CN220272528U - Hydrogen fuel engine galvanic pile box-loading tooling equipment - Google Patents

Abstract

The utility model provides a hydrogen fuel engine galvanic pile box-in tooling device which comprises a fixed frame, wherein a first driving device is arranged on the fixed frame and is connected with a turnover part, and one side of the turnover part is provided with an end face fixing plate seat; the overturning part is connected with a second driving device at one side far away from the end surface fixing plate seat; the device also comprises a connecting pedestal, and a rotating shaft connecting sleeve is arranged below the connecting pedestal; the upper part of the connecting pedestal is matched with the overturning part; the inner side of the turnover part is provided with a reinforced supporting part, and the reinforced supporting part is matched with the lower part of the end surface fixing plate seat. The utility model can realize uninterrupted processing, production and other operations, can realize higher production efficiency, and can accurately operate according to a set path and rhythm by matching with a set program, thereby avoiding the deviation of precision and quality.

Description

Hydrogen fuel engine galvanic pile box-loading tooling equipment

Technical Field

The utility model relates to the technical field of hydrogen fuel engine accessory machining, in particular to hydrogen fuel engine galvanic pile box-in tooling equipment.

Background

A hydrogen fuel cell is a device for generating electric energy by utilizing a reaction of hydrogen and oxygen, and generally, the hydrogen fuel cell needs to perform a shell-in operation after packaging components such as a fuel cell chip, a flow channel plate, a gas spring and the like together to form a stack. The galvanic pile-in-shell process can effectively protect the galvanic pile assembly from the external physical or chemical environment, and make the whole fuel cell system more compact, safe and easy to maintain.

The prior art CN112397757a discloses a fuel cell stack packaging structure, a packaging shell and a cell structure thereof, wherein the packaging shell comprises a box main body and a box cover, an opening for the power supply core to enter and exit is arranged on the box main body, and at least one guide rib or guide groove is respectively arranged on at least one pair of opposite inner walls of the box main body along the entering and exiting direction of the cell; the box cover is used for sealing the opening by sealing fit with the box main body; when the battery cell stacking device is applied, the battery cells are placed into the shell main body one by one, the battery cells are matched with the guide structure on the box main body to guide and position the battery cells so as to facilitate the assembly of the battery cells, and finally, the box cover is assembled on the box main body to tightly press and fix the battery cells; above-mentioned encapsulation casing and direction muscle or guide way integration equipment shaping structure can wrap up electric core wherein, plays good protection effect and bears electric core encapsulation power, and the opening on the case main part can realize automatic manipulator assembly to can lead and fix a position electric core at electric core assembly in-process, play the effect of frock, improve electric core assembly precision.

However, the method is to perform shell entering and press forming on the battery core, so that the requirements on the alignment precision of the shell entering are improved, the processing efficiency is affected, and the yield of the product is low. To solve this problem, the prior art stacks into the shell by preparing the stacks and then performing the operation of inserting the shell, but the following problems still exist:

because the shell-entering process of the galvanic pile needs high accuracy, the manual pile-entering mode is adopted at present, and the technological requirements are difficult to meet; the manual installation in the whole process is needed to complete the shell-entering process of the galvanic pile, so that great manual intervention and financial cost are brought to production efficiency and subsequent maintenance, meanwhile, the automation degree of shell-entering packaging of the galvanic pile is low, and the production efficiency and the yield are greatly limited due to a plurality of manual uncontrollable factors.

Disclosure of Invention

In view of the above, the utility model provides a hydrogen fuel engine galvanic pile box tooling device for solving the problems existing in the prior art.

The technical scheme of the utility model is as follows:

the hydrogen fuel engine galvanic pile box-in tooling equipment is characterized by comprising a fixed frame, wherein a first driving device is arranged on the fixed frame and connected with a turnover part, one side of the turnover part is provided with an end surface fixed plate seat, and the surface of the end surface fixed plate seat is symmetrically provided with a supporting plate and a first limiting part respectively;

the turnover part is connected with a second driving device at one side far away from the end surface fixing plate seat, and the second driving device is connected with a second limiting part;

limiting mounting holes are symmetrically formed in the surface of the end face fixing plate seat;

the fixed frame is also provided with a moving device, the moving device is arranged on one side of the first driving device, and a limiting seat is connected above the moving device;

the device also comprises a connecting pedestal, and a rotating shaft connecting sleeve is arranged below the connecting pedestal;

the upper part of the connecting pedestal is matched with the overturning part;

the inner side of the turnover part is provided with a reinforced supporting part, and the reinforced supporting part is matched with the lower part of the end surface fixing plate seat.

In the utility model, the rotating shaft connecting sleeve is matched and connected with the first driving device, the connecting pedestal is used for transmitting power and providing supporting force for the movement of the overturning part, and the reinforcing supporting part is used for providing support for the end surface fixing plate seat, so that the stability of the electric pile arrangement is improved.

