CN204577518U - Overflow for cell package the shaping end socket of glue shaping - Google Patents

Abstract

The utility model provides a kind of shaping end socket of glue shaping of overflowing for cell package, and it comprises: upper interlayer insulating layer, in the T-shaped with vertical portion and horizontal part; First shaping end socket, is fixedly installed on the side of the vertical portion of the T-shaped of interlayer insulating layer, is provided with the first shaping groove; Second shaping end socket, is fixedly installed on the opposite side of the vertical portion of the T-shaped of interlayer insulating layer, is provided with the second shaping groove; Upper temperature control calandria, is fixedly installed on the side of the horizontal part of the T-shaped of interlayer insulating layer; Upper motion cylinder, temperature control calandria in connection; Lower interlayer insulating layer, in the inverted T-shaped with vertical portion and horizontal part; First shaping thickness guide vane end stop, arranged outside has the first protuberance, is provided with the first spacing recess; Second shaping thickness guide vane end stop, arranged outside has the second protuberance, is provided with the second spacing recess; Lower temperature control calandria, is fixedly installed on the side of the horizontal part of the inverted T-shaped of lower interlayer insulating layer; Lower motion cylinder, connects lower temperature control calandria.

Description

Overflow for cell package the shaping end socket of glue shaping

Technical field

The utility model relates to cell package field, particularly relates to a kind of shaping end socket of glue shaping of overflowing for cell package.

Background technology

Fig. 1 be existing for cell package overflow the simple integral type shaping end socket of glue shaping use time stereogram.

Fig. 2 be existing for cell package overflow glue shaping Split type shaping end socket use time stereogram.

Soft pack cell is when High-temperature Packaging; the excessive glue that polypropylene in the fluid sealant of both positive and negative polarity lug position and aluminum plastic film produces when melting can be deposited in the first lug 91 of battery 9 and the adjacent edges of the second lug 92; the excessive glue forming bell mouth shape is protruding; it can destroy the thickness evenness on the encapsulation limit 91 of battery 9, and then affects the assembling process such as the welding of follow-up baffle, the stickup of gummed paper of battery.

For improving the bad impact on rubberizing and baffle welding of evenness that excessive glue causes, the good excessive glue projection of metal end enclosure to the first lug 91 place of battery 9 and the second lug 92 place of industrial normal use thermal conductivity carries out secondary low temperature and pressure Shape correction.Shaping end socket needed for this process mainly can be divided into Split type shaping end socket (with reference to Fig. 2) and simple integral type shaping end socket (with reference to Fig. 1) two kinds.Wherein, with reference to Fig. 2, existing split type shaping end socket is made up of two that are positioned at above the first shaping end socket 2 and the second shaping end socket 3 upper temperature control calandrias 4 and two the lower temperature control calandrias 8 be positioned at below the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7, effectively can avoid the short circuit between the first lug 91 of battery 9 and the second lug 92 like this, but its complex structure, cost is higher.And in existing simple integral type end socket, with reference to Fig. 1, first shaping end socket 2 and the second shaping end socket 3 are integrated, first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 are integrated, above first shaping end socket 2 and the second shaping end socket 3, a upper temperature control calandria 4 is only set, below first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7, a lower temperature control calandria 8 is only set, its structure is simple, but because metal shaping end socket has good conductivity, be very easy to cause the short circuit between the first lug 91 of battery 9 and the second lug 92.

Utility model content

In view of Problems existing in background technology, the purpose of this utility model is the shaping end socket providing a kind of glue shaping of overflowing for cell package, and it can avoid the short circuit between the first lug of battery and the second lug.

Another object of the present utility model is the shaping end socket providing a kind of glue shaping of overflowing for cell package, and its structure is simple, with low cost.

