CN118198635A - A new energy vehicle battery protection device - Google Patents

Abstract

The invention discloses a new energy automobile battery protection device, which relates to the technical field of battery protection, wherein a plurality of groups of vibration dampers are arranged between a lower vibration-proof plate and a base, two long sides of the lower vibration-proof plate are respectively provided with a long side plate, a plurality of groups of vibration dampers are arranged between the long side plates and the long vibration-proof plate, two short sides of the lower vibration-proof plate are respectively provided with a short side plate, a plurality of groups of vibration dampers are arranged between the short side plates and the short vibration-proof plates, a battery is placed on the lower vibration-proof plate, and two groups of long vibration-proof plates and two groups of short vibration-proof plates are used for clamping the battery; the anti-shake device is provided with two groups, the lock plate of the anti-shake device is provided with a clamping groove, the clamping groove of the lock plate is used for clamping the lower anti-shake plate, the lower anti-shake plate is prevented from shaking, and the battery is convenient to replace; after the cover plate is opened, the long vibration-proof plate and the short vibration-proof plate loosen the primary battery, so that the primary battery can be conveniently taken out and put in; when the battery explodes, the long blocking plate and the short blocking plate are automatically inserted into the heat dissipation fan, so that the explosion gas flame of the battery is ensured not to leak outwards, and the safety is ensured.

Description

A new energy vehicle battery protection device

Technical Field

The present invention mainly relates to the technical field of battery protection, and in particular to a battery protection device for a new energy vehicle.

Background technique

With the rapid growth of the new energy vehicle market, the research and development of new energy vehicle battery technology is also continuing to deepen. In order to ensure that new energy vehicles have long-lasting and stable endurance, battery replacement technology, as a common and effective solution, is increasingly attracting attention from the industry. However, when a new energy vehicle collides, the battery may be impacted and there is a potential risk of explosion. Therefore, the battery protection device must have an explosion-proof function to ensure the safety of the occupants. In addition, the battery generates a lot of heat during normal operation. In order to maintain the stability of the battery and extend its service life, the battery must be effectively cooled.

In the prior art, a Chinese patent application with publication number CN117199676A discloses an adjustable new energy vehicle battery protection device, which protects the battery through a shock-absorbing protection component to prevent the battery from being damaged. However, the device is not convenient for battery replacement and has no explosion-proof function.

Summary of the invention

The technical problem to be solved by the present invention is to overcome the shortcomings of the above-mentioned prior art and provide a new energy vehicle battery protection device.

The technical solution adopted to solve the above technical problems is: a new energy vehicle battery protection device, including a base, a side plate is provided on the base, a cover plate is rotatably provided on the side plate, a lock is provided between the side plate and the cover plate, multiple groups of shock absorbers are provided between the lower anti-vibration plate and the base, the two long sides of the lower anti-vibration plate are provided with long side plates, multiple groups of shock absorbers are provided between the long side plates and the long anti-vibration plates, the two short sides of the lower anti-vibration plate are provided with short side plates, multiple groups of shock absorbers are provided between the short side plates and the short anti-vibration plates, the battery is placed on the lower anti-vibration plate, two groups of long anti-vibration plates and two A group of short anti-vibration plates are used to clamp the battery; there are two groups of anti-sway devices, which include an L-rod, which is arranged above the cover plate, one end of the connecting rod is arranged on the L-rod, and the other end of the connecting rod is arranged on the power slot plate, the power slot plate is slidably arranged on the side plate, and a power slide groove is arranged on the power slot plate, the power slide groove is composed of a straight line segment and an oblique line segment, and the power slide groove forms a sliding fit with the insertion slide rod, the insertion slide rod is slidably arranged on the side plate, a locking plate is arranged at the end of the insertion slide rod, and a card slot is arranged on the locking plate, and the card slot of the locking plate is used to clamp the lower anti-vibration plate to prevent the lower anti-vibration plate from shaking.

