CN201219118Y - Pole group fixing clamper for assembling battery - Google Patents

Abstract

A polar group fixing jig for assembling polar group in battery comprises a frame; multiple shaft levers, mounted in the frame; a fixed type partition plate, fixedly mounting at middle of shaft lever; multiple movable partition plate, separately positioned beside the fixed type partition plate and mounted on the shaft lever; multiple movable handle, mounted on the frame; multiple cold forging extrusion, separately mounted on every movable handle; when the movable handle is disposed at position of assembled polar group, every movable handle drives a cold forging extrusion to extrude the rectangular cam shaft of cold forging extrusion on movable partition board.

Description

The utmost point group stationary fixture that assembled battery is used

Technical field

The utility model relates to the utmost point group stationary fixture that a kind of assembled battery is used, the utmost point group's who is made up of a plurality of pole plates and glass fibre when particularly relating to a kind of assembled battery utmost point group stationary fixture.

Background technology

Traditional battery is made up of battery body and battery cover, and dividing plate is set to form a plurality of unit in the battery case of battery body.In each unit, be provided with the utmost point group who forms by pole plate and glass fibre, as Figure 1A for the schematic diagram of a plurality of utmost point groups in the known battery case and Figure 1B for shown in the known single utmost point group's who forms by pole plate and glass fibre the schematic diagram.In these two figure, each utmost point group 10 is spaced apart with a plurality of pole plate 12 by glass fibre 14, to increase the conductive area of each pole plate 12.

Because when a plurality of pole plates 12 were formed one group of utmost point group 10 with glass fibre 14, glass fibre 14 was fluffy material, the volume that has therefore just begun formed utmost point group 10 is bigger.In order utmost point group 10 to be put into narrow and small unit, battery case space, must be through the program of overcompression to push this group utmost point group 10, glass fibre 14 extruding of fluffy state will be among the utmost point group 10, make glass fibre 14 be flat and thin, and then make utmost point group 10 volume-diminished, insert in the described unit with utmost point group 10 volume-diminished.

Extruding utmost point group 10 device such as Fig. 2 A, the schematic diagram when being opening for known utmost point group stationary fixture, and Fig. 2 B is the schematic diagram of known utmost point group stationary fixture when being compressive state.

In these figure, a fixed dividing plate 22 in the utmost point group stationary fixture 20 is installed in respectively on a plurality of axostylus axostyles 26 with a plurality of movable mode clapboards 24, these dividing plates form a plurality of utmost point group placement spaces 28, insert respectively in these utmost points group placement space 28 and will organize the utmost point group 10 that wherein glass fibre 14 is puffy more.

In the time need pushing a plurality of utmost point group 10 with the glass fibre 14 that is puffy by utmost point group stationary fixture 20, pull flexible handle 30 and drive extrusion 32, extrusion 32 through driving can the application of force push outermost movable mode clapboard 24, this movable mode clapboard 24 moves on axostylus axostyle 26 through extruding, suffered extruding force can be passed to successively each group utmost point group 10 and other movable mode clapboard 24, extruding force can be passed to fixed dividing plate 22 at last through each group utmost point group 10 of extruding and through other stressed and mobile movable mode clapboards 24, extruding force is pushed the glass fibre 14 that is puffy among the utmost point group 10 whereby, and dwindles each group utmost point group's 10 volume.

Yet, known utmost point group stationary fixture 20 can produce some problems in the use, for example, movably length is just long more on axostylus axostyle 26 for fixed distance formula dividing plate 22 movable mode clapboards 24 far away more, therefore, utmost point group stationary fixture 20 is when being opening, the long more movable mode clapboard 24 of removable length is easy more on axostylus axostyle 26 to present irregular arrangement, and make that the utmost point group placement space 28 between the movable mode clapboard 24 is not of uniform size, quite inconvenient when causing the staff in utmost point group 10 being inserted utmost point group placement space 28 not of uniform size.

In addition, utmost point group stationary fixture 20 is when being compressive state, because utmost point group stationary fixture 20 is by the monolateral extruding force that applies, therefore the utmost point group 10 suffered extruding forces near outermost movable mode clapboard 24 can be bigger, the extruding force suffered the closer to the utmost point group 10 of fixed dividing plate 22 is just more little, cause the suffered extruding force (being that value is pressed in the space) of each group utmost point group 10 not of uniform size, cause therefore that each organizes utmost point group 10 volume situation not of uniform size after pushing.

And, utmost point group stationary fixture 20 is when being compressive state, by the outermost movable mode clapboard 24 of extrusion 32 extruding, being circular-arc extrusion 32, to be squeezed in the squish area of outermost movable mode clapboard 24 little, and the stressed place of outermost movable mode clapboard 24 is only at its compressive plane place, when outermost movable mode clapboard 24 pushes utmost point groups 10, because of each position up and down of utmost point group 10 has different extruding bounces to rebound to movable mode clapboard 24, only rely on the extrusion 32 and the abutment face opposing of outermost movable mode clapboard 24 to push bounce, cause extrusion 32 and outermost movable mode clapboard 24 between the two against built on the sand easily, and make movable mode clapboard 24 produce the situation of deflection, even make utmost point group 10 whole stressed inconsistent, and cause not of uniform size the causing of volume of the utmost point group 10 after extruding.