To achieve these goals, the utility model provides a kind of shaping end socket of glue shaping of overflowing for cell package, and it comprises: upper interlayer insulating layer, in the T-shaped with vertical portion and horizontal part; First shaping end socket, is fixedly installed on the side of the vertical portion of the T-shaped of interlayer insulating layer, is provided with the first shaping groove; Second shaping end socket, is fixedly installed on the opposite side of the vertical portion of the T-shaped of interlayer insulating layer, is provided with the second shaping groove; Upper temperature control calandria, is fixedly installed on the side of the horizontal part of the T-shaped of interlayer insulating layer, provides heat and heats the first shaping end socket and the second shaping end socket via upper interlayer insulating layer; Upper motion cylinder, temperature control calandria in connection, provides temperature control calandria in power drive to move downward and then drives the first shaping end socket and the second shaping end socket to move downward via upper interlayer insulating layer; Lower interlayer insulating layer, in the inverted T-shaped with vertical portion and horizontal part; First shaping thickness guide vane end stop, arranged outside has the first protuberance, and corresponding first shaping end socket is fixedly installed on the side of the vertical portion of the inverted T-shaped of lower interlayer insulating layer, is provided with the first spacing recess relative with the first shaping groove; Second shaping thickness guide vane end stop, arranged outside has the second protuberance flushed with the first protuberance, and corresponding second shaping end socket is fixedly installed on the opposite side of the vertical portion of the inverted T-shaped of lower interlayer insulating layer, is provided with the second spacing recess relative with the second shaping groove; Lower temperature control calandria, is fixedly installed on the side of the horizontal part of the inverted T-shaped of lower interlayer insulating layer, provides heat and heats the first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop via lower interlayer insulating layer; Lower motion cylinder, connect lower temperature control calandria, under providing power drive, temperature control calandria moves upward and then drives the first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop to move upward via lower interlayer insulating layer.In the reforming process of battery, upper temperature control calandria provides heat and heats the first shaping end socket and the second shaping end socket via upper interlayer insulating layer, lower temperature control calandria provides heat and heats the first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop via lower interlayer insulating layer, the encapsulation limit of battery is in the first shaping end socket and the first shaping thickness guide vane end stop, second shaping end socket and the second shaping thickness guide vane end stop, and first in space between protuberance and the second protuberance, the first lug being positioned at the encapsulation limit place of battery is in the space of the first shaping groove of the first shaping end socket and the first spacing recess formation of the first shaping thickness guide vane end stop, the second lug being positioned at the encapsulation limit place of battery is in the space of the second shaping groove of the second shaping end socket and the second spacing recess formation of the second shaping thickness guide vane end stop, at least one in upper motion cylinder and lower motion cylinder drives, with make the first shaping end socket first shaping thickness guide vane end stop relative to the second shaping end socket and the second shaping thickness guide vane end stop along the first protuberance by abutting first shaping end socket and the second protuberance is moved in the direction of abutting second shaping end socket, carrying out hot pressing to make the first shaping end socket and the second shaping end socket and the first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop to the excessive glue that being positioned at of producing in cell package process encapsulates the first lug on limit and the second lug place makes excessive glue at the first shaping end socket and the first shaping thickness guide vane end stop, second shaping end socket and the second shaping thickness guide vane end stop, and first flowing in space between protuberance and the second protuberance and being shaped, until the first protuberance abut the first shaping end socket and the second protuberance abuts the second shaping end socket time, glue shaping of overflowing terminates thus excessive glue is leveled.

The beneficial effects of the utility model are as follows:

First shaping end socket and the interlayer insulating layer that is combined through between the second shaping end socket and upper temperature control calandria realize.Wherein, first shaping end socket and the second shaping end socket are insulated by the vertical portion of the T-shaped of upper interlayer insulating layer, thus avoid the first shaping end socket directly to contact conduction with the second shaping end socket, first shaping end socket and the second shaping end socket are insulated by the horizontal part of the T-shaped of upper interlayer insulating layer and upper temperature control calandria, thus avoid the first shaping end socket and the second shaping end socket to contact with upper temperature control calandria conducting electricity, thus the insulation thoroughly realized between the first shaping end socket and the second shaping end socket, first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop are insulated by the vertical portion of the inverted T-shaped of lower interlayer insulating layer, thus avoid the first shaping thickness guide vane end stop directly to contact conduction with the second shaping thickness guide vane end stop, first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop are insulated by the horizontal part of the inverted T-shaped of lower interlayer insulating layer and lower temperature control calandria, thus avoid the first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop to contact with lower temperature control calandria conducting electricity, thus the insulation thoroughly realized between the first shaping thickness guide vane end stop and the second shaping thickness guide vane end stop, above-mentioned two kinds of short circuits of effectively having stopped between the first lug of battery and the second lug of insulating thus.Structure of the present invention is simple, with low cost, can be directly used in the Shape correction of the first lug of charged battery and the excessive glue at the second lug place.Efficiently solve the problem of existing Split type shaping end enclosure structure complexity, high expensive, also solve the problem that existing simple integral type shaping end socket easily causes short circuit between the first lug of battery and the second lug.

