CN215266483U - Anti-drop battery jar cohesion structure - Google Patents

Abstract

The utility model relates to the technical field of battery jar, in particular to an anti-drop battery jar holding structure, which comprises a battery jar, a plurality of battery modules are arranged in the battery jar, a plurality of anti-drop components are equally divided at equal intervals at the inner bottom of the battery jar, each anti-drop component comprises two oppositely arranged base supports, two sliding chutes are symmetrically arranged at the top of each base support, translation plates are arranged in the sliding chutes, sliding rails matched with the sliding chutes are arranged at the bottom of each translation plate, a plurality of lock catches are equally divided at equal intervals at the top of each translation plate, the lock catches on two adjacent translation plates are rotationally symmetrically arranged, lock grooves matched with the lock catches are arranged at the frame side of each battery module, a rack is fixedly arranged at one end of each translation plate, and a locking knob for driving the two racks to translate and lock in opposite directions is fixed at one side of the top of each base support, is suitable for popularization.

Description

Anti-drop battery jar cohesion structure

Technical Field

The utility model relates to a battery jar technical field especially relates to an anti-drop battery jar structure of holding tightly.

Background

At present, due to the characteristics of environmental protection and energy conservation, along with the continuous deepening of global energy crisis and the increasingly severe atmospheric pollution, an electric automobile as a new generation of transportation tool has incomparable advantages compared with a traditional automobile in the aspects of energy conservation and emission reduction and dependence on traditional petrochemical energy, but because the power battery of the electric automobile is large in size and heavy in weight, the weight of the general power battery reaches dozens of kilograms, the disassembly and the assembly are difficult, and the battery module is easy to fall off from a battery jar under bumpy road conditions in the operation process of the automobile, so that certain potential safety hazards are generated, and therefore, an anti-falling battery jar holding structure is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the problem that the existing battery module is difficult to disassemble and install in the prior art, and is easy to fall off from the battery jar, so that the battery jar has the defect of certain potential safety hazard, and the proposed anti-falling battery jar is tightly held.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the design one kind is anti-drop battery jar and embraces the structure tightly, including the battery jar, be equipped with a plurality of battery modules in the battery jar, the inner bottom equidistance of battery jar is equallyd divide and is equipped with a plurality of anticreep subassemblies, the anticreep subassembly includes the base support of two relative settings, the top symmetry of base support is equipped with two spouts, all be equipped with the translation board in the spout, the bottom of translation board be equipped with spout assorted slide rail, the top equidistance of translation board is equallyd divide and is equipped with a plurality of hasps, adjacent two hasp on the translation board is rotational symmetry and sets up, battery module's frame avris is equipped with the hasp assorted locked groove, the fixed rack that is equipped with of one end of translation board, top one side of base support is fixed with the locking knob who orders about two opposite direction translations of rack and locking.

Further, the hasp is L type hasp structure, the width of locked groove equals quadruple hasp width, the notch avris rotational symmetry of locked groove is equipped with two baffles, two the relative interval of baffle equals twice hasp width.

Further, be equipped with on the base support with locking knob assorted including the groove that resets, the locking knob internal fixation is equipped with the slide bar, the locking knob slides and cup joints on the slide bar, the equal angle of the inslot that resets bottom is equallyd divide and is equipped with a plurality of stoppers, the bottom of locking knob be equipped with stopper assorted spacing groove, the locking knob top is equipped with the regulation tooth with rack phase meshing, the clamp joint is fixed with reset spring between locking knob and slide bar.

Furthermore, the reset spring has elasticity that orders about the locking knob to be close to the reset groove, and when the reset spring is in free state, locking knob bottom spacing groove and reset groove are involutory, the regulation tooth still meshes with the rack mutually.

Furthermore, reinforcing plates are fixedly arranged on two sides of the base support, connecting holes are symmetrically formed in the tops of the reinforcing plates and the tops of the frames of the battery modules, and the battery modules and the reinforcing plates are connected in a reinforcing mode through the connecting holes and the connecting bolts.

