KR20160015615A - Jig for refrigerant manifold - Google Patents

Abstract

The present invention relates to a refrigerant manifold jig which is designed to simultaneously combine a multi-layered cooling pipe equipped in a battery module with a refrigerant manifold comprising a multi-layered injection pipe. More specifically, the purpose of the present invention is to provide the refrigerant manifold jig which can simultaneously combine a multi-layered cooling pipe and a multi-layered injection pipe, leading to precise coupling without damage on the cooling pipe or the injection pipe. The refrigerant manifold jig of the present invention comprises: a jig main body where the refrigerant manifold is fixed so that the injection pipe faces the outside; and a pressurizing member pressurizing the jig main body to allow the refrigerant manifold to be mounted onto the cooling pipe while aligning the injection pipe on the cooling pipe.

Description

JIG FOR REFRIGERANT MANIFOLD}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a coolant manifold jig, and more particularly to a coolant manifold jig having improved coupling between a battery module and a coolant manifold.

Generally, a battery module includes a plurality of plate-shaped battery cells, a module case in which the battery cells are arranged in a multi-layered state, and a cooling member provided between the battery cells to cool the battery cells. The cooling member is composed of a heat radiating plate contacting the interface of the battery cell and a refrigerant pipe circulating the refrigerant to the heat radiating plate.

Here, the coolant manifold for supplying the coolant is coupled to the coolant. That is, the refrigerant is supplied to the cooling member by combining the multi-layer refrigerant pipe provided in the cooling member and the multi-layer injection pipe provided in the refrigerant manifold.

Patent Publication No. 10-2013-0113740

The battery module according to the prior art has a problem that the cooling member and the refrigerant manifold are manually coupled to each other and the refrigerant tube of the multiple layers and the whole injection tube of the multiple layers can not be connected at the same time so that they are not properly coupled or broken.

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems described above, and it is an object of the present invention to provide a refrigerant pipe which can be combined with a multi- Fold jig.

As a means for solving the above problems, the refrigerant manifold jig of the present invention is for simultaneously joining a refrigerant manifold having a multi-layered injection tube to a multi-layered cooling tube provided in a battery module, A jig main body in which a coolant manifold is fixed to the jig main body; And a pressing member for pressing the jig main body so that the refrigerant manifold is mounted on the cooling pipe in a state where the injection tube is aligned on the cooling tube.

Wherein the pressing member includes a pair of lever portions rotatably mounted at both ends of the jig body and a latch portion having one end fixed to the battery module and the other end fixed to the lever portion, The battery module may be moved in a direction close to the jig body or in a direction away from the jig body along the rotation direction of the lever portion.

And the other end of the latching portion may be rotatably installed in the lever portion.

The other end of the latching portion may have a ring shape so as to be caught and fixed to a side portion of the battery module.

Wherein the latching portion includes a first latching piece fixed to the battery module and a second latching piece provided on the lever portion, the first and second latching pieces being movably coupled in the longitudinal direction, , It can be fixed so as not to be moved by the tightening force of the tightening piece.

The jig body may be formed with a fixing groove through which the refrigerant manifold is inserted and fixed.

The battery module includes a battery cell, a module case in which the battery cells are stacked in a multilayer, a heat sink mounted between the battery cells, and a coolant pipe for supplying coolant to the heat sink, And both end portions thereof may be formed with a locking protrusion which is engaged with the locking portion.

According to the present invention, by using the coolant manifold jig, it is possible to simultaneously couple the multi-layered cooling tube provided in the battery module and the multi-layered injection tube provided in the coolant manifold, and further, There is an effect.

