CN116683012A - Modular energy storage equipment assembly fixture - Google Patents

Abstract

The invention relates to the technical field of combined machining, and discloses a modularized energy storage equipment assembling tool, which comprises a top frame, wherein two battery cavities are formed in the upper surface of the top frame, a supporting component is arranged in each battery cavity, a first vertical groove and a second vertical groove are respectively formed in two sides of the inner wall of each battery cavity, a buffer component is arranged in the first vertical groove, a pressing component is arranged in the second vertical groove, a power component for controlling the pressing component to press is arranged on the upper surface of the top frame, after the energy storage battery is fixed, a baffle plate is opened in the battery cavity, potential energy of downward movement of a rotating rod is converted into meshing transmission, and elastic force generated by downward stretching of an elastic belt is matched, so that the downward movement speed of the energy storage battery in the battery cavity is reduced, the energy storage battery can be stably installed into an energy storage box, the impact risk of sliding of the energy storage battery during installation is avoided, and the stable installation of the energy storage battery is ensured.

Description

Modular energy storage equipment assembly fixture

Technical Field

The invention relates to the technical field of combined machining, in particular to a modular energy storage equipment assembling tool.

Background

Along with the development of technology, people put forward higher and higher requirements to battery energy storage system, especially in the aspect of the electric quantity of battery, the user hopes that energy storage equipment can store more electric quantity in order to satisfy the power consumption demand, in order to satisfy this requirement, the method of improving the capacity of every battery and increasing battery quantity is adopted more, therefore present energy storage equipment contains more a plurality of batteries to assemble, in order to reach the purpose of convenient maintenance and change battery, the battery is mostly detachably installed in the energy storage case, because the battery weight is great, when the staff places the battery in the energy storage case, receive the influence of battery weight, produce when the battery when placing and drop and can directly drop in the energy storage case, energy storage case and battery produce the striking, thereby lead to producing the situation of damage.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a modular energy storage equipment assembling tool.

(II) technical scheme

The invention provides the following technical scheme: the utility model provides a modularization energy storage equipment frock, including the top frame, the lower surface of top frame has the underframe through girder steel fixed mounting, be equipped with the inner chamber that is used for placing the energy storage case between underframe and the top frame, two battery chamber have been seted up to the upper surface of top frame, the inside in battery chamber and the outside below intercommunication of top frame, the inside in every battery chamber all is provided with the supporting component who is used for placing the energy storage battery, first perpendicular groove and second perpendicular groove have all been seted up to the both sides of every battery intracavity wall, the inside in first perpendicular groove is provided with the buffer unit who is used for buffering the energy storage battery, the inside in second perpendicular groove is provided with the compression subassembly that is used for compressing tightly the energy storage battery, the upper surface of top frame is provided with the power component that is used for controlling to compress tightly the compression subassembly.

Preferably, the buffer assembly comprises a first vertical plate fixedly connected with the inside of the first vertical groove, a rolling notch is formed in one side, close to the center of the battery cavity, of the first vertical plate, side grooves are formed in two sides of the inner wall of the rolling notch, two fixing plates are movably connected with the inside of the rolling notch, one end, away from the inside of the rolling notch, of the two fixing plates is fixedly connected with a flitch, and the flitch is slidably connected with the inside of the first vertical groove through the two fixing plates.

Preferably, two rotate between the fixed plate and be connected with the bull stick, the outside fixed roller that has cup jointed of bull stick, the inner wall laminating of gyro wheel and roll notch, the both ends of bull stick are movable respectively runs through the inside of two fixed plates and extend to the inside of two side slots respectively, the equal fixedly connected with pinion rack of inner wall of every side slot, the outside of every pinion rack is all meshed and is connected with the cover tooth, two cover teeth are fixed respectively cup joints at the outside both ends of bull stick, the outside both ends of bull stick have all movably cup jointed the elastic webbing, the one end that the bull stick was kept away from to two elastic webbing is fixed connection respectively at the inner wall of two side slots.

Preferably, the compression assembly comprises a second vertical plate, the second vertical plate is fixedly connected to the inside of the second vertical groove, long grooves are formed in two sides of the outside of the second vertical plate, a clamping plate is fixedly connected to one side, close to the center of the battery cavity, of the second vertical plate, a connecting column is fixedly connected to one side, close to the second vertical plate, of the clamping plate, a through groove is formed in the inner wall of the long groove, a sliding plate is movably sleeved on the outside of the connecting column, the sliding plate is movably sleeved in the through groove, and the connecting column is connected to the inside of the through groove in a sliding mode through the sliding plate.