The utility model content

The purpose of this utility model is, a kind of utmost point group stationary fixture is provided, and it is when being opening, and the size that makes the utmost point group placement space between each movable mode clapboard makes things convenient for the staff that utmost point group is inserted in the utmost point group placement space near consistent; Utmost point group stationary fixture is when being compressive state, make the suffered extruding force size of each group utmost point group near consistent, and increase the squish area of extrusion when the extruding movable mode clapboard, make extrusion and movable mode clapboard between the two against firmly, and make movable mode clapboard can not produce the situation of deflection, therefore make utmost point group integral body stressed near consistent, approaching consistent in the volume size of the utmost point group after extruding.

First technical scheme of the present utility model is to provide a kind of utmost point group stationary fixture, is used for the utmost point group in the assembled battery, and this utmost point group stationary fixture comprises: a framework; A plurality of axostylus axostyles, it is installed in this framework; One fixed dividing plate, it is fixedly mounted on the centre position of described axostylus axostyle; A plurality of movable mode clapboards lay respectively at the left and right sides of this fixed dividing plate and are installed on the described axostylus axostyle; A plurality of flexible handles are installed on this framework; And a plurality of extrusions, be installed in respectively on each flexible handle, when these flexible handles placed assembling utmost point group's position, each flexible handle drove each extrusion and the rectangular protruding axle on each extrusion is squeezed on the movable mode clapboard.

Second technical scheme of the present utility model is to provide a kind of utmost point group stationary fixture, wherein, on the part axostylus axostyle in these axostylus axostyles spring is installed.

Description of drawings

Figure 1A is the schematic diagram of a plurality of utmost point groups in the known battery case;

Figure 1B is the known single utmost point group's who is made up of pole plate and glass fibre schematic diagram;

Fig. 2 A is the schematic diagram of known utmost point group stationary fixture when being opening;

Fig. 2 B is the schematic diagram of known utmost point group stationary fixture when being compressive state;

Fig. 3 A is the schematic diagram of utmost point group stationary fixture of the present utility model when being opening;

Fig. 3 B is the schematic diagram of utmost point group stationary fixture of the present utility model when being compressive state;

Fig. 4 A is the flexible handle of utmost point group stationary fixture of the present utility model and the vertical view of extrusion;

Fig. 4 B is the flexible handle of utmost point group stationary fixture of the present utility model and the end view of extrusion; And

Fig. 4 C is the flexible handle of utmost point group stationary fixture of the present utility model and the front view of extrusion.

Embodiment

Specify a preferred embodiment of the present utility model with reference to the accompanying drawings.

The utmost point group stationary fixture 40 that is used for the utmost point group 10 in the assembled battery comprises as follows: a framework 41; A plurality of axostylus axostyles 46 are installed in the framework 41; One fixed dividing plate 42 is fixedly mounted on the centre position of these axostylus axostyles 46; A plurality of movable mode clapboards 44 (present embodiment is respectively equipped with 3 movable mode clapboards in the left and right sides of fixed dividing plate 42) lay respectively at the left and right sides of fixed dividing plate 42 and are installed on these axostylus axostyles 46; A plurality of flexible handles 50 (present embodiment is respectively equipped with 1 flexible handle in the left and right sides of framework 41) are installed on the framework 41; And a plurality of extrusions 52 (present embodiment is provided with 2 extrusions) are installed in respectively on each flexible handle 50, when position that left and right sides flexible handle 50 places assembling utmost point group when (that is utmost point group stationary fixture 40 is being compressive state), left and right sides flexible handle 50 drives left and right sides extrusions 52 and makes its rectangular outermost movable mode clapboard 44 in the protruding axle 54 extruding left and right sides; On the part axostylus axostyle 46 in these axostylus axostyles 46 spring 43 is installed.

Wherein, spring 43 is installed on axostylus axostyle 46, when utmost point group stationary fixture 40 becomes opening by compressive state, can produce bounce to act on fixed dividing plate 42 and the movable mode clapboard 44 at extruded spring 43 between fixed dividing plate 42 and the movable mode clapboard 44, and the action direction of movable mode clapboard 44 to bounce moved, to unclamp 10 of fixed dividing plate 42 and movable mode clapboard 44 and utmost point groups' extruding.

A plurality of movable mode clapboards 44 by the fixed dividing plate 42 and the left and right sides thereof form a plurality of utmost point group placement spaces 48, insert respectively in these utmost points group placement space 48 and will organize the utmost point group 10 with the glass fibre 14 that is puffy more.