Furthermore, the upper sides of the long anti-vibration plate and the short anti-vibration plate are both provided with inclined surfaces, and the inclined surfaces of the long anti-vibration plate and the short anti-vibration plate are convenient for placing batteries.

Furthermore, the anti-sway device is also provided with a gear, which is rotatably provided at the bottom of the base, and the gear cooperates with two racks to form a gear, the racks are provided on a toothed plate, the toothed plate is slidably provided at the bottom of the base, and the toothed plate is provided below the sliding rod.

Furthermore, a driving block is provided on the upper part of the lock plate, and the driving block is used to drive the seesaw to rotate. A slideway is provided in the seesaw, and the slideway of the seesaw forms a sliding fit with the support frame, and the upper end of the seesaw forms a rotational fit with the long anti-vibration plate.

Furthermore, a lever is provided on the side of the driving block, the separation wedge is fixedly arranged on the side of the short vibration-proof plate, an inclined surface is provided on the end of the separation wedge, and the lever is used to drive the inclined surface of the separation wedge.

Furthermore, heat dissipation bars are provided on the sides of the side panels, and a heat dissipation fan is provided on the side panels, and the heat dissipation fan is located at the heat dissipation bars.

Furthermore, long shift rods are slidably provided on the two long inner sides of the side plates, and short shift rods are slidably provided on the two short inner sides of the side plates. The long shift rod and the short shift rod are rotatably connected at the head and tail ends by the two ends of the ring rod. The two ends of spring one are respectively connected to the long shift rod and the side plates. A long drive port is provided on the long shift rod, and a short drive port is provided on the short shift rod. Explosion-proof drive plates are provided in the middle of the long anti-vibration plate and the short anti-vibration plate. The explosion-proof drive plate on the long anti-vibration plate is used to drive the long drive port, and the explosion-proof drive plate on the short anti-vibration plate is used to drive the short drive port.

Furthermore, a long hook is provided on the long shift rod, a short hook is provided on the short shift rod, four hook rods are provided at the lower part of the square plate, the hook rods on the long sides of the square plate are used to hook the long hooks, the hook rods on the short sides of the square plate are used to hook the short hooks, a long blocking plate is provided on the upper part of the long sides of the square plate, the long blocking plate is used to be inserted into the long side cooling fan, a short blocking plate is provided on the upper part of the short side of the square plate, the short blocking plate is used to be inserted into the short side cooling fan, the four corners of the square plate form a sliding fit with the sliding rod, the sliding rod is fixed on the side plate, and the two ends of the pull rod are connected to the square plate and the sliding rod.

Furthermore, an anti-displacement opening is provided on the long shift rod, and a latch plate is used to be inserted into the anti-displacement opening. The latch plate is slidably arranged on the side plate, and both ends of the second spring are respectively connected to the side plate and the latch plate. A wedge block is provided on the upper part of the driving block, and the inclined surface of the wedge block is used to drive the latch plate to move.

Compared with the prior art, the present invention has the following beneficial effects: (1) After the cover of the present invention is opened, the card slot of the lock plate contacts the lower anti-vibration plate, and the anti-vibration plate will release the up and down anti-shake function, thereby preventing the lower anti-vibration plate from moving up and down when the battery is replaced, thereby facilitating the replacement of the battery; (2) After the cover of the present invention is opened, the two groups of long anti-vibration plates and short anti-vibration plates move away from the battery, so the long anti-vibration plates and the short anti-vibration plates loosen the original battery, thereby facilitating the removal of the original battery; (3) When a new battery of the present invention is placed on the lower anti-vibration plate, if the battery first contacts the inclined surfaces of the long anti-vibration plates and the short anti-vibration plates, the long anti-vibration plates and the short anti-vibration plates move outward, thereby facilitating the insertion of the battery; (4) When the battery of the present invention is working, the battery will generate a large amount of heat, and the heat dissipation bar will discharge the heat generated by the battery from the heat dissipation fan, thereby facilitating the improvement of the stability and life of the battery. Life; (5) The lower vibration-proof plate of the present invention is used to absorb the vibration of the battery in the vertical direction, and the two groups of long vibration-proof plates and the two groups of short vibration-proof plates are used to absorb the vibration of the battery in the horizontal direction, so as to improve the safety of the battery during operation; (6) When the new energy vehicle of the present invention collides, the battery is subjected to a violent impact, and the long plugging plate and the short plugging plate are automatically inserted into the corresponding heat dissipation fan to block the corresponding heat dissipation bar. The long plugging plate, the short plugging plate and the side plate are tightly sealed, so as to ensure that the explosion gas flame of the battery does not leak out, thereby ensuring safety; (7) When the cover plate of the present invention is used to replace the battery, when the cover plate is opened, the inclined surface of the wedge block drives the latch plate to move upward, the spring is stretched, and the latch plate is inserted into the anti-shifting opening to prevent the long shifting rod from moving and ensure that the hook rod is not decoupled from the long hook opening and the short hook opening. Therefore, when the cover plate is opened to replace the battery, the explosion-proof function is prevented from being accidentally activated.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic diagram of the overall bottom structure of the present invention.