Preferably, the one end fixedly connected with short board that the cardboard was kept away from to the spliced pole, and one side that the spliced pole was kept away from to the short board rotates and is connected with two runners, and two runners all set up and rotate with the inside of short board, and the edge portion of runner extends to the outside of short board.

Preferably, the supporting component comprises two transverse grooves, two transverse grooves are respectively formed in two sides of the inner wall of a battery cavity, a baffle is movably connected in each transverse groove, one side close to the two baffles is attached to the inner side of the battery cavity, two round rods are movably sleeved in each baffle, one end of each round rod, which is far away from the baffle, is fixedly connected to the inner wall of the transverse groove, springs are movably sleeved outside the round rods, two ends of each spring are respectively fixedly connected to one side close to the inner wall of the corresponding transverse groove, the baffle is movably connected to the inner side of the corresponding transverse groove through the corresponding spring, connecting notches are formed in each transverse groove, connecting long plates are connected in a sliding mode in the connecting notches, the connecting long plates are fixedly connected to the outer side of the baffle, trapezoidal plates are fixedly mounted on one sides close to the two connecting long plates, and the trapezoidal plates are right-angle trapezoidal.

Preferably, the power component comprises a vertical plate, the vertical plate is fixedly connected to the upper surface of the top frame, a threaded rod is connected to the internal threads of the vertical plate, one end of the threaded rod is fixedly connected with a rotary table, the other end of the threaded rod is fixedly connected with a rotary plate, one side, far away from the rotary table, of the vertical plate is provided with a pressing plate, a T-shaped rotary groove is formed in one side, close to the vertical plate, of the pressing plate, and the threaded rod is rotationally connected to the rotary plate in the T-shaped rotary groove.

Preferably, the both ends of clamp plate all are provided with the switch module that is used for opening two transverse grooves, and every switch module all includes activity notch, squeeze board and movable plate, and the upper surface at the top frame is seted up to the activity notch, and the inside intercommunication of connecting the notch of activity notch, movable plate swing joint in the inside of activity notch, the upper end fixed connection of movable plate is in the outside of clamp plate, squeeze board fixed connection is at the lower surface of movable plate, and the both ends of squeeze board laminate respectively in one side that two trapezoidal plates are close to mutually.

Preferably, the upper surface of underframe is provided with the locating component that is used for fixing a position the energy storage case, locating component is including placing the board, keep out the board, the baffle, push away the groove and accomodate the groove, push away the upper surface of groove and offer at the underframe, push away the inside sliding connection of groove has the push pedal, the upper end fixedly connected with of push pedal places the board, place the board and be used for placing the energy storage case, keep out the upper surface of board fixedly connected at the underframe, accomodate the groove and offer the inside fixedly connected with shell fragment in the upper surface accomodate groove of underframe, the upper surface of shell fragment is provided with the baffle, the baffle passes through shell fragment swing joint in the inside of accomodating the groove.

(III) beneficial effects

Compared with the prior art, the invention provides a modularized energy storage equipment assembling tool, which has the following beneficial effects:

1. this modularization energy storage equipment frock is through fixed the back with the energy storage battery, the baffle is opened in the inside of battery cavity, simultaneously the energy storage battery receives gravity downwardly moving, the energy storage battery is synchronous drive cardboard and flitch and is slided down between second riser and first riser when downwardly moving, the cardboard drives the short board and is close to the one side surface sliding of battery cavity at this moment, the flitch drives the fixed plate and makes the gyro wheel roll at the inner wall of roll notch, drive the both ends of bull stick and roll respectively inside two side slots when the gyro wheel rolls, when the bull stick is in the inside downward movement of side slot, cooperation elastic webbing, the bull stick drives the elastic webbing and contracts, simultaneously the bull stick drives the cover tooth and carries out meshing transmission in the pinion rack outside, through converting the potential energy with bull stick downwardly moving into meshing transmission, simultaneously cooperation elastic webbing downwardly stretching the elasticity that produces, reduce the energy storage battery and get into the energy storage incasement at the speed of battery cavity downwardly moving, make the energy storage battery can steady installation get into the energy storage case, avoid the energy storage battery to produce the striking risk of landing when the installation efficiency, the stable installer to the energy storage battery has been guaranteed when improving energy storage battery installation efficiency.