The utility model provides a structure is held tightly to anti-drop battery jar, beneficial effect lies in: the utility model discloses a cooperation between translation board with rack, hasp, slide rail and the locking knob with regulation tooth, spacing groove, reset spring, when using, through closing the locked groove of a plurality of battery modules on two adjacent hasps, and utilize connecting hole and connecting bolt to consolidate the top of a plurality of battery modules and connect, overcome reset spring's elasticity through external force this moment, make the locking knob break away from the stopper, rotatory locking knob this moment, utilize the meshing of regulation tooth and rack, drive two translation boards towards opposite direction displacement, two adjacent hasps of locked groove keep away from this moment, loosen locking knob this moment, make locking knob move down to the spacing block restriction and rotate, utilize the interact of hasp and locked groove overhead gage, fix battery module on the anticreep subassembly fast, make battery module all have stable spacing in X, Y, Z three directions, the utility model discloses simple structure, locking is quick, and convenient to detach has market prospect, is fit for promoting.

Drawings

Fig. 1 is a schematic structural view of an anti-drop battery jar holding structure provided by the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is an explosion structure diagram of an anti-drop battery jar clasping structure provided by the utility model;

fig. 4 is an exploded schematic view of the anti-separation assembly of the present invention;

fig. 5 is a schematic sectional view of the lock groove according to the present invention;

fig. 6 is a schematic sectional view of the locking knob according to the present invention.

In the figure: the battery comprises a battery groove 1, a battery module 2, a locking groove 21, a baffle 211, a connecting hole 22, a reinforcing plate 3, an anti-falling component 4, a base support 41, a sliding groove 411, a reset groove 412, a limiting block 413, a sliding rod 414, a translation plate 42, a rack 421, a lock catch 422, a sliding rail 423, a locking knob 43, an adjusting tooth 431, a limiting groove 432 and a reset spring 433.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-6, an anti-drop battery jar clasping structure comprises a battery jar 1, a plurality of battery modules 2 are arranged in the battery jar 1, a plurality of anti-drop assemblies 4 are equidistantly and equally distributed at the inner bottom of the battery jar 1, each anti-drop assembly 4 comprises two base supports 41 which are oppositely arranged, two sliding chutes 411 are symmetrically arranged at the top of each base support 41, a translation plate 42 is arranged in each sliding chute 411, a sliding rail 423 which is matched with each sliding chute 411 is arranged at the bottom of each translation plate 42, a plurality of lock catches 422 are equidistantly and equally distributed at the top of each translation plate 42, each lock catch 422 is an L-shaped lock catch structure, the width of each lock catch 21 is four times the width of each lock catch 422, two baffle plates 211 are rotationally and symmetrically arranged at the sides of a notch of each lock catch 21, the relative distance between the two baffle plates 211 is equal to the width of two lock catches 422, reinforcing plates 3 are fixedly arranged at the two sides of each base support 41, connecting holes 22 which are symmetrically arranged at the top of each reinforcing plate 3 and the top of the frame of each battery module 2, the plurality of battery modules 2 and the reinforcing plate 3 are connected to each other by fastening through the connection holes 22 and the connection bolts.

The lock catches 422 on two adjacent translation plates 42 are arranged in a rotational symmetry manner, the frame side of the battery module 2 is provided with a lock groove 21 matched with the lock catches 422, one end of the translation plate 42 is fixedly provided with a rack 421, one side of the top of the base support 41 is fixedly provided with a locking knob 43 for driving the two racks 421 to translate in opposite directions and lock, the base support 41 is provided with a reset groove 412 matched with the locking knob 43, the locking knob 43 is internally and fixedly provided with a sliding rod 414, the locking knob 43 is sleeved on the sliding rod 414 in a sliding manner, a plurality of limiting blocks 413 are equally angularly distributed in the reset groove 412, the bottom of the locking knob 43 is provided with a limiting groove 432 matched with the limiting blocks 413, the top of the locking knob 43 is provided with an adjusting tooth 431 engaged with the rack 421, a reset spring 433 is clamped and fixed between the locking knob 43 and the sliding rod 414, the reset spring 433 has an elastic force for driving the locking knob 43 to be close to the reset groove 412, and when the return spring 433 is in a free state, the limiting groove 432 at the bottom of the locking knob 43 is opposite to the return groove 412, and the adjusting tooth 431 is still meshed with the rack 421.