FIG. 3 is a schematic diagram of the internal structure of the present invention.

FIG. 4 is a schematic diagram of the installation structure of the lower vibration-proof plate and the vibration absorber of the present invention.

FIG. 5 is a schematic diagram of the battery installation structure of the present invention.

FIG. 6 is a partial enlarged view of point A in FIG. 5 .

FIG. 7 is a schematic diagram of the installation structure of the power slot plate and the slide rod of the present invention.

FIG. 8 is a schematic diagram of the installation structure of the long shift rod and the short shift rod of the present invention.

FIG. 9 is a schematic diagram of the explosion-proof drive plate structure of the present invention.

FIG. 10 is a schematic diagram of the heat dissipation fan installation structure of the present invention.

FIG. 11 is a partial enlarged view of point B in FIG. 10 .

FIG. 12 is a schematic diagram of the installation structure of the square plate, the long blocking plate and the short blocking plate of the present invention.

Figure numbers: 1-base; 2-side plate; 3-cover plate; 4-lock; 5-lower anti-vibration plate; 6-shock absorber; 7-long side plate; 8-long anti-vibration plate; 9-short side plate; 10-short anti-vibration plate; 11-battery; 12-L rod; 13-connecting rod; 14-power slot plate; 141-power slide; 15-slide rod; 16-lock plate; 17-tooth plate; 18-rack; 19-gear; 20-driving block; 21-rocker; 22-support frame; 23-shift lever ; 24-separation wedge; 25-heat dissipation bar; 26-heat dissipation fan; 27-long shift rod; 271-long drive mouth; 272-long hook mouth; 273-anti-shift mouth; 28-short shift rod; 281-short drive mouth; 282-short hook mouth; 29-ring rod; 30-spring one; 31-explosion-proof drive plate; 32-hook rod; 33-square plate; 34-long blocking plate; 35-short blocking plate; 36-slide rod; 37-pull rod; 38-wedge block; 39-latch plate; 40-spring two.

Detailed ways

The present invention will be further described below in conjunction with specific embodiments. The present invention is explained by means of the illustrative embodiments and descriptions of the present invention, but is not intended to be a limitation of the present invention.