Further, the reinforced supporting part comprises limit fixing seats which are symmetrically arranged, a limit fixing rod is arranged between the limit fixing seats, and a supporting sleeve member is arranged on the limit fixing rod. By strengthening the arrangement of the supporting part, the pile which needs to be turned into the shell can be helped to be kept at the correct position, and the safety and reliability of the operation process can be effectively improved.

Further, the support external member includes the connecting cylinder, connecting cylinder external fixation has the triangle pedestal, triangle pedestal sets up with terminal surface fixed plate seat below cooperation, can further improve the stability of terminal surface fixed plate seat.

Further, the turnover part comprises a double-layer frame body, a limit mounting rail is symmetrically arranged above the double-layer frame body, and a limit connecting piece is arranged on the limit mounting rail.

Furthermore, the limit connecting piece is connected with the lower part of the limit fixing seat in a matched mode.

Through the setting of double-deck framework, can guarantee holistic stability, through the setting of spacing mounting rail, can satisfy the demand that different sizes galvanic pile was gone into the shell, can effectively improve its range of application to different size products.

Further, the backup pad sets up the edge at terminal surface fixed plate seat, can provide holding power for providing terminal surface fixed plate seat, improves the processing stability of terminal surface fixed plate seat and upset portion.

Further, the first limiting parts are symmetrically arranged in the area between the supporting plates.

Further, the first limiting part is a first bar-shaped limiting block, through the arrangement, the electric pile can be limited and attached to one side, and the stability of the pile and the processing precision can be effectively improved.

Further, the second limiting part comprises a base, and second bar-shaped limiting blocks are arranged on the base.

Further, the second bar-shaped limiting block is arranged vertically relatively on one side of the base, and horizontally arranged relatively on the other side of the base, so that the second bar-shaped limiting block can limit the galvanic pile and attach the other side of the galvanic pile, stability of the galvanic pile in the overturning process is guaranteed, and further machining precision is guaranteed.

Furthermore, the moving device is an XY axis moving device, realizes accurate motion control of the object in the plane, can be applied to occasions requiring high-precision and repeated motion, has the characteristics of rapid acceleration, deceleration and stopping, is simple in equipment operation and convenient to use, is suitable for objects of various shapes, sizes and weights, can accurately position the object in the plane, and realizes accurate alignment of the shell and the galvanic pile.

Further, the limiting seat comprises a bottom plate, L-shaped limiting blocks are symmetrically arranged on the bottom plate, limiting fixation of the shell can be achieved, and the shell is prevented from being deviated in the shell entering process.

Further, the turnover support parts are symmetrically arranged on two sides of the turnover part, so that the turnover part can be reliably fixed on a specific angle, and the turnover part is kept stable and not displaced, so that the next processing operation can be accurately performed; meanwhile, the overturning support is used, so that the overturning burden can be effectively reduced, and the operation efficiency is improved; and can bear and pinpoint article fast, shorten manufacturing cycle and man-hour's consumption to improve production efficiency and quality.

Further, the first driving device is a supporting cylinder mechanism, and the second driving device is a cylinder driving device.

The pile-in-shell device can realize uninterrupted processing, production and other operations, can realize higher production efficiency compared with manual operation, and can accurately operate according to a set path and rhythm by matching with a set program, thereby avoiding precision and quality deviation caused by manual operation due to fatigue, distraction and the like; in addition, the utility model can reduce the physical labor intensity of workers, thereby facilitating and ensuring the work to be easier and safer.

The pile-in-shell device can also reduce the false wiping and loss in the operation process, thereby ensuring the yield of products.

The utility model also provides a tooling method for efficiently feeding the hydrogen fuel engine stack into the shell, which is characterized by comprising the following steps of:

s1, adjusting the turnover part to a horizontal position, and jacking up through a first driving device;

s2, horizontally placing the hoisting electric pile on the overturning part, and fixing the electric pile on the end surface fixing plate seat by using a screw;

s3, rotating the turnover part to be vertical, and retracting the first driving device;

s4, hoisting the shell to a limiting seat of the mobile device, vertically erecting the shell, and adjusting the shell to a proper position;

s5, manually operating the button, beginning to descend the galvanic pile, loading the galvanic pile into the shell, and simultaneously driving the second limiting part to be separated from the galvanic pile by the second driving device;

s6, after the shell is completely put in place, loosening a pile end plate fixing screw, and lifting an end surface fixing plate seat to the highest point;

s7, fixing the galvanic pile and the shell through locking screws;

s8, removing the installed product into the shell position;

s9, the overturning part is overturned to the horizontal position again, and the operations of S1-S8 are repeated.