The utility model provides a structure is held tightly to anti-drop battery jar, beneficial effect lies in: the utility model discloses a cooperation between translation board 42 with rack 421, hasp 422, slide rail 423 and the locking knob 43 with regulation tooth 431, spacing groove 432, reset spring 433, when using, through closing the locked groove 21 of a plurality of battery modules 2 on two adjacent hasps 422, and utilize connecting hole 22 and connecting bolt to reinforce the top of a plurality of battery modules 2 and connect, overcome the elasticity of reset spring 433 through external force this moment, make locking knob 43 break away from stopper 413, rotatory locking knob 43 at this moment, utilize the meshing of regulation tooth 431 and rack 421, drive two translation boards 42 towards opposite direction displacement, two adjacent hasps 422 of locked groove 21 keep away from each other this moment, loosen locking knob 43 at this moment, make locking knob 43 move down to the restriction rotation in stopper 413, utilize the interact of hasp 422 and the last baffle 211 of locked groove 21, fix battery module 2 on anticreep subassembly 4 fast, make battery module 2 all have stable spacing in X, Y, Z three directions, the utility model discloses simple structure, locking is quick, and convenient to detach has market prospect, is fit for promoting.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a structure is embraced tightly to anti-drop battery jar, includes battery jar (1), its characterized in that, be equipped with a plurality of battery module (2) in battery jar (1), the inner bottom equidistance of battery jar (1) is equallyd divide and is equipped with a plurality of anticreep subassembly (4), anticreep subassembly (4) include base support (41) of two relative settings, the top symmetry of base support (41) is equipped with two spout (411), all be equipped with translation board (42) in spout (411), the bottom of translation board (42) is equipped with slide rail (423) with spout (411) assorted, the top equidistance of translation board (42) is equallyd divide and is equipped with a plurality of hasps (422), adjacent two hasp (422) on translation board (42) are rotational symmetry and set up, the frame avris of battery module (2) is equipped with hasp (422) assorted lock groove (21), one end of the translation plate (42) is fixedly provided with a rack (421), and one side of the top of the base support (41) is fixedly provided with a locking knob (43) which drives the two racks (421) to translate in opposite directions and lock.

2. The anti-drop battery jar enclasping structure according to claim 1, wherein the lock catch (422) is an L-shaped lock catch structure, the width of the lock catch (21) is equal to four times the width of the lock catch (422), two baffles (211) are rotationally symmetrically arranged at the side of the notch of the lock catch (21), and the relative distance between the two baffles (211) is equal to two times the width of the lock catch (422).

3. The anti-drop battery jar enclasping structure according to claim 1, wherein a reset groove (412) matched with the locking knob (43) is arranged on the base support (41), a sliding rod (414) is fixedly arranged in the locking knob (43), the locking knob (43) is slidably sleeved on the sliding rod (414), a plurality of limiting blocks (413) are uniformly arranged at equal angles in the reset groove (412), a limiting groove (432) matched with the limiting block (413) is arranged at the bottom of the locking knob (43), an adjusting tooth (431) meshed with the rack (421) is arranged at the top of the locking knob (43), and a reset spring (433) is fixedly clamped between the locking knob (43) and the sliding rod (414).

4. The anti-drop battery jar clasping structure as claimed in claim 3, wherein the return spring (433) has an elastic force for urging the locking knob (43) to approach the return groove (412), and when the return spring (433) is in a free state, the bottom limiting groove (432) of the locking knob (43) is matched with the return groove (412), and the adjusting tooth (431) is still meshed with the rack (421).

5. The anti-drop battery jar enclasping structure according to claim 1, wherein reinforcing plates (3) are fixedly arranged on two sides of the base support (41), connecting holes (22) are symmetrically arranged on the top of each reinforcing plate (3) and the top of the frame of the battery module (2), and the battery modules (2) and the reinforcing plates (3) are connected in a reinforcing manner through the connecting holes (22) and connecting bolts.

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