As shown in FIGS. 1 to 12 , a new energy vehicle battery protection device includes a base 1, a side plate 2 is provided on the base 1, a cover plate 3 is rotatably provided on the side plate 2, a lock 4 is provided between the side plate 2 and the cover plate 3, a plurality of groups of shock absorbers 6 are provided between the lower anti-vibration plate 5 and the base 1, both long sides of the lower anti-vibration plate 5 are provided with long side plates 7, a plurality of groups of shock absorbers 6 are provided between the long side plates 7 and the long anti-vibration plates 8, both short sides of the lower anti-vibration plate 5 are provided with short side plates 9, a plurality of groups of shock absorbers 6 are provided between the short side plates 9 and the short anti-vibration plates 10, a battery 11 is placed on the lower anti-vibration plate 5, two groups of long anti-vibration plates 8 and two groups of short anti-vibration plates 10 are used to clamp the battery 1 1; There are two groups of anti-sway devices, which include an L rod 12, which is arranged above the cover plate 3, one end of a connecting rod 13 is arranged on the L rod 12, and the other end of the connecting rod 13 is arranged on a power slot plate 14, which is slidably arranged on the side plate 2, and a power slide 141 is arranged on the power slot plate 14, which is composed of a straight line segment and an oblique line segment, and the power slide 141 forms a sliding fit with the insertion slide rod 15, which is slidably arranged on the side plate 2, and a locking plate 16 is arranged at the end of the insertion slide rod 15, and a card slot is arranged on the locking plate 16, and the card slot of the locking plate 16 is used to clamp the lower anti-vibration plate 5 to prevent the lower anti-vibration plate 5 from shaking.

Specifically, the lock buckle 4 is used to lock the cover plate 3 on the side plate 2, the shock absorber 6 is composed of a spring and a damper, the shock absorber 6 is used for shock absorption of objects, the lower anti-vibration plate 5 is used to absorb the vibration of the battery 11 in the up and down directions, and after the battery 11 is placed on the lower anti-vibration plate 5, the two groups of long anti-vibration plates 8 and the two groups of short anti-vibration plates 10 are used to absorb the vibration of the battery 11 in the horizontal direction; the cover plate 3 is flipped open, driving the L rod 12 to rotate synchronously, and the power is transmitted through the connecting rod 13 to drive the power slot plate 14 to move downward, and the insertion slide rod 15 first slides in the oblique line segment of the power slide slot 141, driving the insertion slide rod 1 5 moves toward the direction of the lower anti-vibration plate 5, the insertion slide bar 15 drives the locking plate 16 to move synchronously, and the card slot of the locking plate 16 contacts the lower anti-vibration plate 5 to prevent the lower anti-vibration plate 5 from moving up and down. Therefore, after the cover plate 3 is opened, the lower anti-vibration plate 5 will release the up and down anti-sway function to avoid the lower anti-vibration plate 5 moving up and down when the battery 11 is replaced again, which is convenient for replacing the battery 11; after the cover plate 3 is opened to a certain angle, that is, after the insertion slide bar 15 has finished sliding in the oblique segment of the power slide groove 141, the anti-sway function of the lower anti-vibration plate 5 is released, and the cover plate 3 is then opened, and the insertion slide bar 15 slides in the straight segment of the power slide groove 141.

The upper sides of the long anti-vibration plate 8 and the short anti-vibration plate 10 are both provided with inclined surfaces, and the inclined surfaces of the long anti-vibration plate 8 and the short anti-vibration plate 10 are convenient for placing the battery 11.

Specifically, when the battery 11 is placed on the lower anti-vibration plate 5, the battery 11 first contacts the inclined surfaces of the long anti-vibration plate 8 and the short anti-vibration plate 10, so that the long anti-vibration plate 8 and the short anti-vibration plate 10 move outward. After the battery 11 contacts the lower anti-vibration plate 5, the long anti-vibration plate 8 and the short anti-vibration plate 10 clamp the battery 11, and the upper inclined surfaces of the long anti-vibration plate 8 and the battery 11 hook the battery 11.

The anti-sway device is also provided with a gear 19, which is rotatably provided at the bottom of the base 1. The gear 19 forms a gear match with two racks 18. The racks 18 are provided on a toothed plate 17, and the toothed plate 17 is slidably provided at the bottom of the base 1. The toothed plate 17 is provided below the slide rod 15.

Specifically, the first sliding rod 15 of the anti-sway device moves, driving the first tooth plate 17 to move synchronously, and power is transmitted through the gear 19 and the two racks 18, so that the other group of sliding rods 15 and tooth plates 17 move synchronously in the direction of the lower anti-vibration plate 5, even if the slot of the other locking plate 16 also clamps the lower anti-vibration plate 5, so the two locking plates 16 of each group of anti-sway devices can synchronously clamp the lower anti-vibration plate 5, so that the lower anti-vibration plate 5 can be more stable.

