CN211530101U - Fuel cell stack assembly auxiliary device - Google Patents

Abstract

The utility model relates to a fuel cell stack equipment auxiliary device. The device comprises a mounting base plate, a mounting surface is arranged at the upper end of the mounting base plate, a cushion block is arranged at the lower end of the mounting base plate, a transverse fixed plate and a longitudinal fixed plate are arranged on the mounting surface, a transverse movable plate located on one side opposite to the transverse fixed plate is movably arranged on the mounting surface and is slidably mounted in a transverse sliding groove, a transverse positioning structure is arranged between the transverse movable plate and the transverse sliding groove, a longitudinal movable plate located on one side opposite to the longitudinal fixed plate is movably arranged on the mounting surface and is arranged in the longitudinal sliding groove, a longitudinal positioning structure is arranged between the longitudinal movable plate and the longitudinal sliding groove, and the transverse fixed plate, the longitudinal fixed plate, the transverse movable plate and the longitudinal movable plate form a fixed space together. The utility model has the advantages that: the installation is convenient, the stability is good, and the flexibility is good.

Description

Fuel cell stack assembly auxiliary device

Technical Field

The utility model relates to a fuel cell technical field, concretely relates to fuel cell pile equipment auxiliary device.

Background

The fuel cell has many advantages such as high energy conversion efficiency, green and pollution-free, diversified energy and the like, and becomes an important potential new energy development direction in the 21 st century. The fuel cell stack is generally composed of a plurality of single-piece stacks, a plurality of electrode plates of the single-piece stacks are adhered and tightly stacked by a sealant, fixing plates are arranged at two ends of the single-piece stacks, when the fuel cell stack is assembled by the plurality of single-piece stacks, rigid plates are generally fixed at two ends of the fuel cell stack by bolts, however, because each single-piece stack has a certain error in the stacking direction, when the rigid plates are used for fixing the fuel cell stack, and the working environment is relatively severe (such as bumping or vibrating and the like), the rigid plates are easily damaged due to overlarge stress, so that the service life of the fuel cell stack is shortened, meanwhile, in the assembly process of the fuel cell stack, the mounting area cannot be timely adjusted according to different specifications of the fuel cell stack, the accuracy of the assembly area of the fuel cell stack is not enough, and the fuel cell stack is easy to shake during transportation, and can't fix a position the battery pile during installation, the installation is inconvenient, and the installation chassis is not enough to the support dynamics of battery pile, and stability is not good.

In order to solve the defects of the prior art, people have long searched for and put forward various solutions. For example, the chinese patent document discloses a fuel cell stack assembly apparatus [ CN201210295465.5], which includes a chassis base, a guide rod, a vertical rod, and a support holder; 2 or 4 guide rods are symmetrically arranged on the side surface of the chassis base along the central axis of the chassis base, the guide rods and the chassis base are of an integral structure, and the upper surface of each guide rod is marked with dimension scales; the number of the supporting fixing frames and the number of the vertical rods are respectively 2 or 4, each supporting fixing frame and each vertical rod are assembled into a whole, a sliding block is arranged at the bottom of each supporting fixing frame and provided with a threaded positioning hole, the sliding block can slide back and forth on the guide rod along the axis direction, the sliding block is fixed at the position determined by the guide rod through the threaded positioning hole by a bolt, each vertical rod is perpendicular to the chassis base, and the inner surface of each vertical rod is marked with dimension scales.

Above-mentioned scheme has solved to a certain extent that current device accuracy for fuel cell galvanic pile equipment is not enough, and can't in time adjust the problem of installation area according to the galvanic pile specification of cell, but this scheme still has a lot of not enoughly, for example: unable location during the installation, the installation is inconvenient, and the installation chassis is not enough to the support dynamics of battery pile, and stability is not good.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a reasonable in design, good and simple to operate's of stability fuel cell pile equipment auxiliary device.

