CN120413894B - A liquid-cooled energy storage cabinet for outdoor use - Google Patents

Abstract

The present invention discloses a liquid-cooled energy storage cabinet for outdoor use. The present invention relates to the technical field of energy storage cabinets, including a cabinet body, the cabinet body including a cabinet panel, the cabinet panel including an outer layer panel, the side wall of the outer layer panel is fixedly connected to the inner layer panel, the side wall of the inner layer panel is fixedly connected to a limit frame and a ventilation filter, the top of the cabinet panel is fixedly connected to an air cooling device, and also includes a driving device, the side wall of the driving device is fixedly connected to the side wall of the inner layer panel, the side wall of the driving device is fixedly connected to a cleaning device, the cleaning device includes a slider, the side wall of the inner layer panel is slidably connected to a partition device; the side wall of the partition device is fixedly connected to a dust removal device; the cabinet body is rainproof and dustproof by the cabinet panel, and the cleaning device, the partition device, and the dust removal device are used to clean up blocked dust and foreign matter, thereby solving the contradiction between air-cooled ventilation and heat dissipation and high outdoor protection performance requirements.

Description

A liquid-cooled energy storage cabinet for outdoor use

Technical Field

The present invention relates to the technical field of energy storage cabinets, and in particular to a liquid-cooled energy storage cabinet for outdoor use.

Background Art

A liquid-cooled energy storage cabinet uses a liquid cooling system to dissipate heat and control the temperature of the energy storage batteries. The liquid cooling system primarily consists of a cooling plate, cooling pipes, a water inlet pipe, a water outlet pipe, and a cooling water tank. The cooling pipes are arranged in an S-shaped, circuitous pattern outside the cooling plate. Coolant circulates through the cooling pipes, absorbing heat generated by the battery modules and other equipment inside the cabinet. The coolant then flows back to the cooling water tank through the water inlet pipe, where it dissipates heat and re-enters the cooling pipes through the water outlet pipe, completing a complete cooling cycle.

When the temperature of the energy storage battery in the energy storage cabinet is high, the cooling water tank requires more energy to cool down and dissipate the heated liquid. To reduce this energy consumption, an air cooling system can be set up. While assisting the liquid cooling system in dissipating heat for the energy storage battery, it can also dissipate heat for the heated liquid, thereby reducing the energy consumption of the cooling water tank. However, the installation and use of the liquid-cooled energy storage integrated machine in outdoor occasions places higher requirements on outdoor protection conditions, requiring it to have the functions of waterproofing, dustproofing, and preventing the entry of foreign objects. However, during the operation of the equipment, the air cooling system needs to maintain ventilation to dissipate heat internally. Once ventilation is allowed, it is difficult to simultaneously have the functions of waterproofing, dustproofing, and preventing foreign objects.

Summary of the Invention

In response to the shortcomings of the existing technology, the present invention provides a liquid-cooled energy storage cabinet for outdoor use, which solves the problem that the air-cooling system needs to be ventilated and dissipated when the equipment is running, which is difficult to achieve simultaneously with the waterproof, dustproof and foreign body-proof functions required for outdoor protection.

To achieve the above objectives, the present invention is implemented through the following technical solutions: a liquid-cooled energy storage cabinet for outdoor use, comprising a cabinet body, the cabinet body comprising a cabinet panel, the cabinet panel comprising an outer layer panel, the side wall of the outer layer panel is fixedly connected to the inner layer panel, the side wall of the inner layer panel is fixedly connected to a limit frame and a ventilation filter, the top of the cabinet panel is fixedly connected to an air cooling device, and also comprises a driving device, the side wall of the driving device is fixedly connected to the side wall of the inner layer panel, the side wall of the driving device is fixedly connected to a cleaning device, the cleaning device comprises a rotating shaft, both ends of the rotating shaft are fixedly connected to a slider, the side wall of the inner layer panel is slidably connected to the slider, the side wall of the rotating shaft is fixedly connected to a roller brush, and the side wall of the inner layer panel is slidably connected to a partition device; the partition device comprises a sliding rod, the side wall of the sliding rod is slidably connected to the side wall of the inner layer panel, and the top of the sliding rod is fixed The push plate is connected, the bottom end of the slide rod is fixedly connected to the upper pressure plate, the inner wall of the limit frame is fixedly connected to the connecting shaft, the side wall of the connecting shaft is rotatably connected to the partition plate, the side wall of the connecting shaft is fixedly connected to the torque spring, the side wall of the torque spring is fixedly connected to the bottom wall of the partition plate, and the side wall of the partition device is fixedly connected to the dust removal device; the dust removal device includes a downward pressure device, the side wall of the downward pressure device is fixedly connected to the pressure plate, the side wall of the inner plate is fixedly connected to the air storage box, the side wall of the pressure plate is slidably connected to the inner wall of the air storage box, the inner wall of the air storage box is fixedly connected to a return spring, the side walls on both sides of the air storage box are respectively fixedly connected to an air inlet head and an air outlet head, the side wall of the outer plate is fixedly connected to the air outlet device, the inner wall of the air inlet head is fixedly connected to a first one-way valve, and the side wall of the air outlet head is fixedly connected to a second one-way valve. It is used to filter and clean the air inlet of the cabinet and collect and remove the cleaned dust to ensure the cleanliness and stability of the air flow path inside the cabinet.