A driving block 20 is provided on the upper part of the locking plate 16 , and the driving block 20 is used to drive the seesaw 21 to rotate. A slideway is provided in the seesaw 21 , and the slideway of the seesaw 21 forms a sliding fit with the support frame 22 , and the upper end of the seesaw 21 forms a rotational fit with the long anti-vibration plate 8 .

Specifically, when the lock plate 16 moves toward the lower anti-vibration plate 5 , it drives the driving block 20 to move synchronously. The driving block 20 drives the seesaw 21 to rotate around the support frame 22 , so that the two groups of long anti-vibration plates 8 move away from the battery 11 .

A lever 23 is provided on the side of the driving block 20 . A separation wedge 24 is fixed on the side of the short vibration-proof plate 10 . An inclined surface is provided at the end of the separation wedge 24 . The lever 23 is used to drive the inclined surface of the separation wedge 24 .

Specifically, the driving block 20 drives the lever 23 to move synchronously, and the lever 23 drives the inclined surface of the separation wedge 24 to move the separation wedge 24 and the short vibration-proof plate 10 away from the battery 11 .

A heat dissipation bar 25 is disposed on the four sides of the side plate 2 . A heat dissipation fan 26 is disposed on the side plate 2 , and the heat dissipation fan 26 is located at the heat dissipation bar 25 .

Specifically, the battery 11 generates a large amount of heat when working, and the heat dissipation bar 25 discharges the heat generated by the battery 11 from the heat dissipation fan 26 .

The long inner sides of the side plate 2 are slidably provided with long shift rods 27, and the two short inner sides of the side plate 2 are slidably provided with short shift rods 28. The head and tail of the long shift rod 27 and the short shift rod 28 are rotatably connected by the two ends of the ring rod 29. The two ends of the spring 1 30 are respectively connected to the long shift rod 27 and the side plate 2. The long shift rod 27 is provided with a long drive port 271, and the short shift rod 28 is provided with a short drive port 281. The middle parts of the long anti-vibration plate 8 and the short anti-vibration plate 10 are both provided with explosion-proof drive plates 31. The explosion-proof drive plate 31 on the long anti-vibration plate 8 is used to drive the long drive port 271, and the explosion-proof drive plate 31 on the short anti-vibration plate 10 is used to drive the short drive port 281.

Specifically, when the car encounters a collision, the battery 11 vibrates greatly in the horizontal direction. Even if the long anti-vibration plate 8 or the short anti-vibration plate 10 is displaced greatly, the explosion-proof driving plate 31 is also displaced greatly. The explosion-proof driving plate 31 is used to drive the long drive port 271 or the short drive port 281 to move the long shift rod 27 or the short shift rod 28, and transmit power through the ring rod 29. When one explosion-proof driving plate 31 contacts the long drive port 271 or the short drive port 281, all the long shift rods 27 and the short shift rods 28 move.

A long hook 272 is provided on the long shift rod 27, a short hook 282 is provided on the short shift rod 28, four hook rods 32 are provided at the bottom of the square plate 33, the hook rods 32 on the long side of the square plate 33 are used to hook the long hook 272, the hook rods 32 on the short side of the square plate 33 are used to hook the short hook 282, a long blocking plate 34 is provided on the upper part of the long side of the square plate 33, the long blocking plate 34 is used to be inserted into the long side cooling fan 26, a short blocking plate 35 is provided on the upper part of the short side of the square plate 33, the short blocking plate 35 is used to be inserted into the short side cooling fan 26, the four corners of the square plate 33 form a sliding fit with the sliding rod 36, the sliding rod 36 is fixedly arranged on the side plate 2, and the two ends of the pull rod 37 are connected between the square plate 33 and the sliding rod 36.