In order to achieve the above purpose, the utility model adopts the following technical proposal: the fuel cell stack assembly auxiliary device comprises a horizontally arranged mounting base plate, wherein the upper end of the mounting base plate is provided with a mounting surface, four corners at the lower end of the mounting base plate are provided with cushion blocks for supporting the mounting base plate, the mounting surface is provided with a transverse fixing plate and a longitudinal fixing plate which are vertically arranged and are vertically distributed respectively through a mounting and fixing structure, the mounting surface is movably provided with a transverse movable plate positioned at one side opposite to the transverse fixing plate, the transverse movable plate is arranged in a transverse sliding groove transversely arranged along the mounting surface through a transverse sliding structure, a transverse positioning structure is arranged between the transverse movable plate and the transverse sliding groove, the mounting surface is movably provided with a longitudinal movable plate positioned at one side opposite to the longitudinal fixing plate, the longitudinal movable plate is arranged in a longitudinal sliding groove longitudinally arranged along the mounting surface through a longitudinal sliding structure, and a longitudinal positioning structure, and the transverse fixed plate, the longitudinal fixed plate, the transverse movable plate and the longitudinal movable plate form a fixed space on the mounting surface. Utilize horizontal fixed plate and longitudinal fixing plate to carry out local location to the fuel cell pile, fix the other both sides of fuel cell pile according to the horizontal fixed plate of the free movement of the volume size of fuel cell pile and longitudinal fixing plate, it is fixed effectual, simultaneously, because the fuel cell pile is located the fixed space on the mounting plate, the mounting plate forms effective support to the fuel cell pile, prevented that the fuel cell pile from producing when the equipment and rocking, stability is good.

In the above fuel cell stack assembly auxiliary device, the lateral sliding groove includes two lateral mounting grooves arranged in parallel to each other, and a lateral positioning groove parallel to the lateral mounting grooves is provided in the middle of the lateral mounting grooves.

In the fuel cell stack assembly auxiliary device, the transverse movable plate is provided with a transverse movable plate vertical portion perpendicular to the mounting surface, one side, away from the fixed space, of one end, close to the mounting surface, of the transverse movable plate vertical portion is connected with a transverse sliding plate located on the upper end surface of the mounting surface and perpendicular and crossed with the transverse sliding groove, a transverse positioning block perpendicular to the transverse sliding plate and located in the transverse positioning groove is arranged at the bottom of the transverse sliding plate, the transverse movable plate vertical portion and the transverse sliding plate are arranged in an L shape, and the transverse movable plate vertical portion, the transverse sliding plate and the transverse positioning block are integrally formed. The advantage of the integral molding is that the linkage between the vertical part of the transverse movable plate and the transverse sliding block can be better.

In the above fuel cell stack assembly auxiliary device, the lateral sliding structure includes two lateral sliding bars formed between the lateral positioning groove and the lateral mounting groove, a lateral mounting plate corresponding to the lateral sliding plate is disposed on the lower side of the lateral sliding bar, and the lateral sliding bar is inserted into a lateral sliding groove formed by the lateral sliding plate, the lateral positioning block, the lateral mounting plate, and the lateral positioning structure.

In the above fuel cell stack assembly auxiliary device, the transverse positioning structure includes a transverse fixing shaft, the transverse fixing shaft is respectively disposed at two ends of the transverse mounting plate, and the transverse positioning shaft radially penetrates the transverse mounting groove, and one end of the transverse positioning shaft far away from the transverse mounting plate is fixedly disposed on the upper end face of the transverse sliding plate through a transverse nut. The transverse fixing shaft does not contact with the inner wall of the transverse mounting groove, and large friction force is prevented from being generated when the transverse sliding plate slides.

In the above fuel cell stack assembly auxiliary device, the longitudinal sliding groove includes two longitudinal mounting grooves arranged in parallel, and a longitudinal positioning groove parallel to the longitudinal mounting grooves is provided in the middle of the longitudinal mounting grooves. The axial extension line of the longitudinal sliding groove and the axial extension line of the transverse sliding groove are crossed at one position in the fixed space.