2. This modularization energy storage equipment frock through with the baffle to accomodate the inside removal of groove and shrink behind accomodating the inslot portion, places the energy storage case and places the upper surface of board to with the energy storage case to the face of placing the board promotes to the butt plate until with the butt plate laminating, the energy storage case is located the below of top frame this moment, and two battery sockets of energy storage case correspond about the position with two battery chamber respectively, reaches the effect of placing the energy storage case location fast.

3. This modularization energy storage equipment frock is placed two batteries respectively in the inside of two second vertical grooves, two batteries receive the support of two baffles and place in the battery chamber, rotate the carousel and drive the threaded rod and make the rotor plate rotate in step, the threaded rod is close to the direction of battery chamber at the inside spiral of riser, the rotor plate drives the clamp plate and makes both sides movable plate and crowded board remove in step in the inside of activity notch this moment, both sides crowded board is crowded to push away two trapezoidal plates in the both sides supporting component respectively, two trapezoidal plates receive to push away and open and drive both sides connection longboard in step and make two baffles open, reach and open the effect of putting the battery down with both sides battery intracavity portion fast.

4. This modularization energy storage equipment frock, when moving the clamp plate and driving the crowded board and remove at activity notch inside, the clamp plate drives the movable plate at first with the surface contact of short board, the movable plate crowded short board of pushing away simultaneously and drive the spliced pole crowded cardboard of pushing away makes the cardboard hug closely in the surface of energy storage battery, extrudees energy storage battery through the cardboard, reaches the effect of fixing energy storage battery stable between flitch and cardboard.

5. This modularization energy storage equipment frock, when opening both sides baffle, two baffles are outside to be removed in both sides trapezoidal plate, and the baffle drives the spring and shrink when removing simultaneously to when reverse rotation carousel, the clamp plate drives crowded board and both sides trapezoidal plate separation, thereby spring reset drives the baffle and resets the inside of battery chamber and seal this time, reaches the effect that does benefit to this device cyclic utilization.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a portion of the positioning assembly of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of a partial cross-sectional structure of the top frame of FIG. 1 according to the present invention;

FIG. 4 is a schematic view of an exploded view of the platen of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of a portion of the first riser of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of a portion of the second riser of FIG. 1 according to the present invention;

fig. 7 is a schematic structural diagram of an energy storage tank and an energy storage battery according to the present invention.

In the figure: 1. a top frame; 11. a bottom frame; 12. an inner cavity; 13. a battery cavity; 14. a first vertical groove; 15. a second vertical groove; 2. a positioning assembly; 21. placing a plate; 22. a retaining plate; 23. a baffle; 24. pushing grooves; 25. a spring plate; 26. a storage groove; 27. a push plate; 3. a power assembly; 31. a vertical plate; 32. a turntable; 33. a pressing plate; 34. a rotating plate; 35. a T-shaped rotating groove; 36. a threaded rod; 4. a compression assembly; 41. a second riser; 42. a clamping plate; 43. a long groove; 44. a slide plate; 45. a connecting column; 46. a rotating wheel; 47. a short plate; 48. a through groove; 5. a switch assembly; 51. a movable notch; 52. extruding a plate; 53. a moving plate; 6. a buffer assembly; 61. a first riser; 62. a toothed plate; 63. a side groove; 64. a rolling notch; 65. a roller; 66. pasting a board; 67. a fixing plate; 68. sleeving teeth; 69. a rotating rod; 610. an elastic belt; 7. a support assembly; 71. a transverse groove; 72. a partition plate; 73. a spring; 74. a round bar; 75. a trapezoidal plate; 76. connecting long plates; 77. and the connecting notch.

Detailed Description

The present invention will be described in further detail below with reference to the drawings, wherein like elements are designated by like reference numerals, and it is noted that the words "front", "rear", "left", "right", "upper" and "lower", "bottom" and "top" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular element.