Preferably, the downward pressure device includes an abutment plate, the side wall on one side of the sliding rod is fixedly connected to the abutment plate, and the side wall on the other side is fixedly connected to the downward pressure plate, and the top end of the air pressure plate is fixedly connected to a downward pressure rod, one end of the downward pressure rod is fixedly connected to the side wall of the air pressure plate, and the other end passes through the side wall of the air storage box, which is used to cooperate with the partition device to drive the dust removal device to clean the collected dust.

Preferably, the air outlet device includes an air outlet frame, the side wall of the air outlet frame is fixedly connected to the side wall of the outer plate, the side wall of the air outlet frame is hinged with a cover plate, and the side wall of the outer plate is provided with an air outlet, which is used to ensure that the energy storage cabinet has good protection while removing dust through the dust removal device, so that the energy storage cabinet can operate stably in an outdoor environment.

Preferably, the side wall of the outer plate is fixedly connected to a rain cover, the air cooling device includes a top cover, the bottom of the side wall of the top cover is fixedly connected to a ventilation plate, the side wall of the inner plate is fixedly connected to a mounting plate, and the side wall of the mounting plate is fixedly connected to an electric fan; used for air cooling and heat dissipation of the cabinet.

Preferably, the side wall of the cabinet panel is fixedly connected to a mounting bracket, the side wall of the mounting bracket is fixedly connected to a liquid cooling device, the liquid cooling device includes a liquid cooling host, the side wall of the liquid cooling host is fixedly connected to the side wall of the mounting bracket, the side wall of the mounting bracket is fixedly connected to a cooling plate, the side wall of the liquid cooling host is fixedly connected to a liquid outlet pipe and a liquid inlet pipe, the side wall of the cooling plate is fixedly connected to the liquid outlet pipe, and the side wall of the cooling plate is fixedly connected to the side wall of the liquid inlet pipe, which is used to liquid-cool the energy storage equipment in the cabinet.

Preferably, a breathable plate is fixedly connected to the top of the mounting frame, and the side wall of the liquid inlet pipe is fixedly connected to the side wall of the breathable plate, which is used to cooperate with the air cooling device to cool the liquid in the liquid inlet pipe and reduce the energy consumption of the liquid cooling host.

Preferably, the driving device includes a motor, the side wall of the motor is fixedly connected to the side wall of the outer plate, the output end of the motor is fixedly connected to the first gear, the side wall of the inner plate is rotatably connected to the second gear, the first gear is meshed with the second gear, the edge of the side wall of the second gear is fixedly connected to a driving block, the side wall of the inner plate is slidably connected to a connecting rod, one end of the connecting rod is rotatably connected to the side wall of the rotating shaft, and the other end is fixedly connected to a driving frame, the inner wall of the driving frame is slidably fitted with the side wall of the driving block, and is used to drive the cleaning device to clean the ventilation filter.

Preferably, a third gear is symmetrically fixedly connected to the side wall of the rotating shaft, a rack is fixedly connected to the side wall of the outer plate close to the inner plate, and the third gear is meshed with the rack; so as to improve the cleaning effect.

The present invention provides a liquid-cooled energy storage cabinet for outdoor use. It has the following beneficial effects:

(1) The energy storage cabinet, through the drive device and the cleaning device, when in use, the motor starts to drive the first gear to rotate, and drives the second gear to rotate synchronously, and the drive block at the edge of the second gear performs a circular motion accordingly; during the movement, the drive block slides and fits against the inner wall of the drive frame, converting the circular motion into a linear reciprocating motion of the drive frame and the connecting rod; the connecting rod drives the rotating shaft and the slider to slide up and down along the side wall of the inner layer plate, so that the roller brush cleans the ventilation filter, thereby realizing automatic cleaning of the ventilation filter.

(2) When the energy storage cabinet is in use, the driving device is started to drive the slider to slide downward. The downward pressure device drives the air pressure plate to slide downward in the air storage box, compressing the return spring. The air in the air storage box is discharged from the air outlet head through the second one-way valve, and an air flow is formed through the air outlet device to blow the dust on the bottom wall of the dust collection channel out of the cabinet, thereby reducing the impact of dust accumulation on the ventilation and operation of the energy storage cabinet.

(3) The energy storage cabinet, through the partition device, when in use, when the slider of the cleaning device slides upward, it will contact the push plate and apply a thrust, and the push plate drives the slide rod to move upward synchronously, thereby causing the upper pressure plate fixed at the bottom end of the slide rod to squeeze the partition upward; the partition rotates with the connecting shaft as the fulcrum, and in this process, the torque spring is compressed, and the partition that originally closed the ventilation channel horizontally is tilted and opened, so that the dust brushed off and accumulated on the partition by the cleaning device falls into the dust collection channel under the action of gravity; when the slider completes the upward movement and starts to slide downward, the upper pressure plate no longer applies force to the partition, and the torque spring gradually releases the stored elastic potential energy, driving the partition to rotate in the opposite direction around the connecting shaft and reset, and restore to a horizontal state, closing the ventilation channel, preventing the air flow from blowing dust back to the ventilation filter when the subsequent dust removal device is working, and ensuring the cleanliness and stability of the air flow path inside the cabinet.