In the fuel cell stack assembly auxiliary device, the longitudinal movable plate is provided with a longitudinal movable plate vertical portion perpendicular to the mounting surface, one side, away from the fixed space, of one end, close to the mounting surface, of the longitudinal movable plate vertical portion is connected with a longitudinal sliding plate located on the upper end surface of the mounting surface and perpendicularly crossed with the longitudinal sliding groove, a longitudinal positioning block perpendicular to the longitudinal sliding plate and located in the longitudinal positioning groove is arranged at the bottom of the longitudinal sliding plate, the longitudinal movable plate vertical portion and the longitudinal sliding plate are arranged in an L shape, and the longitudinal movable plate vertical portion, the longitudinal sliding plate and the longitudinal positioning block are integrally formed.

In the above fuel cell stack assembly auxiliary device, the longitudinal sliding structure includes two longitudinal sliding bars formed between the longitudinal positioning groove and the longitudinal mounting groove, a longitudinal mounting plate corresponding to the longitudinal sliding bar is disposed at the lower side of the longitudinal sliding bar, and the longitudinal sliding bar is inserted into a longitudinal sliding groove formed by the longitudinal sliding bar, the longitudinal positioning block, the longitudinal mounting plate, and the longitudinal positioning structure.

In the above fuel cell stack assembly auxiliary device, the longitudinal positioning structure includes a longitudinal fixing shaft, the longitudinal fixing shaft is respectively disposed at two ends of the longitudinal mounting plate, the longitudinal positioning shaft radially penetrates the longitudinal mounting groove, and one end of the longitudinal positioning shaft away from the longitudinal mounting plate is fixedly disposed on the upper end surface of the longitudinal sliding plate through a longitudinal nut.

In the above-mentioned fuel cell stack equipment auxiliary device, the installation fixed knot constructs including fixed block, and fixed block sets up respectively in one side that fixed space was kept away from to horizontal fixed plate and vertical fixed plate, and fixed block passes through fixation nut fixed mounting on the installation face, and vertical fixed plate is dislocation set with vertical fly leaf. The staggered arrangement has the function that the acting force of the fixed plate and the longitudinal movable plate is positioned at the opposite staggered point of the fuel cell stack, so that the fuel cell stack is prevented from being extruded due to the overlarge acting force.

Compared with the prior art, the utility model has the advantages of: simple structure, low cost, linkage is good, and forms effective support to the fuel cell pile through the mounting plate that is equipped with the cushion, makes the fuel cell pile more stable in the assembling process, simultaneously, moreover, freely adjusts horizontal fly leaf, vertical fly leaf and realizes fixedly to the fuel cell pile according to the volume size of fuel cell pile, and the flexibility is good.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the mounting base plate of the present invention;

FIG. 3 is a schematic view of the lateral sliding plate of the present invention in connection with the lateral positioning structure;

fig. 4 is a schematic structural view of the longitudinal sliding plate of the present invention when it is connected to the longitudinal positioning structure.