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 7, the present invention provides a technical solution: the utility model provides a modularization energy storage equipment frock, including top frame 1, the lower surface of top frame 1 has underframe 11 through girder steel fixed mounting, be equipped with the inner chamber 12 that is used for placing the energy storage case between underframe 11 and the top frame 1, two battery chamber 13 have been seted up to the upper surface of top frame 1, the inside in battery chamber 13 and the outside below intercommunication of top frame 1, the inside in every battery chamber 13 all is provided with the supporting component 7 that is used for placing the energy storage battery, energy storage case and energy storage battery specifically are as shown in fig. 7, first perpendicular groove 14 and second perpendicular groove 15 have been seted up respectively to the both sides of every battery chamber 13 inner wall, the inside in first perpendicular groove 14 is provided with the buffer module 6 that is used for buffering the energy storage battery, the inside in second perpendicular groove 15 is provided with the power module 3 that is used for controlling to compress tightly the module 4 and compresses tightly.

The buffer assembly 6 comprises a first vertical plate 61, the first vertical plate 61 is fixedly connected to the inside of the first vertical groove 14, a rolling notch 64 is formed in one side, close to the center of the battery cavity 13, of the first vertical plate 61, side grooves 63 are formed in two sides of the inner wall of the rolling notch 64, two fixing plates 67 are movably connected to the inside of the rolling notch 64, one end, away from the inside of the rolling notch 64, of each fixing plate 67 is fixedly connected with a flitch 66, and the flitch 66 is slidably connected to the inside of the first vertical groove 14 through the two fixing plates 67.

The rotation is connected with bull stick 69 between two fixed plates 67, the outside fixed roller 65 that has cup jointed of bull stick 69, the inner wall laminating of gyro wheel 65 and roll notch 64, the both ends of bull stick 69 are movable respectively runs through the inside of two fixed plates 67 and extend to the inside of two side slots 63 respectively, the equal fixedly connected with pinion rack 62 of the inner wall of every side slot 63, the outside all meshing of every pinion rack 62 is connected with set tooth 68, two set teeth 68 are fixed respectively cup joints at the outside both ends of bull stick 69, the outside both ends of bull stick 69 have all movably cup jointed elastic belt 610, the one end that bull stick 69 was kept away from to two elastic belt 610 is fixed connection respectively at the inner wall of two side slots 63.

The compressing assembly 4 comprises a second vertical plate 41, the second vertical plate 41 is fixedly connected to the inside of the second vertical groove 15, long grooves 43 are formed in two sides of the outside of the second vertical plate 41, a clamping plate 42 is fixedly connected to one side, close to the center of the battery cavity 13, of the second vertical plate 41, a connecting column 45 is fixedly connected to one side, close to the second vertical plate 41, of the clamping plate 42, a through groove 48 is formed in the inner wall of the long groove 43, a sliding plate 44 is movably sleeved on the outside of the connecting column 45, the sliding plate 44 is movably sleeved on the inside of the through groove 48, and the connecting column 45 is slidably connected to the inside of the through groove 48 through the sliding plate 44.

One end of the connecting column 45 far away from the clamping plate 42 is fixedly connected with a short plate 47, one side of the short plate 47 far away from the connecting column 45 is rotationally connected with two rotating wheels 46, the two rotating wheels 46 are respectively arranged to rotate with the inside of the short plate 47, and the edge part of the rotating wheel 46 extends to the outside of the short plate 47.

The supporting component 7 comprises two transverse grooves 71, the two transverse grooves 71 are respectively formed in two sides of the inner wall of the battery cavity 13, each transverse groove 71 is movably connected with a baffle 72, one side, close to the two baffles 72, of each transverse groove 71 is attached to seal the inside of the battery cavity 13, each baffle 72 is movably sleeved with two circular rods 74, one end, far away from the baffles 72, of each circular rod 74 is fixedly connected to the inner wall of each transverse groove 71, the outer part of each circular rod 74 is movably sleeved with a spring 73, two ends of each spring 73 are respectively fixedly connected to one side, close to the inner wall of each transverse groove 71, of each baffle 72 is movably connected to the inner part of each transverse groove 71 through the corresponding spring 73, each transverse groove 71 is provided with a connecting notch 77, each connecting long plate 76 is connected to the outer part of each baffle 72 in a sliding mode, one side, close to each connecting long plate 76, of each connecting long plate 76 is fixedly provided with a trapezoid 75, and each trapezoid 75 is in a right-angle trapezoid shape.