Accompanying drawing explanation

Fig. 1 be existing for cell package overflow the simple integral type shaping end socket of glue shaping use time stereogram;

Fig. 2 for existing for cell package overflow glue shaping Split type shaping end socket use time stereogram;

Fig. 3 be according to of the present utility model for cell package overflow glue shaping shaping end socket use time stereogram;

Fig. 4 is the exploded view of shaping end socket of the glue shaping of overflowing for cell package of Fig. 3.

Wherein, description of reference numerals is as follows:

Interlayer insulating layer 6 first shaping thickness guide vane end stop on 1

11 vertical portion 61 first protuberances

The spacing recess of 12 horizontal part 62 first

2 first shaping end socket 7 second shaping thickness guide vane end stops

21 first shaping groove 71 second protuberances

The spacing recess of 3 second shaping end socket 72 second

31 second shaping groove 8 times temperature control calandrias

Temperature control calandria 9 battery on 4

5 times interlayer insulating layer 91 encapsulates limit

51 vertical portion 92 first lugs

52 horizontal part 93 second lugs

Embodiment

Describe the shaping end socket according to glue shaping of overflowing for cell package of the present utility model with reference to the accompanying drawings in detail.

With reference to Fig. 3 and Fig. 4, comprise for the overflow shaping end socket of glue shaping of cell package according to of the present utility model: upper interlayer insulating layer 1, in the T-shaped with vertical portion 11 and horizontal part 12; First shaping end socket 2, is fixedly installed on the side of the vertical portion 11 of the T-shaped of interlayer insulating layer 1, is provided with the first shaping groove 21; Second shaping end socket 3, is fixedly installed on the opposite side of the vertical portion 11 of the T-shaped of interlayer insulating layer 1, is provided with the second shaping groove 31; Upper temperature control calandria 4, is fixedly installed on the side of the horizontal part 11 of the T-shaped of interlayer insulating layer 1, provides heat and heats the first shaping end socket 2 and the second shaping end socket 3 via upper interlayer insulating layer 1; Upper motion cylinder (not shown), temperature control calandria 4 in connection, provides temperature control calandria 4 in power drive to move downward and then drives the first shaping end socket 2 and the second shaping end socket 3 to move downward via upper interlayer insulating layer 1; Lower interlayer insulating layer 5, in the inverted T-shaped with vertical portion 51 and horizontal part 52; First shaping thickness guide vane end stop 6, arranged outside has the first protuberance 61, and corresponding first shaping end socket 2 is fixedly installed on the side of the vertical portion 51 of the inverted T-shaped of lower interlayer insulating layer 5, is provided with the first spacing recess 62 relative with the first shaping groove 21; Second shaping thickness guide vane end stop 7, arranged outside has the second protuberance 71 flushed with the first protuberance 61, corresponding second shaping end socket 3 is fixedly installed on the opposite side of the vertical portion 51 of the inverted T-shaped of lower interlayer insulating layer 5, is provided with the second spacing recess 72 relative with the second shaping groove 31; Lower temperature control calandria 8, is fixedly installed on the side of the horizontal part 52 of the inverted T-shaped of lower interlayer insulating layer 5, provides heat and heats the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 via lower interlayer insulating layer 5; Lower motion cylinder (not shown), connect lower temperature control calandria 8, under providing power drive, temperature control calandria 8 moves upward and then drives the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 to move upward via lower interlayer insulating layer 5.In the reforming process of battery 9, upper temperature control calandria 4 provides heat and heats the first shaping end socket 2 and the second shaping end socket 3 via upper interlayer insulating layer 1, lower temperature control calandria 8 provides heat and heats the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 via lower interlayer insulating layer 5, the encapsulation limit 91 of battery 9 is in the first shaping end socket 2 and the first shaping thickness guide vane end stop 6, second shaping end socket 3 and the second shaping thickness guide vane end stop 7, and first in space between protuberance 61 and the second protuberance 71, the first lug 92 being positioned at encapsulation limit 91 place of battery 9 is in the space of the first shaping groove 21 of the first shaping end socket 2 and the first spacing recess 62 formation of the first shaping thickness guide vane end stop 6, the second lug 93 being positioned at encapsulation limit 91 place of battery 9 is in the space of the second shaping groove 31 of the second shaping end socket 3 and the second spacing recess 72 formation of the second shaping thickness guide vane end stop 7, at least one in upper motion cylinder and lower motion cylinder drives, with make the first shaping end socket 2 first shaping thickness guide vane end stop 6 relative to the second shaping end socket 3 and the second shaping thickness guide vane end stop 7 along the first protuberance 61 by abutting first shaping end socket 2 and the second protuberance 71 is moved in the direction of abutting second shaping end socket 3, the excessive glue encapsulating the first lug 92 on limit 91 and the second lug 93 place with being positioned at of making to produce in the first shaping end socket 2 and the second shaping end socket 3 and the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 pairs of battery 9 encapsulation processs carries out hot pressing makes excessive glue at the first shaping end socket 2 and the first shaping thickness guide vane end stop 6, second shaping end socket 3 and the second shaping thickness guide vane end stop 7, and first flowing in space between protuberance 61 and the second protuberance 71 and being shaped, until the first protuberance 61 abut the first shaping end socket 2 and the second protuberance 71 abuts the second shaping end socket 3 time, glue shaping of overflowing terminates thus excessive glue is leveled.It should be noted that at this, first protuberance 61 and the second protuberance 71 for controlling the integral thickness of the first lug 92 of battery 9 and the excessive glue leveling at the second lug 93 place, thus prevent the first lug 92 of battery 9 and the excessive glue at the second lug 93 place from being caused the problem such as the first lug 92 and the second lug 93 is out of shape, fracture by excessive shaping.First shaping groove 21 and the first spacing recess 62 and the second shaping groove 31 and the second spacing recess 72 are further used for controlling the thickness of the shaping of the first lug 92 of battery 9 and the excessive glue at the second lug 93 place respectively.Also it should be noted that, due to produce in battery 9 encapsulation process be positioned at the first lug 92 on encapsulation limit 91 and the excessive glue at the second lug 93 place has multiple situation in practical situations both, for the first lug 92 place and with reference to Fig. 3, when the excessive glue at the first lug 92 place is very large on the above-below direction of Fig. 1, flow to the left and right directions of the first shaping groove 21 of Fig. 1 and the first spacing recess 62 when excessive glue is shaped, fill full first shaping groove 21 and the first spacing recess 62 simultaneously, when the excessive glue at the first lug 92 place is not very large on the above-below direction of Fig. 1, excessive glue may only flow in the first shaping groove 21 and the first spacing recess 62, and be finally filled in the first shaping groove 21 and the first spacing recess 62, under both of these case, when the first protuberance 61 abuts the first shaping end socket 2 and the second protuberance 71 abuts the second shaping end socket 3, glue shaping of overflowing terminates thus excessive glue is leveled.