Specifically, after the long shift rod 27 and the short shift rod 28 are moved, all the hook rods 32 are unhooked from the long hook openings 272 and the short hook openings 282, and the pull rod 37 provides pulling force to drive the square plate 33 to move upward along the slide rod 36, so the long blocking plate 34 and the short blocking plate 35 are inserted into the corresponding cooling fan 26 to block the corresponding cooling bar 25, and the long blocking plate 34, the short blocking plate 35 and the side plate 2 are tightly sealed, thereby ensuring that the explosion gas flame of the battery 11 does not leak out.

An anti-displacement opening 273 is provided on the long shift rod 27, and a latch plate 39 is used to be inserted into the anti-displacement opening 273. The latch plate 39 is slidably arranged on the side plate 2. Both ends of the spring 240 are respectively connected to the side plate 2 and the latch plate 39. A wedge block 38 is provided on the upper part of the driving block 20, and the inclined surface of the wedge block 38 is used to drive the latch plate 39 to move.

Specifically, the drive block 20 moves synchronously with the wedge block 38 in the direction of the lower vibration isolation plate 5, the inclined surface of the wedge block 38 drives the latch plate 39 to move upward, the spring 2 40 is stretched, and the latch plate 39 is inserted into the anti-displacement opening 273 to prevent the long displacement rod 27 from moving. Therefore, when the cover plate 3 is opened to replace the battery 11, the explosion-proof function is prevented from being activated.

Working principle: When replacing the battery 11, unlock the lock 4, open the cover 3, and the cover 3 drives the L rod 12 to rotate synchronously, and transmits power through the connecting rod 13 to drive the power slot plate 14 to move downward. The insertion slide bar 15 first slides in the oblique line segment of the power slide slot 141, driving the insertion slide bar 15 to move in the direction of the lower anti-vibration plate 5, and the insertion slide bar 15 drives the lock plate 16 to move synchronously. The card slot of the lock plate 16 contacts the lower anti-vibration plate 5 to prevent the lower anti-vibration plate 5 from moving up and down. The insertion slide bar 15 drives the lower anti-vibration plate 5 to move downward. 5 will release the up and down anti-sway function to prevent the lower anti-vibration plate 5 from moving up and down when the battery 11 is replaced, which is convenient for replacing the battery 11; the insertion slide bar 15 drives the first tooth plate 17 to move synchronously, and transmits power through the gear 19 and the two racks 18, so that the other group of insertion slide bars 15 and tooth plates 17 move synchronously in the direction of the lower anti-vibration plate 5, even if the slot of the other locking plate 16 also clamps the lower anti-vibration plate 5, so the two locking plates 16 of each group of anti-sway devices can clamp the lower anti-vibration plate 5 synchronously, so that the lower anti-vibration plate 5 can be more stable.

The locking plate 16 drives the driving block 20 to move synchronously, and the driving block 20 drives the seesaw 21 to rotate around the support frame 22, so the two groups of long anti-vibration plates 8 move in the direction away from the battery 11, and the driving block 20 drives the lever 23 to move synchronously, and the lever 23 drives the inclined surface of the separation wedge 24, so that the separation wedge 24 and the short anti-vibration plate 10 move in the direction away from the battery 11, so the long anti-vibration plate 8 and the short anti-vibration plate 10 release the original battery 11, take out the original battery 11, and place a new battery 11 on the lower anti-vibration plate 5. If the battery 11 first contacts the inclined surfaces of the long anti-vibration plate 8 and the short anti-vibration plate 10, the long anti-vibration plate 8 and the short anti-vibration plate 10 are moved outward to facilitate the placement of the battery 11. After the battery 11 contacts the lower anti-vibration plate 5, the long anti-vibration plate 8 and the short anti-vibration plate 10 clamp the battery 11, and the upper inclined surfaces of the long anti-vibration plate 8 and the battery 11 hook the battery 11.

