CN218896661U - Fuel cell power system battery module supporting assembly - Google Patents

Abstract

The utility model discloses a fuel cell power system battery module supporting assembly, which comprises a supporting bottom plate, wherein a supporting box body is arranged above the supporting bottom plate, a first opening is formed above the supporting box body, a plurality of radiating holes are formed at the edges of the supporting box body, and a collecting cavity is formed inside the supporting box body; according to the utility model, the two mounting rods below the battery module body are inserted into the mounting grooves through the mutual matching of the mounting rods, the mounting grooves, the rotating wheels, the screw rods, the moving plates and the fixing rods, and then the rotating wheels are rotated to enable the two screw rods to rotate towards the inside of the first shell, so that the moving plates can push the fixing rods to be inserted into the grooves on the mounting rods inwards to fix the mounting rods, the purpose of fixing the battery module body is achieved, and the stability in use is enhanced.

Description

Fuel cell power system battery module supporting assembly

Technical Field

The utility model relates to the technical field of fuel cells, in particular to a fuel cell power system battery module supporting assembly.

Background

The new energy automobile is an automobile which adopts unconventional automobile fuel as a power source (or adopts conventional automobile fuel and a novel automobile-mounted power device) and integrates the advanced technology in the aspects of power control and driving of the automobile, and the formed technical principle is advanced, and the automobile has a new technology and a new structure.

In the prior art, a fuel cell power system needs a battery module supporting component to support and fix a power battery pack, but the existing supporting component can only be simply fixed, so that the fixing effect is poor, the stability of use is reduced, and in actual use, the situation of leakage of a battery electrolyte is likely to occur, and the existing supporting component is not provided with a recovery mechanism, so that the supporting component of the battery module is likely to be corroded.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, it is an object of the present utility model to provide a fuel cell power system battery module support assembly.

One of the purposes of the utility model is realized by adopting the following technical scheme:

the utility model provides a fuel cell power system battery module supporting component, a fuel cell power system battery module supporting component includes the supporting baseplate, the supporting box body is installed to the top of supporting baseplate, first opening has been seted up to the top of supporting box body, a plurality of louvres have all been seted up to the edge of supporting box body, the inside of supporting box body is provided with the collecting chamber, the bottom of collecting chamber inside prevents to have the absorption sponge, the framework is installed to the top of supporting box body, the laminating of the top of supporting box body has the roof, just a plurality of trompils have evenly been seted up on the roof, the top of roof is equipped with the battery module body, the left and right sides of battery module body all is equipped with fixed establishment, the left and right sides of supporting box body all is equipped with dismouting mechanism.

Further, fixed establishment includes the mounting panel, the mounting panel is all installed to the left and right sides of battery module body near below department, two the installation pole is all installed to the below of mounting panel, the top of roof is close to left and right sides department and all installs the fixed block, two the mounting groove with installation pole looks adaptation is all seted up to the top of fixed block, and two the bottom of installation pole all extends to inside the adjacent mounting groove, first casing is all installed to the left and right sides of framework, two the inside of first casing all is equipped with the dead lever, first perforation has all been seted up to the left and right sides of framework, two all seted up the second perforation on the fixed block, two all seted up the fluting on the installation pole, two the inner of dead lever all passes adjacent first perforation and second perforation in proper order to extend to grooved inside.

Further, two the outside of first casing all is equipped with the runner, two the screw rod is all installed to the inboard of runner, two the screw hole with screw rod looks adaptation is all seted up in the outside of first casing, two the inner of screw rod all passes adjacent screw hole to extend to the inside rotation of first casing and install the movable plate, and two be connected between the inboard of movable plate and the adjacent dead lever.

Further, two limiting rods which are arranged up and down are arranged on the outer sides of the moving plates, two limiting holes which are arranged up and down are formed in the outer sides of the first shell, and the outer ends of the limiting rods penetrate through the adjacent limiting holes and extend to the outer sides of the first shell to be provided with the limiting plates.

Further, dismouting mechanism includes the second casing, the second casing is all installed to the left and right sides of supporting the box body, two the inside of second casing all is equipped with the riser, two the spring that sets up from top to bottom is all installed in the outside of riser, and a plurality of the outer end of spring is all installed on the inner wall of adjacent second casing, two the inserted bar is all installed to the inboard of riser, the below of roof is close to left and right sides department and all installs the montant, the through-hole has all been seted up with two montants corresponding departments on the supporting box body, and two the bottom of montant all extends to the inside of collecting the chamber through adjacent through-hole, first jack has all been seted up to the left and right sides of supporting the box body, two all set up the second jack on the montant, two the inner of inserted bar all passes adjacent first jack and second jack in proper order to extend to the inboard of montant.