First shaping end socket 2 and the interlayer insulating layer 1 that is combined through between the second shaping end socket 3 and upper temperature control calandria 4 realize, and under the first shaping thickness guide vane end stop 6 and being combined through between the second shaping thickness guide vane end stop 7 and lower temperature control calandria 8, interlayer insulating layer 5 realizes.Wherein, first shaping end socket 2 and the second shaping end socket 3 are insulated by the vertical portion 11 of the T-shaped of upper interlayer insulating layer 1, thus avoid the first shaping end socket 2 directly to contact conduction with the second shaping end socket 3, first shaping end socket 2 and the second shaping end socket 3 are insulated with upper temperature control calandria 4 by the horizontal part 12 of the T-shaped of upper interlayer insulating layer 1, thus avoid the first shaping end socket 2 and the second shaping end socket 3 to contact with upper temperature control calandria 4 conducting electricity, thus the insulation thoroughly realized between the first shaping end socket 2 and the second shaping end socket 3, first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 are insulated by the vertical portion 51 of the inverted T-shaped of lower interlayer insulating layer 5, thus avoid the first shaping thickness guide vane end stop 6 directly to contact conduction with the second shaping thickness guide vane end stop 7, first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 are insulated with lower temperature control calandria 8 by the horizontal part 52 of the inverted T-shaped of lower interlayer insulating layer 5, thus avoid the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 to contact with lower temperature control calandria 8 conducting electricity, thus the insulation thoroughly realized between the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7, above-mentioned two kinds of short circuits of effectively having stopped between the first lug 92 of battery 9 and the second lug 93 of insulating thus.Structure of the present invention is simple, with low cost, can be directly used in the Shape correction of the first lug 92 of charged battery 9 and the excessive glue at the second lug 93 place.Efficiently solve the problem of existing Split type shaping end enclosure structure complexity, high expensive, also solve the problem that existing simple integral type shaping end socket easily causes short circuit between the first lug 92 of battery 9 and the second lug 93.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, described battery 9 is flexible-packed battery.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, the material of the first shaping end socket 2 can be metal; The material of the second shaping end socket 3 can be metal.In one embodiment, metal can be copper or iron.Thus, the first shaping end socket 2 and the second advantage that shaping end socket 3 is cheap, easy to process, temperature homogeneity is good can be kept.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, the material of upper interlayer insulating layer 1 can be Teflon, pottery or the one in the metal material of surface oxidation treatment, plating, spray insulation paint; The material of lower interlayer insulating layer 5 can be Teflon, pottery or the one in the metal material of surface oxidation treatment, plating, spray insulation paint.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, the thickness of upper interlayer insulating layer 1 can be less than 3mm.Thus, thermal conductivity good between temperature control calandria 4 and the first shaping end socket 2 and the second shaping end socket 3 can be ensured.In another embodiment, the thickness of lower interlayer insulating layer 5 can be less than 3mm.Thus, thermal conductivity good between lower temperature control calandria 8 and the first shaping thickness guide vane end stop 6 and the second shaping thickness guide vane end stop 7 can be ensured.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, the material of upper temperature control calandria 4 can be copper or iron; The material of lower temperature control calandria 8 can be copper or iron.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, the first shaping end socket 2 is fixedly installed on interlayer insulating layer 1 by be spirally connected (such as, adopting the metal screws of surface insulation); Second shaping end socket 3 is fixedly installed on interlayer insulating layer 1 by be spirally connected (such as, adopting the metal screws of surface insulation).

