CN116093490A - Outdoor distributed battery energy storage cabinet - Google Patents

Abstract

The application relates to an outdoor distributed battery energy storage cabinet, it includes the cabinet body, support body and baffle, the cabinet body is equipped with and holds the chamber, the support body is connected in the inner wall that holds the chamber, the support body is used for placing battery module, the outer wall of the cabinet body is equipped with the louvre, baffle sliding connection is in the inner wall that holds the chamber, the baffle is used for shutoff louvre, the baffle is equipped with the through-hole, the through-hole is used for the intercommunication louvre and holds the chamber. Under the rainless environment, the baffle slides and makes the through-hole just set up with the louvre, and the energy storage cabinet passes through the louvre and realizes forced air cooling heat dissipation, and under the rainy environment, the baffle slides and makes louvre and through-hole take place the dislocation, and the baffle carries out the shutoff to the louvre, reduces the probability that the rainwater got into the energy storage cabinet, extension outdoor energy storage cabinet's life.

Description

Outdoor distributed battery energy storage cabinet

Technical Field

The application relates to the field of energy storage cabinets, in particular to an outdoor distributed battery energy storage cabinet.

Background

An energy storage device is a fairly common electronic device in the industry. Generally, under the condition of stable power supply at ordinary times, the energy storage device can charge the storage battery in the device with external power, and when the power supply source is lost or emergency such as accidental power failure occurs, the power stored in the storage battery is discharged for emergency treatment of on-line computers, machines and other devices, so as to avoid serious economic loss caused by the loss of power supply.

The outdoor energy storage cabinet can produce a large amount of heat in the in-process of using, and the heat is detained in the energy storage cabinet for a long time and can cause the influence to the normal use of outdoor energy storage cabinet. In order to ensure the normal use of the outdoor energy storage cabinet, the outdoor energy storage cabinet needs to be cooled in time.

In the related art, most outdoor energy storage cabinets on the market all adopt air-cooled heat radiation structure, mainly utilize fan and open wind channel structure to combine together, make inside and outside air convection exchange reach the function that reduces the inside device temperature of energy storage cabinet, however current battery energy storage cabinet wind channel sets up complicatly, and the radiating effect is not good on the one hand, and on the other hand wind channel can not prevent effectively that the rainwater from getting into, and the ponding leads to the equipment in the energy storage cabinet to take place short circuit even damage in the wind channel easily, exists the potential safety hazard.

Disclosure of Invention

In order to prolong the service life of the outdoor energy storage cabinet, the application provides an outdoor distributed battery energy storage cabinet.

The application provides an outdoor distributed battery energy storage cabinet adopts following technical scheme:

the utility model provides an outdoor distributed battery energy storage cabinet, includes the cabinet body, support body and baffle, the cabinet body is equipped with and holds the chamber, the support body is connected in the inner wall that holds the chamber, the support body is used for placing battery module, the outer wall of the cabinet body is equipped with the louvre, baffle sliding connection is in the inner wall that holds the chamber, the baffle is used for shutoff louvre, the baffle is equipped with the through-hole, the through-hole is used for the intercommunication louvre and holds the chamber.

Through adopting above-mentioned technical scheme, under rainless environment, the baffle slides and makes the through-hole just set up with the louvre, and the energy storage cabinet passes through the louvre and realizes forced air cooling heat dissipation, under rainy day environment, the baffle slides and makes louvre and through-hole take place the dislocation, and the baffle blocks off the louvre, reduces the probability that the rainwater got into the energy storage cabinet, prolongs outdoor energy storage cabinet's life.

Preferably, the novel solar energy cabinet further comprises a solar roof, the solar roof comprises a supporting rod and a cover top, one end of the supporting rod is connected to the cover top, the other end of the supporting rod is connected to the upper end of the cabinet body, and the cover top is used for covering the cabinet body.