The power assembly 3 comprises a vertical plate 31, the vertical plate 31 is fixedly connected to the upper surface of the top frame 1, a threaded rod 36 is connected to the inner thread of the vertical plate 31, one end of the threaded rod 36 is fixedly connected with a rotary table 32, the other end of the threaded rod 36 is fixedly connected with a rotary plate 34, one side, far away from the rotary table 32, of the vertical plate 31 is provided with a pressing plate 33, one side, close to the vertical plate 31, of the pressing plate 33 is provided with a T-shaped rotary groove 35, and the threaded rod 36 and the rotary plate 34 are rotationally connected to the inside of the T-shaped rotary groove 35.

The both ends of clamp plate 33 all are provided with the switch module 5 that is used for opening two transverse grooves 71, every switch module 5 all includes movable notch 51, squeeze board 52 and movable plate 53, the upper surface at top frame 1 is seted up to movable notch 51, and the inside intercommunication of connecting notch 77 of movable notch 51, movable plate 53 swing joint is in the inside of movable notch 51, the upper end fixed connection of movable plate 53 is in the outside of clamp plate 33, squeeze board 52 fixed connection is at the lower surface of movable plate 53, the both ends of squeeze board 52 laminate respectively in the one side that two trapezoidal plates 75 are close to each other.

The upper surface of underframe 11 is provided with the locating component 2 that is used for fixing a position the energy storage case, locating component 2 is including placing board 21, butt plate 22, baffle 23, push away groove 24 and accomodate groove 26, push away the upper surface of inslot 24 and offer at underframe 11, push away the inside sliding connection of groove 24 has push pedal 27, push pedal 27's upper end fixedly connected with places board 21, place board 21 and be used for placing the energy storage case, butt plate 22 fixed connection is at the upper surface of underframe 11, accomodate the inside fixedly connected with shell fragment 25 of groove 26 is accomodate at the upper surface of underframe 11 in the groove 26, the upper surface of shell fragment 25 is provided with baffle 23, baffle 23 passes through shell fragment 25 swing joint in the inside of accomodating groove 26.

In the course of the use of the device,

first step, through with baffle 23 to accomodate the inside removal of groove 26 and shrink behind the inside of groove 26, place the energy storage case at the upper surface of placing board 21 to with the energy storage case push to the butt plate 22 at the surface of placing board 21 until laminating with butt plate 22, the energy storage case is located the below of top frame 1 this moment, and two battery sockets of energy storage case correspond about the position with two battery chamber 13 respectively, reach the effect of quick carrying out the location with the energy storage case and placing.

In the second step, two batteries are respectively placed in the two second vertical grooves 15, the two batteries are supported by the two partition plates 72 and placed in the battery cavity 13, the rotating disc 32 rotates to drive the threaded rod 36 and enable the rotating plate 34 to synchronously rotate, the threaded rod 36 is screwed in the vertical plate 31 to approach the direction of the battery cavity 13, at the moment, the rotating plate 34 drives the pressing plate 33 to enable the two side moving plates 53 and the pressing plate 52 to synchronously move in the movable notch 51, the two side pressing plates 52 respectively push and push the two trapezoid plates 75 in the two side supporting components 7, the two trapezoid plates 75 are pushed and opened and synchronously drive the two side connecting long plates 76 to enable the two partition plates 72 to be opened, and the effect of quickly opening the interiors of the two side battery cavities 13 and lowering the batteries is achieved.

Third, when the pressing plate 33 is moved to drive the squeezing plate 52 to move in the movable notch 51, the pressing plate 33 drives the moving plate 53 to contact with the surface of the short plate 47 first, and simultaneously the moving plate 53 squeezes the short plate 47 and drives the connecting post 45 to push the clamping plate 42 so that the clamping plate 42 is tightly attached to the outer surface of the energy storage battery, and the effect of stably fixing the energy storage battery between the attaching plate 66 and the clamping plate 42 is achieved through the squeezing of the clamping plate 42 on the energy storage battery.