The beneficial effects of the utility model are as follows:

1. the production efficiency is improved: the electric pile shell-entering device replaces pure manual operation, so that an accurate, stable and efficient assembling process of the electric pile can be completed, and the production efficiency and the production benefit are greatly improved;

2. the precision is effectively improved: the intervention of the galvanic pile shell-entering device ensures the precision and stability of various key indexes such as shell entering and the like, and can effectively avoid the influence of human factors on the product quality;

3. the consistency is good: the galvanic pile shell-entering device can keep uniform operation in the processing process, can ensure the shell-entering quality of each galvanic pile to have consistency, and effectively reduces the variable uncertainty of personnel;

4. the labor intensity is reduced: the manual intervention is less, the operation burden and the labor intensity of operators can be reduced, and the labor risk and the accident rate can be reduced;

5. the iteration performance and the expandability are strong: the device has the capability of optimizing and amplifying the structure, can process products with different sizes, and provides guarantee for product upgrading, improvement, production line expansion and the like in the future.

Drawings

FIG. 1 is a schematic view of an embodiment of the apparatus of the present utility model;

FIG. 2 is a schematic view of the device according to an embodiment of the present utility model after the device is mated with the stack and the housing;

FIG. 3 is a schematic view of a partial structure of an embodiment of the apparatus of the present utility model;

FIG. 4 is a schematic view of a partial structure of an embodiment of the apparatus of the present utility model;

FIG. 5 is a schematic view of a partial structure of an embodiment of the apparatus of the present utility model;

FIG. 6 is a schematic view of a partial structure of an embodiment of the apparatus of the present utility model;

FIG. 7 is a schematic view of a partial structure of an embodiment of the apparatus of the present utility model;

FIG. 8 is a schematic diagram of a stack according to an embodiment of the present utility model;

fig. 9 is a schematic structural view of a housing according to an embodiment of the utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

The hydrogen fuel engine galvanic pile box-in tooling equipment is characterized by comprising a fixed frame 10, wherein a first driving device 1 is arranged on the fixed frame, the first driving device is connected with a turnover part 2, one side of the turnover part is provided with an end surface fixed plate seat 3, and the surface of the end surface fixed plate seat is symmetrically provided with a supporting plate 4 and a first limiting part 5 respectively;

the overturning part is connected with a second driving device 6 at one side far away from the end surface fixing plate seat, and the second driving device is connected with a second limiting part 7;

limiting mounting holes 31 are symmetrically formed in the surface of the end face fixing plate seat;

the fixed frame is also provided with a moving device 8, the moving device is arranged on one side of the first driving device, and a limiting seat 9 is connected above the moving device;

the device also comprises a connecting pedestal 24, and a rotating shaft connecting sleeve 25 is arranged below the connecting pedestal;

the upper part of the connecting pedestal is matched with the overturning part;

the inside of the turnover part is provided with a reinforced supporting part 26 which is matched with the lower part of the end surface fixing plate seat.

In the utility model, the rotating shaft connecting sleeve is matched and connected with the first driving device, the connecting pedestal is used for transmitting power and providing supporting force for the movement of the overturning part, and the reinforcing supporting part is used for providing support for the end surface fixing plate seat, so that the stability of the electric pile arrangement is improved.

Further, the reinforced supporting portion includes symmetrically arranged limit fixing seats 261, a limit fixing rod 262 is arranged between the limit fixing seats, and a supporting sleeve 263 is arranged on the limit fixing rod. By strengthening the arrangement of the supporting part, the pile which needs to be turned into the shell can be helped to be kept at the correct position, and the safety and reliability of the operation process can be effectively improved.

Further, the support external member includes connecting cylinder 2631, connecting cylinder external fixation has triangle pedestal 2632, triangle pedestal sets up with terminal surface fixed plate seat below cooperation, can further improve the stability of terminal surface fixed plate seat.

Further, the turnover part comprises a double-layer frame 21, a limit mounting rail 22 is symmetrically arranged above the double-layer frame, and a limit connecting piece 23 is arranged on the limit mounting rail.

Furthermore, the limit connecting piece is connected with the lower part of the limit fixing seat in a matched mode.

Through the setting of double-deck framework, can guarantee holistic stability, through the setting of spacing mounting rail, can satisfy the demand that different sizes galvanic pile was gone into the shell, can effectively improve its range of application to different size products.

Further, the backup pad sets up the edge at terminal surface fixed plate seat, can provide holding power for providing terminal surface fixed plate seat, improves the processing stability of terminal surface fixed plate seat and upset portion.

Further, the first limiting parts are symmetrically arranged in the area between the supporting plates.

Further, the first limiting part is a first bar-shaped limiting block, through the arrangement, the electric pile can be limited and attached to one side, and the stability of the pile and the processing precision can be effectively improved.