Through adopting above-mentioned technical scheme, under rainless environment, the sunshade top is sunshade to the cabinet body, reduces the cabinet body and receives sun illumination for a long time and be difficult to radiating probability, under rainy day environment, the sunshade top hides the rain to the cabinet body, reduces the probability that the rainwater got into the energy storage cabinet, prolongs the life of outdoor energy storage cabinet.

Preferably, the bracing piece sliding connection is in the upper end of the cabinet body, the slip direction of bracing piece is vertical, the one end that the lid was kept away from to the bracing piece is connected with first rack, the length direction of first rack is vertical, the inner wall in holding the chamber rotates and is connected with the gear, first rack engagement is in the gear, the baffle is connected with the second rack, the length direction level of second rack, the second rack engagement is in the gear.

Through adopting above-mentioned technical scheme, the bracing piece downwardly sliding drives first rack downwardly sliding, and gear engagement takes place to rotate in first rack, and the second rack engagement realizes the horizontal slip in the gear, and the second rack slides and drives baffle horizontal slip, realizes the shutoff of rainy day to the louvre, reduces the probability that the rainwater got into the energy storage cabinet, prolongs outdoor energy storage cabinet's life.

Preferably, the rain water collecting device further comprises a spring, the periphery of the supporting rod is sleeved with the spring, one end of the spring is connected to one end of the cover top towards the cabinet body, the other end of the spring is connected to the upper end of the cabinet body, and a containing groove is formed in the upper end of the cover top and used for collecting rain water.

Through adopting above-mentioned technical scheme, the spring plays the supporting role to the bracing piece, under the rainy day environment, and the holding tank is collected the rainwater and is made sunshade top gravity increase, and then overcomes spring elasticity and slide downwards, realizes under the rainy day environment automatic control baffle and carries out the shutoff to the louvre, reduces the manpower loss, reduces the probability that the rainwater got into the energy storage cabinet, prolongs outdoor energy storage cabinet's life.

Preferably, the water storage device further comprises a valve cover, wherein the containing groove is provided with a water outlet, and the valve cover is detachably connected to the top of the valve cover and covers the water outlet.

Through adopting above-mentioned technical scheme, under the rainy day environment, the holding tank is collected the rainwater back control baffle and is plugged up the louvre, and when stopping the rain, can dismantle the valve gap and drain to the rainwater in the holding tank for the caping receives spring force to realize resetting and makes the louvre just to with the through-hole, realizes forced air cooling heat dissipation.

Preferably, the frame body is provided with a heat dissipation cavity, the upper end of the frame body is connected with a water diversion pipe, the water diversion pipe is provided with a water port, the water port is communicated with the heat dissipation cavity, the water diversion pipe stretches out of the accommodating cavity, and the water port faces towards the top cover.

Through adopting above-mentioned technical scheme, under rainy day environment, the louvre is shutoff, realizes water-cooling heat dissipation through leading water to the water conduit, guarantees the normal heat dissipation of energy storage cabinet, prolongs the life of energy storage cabinet.

Preferably, the upper end of the cover top is provided with a connecting hole, the connecting hole vertically penetrates through the cover top, the inner wall of the connecting hole is connected with a rubber cover, the rubber cover is provided with a gap, and the gap is used for propping open the water supply pipe.

Through adopting above-mentioned technical scheme, the bracing piece slides from top to bottom and drives the top of lid and slide, under the rainy day environment, the top of lid slides down, and the gap is opened in the water conduit top, and the rainwater gets into the heat dissipation intracavity from the water conduit, cools down the energy storage cabinet, realizes water-cooling heat dissipation, extension energy storage cabinet's life.

Preferably, the upper end of the cover top is provided with a water diversion groove, and the bottom of the water diversion groove is provided with a connecting hole.

Through adopting above-mentioned technical archives, the water channel makes the drinking pipe stretch into behind the connecting hole be convenient for collect the rainwater, improves the radiating efficiency of energy storage cabinet.

