and an auxiliary tray 5 as shown by reference numeral 1 in Fig. 2, and the main tray 3 is connected to the battery cells C to be pushed or released by pneumatic pressure.

Here, the main tray 3 is a storage container for storing a plurality of battery cells C in a lattice, that is, on a plane on both sides of the main tray 3, and as shown in Figs. 2 and 3, And a support 13 which is laterally arranged on the base 11 so as to be arranged laterally. At this time, the base 11 has a planar size enough to accommodate the plurality of battery cells C. When the support base 13 employs a press fitting 21 for locking or releasing the battery cell C by pneumatic pressure as shown in the figure, the base 11 is fixed to the press fitting 21 by the pressure supply unit 7. [ And a pressure pipe 15 is provided inside the pipe so that high-pressure outside air can be injected into the pipe. Thus, the pressure-feeding pipe 15 is connected to each of the compression fittings 21 directly or through an adapter or the like to form a passage for connecting the external pressure supply portion 7 and the compression fitting 21. At this time, various kinds of pressurizing devices such as a pneumatic pump may be used as the pressure supply part 7.

2 and 3, the support base 13 is arranged in a lattice form on the base 11 to form a plurality of reception grooves 17 in a lattice form between the adjacent support base 13 In each of the receiving grooves 17, a battery cell C is inserted and stored as shown in the left side of the storage device 1 in Fig. At this time, the support base 13 can hold the battery cell C inserted in the receiving groove 17 by using various means. As described above, A means for locking or releasing the battery cell C in a snap manner by means of an elastic piece, although not shown in addition to the battery case 21, may be employed.

On the other hand, the pneumatically operated supporter 13 includes the presser 21, the pressure plate 23, and the case 25, as shown in FIG. 4, as well as FIGS. .

First, as described above, the compression tool 21 is a portion for locking or releasing the battery cell C housed in the receiving groove 17 by air pressure. As shown in FIGS. 4 and 5, A cylindrical body 31 which is an air cylinder and which is attached to one side of the support case 25 and a high elasticity stretchable member 33 which is mounted so as to be exposed to the outside along an opening opened upwardly of the body 31 . The expansion and contraction member 33 expands when the pressure in the body 31 increases and the battery 33 is inserted into the storage groove 17 indirectly through the pressure plate 23, Compresses and locks the cell C, and retracts to unlock the battery cell C when the pressure in the body 31 decreases. 5, a snap groove 35 is formed at a central portion of the elastic piece 33. The elastic piece 33 is provided with a snap protrusion protruding from the clamping plate integrally formed on the back surface of the pressure plate 23 or the pressure plate 23 So that it can be detachably engaged with a ball socket. In order to prevent the pressing plate 23 from rotating relative to the pressing tool 21, the snap-in groove 35 is coupled with the snap protrusion in a ball socket manner, ) May be mounted.

The pressing plate 23 is a portion for pressing and locking or releasing the battery cell C inserted in the receiving groove 17 as described above and uniformly distributing the pressing force against the battery cell C, The battery cell C is interposed between the battery cell C sandwiched in the receiving groove 17 and the pressing fitting 21 so that the battery cell C is directly pressurized and locked or interlocked with the expansion or contraction of the pressing fitting 21. To this end, the pressure plate 23 is engaged on the pressing surface of the pressing member 21, for example, as shown in FIG. 4 by fitting a snap protrusion protruding from the back surface into the snap groove 35 as shown above.

2 and 3, the case 25 is formed on the base 11 of the main tray 3 so as to form the receiving groove 17, as shown in Figs. 2 and 3, And are arranged side by side in a lattice pattern. 4, the portion of the case 25 facing the pressure plate 23 is cut out concavely so as to secure a clearance for mounting the pressing member 21. Although not shown separately, And an air passage connected to the pressure-feeding duct 15 so as to inject outside air into the space 21 is provided.

The auxiliary tray 5 is a temporary storage container designed to fit a plurality of battery cells C simultaneously into the receiving groove 17 of the main tray 3. As shown in FIGS. 2 and 4, A substrate 41 underlying the bottom, and a plurality of mounting blocks 43 arranged in a line on the substrate 41 in a line. At this time, when the auxiliary tray 5 is detachably mounted on the main tray 3, a plurality of supporting posts 13 of the main tray 3 are inserted from the bottom to the top, The through slots 45 are arranged in line between the adjacent mounting blocks 43 and the mounting blocks 43 so as to correspond to the mounting blocks 43. [ The stationary block 43 is paired with the neighboring stationary block 43 to support the temporarily accommodated battery cell C in the auxiliary tray 5 and is disposed between the through slots 45, A plurality of through slots 45 are formed together with the adjacent mounting block 43 at positions corresponding to the receiving grooves 17 when the tray 5 is stacked on the main tray 3. [ 2, when the auxiliary tray 5 is overlaid on the main tray 3, the mounting block 43 temporarily holds the battery cells C temporarily stacked in the respective mounting grooves 47, At the same time, fit into the receiving groove (17) of the main tray (3).