Fourth, through fixing the energy storage battery, and this moment, the baffle 72 opens in the inside of battery cavity 13, simultaneously the energy storage battery receives gravity and moves downwards, the energy storage battery is synchronous drive cardboard 42 and flitch 66 when moving downwards and is in the mesh transmission between second riser 41 and first riser 61, this moment, cardboard 42 drives the short board 47 and is close to the one side surface sliding of battery cavity 13 at movable plate 53, flitch 66 drives fixed plate 67 and makes gyro wheel 65 roll at the inner wall of roll notch 64, simultaneously drive the both ends of bull stick 69 and roll respectively in two side slots 63 when gyro wheel 65 rolls, when bull stick 69 moves downwards in side slots 63, cooperation elastic band 610, bull stick 69 drives elastic band 610 and contracts, simultaneously bull stick 69 drives set tooth 68 and carries out mesh transmission in the outside of pinion rack 62, via the potential energy conversion of bull stick 69 downward movement into mesh transmission, simultaneously cooperation elastic band 610 stretches the elastic force that produces downwards, reduce the speed that the energy storage battery moved downwards in battery cavity 13, it makes the energy storage battery move to the bottom in battery cavity 13 to the time to roll through cardboard 42 and flitch 66, the lower extreme of energy storage battery in the battery, simultaneously, the energy storage tank is located in the energy storage battery and energy storage battery is installed in order to keep the energy storage battery's lower extreme, install the energy storage tank and energy storage battery's the energy storage can be installed in order to keep down the energy storage battery's stable, the energy storage can be installed in order to keep down the energy storage battery's installation at the time, and the energy storage battery's side is stable, the energy storage can be mounted at the time, and can be mounted down the energy storage battery's side is guaranteed to the energy storage battery ' is mounted down and is stable, and can be mounted at the energy storage battery's side is down and is down to the energy storage station ' is down to the battery ' down to can be down and is down to the energy storage station ' down.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a modularization energy storage equipment frock, includes roof frame (1), and the lower surface of roof frame (1) has underframe (11) through girder steel fixed mounting, is equipped with between underframe (11) and roof frame (1) and is used for placing inner chamber (12) of energy storage case, its characterized in that: two battery chambers (13) have been seted up to the upper surface of top frame (1), the inside in battery chamber (13) communicates with the outside below of top frame (1), the inside in every battery chamber (13) all is provided with supporting component (7) that are used for placing energy storage battery, first perpendicular groove (14) and second perpendicular groove (15) have been seted up respectively to the both sides of every battery chamber (13) inner wall, the inside in first perpendicular groove (14) is provided with buffer module (6) that are used for carrying out buffering to energy storage battery, the inside in second perpendicular groove (15) is provided with the power pack (3) that are used for compressing tightly energy storage battery that are used for compressing tightly in the inside of top frame (1), the upper surface of top frame (1) is provided with and is used for controlling power pack (4) that compress tightly.

2. The modular energy storage device assembly fixture of claim 1, wherein: the utility model provides a buffering subassembly (6) is including first riser (61), the inside of first riser (61) fixed connection in first vertical groove (14), rolling notch (64) have been seted up to one side that first riser (61) is close to battery chamber (13) center, side groove (63) have all been seted up to the both sides of rolling notch (64) inner wall, the inside swing joint of rolling notch (64) has two fixed plates (67), one end fixedly connected with flitch (66) inside rolling notch (64) are kept away from to two fixed plates (67), flitch (66) are through the inside of two fixed plates (67) sliding connection in first vertical groove (14).

3. The modular energy storage device assembly fixture of claim 2, wherein: two rotate between fixed plate (67) and be connected with bull stick (69), the outside fixed gyro wheel (65) that has cup jointed of bull stick (69), the laminating of the inner wall of gyro wheel (65) and roll notch (64), the both ends of bull stick (69) are movable respectively and are run through the inside of two fixed plates (67) and extend to the inside of two side slots (63) respectively, the equal fixedly connected with pinion rack (62) of inner wall of every side slot (63), the outside of every pinion rack (62) is all meshed and is connected with cover tooth (68), two cover teeth (68) are fixed respectively cup joints at the outside both ends of bull stick (69), the outside both ends of bull stick (69) all movably cup jointed elastic belt (610), the one end that bull stick (69) were kept away from in the inner wall of two side slots (63) is fixed connection respectively.