Preferably, a water outlet is arranged at the lower end of the frame body, the water outlet is communicated with the heat dissipation cavity, a water outlet flow passage is arranged on the outer wall of the cabinet body, and the water outlet is communicated with the water outlet flow passage.

Through adopting above-mentioned technical scheme, the rainwater is dispelled the heat in to the energy storage cabinet after getting into the heat dissipation chamber from the water conduit, flows into the outlet runner from the delivery port and discharges, realizes the water-cooling heat dissipation to the energy storage cabinet, and the rainwater constantly gets into in the water conduit, improves the radiating efficiency of energy storage cabinet.

Preferably, the inner wall of the cabinet body is provided with a sliding groove, one end of the baffle, facing the heat dissipation hole, is provided with a sliding block, the sliding block is slidably embedded in the sliding groove, and the sliding direction of the sliding block is horizontal.

Through adopting above-mentioned technical scheme, the slider slides and inlays in the spout for the slip of baffle is more stable, and the spout plays the guide effect to the slip of slider for the slip of slider is convenient for control.

In summary, the present application includes at least one of the following beneficial technical effects:

1. under a rainless environment, the baffle slides to enable the through hole and the radiating hole to be opposite to each other, the energy storage cabinet achieves air cooling radiating through the radiating hole, under a rainy environment, the baffle slides to enable the radiating hole and the through hole to be misplaced, the baffle seals the radiating hole, the probability that rainwater enters the energy storage cabinet is reduced, and the service life of the outdoor energy storage cabinet is prolonged;

2. in a rainy day environment, after the accommodating groove collects rainwater, the baffle is controlled to plug the radiating hole, and when the rainwater is stopped, the detachable valve cover drains the rainwater in the accommodating groove, so that the cover top is reset by the elasticity of the spring, and the radiating hole is opposite to the through hole, thereby realizing air cooling and radiating;

3. the supporting rod vertically slides to drive the cover to vertically slide, the cover vertically slides in a rainy day environment, the water conduit is propped up to open a gap, rainwater enters the heat dissipation cavity from the water conduit, the energy storage cabinet is cooled, water cooling is realized, and the service life of the energy storage cabinet is prolonged.

Drawings

Fig. 1 is a schematic diagram of the overall structure of an outdoor distributed battery energy storage cabinet.

Fig. 2 is an exploded view of an outdoor distributed battery energy storage cabinet.

Fig. 3 is a schematic diagram of the internal structure of the outdoor distributed battery energy storage cabinet after being cut away.

Fig. 4 is an enlarged view at a in fig. 3.

Reference numerals illustrate: 1. a cabinet body; 11. a top plate; 111. a support hole; 12. a bottom plate; 121. a water outlet flow passage; 13. a side plate; 131. a mounting port; 132. a heat radiation hole; 133. a chute; 14. a receiving chamber; 141. a gear; 2. a cabinet door; 3. a baffle; 31. a slide block; 32. a through hole; 33. a second rack; 4. a sunshade roof; 41. a support rod; 42. a connecting plate; 43. a cover top; 431. a receiving groove; 432. a water outlet; 433. a water diversion trench; 434. a connection hole; 435. a rubber cover; 4351. a slit; 44. a spring; 45. a valve cover; 46. a flow guiding pipe; 47. a first rack; 5. a frame body; 51. a water conduit; 511. a water-through port; 52. a heat dissipation cavity; 53. and a water outlet.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses an outdoor distributed battery energy storage cabinet. Referring to fig. 1, the outdoor distributed battery energy storage cabinet includes a cabinet body 1, a cabinet door 2, a baffle 3, a sunshade top 4 and a frame body 5.