(IV) The energy storage cabinet drives the sliding rod to move the abutment plate downward through the air outlet device. The abutment plate pushes the lower pressure rod and the air pressure plate to slide downward in the air storage box, compressing the return spring. The air in the air storage box is discharged from the air outlet head through the second one-way valve into the air outlet frame. At this time, the airflow with a certain pressure hits the inclined side wall of the air outlet frame, pushing open the cover plate attached to the side wall under the action of gravity. The air forms an airflow through the air outlet, blowing the dust in the dust collection channel out of the cabinet. When the airflow stops, the cover plate re-attaches to the side wall of the air outlet frame under the action of gravity, which can prevent external rain, dust and other debris from entering the energy storage cabinet through the air outlet. The energy storage cabinet can achieve dust removal while ensuring good protection, so that the energy storage cabinet can operate stably in outdoor environments.

(5) This energy storage cabinet utilizes both air and liquid cooling. When the liquid cooling system is in operation, the coolant flows from the cooling plate through the liquid inlet pipe back to the liquid-cooled mainframe. When the air cooling system is activated, the electric fan drives the air, which, as it passes through the air permeable plate, comes into contact with the surface of the liquid inlet pipe, pre-dissipating heat from the liquid within the pipe and lowering the temperature of the coolant as it returns. This reduces the energy consumed by the liquid-cooled mainframe to cool the coolant, alleviating its workload and extending its service life.

BRIEF DESCRIPTION OF THE DRAWINGS

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

FIG2 is a schematic diagram of the internal structure of the cabinet of the present invention;

FIG3 is a schematic diagram of the internal structure of the cabinet panel of the present invention;

FIG4 is a schematic structural diagram of an air cooling device according to the present invention;

FIG5 is a schematic structural diagram of a liquid cooling device according to the present invention;

FIG6 is a schematic diagram of a partial structure of an inner layer plate of the present invention;

FIG7 is a schematic structural diagram of a driving device of the present invention;

FIG8 is an enlarged structural diagram of part B in FIG6 of the present invention;

FIG9 is a schematic structural diagram of a partition device and a dust removal device according to the present invention;

FIG10 is an enlarged structural diagram of portion C in FIG9 of the present invention;

FIG11 is an enlarged structural diagram of part A in FIG3 of the present invention;

FIG12 is a schematic structural diagram of the gas outlet device of the present invention.

In the figure: 10, cabinet; 11, cabinet board; 111, outer plate; 112, inner plate; 113, limit frame; 114, ventilation filter; 115, rain cover; 12, air cooling device; 121, top cover; 122, ventilation plate; 123, mounting plate; 124, electric fan; 13, mounting frame; 14, liquid cooling device; 141, liquid cooling host; 142, cooling plate; 143, liquid outlet pipe; 144, liquid inlet pipe; 145, breathable plate; 20, driving device; 21, motor; 22, first gear; 23, second gear; 24, driving block; 25, connecting rod; 26, driving frame; 30, cleaning Device; 31. Rotating shaft; 32. Slider; 33. Rolling brush; 34. Third gear; 35. Rack; 40. Partitioning device; 41. Sliding rod; 42. Push plate; 43. Upper pressure plate; 44. Connecting shaft; 45. Partition; 46. Torque spring; 50. Dust removal device; 51. Pressing down device; 511. Abutment plate; 512. Lower pressure plate; 513. Lower pressure rod; 52. Air pressure plate; 53. Air storage box; 54. Return spring; 55. Air inlet head; 56. Air outlet head; 57. Air outlet device; 571. Air outlet frame; 572. Cover plate; 573. Air outlet; 58. First one-way valve; 59. Second one-way valve.

DETAILED DESCRIPTION

The following will clearly and completely describe the technical solutions in the embodiments of the present invention in conjunction with the accompanying drawings. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without making creative efforts are within the scope of protection of the present invention.