When group has the utmost point group 10 of the glass fibre 14 that is puffy more than will pushing by utmost point group stationary fixture 40, pull left and right sides flexible handle 50 and drive left and right sides extrusion 52 respectively, protruding axle 54 rectangular in the left and right sides extrusion 52 through driving can the application of force push the outermost movable mode clapboard 44 in the left and right sides, left and right sides movable mode clapboard 44 moves on axostylus axostyle 46 through extruding, suffered extruding force can be passed in regular turn each group utmost point group 10 and other movable mode clapboard 44, each fixed dividing plate 42 of organizing utmost point group 10 and extruding force can being passed to the place, centre position that is positioned at axostylus axostyle 46 through other stressed and mobile movable mode clapboard 44 at last through extruding, extruding force is pushed the glass fibre 14 that utmost point group 10 is puffy whereby, and dwindles each group utmost point group's 10 volume.

When using utmost point group stationary fixture 40 of the present utility model, because fixed dividing plate 42 is positioned at the place, centre position of axostylus axostyle 46, therefore, when utmost point group stationary fixture 40 is opening, compare the distance that move of movable mode clapboard 24 on axostylus axostyle 26 in the known utmost point group stationary fixture 20, the displacement of movable mode clapboard 44 on axostylus axostyle 46 that is positioned at fixed dividing plate 42 left and right sides is shorter relatively, for movable length the movable mode clapboard 44 of the short left and right sides on axostylus axostyle 46, present more neat arrangement easily, and make that utmost point group placement space 48 sizes between fixed dividing plate 42 and the movable mode clapboard 44 are consistent more, it is quite convenient to make that the staff can insert utmost point group 10 in the consistent more utmost point group placement space 48 of size.

In addition, utmost point group stationary fixture 40 is when being compressive state, because utmost point group stationary fixture 40 is by the bilateral extruding force that applies, compare utmost point group stationary fixture 20 by the monolateral extruding force that applies, about the utmost point group 10 suffered extruding forces (be space press value) of two outside movable mode clapboards 44 to the fixed dividing plate 42 in centre position can be consistent more, therefore each group utmost point group's 10 volume size unanimity more through pushing after.

And, utmost point group stationary fixture 40 is when being compressive state, compare known utmost point group stationary fixture 20 by the outermost movable mode clapboard 24 of extrusion 32 extruding, the outermost movable mode clapboard 44 in the protruding axle 54 extruding left and right sides by left and right sides extrusion 52, the squish area that rectangular protruding axle 54 is squeezed in the outermost movable mode clapboard 44 in the left and right sides is much bigger, that is the stressed place of the outermost movable mode clapboard 44 in the left and right sides is the whole rectangular surfaces of protruding axle 54, when the outermost movable mode clapboard 44 in the left and right sides pushes utmost point groups 10, because of the extruding bounce bounce-back at each position up and down of utmost point group 10 to left and right sides outermost movable mode clapboard 44, compare the known rounded extrusion 32 and the compressive plane of outermost movable mode clapboard 24 of only depending on and resist the extruding bounce, the rectangular protruding axle 54 of left and right sides extrusion 52 is squeezed on the outermost movable mode clapboard 44 in the left and right sides in large area, therefore the protruding axle 54 of left and right sides extrusion 52 is firm with the left and right sides outermost movable mode clapboard 44 extruding between the two, and make movable mode clapboard 44 can not produce the situation of deflection, and make that utmost point group 10 is whole stressed consistent more, and cause the volume size of the utmost point group 10 after extruding consistent more.

The purpose of this utility model be utmost point group stationary fixture when being opening, the size that makes the utmost point group placement space between each movable mode clapboard makes things convenient for the staff that utmost point group is placed utmost point group placement space near consistent; Utmost point group stationary fixture is when being compressive state, make the suffered extruding force size of each group utmost point group near consistent, and increase the squish area of extrusion at the extruding movable mode clapboard, make the extruding between the two of extrusion and movable mode clapboard firm, and make movable mode clapboard can not produce the situation of deflection, therefore make utmost point group integral body stressed near consistent, approaching consistent in the volume size of the utmost point group after extruding.

Though the utility model specifically describes in the above with reference to preferred embodiment and illustrative accompanying drawing, it should not be regarded as restriction of the present utility model.Various modifications, omission and variation that the person skilled in the art makes the content of its form and specific embodiment all do not break away from scope described in the utility model.

Claims (2)

1. utmost point group stationary fixture that assembled battery is used, this utmost point group stationary fixture comprises:

One framework;

A plurality of axostylus axostyles are installed in this framework;

It is characterized in that this utmost point group stationary fixture also comprises:

One fixed dividing plate is fixedly mounted on the centre position of described axostylus axostyle;

A plurality of movable mode clapboards lay respectively at the left and right sides of described fixed dividing plate and are installed on the described axostylus axostyle;

A plurality of flexible handles are installed on the described framework; And

A plurality of extrusions are installed in respectively on each flexible handle, and when these flexible handles placed assembling utmost point group's position, each flexible handle drove each extrusion and the rectangular protruding axle of each extrusion is squeezed on the movable mode clapboard.

2. utmost point group stationary fixture as claimed in claim 1 is characterized in that, on the part axostylus axostyle in the described axostylus axostyle spring is installed.

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