4. The modular energy storage device assembly fixture of claim 1, wherein: the compression assembly (4) comprises a second vertical plate (41), the second vertical plate (41) is fixedly connected to the inside of the second vertical groove (15), long grooves (43) are formed in two sides of the outside of the second vertical plate (41), clamping plates (42) are fixedly connected to one sides, close to the centers of the battery cavities (13), of the second vertical plate (41), connecting columns (45) are fixedly connected to one sides, close to the second vertical plate (41), of the clamping plates (42), through grooves (48) are formed in the inner walls of the long grooves (43), sliding plates (44) are movably sleeved on the outer sides of the connecting columns (45), the sliding plates (44) are movably sleeved in the through grooves (48), and the connecting columns (45) are slidably connected to the inside of the through grooves (48) through the sliding plates (44).

5. The modular energy storage device assembly fixture of claim 4, wherein: one end that spliced pole (45) kept away from cardboard (42) fixedly connected with short slab (47), one side that spliced pole (45) were kept away from to short slab (47) rotates and is connected with two runner (46), and two runner (46) all set up and rotate with the inside of short slab (47), and the edge portion of runner (46) extends to the outside of short slab (47).

6. The modular energy storage device assembly fixture of claim 1, wherein: the utility model provides a battery pack (7) is including two cross grooves (71), the both sides at battery chamber (13) inner wall are offered respectively to two cross grooves (71), the inside of every cross groove (71) is equal swing joint has baffle (72), the inside laminating of one side that two baffles (72) are close to is sealed battery chamber (13) inside, the inside of every baffle (72) has all movably sleeved two round bars (74), the one end fixed connection that baffle (72) were kept away from to round bar (74) is at the inner wall of cross groove (71), the outside activity of round bar (74) has cup jointed spring (73), the both ends of spring (73) are fixed connection in the one side that baffle (72) are close to with cross groove (71) inner wall respectively, baffle (72) are through spring (73) swing joint in the inside of cross groove (71).

7. The modular energy storage device assembly fixture of claim 6, wherein: every connect notch (77) have all been seted up to the inside of transverse groove (71), the inside sliding connection of connect notch (77) has connect longeron (76), connects longeron (76) fixed connection in the outside of baffle (72), and two equal fixed mounting of one side that connect longeron (76) are close to have trapezoidal board (75), and trapezoidal board (75) are right trapezoid.

8. The modular energy storage device assembly fixture of claim 1, wherein: the power assembly (3) comprises a vertical plate (31), wherein the vertical plate (31) is fixedly connected to the upper surface of the top frame (1), a threaded rod (36) is connected to the inner thread of the vertical plate (31), one end of the threaded rod (36) is fixedly connected with a rotary table (32), the other end of the threaded rod (36) is fixedly connected with a rotary plate (34), one side, far away from the rotary table (32), of the vertical plate (31) is provided with a pressing plate (33), one side, close to the vertical plate (31), of the pressing plate (33) is provided with a T-shaped rotary groove (35), and the threaded rod (36) and the rotary plate (34) are rotationally connected to the inside of the T-shaped rotary groove (35).

9. A modular energy storage device assembly fixture as claimed in claim 6 or 8, wherein: the utility model discloses a clamp plate, including clamp plate (33), both ends of clamp plate (33) all are provided with switch module (5) that are used for opening two transverse grooves (71), every switch module (5) all including activity notch (51), squeeze board (52) and movable plate (53), the upper surface at top frame (1) is seted up in activity notch (51), and the inside of activity notch (51) communicates with the inside of connecting notch (77), movable plate (53) swing joint is in the inside of activity notch (51), the upper end fixed connection of movable plate (53) is in the outside of clamp plate (33), squeeze board (52) fixed connection is in the lower surface of movable plate (53), the both ends of squeeze board (52) are laminated respectively in one side that two trapezoidal boards (75) are close to mutually.

10. The modular energy storage device assembly fixture of claim 1, wherein: the upper surface of underframe (11) is provided with locating component (2) that are used for fixing a position the energy storage case, locating component (2) are including placing board (21), keep out board (22), baffle (23), push away groove (24) and accomodate groove (26), push away the upper surface of groove (24) and offer at underframe (11), push away the inside sliding connection of groove (24) and have push pedal (27), the upper end fixedly connected with of push pedal (27) places board (21), place board (21) and be used for placing the energy storage case, keep out board (22) fixed connection at the upper surface of underframe (11), the inside fixedly connected with shell fragment (25) of accomodating groove (26) at the upper surface of underframe (11) are offered in groove (26), the upper surface of shell fragment (25) is provided with baffle (23), baffle (23) pass through shell fragment (25) swing joint in the inside of accomodating groove (26).