Embodiment 1: Please refer to Figures 1-12. The present invention provides a technical solution: a liquid-cooled energy storage cabinet for outdoor use, including a cabinet body 10, the cabinet body 10 includes a cabinet panel 11, the cabinet panel 11 includes an outer plate 111, the side wall of the outer plate 111 is fixedly connected to the inner plate 112, the side wall of the inner plate 112 is fixedly connected to the limit frame 113 and the ventilation filter 114, the top of the cabinet panel 11 is fixedly connected to the air cooling device 12, and also includes: a driving device 20, the side wall of the driving device 20 is fixedly connected to the side wall of the inner plate 112, the side wall of the driving device 20 is fixedly connected to the cleaning device 30, the cleaning device 30 includes a rotating shaft 31, both ends of the rotating shaft 31 are fixedly connected to a slider 32, the side wall of the inner plate 112 is slidably connected to the slider 32, the side wall of the rotating shaft 31 is fixedly connected to a roller brush 33, and the side wall of the inner plate 112 is slidably connected to a partition device 40; the partition device 40 includes a sliding Rod 41, the side wall of the slide rod 41 is slidably connected to the side wall of the inner plate 112, the top of the slide rod 41 is fixedly connected to the push plate 42, the bottom end of the slide rod 41 is fixedly connected to the upper pressure plate 43, the inner wall of the limit frame 113 is fixedly connected to the connecting shaft 44, the side wall of the connecting shaft 44 is rotatably connected to the partition 45, the side wall of the connecting shaft 44 is fixedly connected to the torque spring 46, the side wall of the torque spring 46 is fixedly connected to the bottom wall of the partition 45, and the partition device The side wall of the inner plate 112 is fixedly connected to the air storage box 53, and the side wall of the air pressure plate 52 is slidably connected to the inner wall of the air storage box 53. The inner wall of the air storage box 53 is fixedly connected to the return spring 54. The side walls on both sides of the air storage box 53 are respectively fixedly connected to the air inlet head 55 and the air outlet head 56. The side wall of 111 is fixedly connected with an air outlet device 57, the inner wall of the air inlet head 55 is fixedly connected with a first one-way valve 58, and the side wall of the air outlet head 56 is fixedly connected with a second one-way valve 59; when in use, the air cooling device 12 can be started to dissipate heat to the cabinet 10, and the air passes through the ventilation filter 114 and enters the cabinet 10 to cool the device inside the cabinet 10; the ventilation filter 114 is prone to accumulate dust under long-term use, and the driving device 20 can be started to drive the rotating shaft 31 of the cleaning device 30 to move, and the driving slider 32 can be driven to slide on the inner plate 112, so that the roller brush 33 cleans the ventilation filter 114; the dust brushed off falls on the partition 45, and the slider 32 will contact the push plate 42 during the upward sliding process, and push the push plate 42 to move upward, and drive the slide bar 41 and the upper pressure plate 43 to move upward, and the upper pressure plate 43 presses the partition 45, and the partition 45 rotates around the connecting shaft 44 to compress the torque spring 46, the ventilation channel is opened, and the dust falling on the partition 45 falls and falls on the bottom wall of the dust collecting channel formed by the limit frame 113, the partition 45, the inner plate 112 and the outer plate 111. During the downward sliding of the slider 32, the upper pressure plate 43 moves downward with the slide rod 41 and no longer applies pressure to the partition 45. The torque spring 46 gradually releases its elastic potential energy, pushing the partition 45 to rotate in the opposite direction around the connecting shaft 44 and reset. The partition 45 returns to a horizontal state and closes the ventilation channel; during the downward sliding of the slider 32, the dust removal device 50 plays a role, and the downward pressure device 51 drives the air pressure plate 52 to slide downward in the air storage box 53, compressing the reset spring 54. The air in the air storage box 53 is discharged from the air outlet head 56 through the second one-way valve 59, and an air flow is formed through the air outlet device 57 to blow the dust on the bottom wall of the dust collecting channel out of the cabinet, thereby reducing the impact of dust accumulation on the ventilation and operation of the energy storage cabinet.

The lower pressure device 51 includes an abutment plate 511, a side wall of one side of the slide rod 41 is fixedly connected to the abutment plate 511, and a side wall of the other side is fixedly connected to a lower pressure plate 512, and the top of the air pressure plate 52 is fixedly connected to a lower pressure rod 513, one end of the lower pressure rod 513 is fixedly connected to the side wall of the air pressure plate 52, and the other end passes through the side wall of the air storage box 53; when the slider 32 slides upward, it pushes the push plate 42, the slide rod 41 and the upper pressure plate 43 to move upward, and the upper pressure plate 43 presses the partition 45 to rotate and open the ventilation channel, and dust falls into the dust collection channel; the slider 32 slides downward, and the torque spring 46 pushes the partition 45 to return to the original position and close the channel; at the same time, the slide rod 41 will contact the abutment plate 511 during the downward movement The air in the air storage box 53 is discharged from the air outlet head 56 through the second one-way valve 59, and an air flow is formed through the air outlet device 57 to blow the dust in the dust collecting channel out of the cabinet. The slider 32 slides up and down, and the partition device 40 and the dust removal device 50 are linked. When the ventilation channel is opened, the dust falls naturally into the dust collecting channel. After the channel is closed, the air flow generated by the compressed air is used in time to discharge the dust out of the cabinet, so that the inside and outside of the cabinet 10 can be ventilated smoothly, and the dust in the energy storage cabinet can be removed.

The air outlet device 57 includes an air outlet frame 571, the side wall of the air outlet frame 571 is fixedly connected to the side wall of the outer plate 111, the side wall of the air outlet frame 571 is hinged with a cover plate 572, the side wall of the outer plate 111 is provided with an air outlet 573, the side wall of the air outlet frame 571 close to the cover plate 572 is inclined, and the cover plate 572 is attached to the side wall of the air outlet frame 571 under the action of gravity; when in use, the driving slide rod 41 drives the abutment plate 511 to move downward, and the abutment plate 511 pushes the lower pressure rod 513 and the air pressure plate 52 to slide downward in the air storage box 53, compressing the return spring 54, and the air in the air storage box 53 passes through the second one-way valve 59 is discharged from the air outlet head 56 into the air outlet frame 571; at this time, the airflow with a certain pressure hits the side wall of the inclined air outlet frame 571, and pushes open the cover plate 572 attached to the side wall under the action of gravity. The air forms an airflow through the air outlet 573, and blows the dust in the dust collection channel out of the cabinet. When the airflow stops, the cover plate 572 is re-attached to the side wall of the air outlet frame 571 under the action of gravity, which can prevent external rainwater, dust and other debris from entering the energy storage cabinet through the air outlet 573, so that the energy storage cabinet can achieve dust removal while ensuring good protection of the energy storage cabinet, so that the energy storage cabinet can operate stably in outdoor environments.