When the battery 11 is working, the battery 11 generates a large amount of heat, and the heat dissipation bar 25 discharges the heat generated by the battery 11 from the heat dissipation fan 26; at the same time, due to the vibration of the car, the lower vibration isolation plate 5 is used to absorb the vibration of the battery 11 in the vertical direction, and the two groups of long vibration isolation plates 8 and the two groups of short vibration isolation plates 10 are used to absorb the vibration of the battery 11 in the horizontal direction.

When the car encounters a collision, the battery 11 is at risk of explosion, and the battery 11 vibrates greatly in the horizontal direction. Even if the displacement of the long vibration-proof plate 8 or the short vibration-proof plate 10 is large, the explosion-proof driving plate 31 is driven to have a large displacement. The explosion-proof driving plate 31 is used to drive the long drive port 271 or the short drive port 281 to move the long shift rod 27 or the short shift rod 28, and transmit power through the ring rod 29. When one explosion-proof driving plate 31 contacts the long drive port 271 or the short drive port 281, all the long shift rods 27 and the short shift rods 28 move; therefore, all the hook rods 32 are unhooked from the long hook port 272 and the short hook port 282, and the pull rod 37 provides a pulling force to drive the square plate 33 to move upward along the slide rod 36. Therefore, the long blocking plate 34 and the short blocking plate 35 are inserted into the corresponding heat dissipation fan 26 to block the corresponding heat dissipation bar 25. The long blocking plate 34, the short blocking plate 35 and the side plate 2 are tightly sealed, so as to ensure that the explosion gas flame of the battery 11 does not leak out.

Taking into account that when the battery 11 is replaced, the long anti-vibration plate 8 and the short anti-vibration plate 10 may be displaced significantly, which may trigger the explosion-proof function by mistake. Therefore, when the cover 3 is opened, the drive block 20 moves synchronously with the wedge block 38 in the direction of the lower anti-vibration plate 5, and the inclined surface of the wedge block 38 drives the latch plate 39 to move upward, the spring 240 is stretched, and the latch plate 39 is inserted into the anti-displacement opening 273 to prevent the long displacement rod 27 from moving, ensuring that the hook rod 32 is not decoupled from the long hook opening 272 and the short hook opening 282. Therefore, when the cover 3 is opened to replace the battery 11, the explosion-proof function is avoided from being activated.

Any matters not described in the present invention are applicable to the prior art.

Claims (9)

