CN117691248B - Heat exchange assembly for energy storage equipment and installation method thereof - Google Patents

Abstract

The invention relates to the technical field of heat exchange assemblies, in particular to a heat exchange assembly for energy storage equipment, which comprises a plate heat exchanger body and an energy storage equipment battery box provided with the plate heat exchanger body, wherein a matched installation cavity is formed in the plate heat exchanger body, a retraction plug hole is formed in the cavity bottom of the matched installation cavity, storage matching holes are symmetrically formed in two ends of the plate heat exchanger body, a connecting rod piece hole is formed in the hole bottom of the storage matching holes, and the connecting rod piece hole penetrates into the matched installation cavity. Positioning and inserting the plate heat exchanger body; step two: the first layer of the plate heat exchanger body is fixed; step three: the second layer of the plate heat exchanger body is fixed; step four: automatic fixing of the driving matching block; step five: the stable heat exchange of the plate heat exchanger body.

Description

Heat exchange assembly for energy storage equipment and installation method thereof

Technical Field

The invention relates to the technical field of heat exchange assemblies, in particular to a heat exchange assembly for energy storage equipment and an installation method thereof.

Background

The energy source of energy storage equipment is the battery, the battery safe handling needs to carry out abundant protection to it, avoid it to receive the injury of external factor, so generally need to load the battery in a confined cavity and protect it, and to some battery products, its sealed level is higher, fully play dustproof, waterproof effect, but the battery is the in-process of working needs to keep a healthy operating temperature, surpass the damage that this temperature range will cause the battery, so in order to guarantee the normal work of battery, generally can install the heat transfer module on energy storage equipment battery box, wherein most commonly just plate heat exchanger, at present, plate heat exchanger is installed through the screw when the installation, install through the screw, the operation is more troublesome, need use the instrument to install and tear it down, and all be fixed through a plurality of screws, just so need to operate the screw, need consume more time, when plate heat exchanger breaks down and need dismantle, often just need to tear down in the time of installing, more waste, work efficiency and make the work intensity of service personnel great is also influenced.

Disclosure of Invention

The invention aims to provide a heat exchange assembly for energy storage equipment and an installation method thereof, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The utility model provides a heat exchange assembly for energy storage equipment, includes plate heat exchanger body and installs the energy storage equipment battery box of plate heat exchanger body, set up the cooperation installation inner chamber on the plate heat exchanger body, the indentation jack has been seted up to the chamber end of cooperation installation inner chamber, accomodate the mating holes has been seted up to the both ends symmetry of plate heat exchanger body, connect the member hole has been seted up at the hole end of accomodating the mating holes, connect the member hole and run through the inside of cooperation installation inner chamber, and the cooperation guide hole has been seted up to the inside bilateral symmetry of cooperation installation inner chamber, set up the enhancement connection recess on the side of plate heat exchanger body, set up the installation mating holes on the energy storage equipment battery box, plate heat exchanger body grafting is in the installation mating holes, the interior port upper and lower both sides symmetry of installation mating holes is fixed and is provided with interior protruding loading board, the fixed spacing baffle that is provided with of installation mating holes on the interior protruding loading board, the energy storage equipment battery box at installation mating holes both ends is last the symmetry fixedly provided with fixed box body piece, set up the cooperation connection jack on the interior terminal surface of fixed box piece, install the guide hole and install the heat exchanger body and install the spacing mechanism down on the body of the body and the both ends of the heat exchanger body.

Preferably, the convenient installing and dismantling mechanism of heat exchanger body includes drive cooperation block, first reset connection spring, fixed connection member, movable bearing plate, second reset connection spring, first passageway cooperation inserted bar, movable bearing plate and pole chamber cooperation inserted bar, drive cooperation block is installed in cooperation installation inner chamber department, and fixed plug connection hole has been seted up to the symmetry on the drive cooperation block, and the symmetry is fixed to be provided with on the drive cooperation block and extends the limiting plate.

Preferably, protruding articulated frames are symmetrically and fixedly arranged at two ends of the driving matching block, driving articulated connecting rods are articulated on the protruding articulated frames, inserting guide rods are fixedly arranged on the driving matching block, the inserting guide rods are inserted into the retracting inserting holes, first reset connecting springs are sleeved on the inserting guide rods, and fixed connecting rods are articulated at the other ends of the driving articulated connecting rods.