The driving device 20 includes a motor 21, the side wall of the motor 21 is fixedly connected to the side wall of the outer plate 111, the output end of the motor 21 is fixedly connected to the first gear 22, the side wall of the inner plate 112 is rotatably connected to the second gear 23, the first gear 22 is meshed with the second gear 23, the edge of the side wall of the second gear 23 is fixedly connected to the driving block 24, the side wall of the inner plate 112 is slidably connected to the connecting rod 25, one end of the connecting rod 25 is rotatably connected to the side wall of the rotating shaft 31, and the other end is fixedly connected to the driving frame 26, the inner wall of the driving frame 26 is connected to the driving block 24 The side wall of the inner plate 112 slides and fits in. When in use, the motor 21 starts to drive the first gear 22 to rotate, and drives the second gear 23 to rotate synchronously, and the driving block 24 at the edge of the second gear 23 performs a circular motion accordingly. The driving block 24 slides and fits in with the inner wall of the driving frame 26 during the movement, converting the circular motion into a linear reciprocating motion of the driving frame 26 and the connecting rod 25. The connecting rod 25 drives the rotating shaft 31 and the slider 32 to slide up and down along the side wall of the inner plate 112, so that the roller brush 33 cleans the ventilation filter 114, realizing automatic cleaning of the ventilation filter 114.

The side wall of the rotating shaft 31 is symmetrically fixedly connected with a third gear 34, and the side wall of the outer plate 111 near the inner plate 112 is fixedly connected with a rack 35, and the third gear 34 and the rack 35 are meshed with each other; when the driving device 20 drives the slider 32 to slide up and down along the side wall of the inner plate 112, the rotating shaft 31 fixedly connected to the slider 32 moves synchronously, and at this time, the third gear 34 on the side wall of the rotating shaft 31 rolls on the rack 35 fixed to the outer plate 111; because the third gear 34 is meshed with the rack 35, this rolling motion causes the rotating shaft 31 to rotate while moving up and down, and the rotation of the rotating shaft 31 drives the roller brush 33 to rotate synchronously, so that the roller brush 33 adds a rotating cleaning action in the process of reciprocating cleaning of the ventilation filter 114 up and down, thereby enhancing the cleaning effect of the ventilation filter 114.

Embodiment 2: Please refer to Figures 1 to 6. The present invention provides a technical solution: based on the embodiment 1, the side wall of the outer plate 111 is fixedly connected to a rain cover 115, the air cooling device 12 includes a top cover 121, the bottom of the side wall of the top cover 121 is fixedly connected to a ventilation plate 122, the side wall of the inner plate 112 is fixedly connected to a mounting plate 123, and the side wall of the mounting plate 123 is fixedly connected to an electric fan 124; when in use, the electric fan 124 is powered on to generate airflow; the air passes through the ventilation filter 114 into the cabinet 10, exchanges heat with the energy storage device inside, removes the heat generated by the operation of the device, and is then discharged outside the cabinet through the ventilation plate 122; the air is accelerated by the action of the electric fan 124, thereby improving the cooling effect; and the structural design of the top cover 121 and the ventilation plate 122 can prevent external rainwater and debris from entering the cabinet on the basis of achieving ventilation and heat dissipation, thereby providing good heat dissipation and protection conditions for the energy storage cabinet in outdoor environments, ensuring its stable and efficient operation.

The side wall of the cabinet panel 11 is fixedly connected to the mounting bracket 13, and the side wall of the mounting bracket 13 is fixedly connected to the liquid cooling device 14. The liquid cooling device 14 includes a liquid cooling host 141. The side wall of the liquid cooling host 141 is fixedly connected to the side wall of the mounting bracket 13. The side wall of the mounting bracket 13 is fixedly connected to a cooling plate 142. The side wall of the liquid cooling host 141 is fixedly connected to a liquid outlet pipe 143 and a liquid inlet pipe 144. The side wall of the cooling plate 142 is fixedly connected to the liquid outlet pipe 143, and the side wall of the cooling plate 142 is fixedly connected to the side wall of the liquid inlet pipe 144. During use, the liquid-cooled main unit 141 is started, and the coolant in the liquid-cooled main unit 141 flows into the cooling plate 142 through the liquid outlet pipe 143. When the coolant flows in the cooling plate 142, it absorbs the heat emitted by the energy storage device inside the cabinet 10 through heat exchange. The heated coolant then flows back to the liquid-cooled main unit 141 through the liquid inlet pipe 144. After the cooling process is completed in the liquid-cooled main unit 141, it circulates again through the liquid outlet pipe 143 and flows into the cooling plate 142. The liquid cooling device 14 achieves heat dissipation for the energy storage device through the circulating flow of the coolant. The liquid cooling device 14 cooperates with the air cooling device 12 to form a dual heat dissipation guarantee, further improving the stability of the energy storage cabinet in complex outdoor environments.