Further, two the slider is all installed to the top of riser, two the spout with slider looks adaptation has all been seted up at the inside top of second casing, and two the slider is all slidable mounting inside adjacent spout, two the connecting rod is all installed to the below of movable plate, two the second opening has all been seted up to the below of second casing, two the bottom of connecting rod all passes adjacent second opening to extend to the below of second casing and install the shifting block.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the two mounting rods below the battery module body are inserted into the mounting grooves through the mutual matching of the mounting rods, the mounting grooves, the rotating wheels, the screw rods, the moving plates and the fixing rods, and then the rotating wheels are rotated to enable the two screw rods to rotate towards the inside of the first shell, so that the moving plates can push the fixing rods to be inserted into the grooves on the mounting rods inwards to fix the mounting rods, the purpose of fixing the battery module body is achieved, and the stability in use is enhanced;

2. the utility model can be used by mutually matching the components of the collecting cavity, the absorption sponge, the shifting block, the vertical plate, the spring, the inserted link and the vertical rod, when the battery electrolyte leaks, the battery electrolyte can leak into the collecting cavity through the opening on the top plate and is absorbed by the absorption sponge, the shifting block is shifted outwards, so that the vertical plate drives the inserted link to separate from the second jack on the vertical rod, and then the top plate is moved upwards, so that the absorption sponge can be taken out for replacement, and the use is convenient.

The foregoing description is only an overview of the present utility model, and is intended to be implemented in accordance with the teachings of the present utility model, as well as the preferred embodiments thereof, together with the following detailed description of the utility model, given by way of illustration only, together with the accompanying drawings.

Drawings

Fig. 1 is a front view of the present embodiment;

FIG. 2 is a front sectional view of the present embodiment;

fig. 3 is an enlarged view at a in fig. 2 of the present embodiment;

fig. 4 is an enlarged view of fig. 2B of the present embodiment.

In the figure: 1. a support base plate; 2. supporting the box body; 3. a collection chamber; 4. absorbing the sponge; 5. a frame; 6. a top plate; 7. a battery module body; 8. a mounting plate; 9. a mounting rod; 10. a fixed block; 11. a first housing; 12. a fixed rod; 13. a rotating wheel; 14. a screw; 15. a moving plate; 16. a limit rod; 17. a limiting plate; 18. a second housing; 19. a riser; 20. a spring; 21. a vertical rod; 22. a rod; 23. a slide block; 24. a connecting rod; 25. and (5) a shifting block.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 to 4, the present utility model provides the following technical solutions:

example 1:

the fuel cell power system battery module supporting component comprises a supporting bottom plate 1, a supporting box body 2 is installed above the supporting bottom plate 1, a first opening is formed in the upper side of the supporting box body 2, a plurality of radiating holes are formed in the edge of the supporting box body 2, a collecting cavity 3 is formed in the supporting box body 2, absorbing sponge 4 is prevented from being arranged at the bottom of the collecting cavity 3, a frame body 5 is installed above the supporting box body 2, a top plate 6 is attached to the upper side of the supporting box body 2, a plurality of holes are uniformly formed in the top plate 6, battery module bodies 7 are arranged above the top plate 6, fixing mechanisms are arranged on the left side and the right side of the battery module bodies 7, and dismounting mechanisms are arranged on the left side and the right side of the supporting box body 2;

the fixing mechanism comprises mounting plates 8, mounting plates 8 are respectively arranged at the left side and the right side of a battery module body 7 close to the lower side, mounting rods 9 are respectively arranged at the lower sides of the two mounting plates 8, fixing blocks 10 are respectively arranged at the upper sides of a top plate 6 close to the left side and the right side, mounting grooves matched with the mounting rods 9 are respectively arranged above the two fixing blocks 10, the bottom ends of the two mounting rods 9 are respectively extended into the adjacent mounting grooves, first shells 11 are respectively arranged at the left side and the right side of a frame body 5, rotating wheels 13 are respectively arranged at the outer sides of the two first shells 11, screw rods 14 are respectively arranged at the inner sides of the two rotating wheels 13, screw holes matched with the screw rods 14 are respectively arranged at the outer sides of the two first shells 11, the inner ends of the two screw rods 14 respectively penetrate through the adjacent screw holes and extend to the inner parts of the first shells 11 to rotationally mount a movable plate 15, the inner sides of the two moving plates 15 are connected with the adjacent fixed rods 12, the outer sides of the two moving plates 15 are provided with two limiting rods 16 which are arranged up and down, the outer sides of the two first shells 11 are provided with two limiting holes which are arranged up and down, the outer ends of the plurality of limiting rods 16 penetrate through the adjacent limiting holes and extend to the outer sides of the first shells 11 to be provided with limiting plates 17, the inner parts of the two first shells 11 are provided with fixed rods 12, the left side and the right side of the frame body 5 are provided with first perforation holes, the two fixed blocks 10 are provided with second perforation holes, the two mounting rods 9 are provided with grooves, and the inner ends of the two fixed rods 12 sequentially penetrate through the adjacent first perforation holes and the second perforation holes and extend to the grooved inner parts;