Preferably, the number of the fixed connection rod pieces is two, the fixed connection rod pieces are respectively inserted into the holes of the connection rod pieces, one end of each fixed connection rod piece is fixedly provided with a fixed connection insertion block, and the fixed connection insertion blocks are inserted into the accommodating matching holes.

Preferably, the other end of the fixed connection rod is fixedly provided with a rod connection frame body, the rod connection frame body is hinged with the driving hinged connecting rod, the rod connection frame body is fixedly provided with a bearing driving connecting plate, the bearing driving connecting plate is fixedly provided with a first oblique body driving strip, and a first driving matching channel is formed in the first oblique body driving strip.

Preferably, the movable bearing plate is two, and installs respectively on two fixed box blocks, and fixedly is provided with grafting support member on the movable bearing plate, grafting support member is pegged graft in grafting mating holes, and has cup jointed second reset connection spring on the grafting support member, and fixedly is provided with by the cooperation block on the grafting support member, by the cooperation block grafting of top in the cooperation connection jack.

Preferably, the movable bearing plate is symmetrically and fixedly provided with a supporting and matching connecting plate, the supporting and matching connecting plate is fixedly provided with a second oblique body driving strip, a second driving and matching channel is formed in the second oblique body driving strip, and a first channel matching inserted rod is inserted in the second driving and matching channel.

Preferably, the two symmetrical fixing of first passageway cooperation inserted bar is provided with and bears fixed plate, bear the fixed picture peg of strengthening that is provided with of one end of fixed plate is fixed, and another end is fixed to be provided with spacing cooperation inserted bar, spacing cooperation inserted bar is pegged graft in spacing guiding hole, and strengthens when fixed picture peg plays the effect of strengthening fixedly to the plate heat exchanger body, peg graft in strengthening the connection recess.

Preferably, the movable bearing plate is fixedly provided with a matched inserting guide rod, the matched inserting guide rod is inserted into the matched guide hole, two ends of the movable bearing plate are symmetrically welded with elastic connection sheet bodies, one side of the movable bearing plate is fixedly provided with a protruding bearing plate, two fixed matched connecting plates are fixedly arranged on the protruding bearing plate, a second channel matched inserting rod is fixedly arranged between the two fixed matched connecting plates, the second channel matched inserting rod is inserted into the first driven matched channel, the movable bearing plate is provided with a mounting rod cavity, the mounting rod cavity penetrates into the matched inserting guide rod, a rod cavity matched inserting rod is inserted into the mounting rod cavity, a connecting fixing plate body is fixedly arranged on the rod cavity matched inserting rod, the other end of the elastic connection sheet body is welded on the connecting fixing plate body, two ends of the connecting fixing plate body are symmetrically fixedly provided with pushing hand plates, and the connecting fixing plate body is fixedly provided with a fixed limiting inserting rod.

The installation method of the heat exchange assembly for the energy storage equipment comprises the following steps:

step one: positioning and inserting connection of plate heat exchanger body: the plate heat exchanger body is inserted into the mounting hole, so that the plate heat exchanger body is contacted with the limiting blocking plate, and the plate heat exchanger body is positioned;

Step two: the first layer of the plate heat exchanger body is fixed: after the step one is completed, pushing the driving matching block, pushing the fixed connection rod piece to move under the action of the driving hinged connecting rod, and further enabling the fixed connection plug block to be plugged into the matching connection jack to realize the first-layer fixation of the plate heat exchanger body;

Step three: the second layer of the plate heat exchanger body is fixed: along with the movement of the fixed connection rod piece, the fixed connection rod piece pushes the movable bearing plate piece to move, and then drives the first channel to move in cooperation with the inserting rod, so that the reinforcing fixed inserting plate is inserted into the reinforcing connection groove, and the second layer of the plate heat exchanger body is fixed;

Step four: automatic fixing of the driving matching block: along with the movement of the fixed connecting rod piece and the driving matching block, the fixed limiting inserted rod is inserted into the fixed inserting connecting hole, so that the driving matching block is fixed;

step five: stable heat exchange of plate heat exchanger body: after the plate heat exchanger body is installed, the plate heat exchanger body is communicated with the inner side and the outer side of the battery box of the energy storage equipment, so that stable heat exchange is realized.

Compared with the prior art, the invention has the beneficial effects that: the invention has reasonable structure and strong functionality and has the following advantages:

1. When the installation of plate heat exchanger body is carried out, peg graft it in the installation mating holes, then promote the drive cooperation block and can promote two fixed connection member and remove under the effect of drive articulated connecting rod for in the fixed connection inserted block peg graft the mating connection jack, realize that the first layer of plate heat exchanger body is fixed from the both ends of plate heat exchanger body, realize its stable installation.