A ventilation plate 145 is fixedly connected to the top of the mounting frame 13, and the side wall of the liquid inlet pipe 144 is fixedly connected to the side wall of the ventilation plate 145. When the liquid cooling device 14 is in operation, the coolant flows from the cooling plate 142 through the liquid inlet pipe 144 back to the liquid cooling host 141. Since the liquid inlet pipe 144 is fixedly connected to the ventilation plate 145, the ventilation plate 145 allows a small amount of gas generated by heat in the coolant to be discharged, thereby preventing the gas from accumulating in the liquid inlet pipe 144 and the liquid cooling host 141 to form air blockage. When the air cooling device 12 is started, the electric fan 124 is turned on to drive the air flow. When passing through the ventilation plate 145, the air is fully contacted with the surface of the liquid inlet pipe 144, pre-dissipating the heat of the liquid in the pipe and reducing the temperature of the coolant when it returns. This reduces the energy consumed by the liquid cooling host 141 when cooling the coolant, reduces the workload of the liquid cooling host 141, and extends the service life of the liquid cooling host 141.

Working principle:

When in use, this type of liquid-cooled energy storage cabinet for outdoor use is mainly composed of a cabinet body 10, a driving device 20, a cleaning device 30, a partition device 40, and a dust removal device 50. The driving device 20 is used to drive the cleaning device 30 to clean the ventilation area of the cabinet body 10. The partition device 40 is used to accumulate dust in a fixed position and clean the dust to the outside of the cabinet body 10 through the dust removal device 50.

The cabinet 10 includes a cabinet panel 11 , an air cooling device 12 , a mounting frame 13 , and a liquid cooling device 14 . When in use, the air cooling device 12 and the liquid cooling device 14 are started to dissipate heat from the cabinet 10 , and the mounting frame 13 is used to support the liquid cooling device 14 .

The cabinet panel 11 includes an outer panel 111, an inner panel 112, a limiting frame 113, a ventilation filter 114, and a rain cover 115; when in use, the rain cover 115, with its outwardly protruding arc structure, quickly guides the falling rainwater to the outside of the cabinet body 10, effectively preventing the rainwater from directly impacting the ventilation filter 114; driven by the air cooling device 12, the outside air flows in through the vents reserved at the bottom of the rain cover 115, and is first preliminarily filtered by the ventilation filter 114 to intercept dust, insects and other debris. The clean air then passes through the limiting frame 113 into the interior of the cabinet body 10, providing a heat dissipation airflow channel for the energy storage equipment.

The air cooling device 12 includes a top cover 121, a ventilation plate 122, a mounting plate 123, and an electric fan 124; when in use, the electric fan 124 is powered on and started to generate airflow; the air passes through the ventilation filter 114 into the cabinet 10, exchanges heat with the internal energy storage equipment, takes away the heat generated by the operation of the equipment, and is then discharged out of the cabinet through the ventilation plate 122; the air flows faster under the action of the electric fan 124, thereby improving the cooling effect; and the structural design of the top cover 121 and the ventilation plate 122 can prevent external rain and debris from entering the cabinet on the basis of achieving ventilation and heat dissipation, thereby providing good heat dissipation and protection conditions for the energy storage cabinet in outdoor environments, ensuring its stable and efficient operation.

The liquid cooling device 14 includes a liquid cooling host 141, a cooling plate 142, a liquid outlet pipe 143, a liquid inlet pipe 144, and a ventilation plate 145. When in use, the liquid cooling host 141 is started, and the coolant in the liquid cooling host 141 flows into the cooling plate 142 through the liquid outlet pipe 143. When the coolant flows in the cooling plate 142, it absorbs the heat emitted by the energy storage device inside the cabinet 10 through heat exchange. The heated coolant then flows through the liquid inlet pipe 144. After the air cooling device 12 is started, the electric fan 124 drives the air to flow through the ventilation plate 145. 5, it is in full contact with the surface of the liquid inlet pipe 144, and after pre-heat treatment of the liquid in the pipe, the liquid flows back to the liquid-cooled host 141. After the liquid is cooled in the liquid-cooled host 141, it circulates again through the liquid outlet pipe 143 and flows into the cooling plate 142; the liquid cooling device 14 realizes heat dissipation of the energy storage device through the circulation of the coolant, which reduces the energy consumed by the liquid-cooled host 141 when cooling the coolant, reduces the workload of the liquid-cooled host 141, and extends the service life of the liquid-cooled host 141.

The driving device 20 includes a motor 21, a first gear 22, a second gear 23, a driving block 24, a connecting rod 25, and a driving frame 26; when in use, the motor 21 starts to drive the first gear 22 to rotate, and drives the second gear 23 to rotate synchronously, and the driving block 24 at the edge of the second gear 23 performs a circular motion accordingly; during the movement, the driving block 24 slides and fits with the inner wall of the driving frame 26, converting the circular motion into a linear reciprocating motion of the driving frame 26 and the connecting rod 25; the connecting rod 25 drives the rotating shaft 31 and the slider 32 to slide up and down along the side wall of the inner layer plate 112, so that the roller brush 33 cleans the ventilation filter 114, thereby realizing automatic cleaning of the ventilation filter 114.

The cleaning device 30 includes a rotating shaft 31, a slider 32, a roller brush 33, a third gear 34, and a rack 35; when the driving device 20 drives the slider 32 to slide up and down along the side wall of the inner plate 112, the rotating shaft 31 fixedly connected to the slider 32 moves synchronously, and at this time, the third gear 34 on the side wall of the rotating shaft 31 rolls on the rack 35 fixed to the outer plate 111; since the third gear 34 is engaged with the rack 35, this rolling motion causes the rotating shaft 31 to rotate while moving up and down, and the rotation of the rotating shaft 31 drives the roller brush 33 to rotate synchronously, so that the roller brush 33 adds a rotating cleaning action in the process of reciprocating up and down cleaning of the ventilation filter 114, thereby enhancing the cleaning effect of the ventilation filter 114.