The cabinet body 1 is set to the cuboid, and the cabinet body 1 includes roof 11, bottom plate 12 and curb plate 13, and curb plate 13 is equipped with four, and roof 11 and bottom plate 12 are parallel to each other, and curb plate 13 perpendicular to roof 11, one of them curb plate 13 are equipped with mounting hole 131, and cabinet door 2 rotates to be connected in the inner wall of mounting hole 131 and is used for covering mounting hole 131, and cabinet door 2's axis of rotation is vertical. The cabinet body 1 is equipped with and holds the chamber 14, and curb plate 13 is equipped with louvre 132, and louvre 132 is equipped with a plurality ofly, and a plurality of louvres 132 are along the even interval setting of width direction of curb plate 13, and a plurality of louvres 132 are along the length direction interval setting of curb plate 13, and the minimum height of louvre 132 is greater than the height of cabinet door 2 bottom, and the maximum height of louvre 132 is less than the height on cabinet door 2 top, wherein is equipped with the curb plate 13 of cabinet door 2, and louvre 132 is located on cabinet door 2.

Referring to fig. 2, one end of the side plate 13 facing the accommodating chamber 14 is provided with sliding grooves 133, the sliding grooves 133 are provided with four, the four sliding grooves 133 are arranged at intervals along the length direction of the side plate 13, and the length direction of the sliding grooves 133 is horizontal. Under the condition that the cabinet door 2 is closed, the baffle 3 is arranged in the accommodating cavity 14, the baffle 3 is provided with four baffle plates, the four baffle plates 3 are respectively parallel to the four side plates 13, one ends of the four baffle plates 3 facing the heat dissipation holes 132 are respectively attached to the four side plates 13, one ends of the baffle plates 3 facing the heat dissipation holes 132 are provided with sliding blocks 31, the sliding grooves 133 are trapezoidal grooves, the longitudinal sections of the sliding blocks 31 are trapezoidal, the sliding blocks 31 are slidably embedded in the sliding grooves 133, and the sliding directions of the sliding blocks 31 are horizontal. The width of baffle 3 is less than the width of cabinet door 2, and the height of baffle 3 is less than the height of cabinet door 2, and baffle 3 is equipped with through-hole 32, and through-hole 32 is used for communicating louvre 132 and holds chamber 14, and through-hole 32 is equipped with a plurality of, and the quantity of through-hole 32 is the same with the quantity of louvre 132, under rainless environment, through-hole 32 and louvre 132 just set up, under rainy environment, baffle 3 slides, through-hole 32 and louvre 132 dislocation set realize baffle 3 to louvre 132 shutoff.

The sunshade top 4 includes bracing piece 41, connecting plate 42, lid top 43, spring 44 and valve gap 45, the upper end of roof 11 is equipped with supporting hole 111, the outer wall sliding connection of bracing piece 41 is in the inner wall of supporting hole 111, the lower extreme fixed connection of bracing piece 41 is in connecting plate 42, the upper end fixed connection of bracing piece 41 is in lid top 43, bracing piece 41 is equipped with three, the even interval setting of width direction along cabinet body 1 of three bracing piece 41, the central line of three supporting hole 111 is the symmetry axis of roof 11, the height of lid top 43 reduces along with keeping away from the central line of three supporting hole 111, the periphery of bracing piece 41 is located to the spring 44 cover, the lower extreme of spring 44 upper end butt lid top 43, the upper end butt roof 11 of spring 44. The cover top 43 is used for covering the top plate 11, the width of the cover top 43 is greater than the width of the top plate 11, the length of the cover top 43 is greater than the length of the top plate 11, the two ends of the cover top 43 are provided with containing grooves 431 along the length direction of the cabinet body 1, the length direction of the containing grooves 431 is parallel to the width direction of the cabinet body 1, the containing grooves 431 are used for collecting rainwater, the groove walls of the containing grooves 431, which deviate from the cabinet door 2, are provided with water drain ports 432, the water drain ports 432 are communicated with the containing grooves 431, one end, close to the cabinet door 2, of the cover top 43 is connected with a flow guide pipe 46, the flow guide pipe 46 is communicated with the water drain ports 432, and the inner periphery of the valve cover 45 is connected with the periphery of the flow guide pipe 46 in a threaded mode and covers the water drain ports 432. The connecting plate 42 is set to rectangle, all fixedly connected with first rack 47 around the connecting plate 42, and the length direction of first rack 47 is vertical, holds the inner wall rotation in chamber 14 and is connected with gear 141, and gear 141's axis of rotation is horizontal, and gear 141's height is greater than baffle 3's height, and first rack 47 meshes in gear 141, and baffle 3's upper end fixedly connected with second rack 33, and the length direction of second rack 33 is horizontal, and second rack 33 meshes in gear 141. The sunshade top 4 after the water is collected in the containing groove 431 slides downwards under the action of the elasticity of the spring 44, the first rack 47 slides downwards, the second rack 33 slides horizontally, and the baffle 3 slides horizontally to block the heat dissipation holes 132.