1 is a front perspective view showing a battery module and a refrigerant manifold jig according to the present invention.
2 is a rear perspective view illustrating a battery module and a refrigerant manifold jig according to the present invention.
3 is a plan view showing a battery module and a refrigerant manifold jig according to the present invention.
4 is a perspective view illustrating a refrigerant manifold jig according to the present invention.
5 is a sectional view showing a refrigerant manifold jig according to the present invention.
6 is a cross-sectional view showing another embodiment of the fastening portion in the refrigerant manifold jig according to the present invention.
7 to 9 are views showing a state of use of the refrigerant manifold jig according to the present invention, FIG. 7 is a view showing a state where a refrigerant manifold is mounted on a refrigerant manifold jig, FIG. 9 is a view showing a state after the battery module and the refrigerant manifold jig are coupled. FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Referring to FIGS. 1 to 3, the battery module 100 includes a plurality of plate-shaped battery cells (not shown), a plurality of plate- And a cooling member 130 provided between the battery cells to cool the battery cells. The module case 120 includes a plurality of battery cells (not shown). The cooling member 130 is composed of a heat radiating plate 131 contacting the interface of the battery cell and a refrigerant pipe 132 circulating the refrigerant in the heat radiating plate 131.

The refrigerant pipe 132 of the cooling member 130 is coupled to the refrigerant manifold 200 that supplies the refrigerant or recovers the refrigerant supplied to the cooling member 130.

1 to 3, the refrigerant manifold 200 according to the present invention includes an inlet space (not shown) through which a refrigerant flows, and a refrigerant pipe 132 communicating with the inlet space on one side, A plurality of injection pipes 210 are formed.

The refrigerant manifold 200 includes a multilayer cooling tube 132 provided in the battery module 100 and a multi-layer injection tube 210 provided in the refrigerant manifold 200 when the refrigerant manifold 200 is coupled to the battery module 100. [ The refrigerant manifold jig 300 is used to simultaneously couple the refrigerant manifold 300 and the refrigerant manifold 300 to each other.

1 to 3, the coolant manifold jig 300 includes a jig body 310 to which the coolant manifold 200 is fixed with the injection tube 210 facing outward, and a cooling tube And a pressing member 320 for pressing the jig main body 310 such that the injection tube 210 of the coolant manifold 200 is coupled to the cooling tube 132 in a state where the jig main body 310 is aligned on the cooling tube 132.

That is, the refrigerant manifold jig 300 pressurizes the refrigerant manifold 200 toward the battery module 100 through the pressure member 320, and the refrigerant manifold 200 is provided with a multi-layer injection tube 210 Can be pressed by the same force, so that the injection tube 210 of multiple layers and the cooling tube 132 of multiple layers can be joined at the same time.

4 and 5, the jig main body 310 has a fixing groove 311 through which a pair of refrigerant manifolds 200 are inserted and fixed on one surface of the jig main body 310 facing the battery module 100, The fixing groove 311 may further include supporting means (not shown) for stably supporting the refrigerant manifold 200.

The jig main body 310 fixes the refrigerant manifold 200 and uniformly pressurizes the entire refrigerant manifold 310 through the force transmitted from the pressing member 320 so that the inflow pipe 210 of the multi- And the cooling pipe 132 of the multi-layered structure.

The pressing member 320 includes a pair of lever portions 321 which are vertically rotatably mounted at both ends of the jig main body 310 as viewed in Fig. And a latching part 322 provided at the other end of the lever part 321.

Here, the latching portion 322 is rotatably installed on the lever portion 321, and can be rotated and fixed according to the battery module 100 having various sizes.

In addition, one end of the latching part 322 may have a ring shape, and may be stably fixed to the end of the battery module 100. [ In the meantime, although the annular engaging portion has been described as one embodiment in the present embodiment, it can be changed into various forms according to the shape of the end of the battery module.

On both sides of the heat dissipating plate 131, a stopping protrusion 131a may be formed to fix one end of the stopping part 322 and a one end of the annular stopping part 322 may be stably fixed through the stopping protrusion 131a. As shown in FIG.

Meanwhile, the latching part 322 may be provided to be adjustable in length in another embodiment.

6, the latching portion 322 'according to the present embodiment includes a first latching piece 322a that is fixed to the battery module 100 and a second latching piece 322b that is provided to the lever portion 321 And the first and second retaining pieces 322a and 322b are movably coupled in the longitudinal direction while being fixed by the tightening force of the tightening piece 322c .