2. In addition, along with the removal of fixed connection member, it will promote the activity and bear the weight of the plate and remove, will drive first passageway cooperation inserted bar under the effect of activity and bear the weight of the member like this and remove, along with the removal of first passageway cooperation inserted bar, it will drive to strengthen fixed picture peg plug-in to strengthening in the connection recess, can realize like this that the second floor of plate heat exchanger body is fixed, and then strengthen the joint strength between energy storage equipment battery box and the plate heat exchanger body, fully guarantee the stability and the fastness of plate heat exchanger installation, easy operation is convenient and swift.

3. The fixed connection member bar also drives the movable bearing plate to move in the moving process, and along with the movement of the movable bearing plate, the elastic connection sheet body is in a compression station state, so that when the fixed limit inserting rod is aligned with the fixed inserting connecting hole on the drive fit member, the fixed limit inserting rod is inserted into the fixed inserting connecting hole under the action of the elastic connection sheet body, the drive fit member is fixed, the automatic fixation of the drive fit member is further realized, the installation of the plate heat exchanger body is completed, and the fixing operation of the plate heat exchanger body is not required.

Drawings

Fig. 1 is an assembly schematic diagram of a plate heat exchanger body and an energy storage device tank.

Fig. 2 is an enlarged schematic view at a in fig. 1.

Fig. 3 is an enlarged schematic view at B in fig. 1.

Fig. 4 is a schematic view of a first view structure of a plate heat exchanger body.

Fig. 5 is a schematic view of a second view angle structure of the plate heat exchanger body.

Fig. 6 is a schematic structural diagram of a battery box of the energy storage device.

Fig. 7 is a schematic structural view of the fixed connection rod.

Fig. 8 is a schematic structural view of the movable carrier plate.

Fig. 9 is a schematic view of the structure of the movable carrier plate.

In the figure: 1. a plate heat exchanger body; 11. an inner cavity is matched and installed; 12. retracting the plug hole; 13. a receiving mating hole; 14. a connecting rod hole; 15. matching with the guide hole; 16. reinforcing the connection groove; 2. an energy storage device battery box; 21. installing a matching hole; 22. an inward convex bearing plate; 23. a limit blocking plate; 24. fixing the box body block; 25. a mating connection jack; 26. a plug-in matching hole; 27. limiting the guide hole; 3. driving the mating block; 31. a fixed plug connection hole; 32. extending the limiting plate; 33. protruding the articulated frame; 34. driving a hinged connecting rod; 35. inserting a guide rod; 36. a first return connection spring; 4. fixedly connecting the rod pieces; 41. fixedly connecting the plug blocks; 42. the rod piece is connected with the frame body; 43. the bearing drives the connecting plate; 44. a first italic driven bar; 45. a first drive-fit channel; 5. a movable carrier plate; 51. inserting a support rod piece; 511. a second return connection spring; 52. a topped mating block; 53. supporting and matching the connecting plate; 54. a second italic driven bar; 55. a second driving matching channel; 6. the first channel is matched with the inserted link; 61. carrying and fixing the plate; 62. reinforcing the fixed plugboard; 63. limit matching inserted bars; 7. a movable carrying tray; 71. matching with a plug-in guide rod; 72. an elastic connecting sheet body; 73. protruding the bearing plate; 74. fixedly matching the connecting plates; 75. the second channel is matched with the inserted link; 76. a rod cavity is installed; 77. the rod cavity is matched with the inserted rod; 78. connecting and fixing the tray body; 781. pushing the hand plate; 782. and fixing the limiting inserted link.