Referring to fig. 3, the frame body 5 is disposed in the accommodating cavity 14, the frame body 5 is used for placing the battery module, one end of the frame body 5 is fixedly connected to the upper end of the bottom plate 12, the other end of the frame body 5 is fixedly connected with the water conduit 51, a heat dissipation cavity 52 is disposed in the frame body 5, the water conduit 51 is provided with a water through port 511, the water through port 511 is communicated with the heat dissipation cavity 52, the water conduit 51 extends out of the accommodating cavity 14, the water through port 511 faces the cover top 43, a water guiding groove 433 is disposed at the upper end of the cover top 43, and the length direction of the water guiding groove 433 is parallel to the length direction of the accommodating groove 431.

Referring to fig. 2 and 3, the distance from the water guide groove 433 to the support bar 41 is smaller than the distance from the receiving groove 431 to the support bar 41, and the groove bottom of the water guide groove 433 is provided with a connection hole 434, the connection hole 434 penetrating the cap top 43 in the vertical direction.

Referring to fig. 3 and 4, a rubber cover 435 is fixedly connected to an inner wall of the connection hole 434, a slit 4351 is provided in the middle of the rubber cover 435, the slit 4351 is provided in a cross shape, the slit 4351 is used for supporting the water conduit 51, a water outlet 53 is provided at the lower end of the frame 5, the water outlet 53 is communicated with the heat dissipation cavity 52, the bottom plate 12 is provided with a water outlet channel 121, the length direction of the water outlet channel 121 is parallel to the width direction of the cabinet 1, one end of the water outlet channel 121 is communicated with the water outlet 53, and the other end of the water outlet channel 121 is coplanar with the mounting port 131. In rainy days, rainwater is collected into the accommodating groove 431 to enable the cover top 43 to move downwards, the water conduit 51 is propped up against the gap 4351 to enable the water through opening 511 to be communicated with the water conduit 433, the rainwater enters the heat dissipation cavity 52, and after heat in the energy storage cabinet is taken away, the rainwater enters the water outlet flow channel 121 from the water outlet 53 and is discharged.

The implementation principle of the outdoor distributed battery energy storage cabinet provided by the embodiment of the application is as follows: under the rainless environment, the radiating hole 132 is opposite to the through hole 32, air convection realizes air cooling and radiates, under the rainy environment, the holding tank 431 mobile phone rainwater overcomes the elasticity of the spring 44, the cover top 43 moves downwards, the first rack 47 slides downwards, the gear 141 rotates, the second rack 33 slides horizontally, the baffle 3 slides to enable the radiating hole 132 to be misplaced with the through hole 32, the baffle 3 seals the radiating hole 132, the cover top 43 moves downwards, the water conduit 51 enters the gap 4351 to be communicated with the water through hole 511, the water conduit 433 collects rainwater in the radiating cavity 52 to absorb heat and then is discharged from the water outlet flow channel 121, after rain stops, the valve cover 45 is opened, the water is discharged from the water drain hole 432, the spring 44 recovers deformation to enable the cover top 43 to be lifted, the baffle 3 resets, and the radiating hole 132 is communicated with the holding cavity 14 to perform air cooling and radiate.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. An outdoor distributed battery energy storage cabinet which is characterized in that: including cabinet body (1), support body (5) and baffle (3), cabinet body (1) is equipped with and holds chamber (14), support body (5) are connected in the inner wall that holds chamber (14), support body (5) are used for placing battery module, the outer wall of cabinet body (1) is equipped with louvre (132), baffle (3) sliding connection is in the inner wall that holds chamber (14), baffle (3) are used for shutoff louvre (132), baffle (3) are equipped with through-hole (32), through-hole (32) are used for intercommunication louvre (132) and hold chamber (14).