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, the first shaping end socket 2 is fixedly installed on upper interlayer insulating layer 1 by buckle (such as, by ceramic snap); Second shaping end socket 3 is fixedly installed on upper interlayer insulating layer 1 by buckle (such as, by ceramic snap).

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, upper temperature control calandria 4 and upper motion cylinder can be integral type.

In an embodiment of the shaping end socket according to glue shaping of overflowing for cell package of the present utility model, lower temperature control calandria 8 and lower motion cylinder are integral type.

Claims (10)

1. overflow for cell package the shaping end socket of glue shaping, it is characterized in that, comprising:

Upper interlayer insulating layer (1), in the T-shaped with vertical portion (11) and horizontal part (12);

First shaping end socket (2), is fixedly installed on the side of the vertical portion (11) of the T-shaped of interlayer insulating layer (1), is provided with the first shaping groove (21);

Second shaping end socket (3), is fixedly installed on the opposite side of the vertical portion (12) of the T-shaped of interlayer insulating layer (1), is provided with the second shaping groove (31);

Upper temperature control calandria (4), be fixedly installed on the side of the horizontal part (12) of the T-shaped of interlayer insulating layer (1), heat be provided and heat the first shaping end socket (2) and the second shaping end socket (3) via upper interlayer insulating layer (1);

Upper motion cylinder, temperature control calandria (4) in connection, provides temperature control calandria (4) in power drive to move downward and then drives the first shaping end socket (2) and the second shaping end socket (3) to move downward via upper interlayer insulating layer (1);

Lower interlayer insulating layer (5), in the inverted T-shaped with vertical portion (51) and horizontal part (52);

First shaping thickness guide vane end stop (6), arranged outside has the first protuberance (61), corresponding first shaping end socket (2) is fixedly installed on the side of the vertical portion (51) of the inverted T-shaped of lower interlayer insulating layer (5), is provided with the first spacing recess (62) relative with the first shaping groove (21);

Second shaping thickness guide vane end stop (7), arranged outside has the second protuberance (71) flushed with the first protuberance (61), corresponding second shaping end socket (3) is fixedly installed on the opposite side of the vertical portion (51) of the inverted T-shaped of lower interlayer insulating layer (5), is provided with the second spacing recess (72) relative with the second shaping groove (31);