when the battery module body 7 is required to be disassembled, the two rotating wheels 13 can be sequentially rotated, the rotating wheels 13 drive the screw rods 14 to rotate, the screw rods 14 can be meshed with the screw holes, the screw rods 14 are outwards rotated in the screw holes, the moving plates 15 drive the moving plates 15 to move outwards under the limit of the two limit rods 16, the fixing rods 12 can be driven to be outwards separated from the grooves to release the fixation of the mounting rods 9, the battery module body 7 can be upwards moved after the two mounting rods 9 are both released from the fixation, and the battery module body 7 can be upwards separated from the mounting grooves through the two mounting plates 8, so that the battery module body 7 can be disassembled.

Example 2:

the disassembly and assembly mechanism comprises second shells 18, second shells 18 are respectively installed at the left side and the right side of a supporting box body 2, vertical plates 19 are respectively arranged in the two second shells 18, sliding blocks 23 are respectively installed above the two vertical plates 19, sliding grooves matched with the sliding blocks 23 are respectively formed in the tops of the inner parts of the two second shells 18, the two sliding blocks 23 are respectively and slidably installed in the adjacent sliding grooves, connecting rods 24 are respectively installed below the two moving plates 15, second openings are respectively formed in the lower parts of the two second shells 18, bottom ends of the two connecting rods 24 respectively pass through the adjacent second openings and extend to the lower parts of the second shells 18, shifting blocks 25 are respectively installed at the outer sides of the two vertical plates 19, springs 20 are respectively installed on the inner walls of the adjacent second shells 18, inserting rods 22 are respectively installed at the inner sides of the two vertical plates 19, vertical rods 21 are respectively installed at the lower parts close to the left side and the right side of the adjacent sliding grooves, connecting rods 24 are respectively installed at the lower parts of the supporting box body 2, two corresponding to the two corresponding positions of the two vertical rods 21 are respectively provided with two inserting holes 21 respectively and respectively extending to the two inserting holes 21, and two inserting holes 21 are respectively formed at the left side and right side of each inserting hole respectively extend to the two adjacent inserting holes 21;

when needs are changed the inside absorption sponge 4 of collecting the chamber 3, can outwards stir two shifting blocks 25, two shifting blocks 25 pass through connecting rod 24 and drive riser 19 and remove outside under the spacing of slider 23, make two risers 19 can compress two springs 20, simultaneously two risers 19 can drive inserted bar 22 outwards break away from the second jack, remove the fixed to montant 21, after two montants 21 all remove the fixation, can upwards remove roof 6, make two montants 21 break away from the through-hole, can accomplish the dismantlement to roof 6, then take out the absorption sponge 4 of collecting the chamber 3 inside through first opening and change, then outwards stir two shifting blocks 25, make two inserted bar 22 do not hinder the installation of roof 6, insert two montants 21 on the roof 6 to the collecting chamber 3 inside through the through-hole again, then loosen two shifting blocks 25, at this moment two risers 19 lose the restriction, can inwards move under the resilience effect of spring 20, thereby make two inserted bar 22 inwards insert corresponding second jack, can be carried out the installation to two montants 21, can continue this, and install to the roof 6.

Working principle: when the battery module body 7 is required to be disassembled, the two rotating wheels 13 can be sequentially rotated, the rotating wheels 13 drive the screw rods 14 to rotate, the screw rods 14 can be meshed with the screw holes, the screw rods 14 are outwards rotated in the screw holes, the moving plates 15 drive the moving plates 15 to move outwards under the limit of the two limit rods 16, the fixing rods 12 can be separated from the grooves outwards to release the fixing of the mounting rods 9, after the two mounting rods 9 are released from the fixing, the battery module body 7 can be upwards moved to the battery module body 7 through the two mounting plates 8, so that the battery module body 7 can be completely disassembled, when the battery module body 7 is required to be disassembled, the two rotating wheels 13 drive the screw rods 14 to rotate, the screw rods 14 can be meshed with the screw holes, the screw rods 14 can be outwards rotated in the screw holes, the screw rods 14 drive the moving plates 15 to move outwards under the limit of the two limit rods 16, the two fixing rods 12 can be separated from the grooves outwards to release the fixing rods 9, the two mounting rods 9 can be upwards moved to the battery module body 7 through the two mounting plates 8, when the two mounting plates 9 are required to be disassembled to be completely disassembled, the two vertical rods 19 can be simultaneously removed from the two vertical rods 19 through the two limit rods 19, the two vertical rods 21 can be released from the two limit rods 4, and then the two vertical rods 19 can be simultaneously released from the fixing rods 4 can be released from the fixing rods 19, and the two vertical rods 4 can be simultaneously released from the fixing rods 21 to the two vertical rods 4, and the two vertical rods are simultaneously released from the fixing rods 4 to be released from the fixing holes and the fixing rods 4 to be respectively connected to the fixing rods and the fixing rods to the fixing holes to the battery module 7, and the fixing holes to be the battery module 7, and the fixing the battery module and the battery module 2. The two vertical rods 21 on the top plate 6 are inserted into the collecting cavity 3 again through the through holes, then the two shifting blocks 25 are loosened, at the moment, the two vertical plates 19 lose restriction and move inwards under the action of resilience force of the springs 20, so that the two inserting rods 22 are inserted into corresponding second insertion holes inwards, the two vertical rods 21 are fixed, and the installation of the top plate 6 is completed, so that the top plate 6 can be continuously used.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (6)