Detailed Description

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 9, the present invention provides a technical solution:

the utility model provides a heat exchange assembly for energy storage equipment, including plate heat exchanger body 1 and install the energy storage equipment battery case 2 of plate heat exchanger body 1, set up cooperation installation inner chamber 11 on the plate heat exchanger body 1, the indent jack 12 has been seted up to the chamber end of cooperation installation inner chamber 11, the storage mating holes 13 has been seted up to the both ends symmetry of plate heat exchanger body 1, the connection member hole 14 has been seted up to the hole end of storage mating holes 13, the inside of cooperation installation inner chamber 11 is run through to connection member hole 14, and the cooperation guiding hole 15 has been seted up to the inside bilateral symmetry of cooperation installation inner chamber 11, set up on the side of plate heat exchanger body 1 and strengthen coupling groove 16, set up installation mating holes 21 on the energy storage equipment battery case 2, plate heat exchanger body 1 peg graft in installation mating holes 21, the interior port upper and lower both sides symmetry of installation mating holes 21 is fixedly provided with interior protruding loading board 22, keep away from the fixed spacing barrier 23 that is provided with in one end of installation mating holes 21 on the interior protruding loading board 22, the energy storage equipment battery case 2 at both ends is fixedly provided with fixed box piece 24 on the symmetry, set up on the interior terminal surface of fixed box piece 24 and set up the cooperation guiding hole 25, install the jack 25 under the jack 25 is equipped with on the interior terminal surface of fixed box piece 24 and the jack mechanism is set up on the side of body 1, and the jack mechanism is set up down in the jack 25 is equipped with the jack 2 respectively.

The convenient installing and detaching mechanism of the heat exchanger body comprises a driving matching block body 3, a first reset connecting spring 36, a fixed connecting rod piece 4, a movable bearing plate piece 5, a second reset connecting spring 511, a first channel matching inserted rod 6, a movable bearing plate 7 and a rod cavity matching inserted rod 77, wherein the driving matching block body 3 is installed at the position of a matching installation inner cavity 11, fixed inserting connecting holes 31 are symmetrically formed in the driving matching block body 3, extension limiting plates 32 are symmetrically and fixedly arranged on the driving matching block body 3, and the surfaces of the extension limiting plates 32 are smooth and burr-free.

The two ends of the driving matching block 3 are symmetrically and fixedly provided with protruding hinge frames 33, the protruding hinge frames 33 are hinged with driving hinge connecting rods 34, the driving matching block 3 is fixedly provided with inserting guide rods 35, the inserting guide rods 35 are inserted into the retracting inserting holes 12, the inserting guide rods 35 are sleeved with first reset connecting springs 36, the other ends of the driving hinge connecting rods 34 are hinged with fixed connecting rods 4, and two ends of the first reset connecting springs 36 are welded to the cavity bottom of the matching installation cavity 11 and the driving matching block 3 respectively.

The two fixed connection rods 4 are respectively inserted into the connection rod holes 14, one end of the fixed connection rod 4 is fixedly provided with a fixed connection plug 41, the fixed connection plug 41 is inserted into the accommodating matching hole 13, and the fixed connection plug 41 is inserted into the matching connection jack 25 when the plate heat exchanger body 1 plays a role in fixation, and the diameter of the fixed connection plug 41 is equal to the diameter of the matching connection jack 25.

The other end of the fixed connection rod 4 is fixedly provided with a rod connection frame body 42, the rod connection frame body 42 is hinged with the driving hinged connecting rod 34, the rod connection frame body 42 is fixedly provided with a bearing driving connecting plate 43, the bearing driving connecting plate 43 is fixedly provided with a first oblique body driving strip 44, and the first oblique body driving strip 44 is provided with a first driving matching channel 45.

The movable bearing plate 5 is two, install respectively on two fixed box blocks 24, and fixed grafting support member 51 that is provided with on the movable bearing plate 5, grafting support member 51 peg graft in grafting mating holes 26, and peg graft support member 51 on cup joint second reset connection spring 511, and fixedly provided with by the cooperation block 52 on the grafting support member 51, peg graft in cooperation connection jack 25 by the cooperation block 52, in addition, the both ends of second reset connection spring 511 weld respectively on fixed box block 24 and on movable bearing plate 5.

The movable bearing plate 5 is symmetrically and fixedly provided with a supporting and matching connecting plate 53, the supporting and matching connecting plate 53 is fixedly provided with a second oblique body driving strip 54, the second oblique body driving strip 54 is provided with a second driving and matching channel 55, a first channel matching inserted rod 6 is inserted into the second driving and matching channel 55, and the inner wall of the second driving and matching channel 55 is in contact with the first channel matching inserted rod 6.

The two symmetrical fixing of first passageway cooperation inserted bar 6 is provided with and bears fixed plate 61, bears fixed plate 61's one end fixed be provided with the fixed picture peg 62 of strengthening, and another fixed be provided with spacing cooperation inserted bar 63, spacing cooperation inserted bar 63 peg graft in spacing guiding hole 27, and strengthen fixed picture peg 62 play the fixed effect of strengthening to plate heat exchanger body 1, peg graft in strengthening the connection recess 16, and strengthen the width of connection recess 16 and strengthen fixed picture peg 62 and equal.