In the figure, the mounting base plate 1, the mounting surface 11, the spacer block 12, the transverse fixing plate 13, the longitudinal fixing plate 14, the transverse sliding groove 15, the transverse mounting groove 151, the transverse positioning groove 152, the longitudinal sliding groove 16, the longitudinal mounting groove 161, the longitudinal positioning groove 162, the fuel cell stack 17, the transverse movable plate 2, the transverse movable plate vertical portion 21, the transverse sliding plate 22, the transverse positioning block 23, the transverse sliding structure 3, the transverse sliding strip 31, the transverse mounting plate 32, the transverse sliding groove 33, the transverse positioning structure 4, the transverse fixing shaft 41, the transverse nut 42, the longitudinal movable plate 5, the longitudinal movable plate vertical portion 51, the longitudinal sliding plate 52, the longitudinal positioning block 53, the longitudinal sliding structure 6, the longitudinal sliding strip 61, the longitudinal mounting plate 62, the longitudinal sliding groove 63, the longitudinal positioning structure 7, the longitudinal fixing shaft 71, the longitudinal nut 72, the fixing space 8, the fixed mounting, The nut 92 is fixed.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-4, the fuel cell stack assembly auxiliary device includes a horizontally disposed mounting base plate 1, the mounting base plate 1 has a mounting surface 11 at an upper end thereof, spacers 12 for supporting the mounting base plate 1 are disposed at four corners of a lower end thereof, the mounting surface 11 is provided with a transverse fixing plate 13 and a longitudinal fixing plate 14 disposed vertically and perpendicular to each other through a mounting fixing structure 9, a transverse movable plate 2 disposed on an opposite side of the transverse fixing plate 13 is movably disposed on the mounting surface 11, the transverse movable plate 2 is mounted in a transverse sliding groove 15 disposed transversely along the mounting surface 11 through a transverse sliding structure 3, a transverse positioning structure 4 is disposed between the transverse movable plate 2 and the transverse sliding groove 15, a longitudinal movable plate 5 disposed on an opposite side of the longitudinal fixing plate 14 is movably disposed on the mounting surface 11, and the longitudinal movable plate 5 is mounted in a longitudinal sliding groove 16 disposed longitudinally along the mounting surface 11 through a longitudinal sliding structure 6, and a longitudinal positioning structure 7 is arranged between the longitudinal movable plate 5 and the longitudinal sliding groove 16, and the transverse fixed plate 13, the longitudinal fixed plate 14, the transverse movable plate 2 and the longitudinal movable plate 5 together form a fixed space 8 on the mounting surface 11. The mounting bottom plate provided with the cushion block 12 is used for effectively supporting the fuel cell stack 17, when the fuel cell stack 17 is mounted, the interaction between the transverse fixing plate 13 and the longitudinal fixing plate 14 is used for locally positioning the fuel cell stack 17, so that the mounting is convenient, and meanwhile, the size 8 of the control fixing space of the transverse movable plate 2 and the longitudinal movable plate 5 can be freely adjusted according to the specification size of the fuel cell stack 17, so that the flexibility is good.

The transverse sliding groove 15 includes two transverse mounting grooves 151 disposed in parallel, and a transverse positioning groove 152 disposed in the middle of the transverse mounting groove 151 and parallel to the transverse mounting groove 151. Here, the lateral installation groove 151 and the lateral positioning groove 152 have the same specification and have both ends flush with each other.

Specifically, the transverse movable plate 2 is provided with a transverse movable plate vertical portion 21 arranged perpendicular to the mounting surface 11, one side, away from the fixed space 8, of one end of the transverse movable plate vertical portion 21 close to the mounting surface 11 is connected with a transverse sliding plate 22 located on the upper end surface of the mounting surface 11 and arranged perpendicular to and across the transverse sliding groove 15, the bottom of the transverse sliding plate 22 is provided with a transverse positioning block 23 arranged perpendicular to the transverse sliding plate 22 and located in the transverse positioning groove 152, the transverse movable plate vertical portion 21 and the transverse sliding plate 22 are arranged in an L shape, and the transverse movable plate vertical portion 21, the transverse sliding plate 22 and the transverse positioning block 23 are integrally formed. The width of the vertical portion 21 of the lateral movable plate is greater than that of the lateral fixed plate 13.

Further, the transverse sliding structure 3 includes two transverse sliding bars 31 formed between the transverse positioning grooves 152 and the transverse mounting grooves 151, a transverse mounting plate 32 corresponding to the transverse sliding bar 22 is disposed on the lower side of the transverse sliding bar 31, and the transverse sliding bar 31 is inserted into a transverse sliding slot 33 formed by the transverse sliding bar 22, the transverse positioning block 23, the transverse mounting plate 32 and the transverse positioning structure 4. Here, no contact is made between the transverse mounting plate 32 and the positioning block 23.