Now, operation of the tray-type battery cell storage apparatus according to the preferred embodiment of the present invention will be described as follows.

According to the tray-type battery cell storage device 1, the storage device 1 can be used not only in transporting the battery cell between the process and the process, but also during the process in the fabrication process of the transfer cell. (C), it can be usefully used.

To do this, as shown in FIG. 6, a desired number of battery cells C are inserted and temporarily stored in the mounting grooves 47 of the auxiliary tray 5.

Then, as shown in FIG. 2, the main tray 3 and the auxiliary tray 5 are stacked as one tray as shown in FIG. 2 by stacking the auxiliary tray 5 on the main tray 3. At this time, the supports 13 of the main tray 3 are inserted into the through slots 45 of the auxiliary tray 5 in a row arranged side by side, and at the same time, temporarily stored in the mounting grooves 47 of the auxiliary tray 5 The battery cell C that has been inserted into the receiving groove 17 of the corresponding main tray 3 is inserted.

Accordingly, when the support base 13 has its own support structure such as an elastic piece, the battery cell C of the storage groove 17 can be locked by the elastic piece.

2, in order to lock the battery cell C by the pressing member 21, the pressure supply unit 7 is operated so that the pressure is applied from the outside to the pressure supply pipe (not shown) of the main tray 3 15 to the compression port 21. The high- When the high pressure air is filled in the compression fitting 21, the high elastic stretching piece 33 expands, and the expanded stretching piece 33 is inserted directly or through the pressure plate 23 into the receiving groove 17 The battery cell C is pressed. The battery cell C pressed by the pressure plate 23 or the like is pressed between the back surface of the case 25 of the adjacent support member 13 and the pressure plate 23 so that even if the internal pressure increases during the process, It can not be solved and remains in the original state.

The operation of the pressure supply unit 7 may be stopped or the on / off valve on the connection pipe leading to the pressure pipe 15 may be closed, if necessary, By releasing the outside air in the compression fitting 21 and lowering the pressure of the compression fitting 21, the expansion and contraction member 33 can be retracted to release the compression on the battery cell C.

1: Battery cell holder 3: Main tray
5: auxiliary tray 7: pressure supply part
11: expectation 13: support
15: pressure pipe 17: storage groove
21: a pressing part 23: a pressing plate
25: Case 31: Body
33: Extension piece 35: Snap groove
41: substrate 43: mounting block
45: penetrating slot 47: mounting groove
C: Battery cell

Claims (6)

(17) formed in a grid shape by a plurality of supports (13) so as to store a plurality of battery cells (C) in a lattice shape, wherein each of the battery cells (3) for locking or unlocking the main body (C) by the respective support rods (13); And
And an auxiliary tray (5) having a plurality of mounting grooves (47) at positions corresponding to the receiving grooves (17) so that the plurality of battery cells (C) can be inserted into the receiving grooves Lt; / RTI >
The auxiliary tray 5 is disposed on the main tray 3 so as to sandwich the battery cell C temporarily accommodated in each of the mounting grooves 47 in the accommodating groove 17 when the auxiliary tray 5 is superposed on the main tray 3. [ Is detachably coupled to the battery case (3). The method according to claim 1,
The auxiliary tray 5 penetrates the bottom surface of the main tray 3 so as to pass through the plurality of supports 13 when the main tray 3 is superimposed over the main tray 3, And a plurality of through slots (45) that are formed in the receiving groove (17) so as to be inserted into the receiving groove (17) at the same time. The method according to claim 1 or 2,
A compression fitting (21) formed at one side of the support base (13) to lock or release the battery cell (C) stored in the accommodation groove (17) by repeating expansion or contraction according to an internal pressure; And
And a pressure supply part (7) connected to the main tray (3) so as to supply an intermittent pressure to the compression tool (21). The method of claim 3,
The support member 13 is coupled to the compression member 21 so as to be interposed between the battery cell C and the compression member 21 accommodated in the accommodation groove 17, Further comprising a pressure plate (23) for locking or releasing the battery cell (C) in association with the shrinkage of the battery cell (C). The method of claim 3,
Wherein the main tray (3) includes a pressure-feeding pipe (15) which integrates the passages connected to the plurality of the pressing parts (21) in the pressure supply part (7). The method according to claim 1 or 2,
The support base (13)
(21) formed at one side of the support (13) to lock or unlock the battery cell (C) stored in the receiving groove (17) by a pressing surface that expands or contracts according to an internal pressure;
A pressure plate (23) coupled to the compression surface of the compression fitting (21) and directly pressing or releasing the battery cell (C); And
And a case (25) having an outer body formed in parallel on the main tray (3) to form the receiving groove (17) and having an air passage leading to the pressing hole (21) Wherein the tray-type battery cell accommodating unit is configured to accommodate the tray-type battery cell.

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