The movable bearing plate 7 is fixedly provided with a matched inserting guide rod 71, the matched inserting guide rod 71 is inserted into the matched guide hole 15, two ends of the movable bearing plate 7 are symmetrically welded with elastic connection sheet bodies 72, one side of the movable bearing plate 7 is fixedly provided with a protruding bearing plate 73, two fixed matched connecting plates 74 are fixedly arranged on the protruding bearing plate 73, a second channel matched inserting rod 75 is fixedly arranged between the two fixed matched connecting plates 74, the second channel matched inserting rod 75 is inserted into the first driven matching channel 45, the second channel matched inserting rod 75 is in contact with the inner wall of the first driven matching channel 45, a mounting rod cavity 76 is formed in the movable bearing plate 7, the mounting rod cavity 76 penetrates into the matched inserting guide rod 71, a rod cavity matched inserting rod 77 is inserted into the mounting rod cavity 76, the other end of the elastic connection plate 72 is welded on the connection fixed plate 78, two ends of the connection fixed plate 78 are symmetrically fixedly provided with pushing hand plates 7813, the connection fixed limiting rod 782 is fixedly arranged on the connection fixed plate body 78, and the diameter of the connection fixed inserting rod 782 is equal to the diameter of the driving limiting block 7831 when the driving inserting rod is inserted into the fixed inserting hole 782.

The installation method of the heat exchange assembly for the energy storage equipment comprises the following steps:

step one: positioning and inserting connection of the plate heat exchanger body 1: the plate heat exchanger body 1 is inserted into the mounting matching hole 21, so that the plate heat exchanger body 1 is contacted with the limiting blocking plate 23, and the plate heat exchanger body 1 is positioned;

Step two: the first layer of the plate heat exchanger body 1 is fixed: after the step one is completed, the driving matching block 3 is pushed, the fixed connection rod piece 4 is pushed to move under the action of the driving hinging connecting rod 34, and then the fixed connection plug block 41 is plugged into the matching connection jack 25, so that the first layer of the plate heat exchanger body 1 is fixed;

step three: the second layer of the plate heat exchanger body 1 is fixed: along with the movement of the fixed connection rod piece 4, the fixed connection rod piece 4 pushes the movable bearing plate piece 5 to move, and then drives the first channel to move in cooperation with the inserting rod 6, so that the reinforcing fixing inserting plate 62 is inserted into the reinforcing connection groove 16, and the second layer of the plate heat exchanger body 1 is fixed;

step four: automatic fixing of the driving engagement block 3: along with the movement of the fixed connection rod 4 and the driving matching block 3, the fixed limit inserting rod 782 is inserted into the fixed inserting connecting hole 31, so as to realize the fixation of the driving matching block 3;

step five: stable heat exchange of plate heat exchanger body 1: after the plate heat exchanger body 1 is installed, the plate heat exchanger body is communicated with the inner side and the outer side of the battery box 2 of the energy storage equipment, so that stable heat exchange is realized.

When the plate heat exchanger body 1 is installed, the plate heat exchanger body 1 is inserted into the installation matching hole 21, so that the plate heat exchanger body 1 is contacted with the limiting blocking plate 23, positioning and placement of the plate heat exchanger body 1 are realized, then the driving matching block 3 is pushed towards the cavity bottom direction of the matching installation cavity 11, the fixed connecting rod piece 4 is pushed to move under the action of the driving hinging connecting rod 34 along with the movement of the driving matching block 3, the fixed connecting inserting block 41 is inserted into the matching connecting inserting hole 25, the first layer of the plate heat exchanger body 1 is fixed, meanwhile, the fixed connecting inserting block 41 is contacted with the matched block 52 at the top, so that the matched block 52 is pushed to move along with the movement of the fixed connecting rod piece 4, and the movable bearing plate 5 is moved, in this way, the first channel matching insert rod 6 is driven to move towards the direction close to the fixed box body block 24 under the action of the second oblique body driving strip 54, so that the reinforcing fixing insert plate 62 is inserted into the reinforcing connection groove 16, the second layer fixing of the plate heat exchanger body 1 is realized, the mounting firmness and stability of the plate heat exchanger body 1 are fully ensured, in addition, along with the movement of the fixed connection rod 4, the movable bearing plate 7 is driven to move towards the direction close to the driving matching block 3 under the action of the first oblique body driving strip 44, the fixed limit insert rod 782 is contacted with the extending limit plate 32, meanwhile, the elastic connection sheet 72 is in a compressed state under the limit of the extending limit plate 32 until the fixed limit insert rod 782 is aligned with the fixed insertion connection hole 31, the fixed limit insert rod 782 is inserted into the fixed insertion connection hole 31 under the action of the elastic connection sheet 72, the fixing of the driving matching block 3 is realized, the fixed mounting of the plate heat exchanger body 1 is completed, the operation is simple, convenient and quick, and when the plate heat exchanger body 1 is dismounted, the pushing hand plates 781 on the two connecting fixing disc bodies 78 are pushed simultaneously, so that the fixed limiting inserting rod 782 exits from the fixed inserting connecting hole 31, the reset of the driving matching block 3 can be realized under the action of the first reset connecting spring 36, and the dismounting of the plate heat exchanger body 1 is realized.