The partition device 40 includes a slide bar 41, a push plate 42, an upper pressure plate 43, a connecting shaft 44, a partition plate 45, and a torque spring 46. When in use, when the slider 32 of the cleaning device 30 slides upward, it contacts the push plate 42 and applies a thrust, and the push plate 42 drives the slide bar 41 to move upward synchronously, thereby causing the upper pressure plate 43 fixed at the bottom end of the slide bar 41 to press the partition plate 45 upward; the partition plate 45 rotates with the connecting shaft 44 as a fulcrum, and in this process, the torque spring 46 is compressed, and the partition plate 45, which originally closed the ventilation channel horizontally, tilts open, The dust brushed off by the cleaning device 30 and accumulated on the partition 45 falls into the dust collection channel under the action of gravity; when the slider 32 completes the upward movement and starts to slide downward, the upper pressure plate 43 no longer applies force to the partition 45, and the torque spring 46 gradually releases the stored elastic potential energy, driving the partition 45 to rotate in the opposite direction around the connecting shaft 44 and reset, restoring the horizontal state, closing the ventilation channel, and preventing the airflow from blowing the dust back to the ventilation filter 114 when the subsequent dust removal device 50 is working, thereby ensuring the cleanliness and stability of the airflow path inside the cabinet 10.

The dust removal device 50 includes a downward pressure device 51, an air pressure plate 52, an air storage box 53, a return spring 54, an air inlet head 55, an air outlet head 56, an air outlet device 57, a first one-way valve 58, and a second one-way valve 59. When in use, when the slider 32 slides downward, the dust removal device 50 comes into play, the downward pressure device 51 drives the air pressure plate 52 to slide downward in the air storage box 53, compressing the return spring 54. The air in the air storage box 53 is discharged from the air outlet head 56 through the second one-way valve 59, and an air flow is formed through the air outlet device 57 to blow the dust on the bottom wall of the dust collection channel out of the cabinet, thereby reducing the impact of dust accumulation on the ventilation and operation of the energy storage cabinet.

The downward pressure device 51 includes an abutment plate 511, a downward pressure plate 512, and a downward pressure rod 513; the sliding rod 41 will contact the abutment plate 511 during the downward movement, and drive the abutment plate 511 to move downward. The abutment plate 511 will contact the downward pressure rod 513 during the downward movement, pushing the downward pressure rod 513 and the air pressure plate 52 to slide downward in the air storage box 53, compressing the return spring 54, and the air in the air storage box 53 is discharged from the air outlet head 56 through the second one-way valve 59, and an air flow is formed through the air outlet device 57 to blow the dust in the dust collection channel out of the cabinet. The slider 32 slides up and down, and the partition device 40 and the dust removal device 50 are linked. When the ventilation duct is opened, the dust falls into the dust collection channel. After the channel is closed, the air flow generated by the compressed air is used in time to discharge the dust out of the cabinet, so that the inside and outside of the cabinet body 10 can be ventilated smoothly, and dust removal can be achieved in the energy storage cabinet.

The air outlet device 57 includes an air outlet frame 571, a cover plate 572, and an air outlet 573. When in use, the driving slide rod 41 drives the abutment plate 511 to move downward, and the abutment plate 511 pushes the lower pressure rod 513 and the air pressure plate 52 to slide downward in the air storage box 53, compressing the return spring 54. The air in the air storage box 53 is discharged from the air outlet head 56 through the second one-way valve 59 and into the air outlet frame 571. At this time, the air with a certain pressure hits the side wall of the inclined air outlet frame 571, Under the action of gravity, the cover plate 572 attached to the side wall is pushed open, and air forms an airflow through the air outlet 573, blowing the dust in the dust collection channel out of the cabinet. When the airflow stops, the cover plate 572 is re-attached to the side wall of the air outlet frame 571 under the action of gravity, which can prevent external rain, dust and other debris from entering the energy storage cabinet through the air outlet 573. This ensures that the energy storage cabinet has good protection while achieving dust removal, allowing the energy storage cabinet to operate stably in outdoor environments.

It should be noted that, in this document, relational terms such as first and second, etc., are used only to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any actual relationship or order between these entities or operations. Moreover, the terms "comprises," "comprising," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or device comprising a series of elements includes not only those elements, but also other elements not explicitly listed, or elements inherent to such process, method, article, or device. In the absence of further limitations, an element defined by the phrase "comprising a..." does not exclude the presence of additional identical elements in the process, method, article, or device comprising the element.

While embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions, and variations may be made to these embodiments without departing from the principles and spirit of the invention, and that the scope of the invention is defined by the appended claims and their equivalents.