1. A fuel cell power system battery module support assembly comprising a support base plate (1), characterized in that: support box body (2) are installed to the top of supporting baseplate (1), first opening has been seted up to the top of supporting box body (2), a plurality of louvres have all been seted up to the edge of supporting box body (2), the inside of supporting box body (2) is provided with collecting chamber (3), the inside bottom of collecting chamber (3) prevents to have absorption sponge (4), frame (5) are installed to the top of supporting box body (2), laminating of the top of supporting box body (2) has roof (6), just a plurality of trompil have evenly been seted up on roof (6), the top of roof (6) is equipped with battery module body (7), the left and right sides of battery module body (7) all is equipped with fixed establishment, the left and right sides of supporting box body (2) all is equipped with dismouting mechanism.

2. A fuel cell power system battery module support assembly according to claim 1, wherein: the utility model provides a battery module, including fixing mechanism, fixing mechanism includes mounting panel (8), mounting panel (8) are all installed to the left and right sides of battery module body (7) near below department, two mounting bar (9) are all installed to the below of mounting panel (8), fixed block (10) are all installed near left and right sides department in the top of roof (6), two the mounting groove with mounting bar (9) looks adaptation is all seted up to the top of fixed block (10), and two the bottom of mounting bar (9) all extends to adjacent mounting groove inside, first casing (11) are all installed to the left and right sides of framework (5), two the inside of first casing (11) all is equipped with dead lever (12), first perforation has all been seted up to the left and right sides of framework (5), two all set up the second perforation on fixed block (10), two the fluting has all been seted up on mounting bar (9), two the inner of dead lever (12) all passes adjacent first perforation and second perforation in proper order and extends to the inside of slotting.

3. A fuel cell power system battery module support assembly according to claim 2, wherein: two the outside of first casing (11) all is equipped with runner (13), two screw (14) are all installed to the inboard of runner (13), two screw hole with screw (14) looks adaptation is all seted up in the outside of first casing (11), two the inner of screw (14) all passes adjacent screw to extend to the inside rotation of first casing (11) and install movable plate (15), and two be connected between the inboard of movable plate (15) and adjacent dead lever (12).

4. A fuel cell power system battery module support assembly according to claim 3, wherein: two limiting rods (16) which are arranged up and down are arranged on the outer sides of the two moving plates (15), two limiting holes which are arranged up and down are formed in the outer sides of the first shell (11), and the outer ends of the limiting rods (16) penetrate through the adjacent limiting holes and extend to the outer sides of the first shell (11) to be provided with limiting plates (17).

5. A fuel cell power system battery module support assembly according to claim 1, wherein: the utility model provides a dismouting mechanism includes second casing (18), second casing (18) are all installed to the left and right sides of supporting box body (2), two the inside of second casing (18) all is equipped with riser (19), two spring (20) that set up from top to bottom are all installed in the outside of riser (19), and a plurality of the outer end of spring (20) is all installed on the inner wall of adjacent second casing (18), two inserted bar (22) are all installed to the inboard of riser (19), montant (21) are all installed near left and right sides department to the below of roof (6), through-hole has all been seted up with two montants (21) corresponding departments on supporting box body (2), and two the bottom of montant (21) all extends to the inside of collecting chamber (3) through adjacent through-hole, two first jack has all been seted up on montant (21) second jack, two inner inserted bar (22) and second jack that extends to the inboard in proper order.

6. A fuel cell power system battery module support assembly according to claim 5, wherein: slide blocks (23) are arranged above the vertical plates (19), sliding grooves matched with the slide blocks (23) are formed in the tops of the inside of the second shells (18), the slide blocks (23) are slidably arranged inside the adjacent sliding grooves, connecting rods (24) are arranged below the vertical plates (19), second openings are formed in the bottoms of the second shells (18), and the bottoms of the connecting rods (24) penetrate through the adjacent second openings and extend to the bottoms of the second shells (18) to be provided with shifting blocks (25).

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