In detail, the transverse positioning structure 4 includes transverse fixing shafts 41, the transverse fixing shafts 41 are respectively disposed at two ends of the transverse mounting plate 32, the transverse positioning shafts radially penetrate through the transverse mounting groove 151, and one ends of the transverse positioning shafts far away from the transverse mounting plate 32 are fixedly disposed on the upper end surface of the transverse sliding plate 22 through the transverse nuts 42.

It can be seen that the longitudinal sliding groove 16 includes two longitudinal mounting grooves 161 disposed in parallel with each other, and a longitudinal positioning groove 162 disposed in the middle of the longitudinal mounting groove 161 in parallel with the longitudinal mounting groove 161. The longitudinal installation groove 151 and the longitudinal positioning groove 152 are the same in size and have two ends flush with each other, but the length of the longitudinal sliding groove 16 is smaller than that of the lateral sliding groove 15.

Preferably, the longitudinally-movable plate 5 is provided with a longitudinally-movable plate vertical portion 51 arranged perpendicular to the mounting surface 11, one side of the longitudinally-movable plate vertical portion 51 close to the mounting surface 11 and far away from the fixed space 8 is connected with a longitudinally-sliding plate 52 located on the upper end surface of the mounting surface 11 and arranged perpendicularly across the longitudinally-sliding groove 16, the bottom of the longitudinally-sliding plate 52 is provided with a longitudinally-positioning block 53 arranged perpendicular to the longitudinally-sliding plate 52 and located in the longitudinally-positioning groove 162, the longitudinally-movable plate vertical portion 51 is arranged in an L shape with the longitudinally-sliding plate 52, and the longitudinally-movable plate vertical portion 51, the longitudinally-sliding plate 52 and the longitudinally. The longitudinally movable plate 5 and the transversely movable plate 2 have the same shape and size, and the width of the vertically movable plate vertical portion 51 is greater than that of the longitudinally fixed plate 14.

Obviously, the longitudinal sliding structure 6 includes two longitudinal sliding bars 61 formed between the longitudinal positioning slot 162 and the longitudinal mounting slot 161, the longitudinal sliding bar 61 is provided at the lower side with a longitudinal mounting plate 62 corresponding to the longitudinal sliding bar 52, and the longitudinal sliding bar 61 is inserted into the longitudinal sliding slot 63 formed by the longitudinal sliding bar 52, the longitudinal positioning block 53, the longitudinal mounting plate 62 and the longitudinal positioning structure 7.

Further, the longitudinal positioning structure 7 includes longitudinal fixing shafts 71, the longitudinal fixing shafts 71 are respectively disposed at two ends of the longitudinal mounting plate 62, the longitudinal positioning shafts are radially inserted into the longitudinal mounting grooves 161, and one ends of the longitudinal positioning shafts far away from the longitudinal mounting plate 62 are fixedly disposed on the upper end surface of the longitudinal sliding plate 52 by longitudinal nuts 72.

Specifically, the mounting and fixing structure 9 includes fixing blocks 91, the fixing blocks 91 are respectively disposed on one sides of the transverse fixing plate 13 and the longitudinal fixing plate 14 away from the fixing space 8, the fixing blocks 91 are fixedly mounted on the mounting surface 11 through fixing nuts 92, and the longitudinal fixing plate 14 and the longitudinal movable plate 5 are disposed in a staggered manner. The offset arrangement prevents the longitudinal fixed plate 14 and the longitudinal movable plate 5 from pressing the fuel cell stack 17 when the fuel cell stack 17 is installed.