2. The outdoor distributed battery energy storage cabinet of claim 1, wherein: still include sunshade top (4), sunshade top (4) include bracing piece (41) and caping (43), the one end of bracing piece (41) is connected in caping (43), the other end of bracing piece (41) is connected in the upper end of cabinet body (1), caping (43) are used for covering cabinet body (1).

3. The outdoor distributed battery energy storage cabinet of claim 2, wherein: the utility model discloses a cabinet, including cabinet body (1), bracing piece (41) are connected with first rack (47) in the upper end of cabinet body (1), the slip direction of bracing piece (41) is vertical, the one end that lid top (43) was kept away from to bracing piece (41), the length direction of first rack (47) is vertical, the inner wall rotation that holds chamber (14) is connected with gear (141), first rack (47) meshing in gear (141), baffle (3) are connected with second rack (33), the length direction level of second rack (33), second rack (33) meshing in gear (141).

4. An outdoor distributed battery power storage cabinet as claimed in claim 3, wherein: still include spring (44), the periphery of bracing piece (41) is located to spring (44) cover, the one end of spring (44) is connected in the one end that the lid top (43) towards cabinet body (1), the other end of spring (44) is connected in the upper end of cabinet body (1), the upper end of lid top (43) is equipped with holding tank (431), holding tank (431) are used for collecting the rainwater.

5. The outdoor distributed battery energy storage cabinet of claim 4, wherein: still include valve gap (45), holding tank (431) are equipped with drain (432), valve gap (45) can dismantle connect in caping (43) and cover drain (432).

6. An outdoor distributed battery power storage cabinet as claimed in claim 3, wherein: the frame body (5) is provided with a heat dissipation cavity (52), the upper end of the frame body (5) is connected with a water diversion pipe (51), the water diversion pipe (51) is provided with a water through port (511), the water through port (511) is communicated with the heat dissipation cavity (52), the water diversion pipe (51) stretches out of the accommodating cavity (14), and the water through port (511) faces towards the cover top (43).

7. The outdoor distributed battery energy storage cabinet of claim 6, wherein: the upper end of the cover top (43) is provided with a connecting hole (434), the connecting hole (434) vertically penetrates through the cover top (43), the inner wall of the connecting hole (434) is connected with a rubber cover (435), the rubber cover (435) is provided with a gap (4351), and the gap (4351) is used for propping open a water supply pipe (51).

8. The outdoor distributed battery energy storage cabinet of claim 7, wherein: the upper end of the cover top (43) is provided with a water diversion groove (433), and the bottom of the water diversion groove (433) is provided with a connecting hole (434).

9. The outdoor distributed battery energy storage cabinet of claim 6, wherein: the lower extreme of support body (5) is equipped with delivery port (53), delivery port (53) communicate in heat dissipation chamber (52), the outer wall of cabinet body (1) is equipped with out water runner (121), delivery port (53) communicate in out water runner (121).

10. The outdoor distributed battery energy storage cabinet of claim 1, wherein: the inner wall of the cabinet body (1) is provided with a sliding groove (133), one end of the baffle (3) facing the heat dissipation hole (132) is provided with a sliding block (31), the sliding block (31) is slidably embedded in the sliding groove (133), and the sliding direction of the sliding block (31) is horizontal.

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