Further, the second limiting portion includes a base 71, and a second bar-shaped limiting block 72 is arranged on the base.

Further, the second bar-shaped limiting block is arranged vertically relatively on one side of the base, and horizontally arranged relatively on the other side of the base, so that the second bar-shaped limiting block can limit the galvanic pile and attach the other side of the galvanic pile, stability of the galvanic pile in the overturning process is guaranteed, and further machining precision is guaranteed.

Furthermore, the moving device is an XY axis moving device, realizes accurate motion control of the object in the plane, can be applied to occasions requiring high-precision and repeated motion, has the characteristics of rapid acceleration, deceleration and stopping, is simple in equipment operation and convenient to use, is suitable for objects of various shapes, sizes and weights, can accurately position the object in the plane, and realizes accurate alignment of the shell and the galvanic pile.

Further, the limiting seat comprises a bottom plate 91, L-shaped limiting blocks 92 are symmetrically arranged on the bottom plate, limiting fixation of the shell can be achieved, and the shell is prevented from being deviated in position in the shell entering process.

Further, the turnover support part 101 is symmetrically arranged at two sides of the turnover part, so that the turnover part can be reliably fixed at a specific angle, and the turnover part is kept stable and not displaced, so that the next processing operation can be accurately performed; meanwhile, the overturning support is used, so that the overturning burden can be effectively reduced, and the operation efficiency is improved; and can bear and pinpoint article fast, shorten manufacturing cycle and man-hour's consumption to improve production efficiency and quality.

Example 2

The present embodiment provides a hydrogen fuel engine galvanic pile box-in tooling device having the same structure as that of embodiment 1, except that the first driving device is a supporting cylinder mechanism, and the second driving device is a cylinder driving device.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art. It should be noted that technical features not described in detail in the present utility model may be implemented by any prior art.

Claims (10)

1. The hydrogen fuel engine galvanic pile box-in tooling equipment is characterized by comprising a fixed frame, wherein a first driving device is arranged on the fixed frame and connected with a turnover part, one side of the turnover part is provided with an end surface fixed plate seat, and the surface of the end surface fixed plate seat is symmetrically provided with a supporting plate and a first limiting part respectively;

the turnover part is connected with a second driving device at one side far away from the end surface fixing plate seat, and the second driving device is connected with a second limiting part;

limiting mounting holes are symmetrically formed in the surface of the end face fixing plate seat;

the fixed frame is also provided with a moving device, the moving device is arranged on one side of the first driving device, and a limiting seat is connected above the moving device;

the device also comprises a connecting pedestal, and a rotating shaft connecting sleeve is arranged below the connecting pedestal;

the upper part of the connecting pedestal is matched with the overturning part;

the inner side of the turnover part is provided with a reinforced supporting part, and the reinforced supporting part is matched with the lower part of the end surface fixing plate seat.

2. The hydrogen fuel engine galvanic pile box-in tooling equipment according to claim 1, wherein the reinforced supporting part comprises limit fixing seats symmetrically arranged, limit fixing rods are arranged between the limit fixing seats, and a supporting sleeve is arranged on the limit fixing rods.

3. The hydrogen fuel engine galvanic pile box-in tooling device according to claim 2, wherein the support sleeve comprises a connecting cylinder, a triangular pedestal is fixedly connected to the outer side of the connecting cylinder, and the triangular pedestal is matched with the lower part of the end face fixing plate seat.

4. The hydrogen fuel engine galvanic pile box-in tooling equipment according to claim 3, wherein the overturning part comprises a double-layer frame body, spacing mounting rails are symmetrically arranged above the double-layer frame body, and spacing connecting pieces are arranged on the spacing mounting rails.

5. The hydrogen fuel engine galvanic pile box-in tooling device according to claim 4, wherein the first limiting part is a first bar-shaped limiting block; the second limiting part comprises a base, and second bar-shaped limiting blocks are arranged on the base.

6. The hydrogen fuel engine galvanic pile box-in tooling device according to claim 5, wherein the second bar-shaped limiting block is relatively vertically arranged on one side of the base, and the second bar-shaped limiting block is relatively horizontally arranged on the other side of the base.

7. The hydrogen fuelled engine electrical stacking box tooling apparatus as claimed in claim 6 wherein the moving means is an XY axis moving means.

8. The hydrogen fuel engine galvanic pile box-in tooling device according to claim 7, wherein the limiting seat comprises a bottom plate, and L-shaped limiting blocks are symmetrically arranged on the bottom plate.

9. The hydrogen fuel engine galvanic pile-in box tooling device according to claim 8, further comprising a turnover support portion symmetrically disposed on both sides of the turnover portion.

10. The hydrogen fuelled engine electrical stacking box tooling apparatus as claimed in claim 1 wherein the first drive means is a support cylinder mechanism and the second drive means is a cylinder drive means.