Claims (6)

1. The utility model provides an outdoor liquid cooling energy storage cabinet, includes cabinet body (10), and cabinet body (10) include cabinet board (11), and cabinet board (11) include outer plywood (111), and the lateral wall fixedly connected with inlayer board (112) of outer plywood (111), the lateral wall fixedly connected with spacing frame (113) and ventilation filter screen (114) of inlayer board (112), the top fixedly connected with forced air cooling device (12) of cabinet board (11), its characterized in that still includes:

The cleaning device comprises a driving device (20), wherein the side wall of the driving device (20) is fixedly connected with the side wall of an inner layer plate (112), the side wall of the driving device (20) is fixedly connected with a cleaning device (30), the cleaning device (30) comprises a rotating shaft (31), two ends of the rotating shaft (31) are fixedly connected with sliding blocks (32), the side wall of the rotating shaft (31) is fixedly connected with a rolling brush (33), and the side wall of the inner layer plate (112) is slidably connected with a partition device (40);

The partition device (40) comprises a sliding rod (41), a push plate (42) is fixedly connected to the top end of the sliding rod (41), an upper pressing plate (43) is fixedly connected to the bottom end of the sliding rod (41), a connecting shaft (44) is fixedly connected to the inner wall of a limiting frame (113), a partition plate (45) is rotatably connected to the side wall of the connecting shaft (44), a torque spring (46) is fixedly connected to the side wall of the connecting shaft (44), and a dust removing device (50) is fixedly connected to the side wall of the partition device (40);

The dust removing device (50) comprises a pressing device (51), a pressing air plate (52) is fixedly connected to the side wall of the pressing device (51), a gas storage box (53) is fixedly connected to the side wall of the inner layer plate (112), a reset spring (54) is fixedly connected to the inner wall of the gas storage box (53), and an air inlet head (55) and an air outlet head (56) are respectively and fixedly connected to the side walls of two sides of the gas storage box (53);

the side wall of the inner layer plate (112) is in sliding connection with the sliding block (32), the side wall of the sliding rod (41) is in sliding connection with the side wall of the inner layer plate (112), the side wall of the torque spring (46) is fixedly connected with the bottom wall of the partition plate (45), the side wall of the air compressing plate (52) is in sliding connection with the inner wall of the air storage box (53), the side wall of the outer layer plate (111) is fixedly connected with the air outlet device (57), the inner wall of the air inlet head (55) is fixedly connected with the first one-way valve (58), and the side wall of the air outlet head (56) is fixedly connected with the second one-way valve (59);

the air outlet device (57) comprises an air outlet frame (571), the side wall of the air outlet frame (571) is fixedly connected with the side wall of the outer layer plate (111), the side wall of the air outlet frame (571) is hinged with a cover plate (572), and an air outlet (573) is formed in the side wall of the outer layer plate (111);

The driving device (20) comprises a motor (21), the side wall of the motor (21) is fixedly connected with the side wall of an outer layer plate (111), the output end of the motor (21) is fixedly connected with a first gear (22), the side wall of an inner layer plate (112) is rotationally connected with a second gear (23), the first gear (22) is meshed with the second gear (23), the edge of the side wall of the second gear (23) is fixedly connected with a driving block (24), the side wall of the inner layer plate (112) is slidably connected with a connecting rod (25), one end of the connecting rod (25) is rotationally connected with the side wall of a rotating shaft (31), the other end of the connecting rod is fixedly connected with a driving frame (26), and the inner wall of the driving frame (26) is slidably attached to the side wall of the driving block (24).

2. The outdoor liquid cooling energy storage cabinet of claim 1, wherein the pressing device (51) comprises an abutting plate (511), the side wall on one side of the sliding rod (41) is fixedly connected with the abutting plate (511), the side wall on the other side is fixedly connected with a pressing plate (512), the top end of the pressing plate (52) is fixedly connected with a pressing rod (513), one end of the pressing rod (513) is fixedly connected with the side wall of the pressing plate (52), and the other end of the pressing rod penetrates through the side wall of the gas storage box (53).

3. The outdoor liquid-cooled energy storage cabinet of claim 1, wherein the side wall of the outer layer plate (111) is fixedly connected with a rain cover (115), the air cooling device (12) comprises a top cover (121), the bottom of the side wall of the top cover (121) is fixedly connected with a ventilating plate (122), the side wall of the inner layer plate (112) is fixedly connected with a mounting plate (123), and the side wall of the mounting plate (123) is fixedly connected with an electric fan (124).

4. The outdoor liquid cooling energy storage cabinet of claim 1, wherein a mounting frame (13) is fixedly connected to the side wall of the cabinet plate (11), a liquid cooling device (14) is fixedly connected to the side wall of the mounting frame (13), the liquid cooling device (14) comprises a liquid cooling host machine (141), the side wall of the liquid cooling host machine (141) is fixedly connected with the side wall of the mounting frame (13), a cooling plate (142) is fixedly connected to the side wall of the mounting frame (13), a liquid outlet pipe (143) and a liquid inlet pipe (144) are fixedly connected to the side wall of the liquid cooling host machine (141), the side wall of the cooling plate (142) is fixedly connected with the side wall of the liquid outlet pipe (143), and the side wall of the cooling plate (142) is fixedly connected with the side wall of the liquid inlet pipe (144).

5. The outdoor liquid cooling energy storage cabinet of claim 4, wherein the top end of the mounting frame (13) is fixedly connected with a ventilation plate (145), and the side wall of the liquid inlet pipe (144) is fixedly connected with the side wall of the ventilation plate (145).

6. The outdoor liquid cooling energy storage cabinet of claim 1, wherein the side wall of the rotating shaft (31) is symmetrically and fixedly connected with a third gear (34), the side wall of the outer layer plate (111) close to the inner layer plate (112) is fixedly connected with a rack (35), and the third gear (34) is meshed with the rack (35).