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 (6)

1. The utility model provides a heat transfer subassembly for energy storage equipment, includes plate heat exchanger body (1) and installs energy storage equipment battery box (2) of plate heat exchanger body (1), its characterized in that: the utility model discloses a plate heat exchanger, including plate heat exchanger body (1), plate heat exchanger body (1) and energy storage equipment battery box (2), plate heat exchanger body (1) is last to have offered cooperation installation inner chamber (11), indentation spliced eye (12) have been offered to the chamber end of cooperation installation inner chamber (11), accomodate spliced eye (13) have been offered to the both ends symmetry of plate heat exchanger body (1), connect member hole (14) have been offered to the hole end of accomodating spliced eye (13), connect member hole (14) run through the inside of cooperation installation inner chamber (11), and cooperate the inside both sides symmetry of installation inner chamber (11) to offer cooperation guiding hole (15), have offered on the side of plate heat exchanger body (1) and strengthen coupling groove (16), install on energy storage equipment battery box (2) and have offered installation spliced eye (21), plate heat exchanger body (1) are pegged graft in installation spliced eye (21), the inner port upper and lower both sides symmetry of installation spliced eye (21) is provided with interior protruding loading board (22), keep away from the fixed limiting plate (23) of one end of installation spliced eye (21), the energy storage equipment battery box (2) is provided with jack (24) and is connected on the fixed jack box (25), and the upper and lower both ends symmetry of fixed box body piece (24) has offered spacing guiding hole (27), install the convenient mechanism of tearing open of heat exchanger body on plate heat exchanger body (1) and the energy storage equipment battery case (2) respectively, the convenient mechanism of tearing open of heat exchanger body includes drive cooperation block (3), first reset connection spring (36), fixed connection member (4), movable bearing plate (5), second reset connection spring (511), first passageway cooperation inserted bar (6), movable bearing dish (7) and pole chamber cooperation inserted bar (77), drive cooperation block (3) are installed in cooperation installation inner chamber (11) department, and fixed plug connection hole (31) have been offered to the symmetry on drive cooperation block (3), and the symmetry is fixedly provided with extension limiting plate (32) on drive cooperation block (3), the symmetry is fixedly provided with on movable bearing plate (5) and supports cooperation link (53), fixedly provided with second inclined body drive strip (54) on support cooperation link (53), second inclined body drive strip (54) has offered second cooperation on, first passageway (55) have set up in cooperation inserted bar (55) first passageway (6), one end of the bearing fixing plate (61) is fixedly provided with a reinforcing fixing plugboard (62), the other end of the bearing fixing plate is fixedly provided with a limiting matching plugboard (63), the limiting matching plugboard (63) is inserted into a limiting guide hole (27), when the reinforcing fixing plugboard (62) plays a role in reinforcing and fixing the plate heat exchanger body (1), the reinforcing fixing plugboard is inserted into a reinforcing connecting groove (16), a matching plug guide rod (71) is fixedly arranged on the movable bearing plate (7), the matching plug guide rod (71) is inserted into a matching guide hole (15), two ends of the movable bearing plate (7) are symmetrically welded with elastic connecting sheet bodies (72), one side of the movable bearing plate (7) is fixedly provided with a protruding bearing plate (73), two fixed matching connecting plates (74) are fixedly arranged on the protruding bearing plate (73), a second channel matching plugboard (75) is fixedly arranged between the two fixed matching connecting plates (74), the second channel matching plugboard (75) is inserted into a first driving matching channel (45), a matching plug guide rod (7) is arranged on the movable bearing plate (7), two ends of the movable bearing plate (7) are symmetrically welded with elastic connecting sheet bodies (72), one side of the movable bearing plate (7) are fixedly provided with two fixed matching connecting plates (74), one side of the protruding connecting sheet (74), one side of the two fixed connecting rod (76) is fixedly provided with a matching plugboard (76), the other end of the elastic connecting sheet body (72) is welded on the connecting and fixing disc body (78), pushing hand plates (781) are symmetrically and fixedly arranged at two ends of the connecting and fixing disc body (78), and fixing limiting inserting rods (782) are fixedly arranged on the connecting and fixing disc body (78).