The principle of the embodiment is as follows: effective support is formed to fuel cell pile 17 through mounting plate 1 that has cushion 12, has avoided fuel cell pile 17 to take place to rock when the equipment, and simultaneously, cooperation forms local location to fuel cell pile 17 jointly through horizontal fixed plate 13 and vertical fixed plate 14, the installation of being convenient for, thereby horizontal movable plate 2 and vertical movable plate 5 can be according to the size that the free slide adjustment of specification of fuel cell pile 17 changed fixed space 8 in addition, and the flexibility is better.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the mounting base plate 1, the mounting surface 11, the spacer 12, the lateral fixing plate 13, the longitudinal fixing plate 14, the lateral sliding groove 15, the lateral mounting groove 151, the lateral positioning groove 152, the longitudinal sliding groove 16, the longitudinal mounting groove 161, the fuel cell stack 17, the longitudinal positioning groove 162, the lateral moving plate 2, the lateral moving plate vertical portion 21, the lateral sliding plate 22, the lateral positioning block 23, the lateral sliding structure 3, the lateral slider 31, the lateral mounting plate 32, the lateral sliding groove 33, the lateral positioning structure 4, the lateral fixing shaft 41, the lateral nut 42, the longitudinal moving plate 5, the longitudinal moving plate vertical portion 51, the longitudinal sliding plate 52, the longitudinal positioning block 53, the longitudinal sliding structure 6, the longitudinal slider 61, the longitudinal mounting plate 62, the longitudinal sliding groove 63, the longitudinal positioning structure 7, the longitudinal fixing shaft 71, the longitudinal nut 72, the fixing space 8, the mounting and fixing structure 9, fixing block 91, fixing nut 92, etc., without excluding the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. A fuel cell stack assembly auxiliary device comprises a horizontally arranged mounting base plate (1), wherein the upper end of the mounting base plate (1) is provided with a mounting surface (11), four corners of the lower end of the mounting base plate are provided with cushion blocks (12) for supporting the mounting base plate (1), the fuel cell stack assembly auxiliary device is characterized in that the mounting surface (11) is provided with a transverse fixing plate (13) and a longitudinal fixing plate (14) which are vertically arranged and are vertically distributed through a mounting and fixing structure (9), the mounting surface (11) is movably provided with a transverse movable plate (2) positioned on one side opposite to the transverse fixing plate (13), the transverse movable plate (2) is arranged in a transverse sliding groove (15) transversely arranged along the mounting surface (11) through a transverse sliding structure (3), and a transverse positioning structure (4) is arranged between the transverse movable plate (2) and the transverse sliding groove (15), the mounting surface (11) is movably provided with a longitudinal movable plate (5) positioned on one side opposite to the longitudinal fixed plate (14), the longitudinal movable plate (5) is mounted in a longitudinal sliding groove (16) longitudinally arranged along the mounting surface (11) through a longitudinal sliding structure (6), a longitudinal positioning structure (7) is arranged between the longitudinal movable plate (5) and the longitudinal sliding groove (16), and the transverse fixed plate (13), the longitudinal fixed plate (14), the transverse movable plate (2) and the longitudinal movable plate (5) jointly form a fixed space (8) positioned on the mounting surface (11).

2. The fuel cell stack assembly auxiliary device according to claim 1, wherein the lateral sliding groove (15) includes two lateral mounting grooves (151) arranged in parallel with each other, and a lateral positioning groove (152) is provided in the middle of the lateral mounting grooves (151) in parallel with the lateral mounting grooves (151).

3. The fuel cell stack assembly assist device according to claim 2, the transverse movable plate (2) is provided with a vertical part (21) of the transverse movable plate which is vertical to the mounting surface (11), and one side of one end of the vertical part (21) of the transverse movable plate, which is close to the mounting surface (11) and is far away from the fixed space (8), is connected with a transverse sliding plate (22) which is positioned on the upper end surface of the mounting surface (11) and is vertically crossed with the transverse sliding groove (15), and the bottom of the transverse sliding plate (22) is provided with a transverse positioning block (23) which is arranged vertically with the transverse sliding plate (22) and is positioned in the transverse positioning slot (152), the transverse movable plate vertical part (21) and the transverse sliding plate (22) are arranged in an L shape, and the transverse movable plate vertical part (21), the transverse sliding plate (22) and the transverse positioning block (23) are integrally formed.