In other words, the latching portion 322 'according to the present embodiment is configured such that the first latching piece 322a is pulled out or drawn in from the second latching piece 322b in a state in which the fastening piece 322c is unfastened, And then the first and second latching pieces 322a and 322b are fixed immovably according to the tightening of the tightening piece 322c.

Accordingly, the battery module 100 or the refrigerant manifold 200 having various shapes and shapes can be used interchangeably by adjusting the length of the latching portion 332 '. The length of the latching part 320 may be adjusted to prevent the refrigerant manifold 200 from being excessively pressed against the battery module 100 by the pressing member 300. [

Therefore, the refrigerant manifold jig according to the present invention can simultaneously couple the multi-layered cooling tube 132 provided in the battery module 100 and the multi-layered injection tube 210 provided in the refrigerant manifold 200, Workability can be improved.

Hereinafter, the use state of the refrigerant manifold jig according to the present invention will be described in detail with reference to the accompanying drawings.

7, the refrigerant manifold 200 is fixed to the fixing groove 311 formed in the jig main body 310 of the refrigerant manifold jig 300 with the injection tube 210 facing outward .

8, the refrigerant manifold 200 fixed to the refrigerant manifold jig 300 is disposed so as to face the refrigerant tube 132 of the battery module 100, and the refrigerant manifold 200 Layer injection pipe 210 provided in the battery module 200 and the multiple-layer refrigerant pipe 132 provided in the battery module 100 are connected to each other. In this state, the lever portion 321 of the pressing member 320 is rotated toward the battery module 100, and one end portion of the hook-shaped hook portion 322 is hooked on the end portion of the battery module 100 131a.

9, the lever portion 321 of the pressing member 320 is moved in a direction away from the jig main body 310 while the lever portion 321 is moved, Layer injection pipe 210 provided in the refrigerant manifold 200 fixed to the jig main body 310 is pushed toward the battery module 100 at the same time by the same force And can be coupled to the multiple-layer refrigerant pipe 132 provided in the battery module 100 according to the pressure.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: Battery module
120: Module case
130: cooling member
131: Heat sink
131a:
132: Refrigerant pipe
200: Refrigerant manifold
300: Refrigerant manifold jig
310: jig body
311: Fixing groove
320: pressing member
321:
322:
322a:
322b:
322c:

Claims (7)

A refrigerant manifold jig for simultaneously coupling a refrigerant manifold having a plurality of infusion tubes to a multilayer refrigerating tube provided in a battery module,
A jig main body in which the refrigerant manifold is fixed with the injection tube facing outward; And
And a pressing member for pressing the jig body so that the refrigerant manifold is mounted on the cooling tube in a state where the injection tube is aligned on the cooling tube. The method according to claim 1,
Wherein the pressing member includes a pair of lever portions rotatably provided at both ends of the jig body and a latch portion having one end fixed to the battery module and the other end fixed to the lever portion,
Wherein the battery module fixed to the latching part moves in a direction close to the jig body or in a direction moving away from the jig body along the rotation direction of the lever part. The method of claim 2,
And the other end of the latching portion is rotatably installed in the lever portion. The method of claim 2,
And the other end of the latching portion is hooked to a side portion of the battery module to be fixed. The method of claim 2,
Wherein the latching portion includes a first latching piece fixed to the battery module and a second latching piece provided on the lever portion,
Wherein the first and second latching pieces are movably coupled in the longitudinal direction and are fixed so as not to be moved by the tightening force of the tightening piece. The method according to claim 1,
Wherein the jig body is formed with a fixing groove in which the refrigerant manifold is inserted and fixed. The method of claim 2,
The battery module includes a battery cell, a module case in which the battery cells are stacked in a multilayer, a heat sink mounted between the battery cells, and a refrigerant pipe for supplying refrigerant to the heat sink,
Wherein a cooling step is formed at both ends of the heat radiating plate on which the refrigerant pipe is located, and a latching jaw is formed in which the latching portion is caught and fixed.

Images