Lower temperature control calandria (8), be fixedly installed on the side of the horizontal part (52) of the inverted T-shaped of lower interlayer insulating layer (5), heat be provided and heat the first shaping thickness guide vane end stop (6) and the second shaping thickness guide vane end stop (7) via lower interlayer insulating layer (5);

Lower motion cylinder, connect lower temperature control calandria (8), under providing power drive, temperature control calandria (8) moves upward and then drives the first shaping thickness guide vane end stop (6) and the second shaping thickness guide vane end stop (7) to move upward via lower interlayer insulating layer (5);

In the reforming process of battery (9), upper temperature control calandria (4) provides heat and heats the first shaping end socket (2) and the second shaping end socket (3) via upper interlayer insulating layer (1), lower temperature control calandria (8) provides heat and heats the first shaping thickness guide vane end stop (6) and the second shaping thickness guide vane end stop (7) via lower interlayer insulating layer (5), the encapsulation limit (91) of battery (9) is in the first shaping end socket (2) and the first shaping thickness guide vane end stop (6), second shaping end socket (3) and the second shaping thickness guide vane end stop (7), and first in space between protuberance (61) and the second protuberance (71), the space that first spacing recess (62) of the first shaping groove (21) and the first shaping thickness guide vane end stop (6) that the first lug (92) being positioned at encapsulation limit (91) place of battery (9) is in the first shaping end socket (2) is formed, the space that second spacing recess (72) of the second shaping groove (31) and the second shaping thickness guide vane end stop (7) that the second lug (93) being positioned at encapsulation limit (91) place of battery (9) is in the second shaping end socket (3) is formed, at least one in upper motion cylinder and lower motion cylinder drives, with make the first shaping end socket (2) first shaping thickness guide vane end stop (6) relative to the second shaping end socket (3) and the second shaping thickness guide vane end stop (7) along the first protuberance (61) by abutting first shaping end socket (2) and the second protuberance (71) is moved in the direction of abutting second shaping end socket (3), to make the first shaping end socket (2) and the second shaping end socket (3) and the first shaping thickness guide vane end stop (6) and the second shaping thickness guide vane end stop (7), the excessive glue that being positioned at of producing in battery (9) encapsulation process encapsulates the first lug (92) on limit (91) and the second lug (93) place is carried out to hot pressing and makes excessive glue at the first shaping end socket (2) and the first shaping thickness guide vane end stop (6), second shaping end socket (3) and the second shaping thickness guide vane end stop (7), and first flowing in space between protuberance (61) and the second protuberance (71) and being shaped, until the first protuberance (61) abut the first shaping end socket (2) and the second protuberance (71) abuts second shaping end socket (3) time, glue shaping of overflowing terminates thus excessive glue is leveled.

2. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, is characterized in that,

The material of the first shaping end socket (2) is metal;

The material of the second shaping end socket (3) is metal.

3. the shaping end socket of glue shaping of overflowing for cell package according to claim 2, it is characterized in that, metal is copper or iron.

4. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, is characterized in that,

The material of upper interlayer insulating layer (1) is Teflon, pottery or the one in the metal material of surface oxidation treatment, plating, spray insulation paint;

The material of lower interlayer insulating layer (5) is Teflon, pottery or the one in the metal material of surface oxidation treatment, plating, spray insulation paint.

5. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, is characterized in that,

The thickness of upper interlayer insulating layer (1) is less than 3mm;

The thickness of lower interlayer insulating layer (5) is less than 3mm.

6. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, is characterized in that,

The material of upper temperature control calandria (4) is copper or iron;

The material of lower temperature control calandria (8) is copper or iron.

7. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, is characterized in that,

First shaping end socket (2) is fixedly installed on upper interlayer insulating layer (1) by being spirally connected;

Second shaping end socket (3) is fixedly installed on upper interlayer insulating layer (1) by being spirally connected.

8. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, is characterized in that,

First shaping end socket (2) is fixed by snap is arranged at interlayer insulating layer (1);

Second shaping end socket (3) is fixed by snap is arranged at interlayer insulating layer (1).

9. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, it is characterized in that, upper temperature control calandria (4) and upper motion cylinder are integral type.

10. the shaping end socket of glue shaping of overflowing for cell package according to claim 1, it is characterized in that, lower temperature control calandria (8) and lower motion cylinder are integral type.