2. The heat exchange assembly for an energy storage device of claim 1, wherein: the two ends of the driving matching block body (3) are symmetrically and fixedly provided with protruding hinge frames (33), the protruding hinge frames (33) are hinged with driving hinge connecting rods (34), the driving matching block body (3) is fixedly provided with inserting guide rods (35), the inserting guide rods (35) are inserted into the retracting insertion holes (12), the inserting guide rods (35) are sleeved with first reset connecting springs (36), and the other ends of the driving hinge connecting rods (34) are hinged with fixed connecting rods (4).

3. A heat exchange assembly for an energy storage device as defined in claim 2, wherein: the two fixed connection rod pieces (4) are respectively inserted into the connection rod piece holes (14), one end of each fixed connection rod piece (4) is fixedly provided with a fixed connection plug block (41), and the fixed connection plug blocks (41) are inserted into the accommodating matching holes (13).

4. A heat exchange assembly for an energy storage device as defined in claim 3, wherein: the other end of the fixed connection rod piece (4) is fixedly provided with a rod piece connection frame body (42), the rod piece connection frame body (42) is hinged with the driving hinged connecting rod (34), the rod piece connection frame body (42) is fixedly provided with a bearing driving connecting plate (43), the bearing driving connecting plate (43) is fixedly provided with a first oblique body driving strip (44), and a first driving matching channel (45) is formed in the first oblique body driving strip (44).

5. The heat exchange assembly for an energy storage device of claim 4, wherein: the movable bearing plate (5) is two, the movable bearing plate is respectively arranged on the two fixed box blocks (24), the movable bearing plate (5) is fixedly provided with a plug support rod piece (51), the plug support rod piece (51) is plugged in the plug matching hole (26), the plug support rod piece (51) is sleeved with a second reset connection spring (511), the plug support rod piece (51) is fixedly provided with a matched block (52) which is plugged in the matched connection jack (25).

6. The method for installing the heat exchange assembly for the energy storage device is characterized by comprising the following steps of: the installation method is applicable to the heat exchange assembly for the energy storage device according to any one of claims 1 to 5, and comprises the following steps:

Step one: positioning and inserting connection of the plate heat exchanger body (1): the plate heat exchanger body (1) is inserted into the mounting matching hole (21) so that the plate heat exchanger body (1) is contacted with the limiting blocking plate (23) to realize the positioning of the plate heat exchanger body (1);

step two: the first layer of the plate heat exchanger body (1) is fixed: after the step one is completed, the driving matching block body (3) is pushed, the fixed connection rod piece (4) is pushed to move under the action of the driving hinging connecting rod (34), and then the fixed connection plug block (41) is plugged into the matching connection jack (25), so that the first layer of the plate heat exchanger body (1) is fixed;

Step three: the second layer of the plate heat exchanger body (1) is fixed: along with the movement of the fixed connection rod piece (4), the fixed connection rod piece pushes the movable bearing plate piece (5) to move, and then drives the first channel to move in cooperation with the inserting rod (6), so that the reinforcing fixed inserting plate (62) is inserted into the reinforcing connection groove (16) to realize the second-layer fixation of the plate heat exchanger body (1);

step four: automatic fixing of the driving matching block body (3): along with the movement of the fixed connection rod piece (4) and the driving matching block body (3), the fixed limit inserting rod (782) is inserted into the fixed inserting connecting hole (31) to fix the driving matching block body (3);

Step five: stable heat exchange of the plate heat exchanger body (1): after the plate heat exchanger body (1) is installed, the plate heat exchanger body is communicated with the inner side and the outer side of the battery box (2) of the energy storage equipment, and stable heat exchange is realized.