1. A new energy vehicle battery protection device, comprising a base (1), a side plate (2) being provided on the base (1), a cover plate (3) being rotatably provided on the side plate (2), a lock (4) being provided between the side plate (2) and the cover plate (3), and characterized in that: a plurality of groups of vibration absorbers (6) are provided between a lower vibration-proof plate (5) and the base (1), two long sides of the lower vibration-proof plate (5) are provided with long side plates (7), a plurality of groups of vibration absorbers (6) are provided between the long side plates (7) and the long vibration-proof plates (8), two short sides of the lower vibration-proof plate (5) are provided with short side plates (9), a plurality of groups of vibration absorbers (6) are provided between the short side plates (9) and the short vibration-proof plates (10), a battery (11) is placed on the lower vibration-proof plate (5), two groups of long vibration-proof plates (8) and two groups of short vibration-proof plates (10) are used to clamp the battery (11); the anti-sway device has two groups, and the anti-sway device includes an L rod (12), the L rod (12) is arranged above the cover plate (3), one end of the connecting rod (13) is arranged on the L rod (12), and the other end of the connecting rod (13) is arranged on the power slot plate (14), the power slot plate (14) is slidably arranged on the side plate (2), and a power slide groove (141) is arranged on the power slot plate (14), and the power slide groove (141) is composed of a straight line segment and an oblique line segment. The power slide groove (141) and the insertion slide rod (15) form a sliding fit, and the insertion slide rod (15) is slidably arranged on the side plate (2). A locking plate (16) is provided at the end of the insertion slide rod (15), and a card slot is provided on the locking plate (16). The card slot of the locking plate (16) is used to clamp the lower anti-vibration plate (5) to prevent the lower anti-vibration plate (5) from shaking. 2. A new energy vehicle battery protection device according to claim 1, characterized in that: the upper sides of the long anti-vibration plate (8) and the short anti-vibration plate (10) are both provided with inclined surfaces, and the inclined surfaces of the long anti-vibration plate (8) and the short anti-vibration plate (10) are convenient for inserting the battery (11). 3. A new energy vehicle battery protection device according to claim 2, characterized in that: the anti-sway device is also provided with a gear (19), the gear (19) is rotatably provided at the bottom of the base (1), the gear (19) and the two racks (18) form a gear match, the racks (18) are provided on a toothed plate (17), the toothed plate (17) is slidably provided at the bottom of the base (1), and the toothed plate (17) is provided below the slide rod (15). 4. A new energy vehicle battery protection device according to claim 3, characterized in that: a driving block (20) is provided on the upper part of the lock plate (16), the driving block (20) is used to drive the seesaw (21) to rotate, a slideway is provided in the seesaw (21), the slideway of the seesaw (21) forms a sliding fit with the support frame (22), and the upper end of the seesaw (21) forms a rotational fit with the long anti-vibration plate (8). 5. A new energy vehicle battery protection device according to claim 4, characterized in that: a lever (23) is provided on the side of the driving block (20), the separation wedge (24) is fixedly arranged on the side of the short vibration-proof plate (10), an inclined surface is provided at the end of the separation wedge (24), and the lever (23) is used to drive the inclined surface of the separation wedge (24). 6. A new energy vehicle battery protection device according to claim 5, characterized in that: a heat dissipation bar (25) is provided on the sides of the side plate (2), a heat dissipation fan (26) is provided on the side plate (2), and the heat dissipation fan (26) is located at the heat dissipation bar (25). 7. A new energy vehicle battery protection device according to claim 6, characterized in that: long shift rods (27) are slidably arranged on the two long inner sides of the side plate (2), short shift rods (28) are slidably arranged on the two short inner sides of the side plate (2), the head and tail of the long shift rod (27) and the short shift rod (28) are rotatably connected by the two ends of the ring rod (29), the two ends of the spring (30) are respectively connected to the long shift rod (27) and the side plate (2), the long shift rod (27) is provided with a long drive port (271), the short shift rod (28) is provided with a short drive port (281), the middle parts of the long anti-vibration plate (8) and the short anti-vibration plate (10) are provided with explosion-proof drive plates (31), the explosion-proof drive plate (31) on the long anti-vibration plate (8) is used to drive the long drive port (271), and the explosion-proof drive plate (31) on the short anti-vibration plate (10) is used to drive the short drive port (281). 8. A new energy vehicle battery protection device according to claim 7, characterized in that: a long moving rod (27) is provided with a long hook (272), a short moving rod (28) is provided with a short hook (282), a lower portion of the square plate (33) is provided with four hook rods (32), the hook rods (32) on the long side of the square plate (33) are used to hook the long hook (272), the hook rods (32) on the short side of the square plate (33) are used to hook the short hook (282), and the square plate A long plugging plate (34) is provided on the upper part of the long side of the square plate (33), and the long plugging plate (34) is used to be inserted into the long side heat dissipation fan (26). A short plugging plate (35) is provided on the upper part of the short side of the square plate (33), and the short plugging plate (35) is used to be inserted into the short side heat dissipation fan (26). The four corners of the square plate (33) form a sliding fit with the sliding rod (36), and the sliding rod (36) is fixedly arranged on the side plate (2). The two ends of the pull rod (37) are connected between the square plate (33) and the sliding rod (36). 9. A new energy vehicle battery protection device according to claim 8, characterized in that: an anti-shift opening (273) is provided on the long shift rod (27), a latch plate (39) is used to be inserted into the anti-shift opening (273), the latch plate (39) is slidably arranged on the side plate (2), two ends of the second spring (40) are respectively connected to the side plate (2) and the latch plate (39), a wedge block (38) is provided on the upper part of the driving block (20), and the inclined surface of the wedge block (38) is used to drive the latch plate (39) to move.