4. The fuel cell stack assembly auxiliary device according to claim 3, wherein the lateral sliding structure (3) comprises two lateral sliding bars (31) formed between the lateral positioning groove (152) and the lateral mounting groove (151), a lateral mounting plate (32) corresponding to the lateral sliding plate (22) is arranged on the lower side of the lateral sliding bar (31), and the lateral sliding bars (31) are arranged in the lateral sliding grooves (33) formed by the lateral sliding plate (22), the lateral positioning block (23), the lateral mounting plate (32) and the lateral positioning structure (4) in a penetrating manner.

5. The fuel cell stack assembly auxiliary device according to claim 4, wherein the transverse positioning structure (4) comprises a transverse fixing shaft (41), the transverse fixing shaft (41) is respectively disposed at two ends of the transverse mounting plate (32), the transverse positioning shaft radially penetrates the transverse mounting groove (151), and one end of the transverse positioning shaft away from the transverse mounting plate (32) is fixedly disposed on the upper end surface of the transverse sliding plate (22) through a transverse nut (42).

6. The fuel cell stack assembly auxiliary device according to claim 1, wherein the longitudinal sliding groove (16) includes two longitudinal mounting grooves (161) disposed in parallel with each other, and a longitudinal positioning groove (162) disposed in parallel with the longitudinal mounting grooves (161) is provided in the middle of the longitudinal mounting grooves (161).

7. The fuel cell stack assembly assist device according to claim 6, the longitudinal movable plate (5) is provided with a vertical part (51) of the longitudinal movable plate which is vertical to the mounting surface (11), and one side of one end of the vertical part (51) of the longitudinal movable plate, which is close to the mounting surface (11) and is far away from the fixed space (8), is connected with a longitudinal sliding plate (52) which is positioned on the upper end surface of the mounting surface (11) and is vertically crossed with the longitudinal sliding groove (16), and the bottom of the longitudinal sliding plate (52) is provided with a longitudinal positioning block (53) which is arranged vertically with the longitudinal sliding plate (52) and is positioned in the longitudinal positioning groove (162), the vertical part (51) of the longitudinal movable plate and the longitudinal sliding plate (52) are arranged in an L shape, and the vertical part (51) of the longitudinal movable plate, the longitudinal sliding plate (52) and the longitudinal positioning block (53) are integrally formed.

8. The fuel cell stack assembly auxiliary device according to claim 7, wherein the longitudinal sliding structure (6) comprises two longitudinal sliding bars (61) formed between the longitudinal positioning groove (162) and the longitudinal mounting groove (161), a longitudinal mounting plate (62) corresponding to the longitudinal sliding plate (52) is arranged on the lower side of the longitudinal sliding bar (61), and the longitudinal sliding bar (61) is arranged in a longitudinal sliding groove (63) formed by the longitudinal sliding plate (52), the longitudinal positioning block (53), the longitudinal mounting plate (62) and the longitudinal positioning structure (7) in a penetrating manner.

9. The fuel cell stack assembly auxiliary device according to claim 8, wherein the longitudinal positioning structure (7) comprises longitudinal fixing shafts (71), the longitudinal fixing shafts (71) are respectively arranged at two ends of the longitudinal mounting plate (62), the longitudinal positioning shafts radially penetrate through the longitudinal mounting groove (161), and one ends of the longitudinal positioning shafts far away from the longitudinal mounting plate (62) are fixedly arranged on the upper end surface of the longitudinal sliding plate (52) through longitudinal nuts (72).

10. The fuel cell stack assembly auxiliary device according to claim 1, wherein the mounting and fixing structure (9) comprises fixing blocks (91), the fixing blocks (91) are respectively disposed on the sides of the transverse fixing plate (13) and the longitudinal fixing plate (14) away from the fixing space (8), the fixing blocks (91) are fixedly mounted on the mounting surface (11) through fixing nuts (92), and the longitudinal fixing plate (14) and the longitudinal movable plate (5) are disposed in a staggered manner.

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