CN219741068U - Shutter structure and energy storage integrated cabinet - Google Patents

Abstract

A shutter structure and an energy storage integrated cabinet comprise a plurality of groups of air outlet blades, a plurality of groups of air inlet blades and a shutter frame; the plurality of groups of air outlet blades are sequentially assembled and connected with the shutter frame from top to bottom, the air outlet blades surround an air outlet channel, and the air outlet direction of the air outlet channel is inclined upwards relative to the horizontal plane; the air inlet blades and the shutter frames are assembled and connected sequentially from top to bottom, the air inlet blades surround an air inlet channel, and the air inlet direction of the air inlet channel is inclined upwards relative to the horizontal plane; the installation position of the air outlet blade is positioned above the installation position of the air inlet blade. According to the utility model, the direction of hot air outlet and cold air inlet is changed, so that blown hot air is prevented from being sucked back to the cold air inlet, and the heat dissipation performance is enhanced; meanwhile, the tail ends of the air outlet blades are provided with liquid collecting tanks for collecting rainwater falling into the air outlet blades due to the orientation of the hot air channels, so that the waterproof function is achieved, and the outdoor cabinet is prevented from being short-circuited due to water inflow in the working process.

Description

Shutter structure and energy storage integrated cabinet

Technical Field

The utility model relates to the field of energy storage integrated cabinets, in particular to a shutter structure and an energy storage integrated cabinet.

Background

When the energy storage integrated cabinet is arranged in an outdoor environment (hereinafter referred to as an outdoor cabinet), generally, the heat dissipation and waterproof functions are required to be met, in the prior art, the functions can be generally realized through the uniform inclined downward shutter structure of the outlet, and the IPX5 waterproof grade required by the safety grade can be reached.

However, in the outdoor cabinet, a water cooling unit or other cooling equipment is usually arranged, so that the functions of cold air suction and hot air discharge are simultaneously met, and when the shutter structures of the cold air inlet and the hot air outlet are positioned on the same side, blown hot air is sucked back to the cold air inlet to reduce the heat dissipation performance and increase the power consumption; when the shutter structures of the cold air inlet and the hot air outlet are positioned on different sides, the internal framework of the outdoor cabinet can be changed, the original design method is changed, and the cost is increased.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the shutter structure of the outdoor cabinet is provided, and prevents hot air from being sucked by a cold air inlet under the premise of not changing the original internal framework, and meanwhile, the shutter structure has waterproof performance.

In order to solve the technical problems, the utility model adopts the following technical scheme:

a shutter structure comprises a plurality of groups of air outlet blades, a plurality of groups of air inlet blades and a shutter frame;

the plurality of groups of air outlet blades are sequentially assembled and connected with the shutter frame from top to bottom, the air outlet blades are encircled to form an air outlet channel, and the air outlet direction of the air outlet channel is inclined upwards relative to the horizontal plane; the plurality of groups of air inlet blades are sequentially assembled and connected with the shutter frame from top to bottom, the air inlet blades surround an air inlet channel, and the air inlet direction of the air inlet channel is inclined upwards relative to the horizontal plane; the mounting position of the air outlet blade is located above the mounting position of the air inlet blade.

Further, a liquid collecting tank is arranged on one side of the air outlet blade, and water outlets are formed in two ends of the air outlet blade.

Further, the liquid collecting groove is a bending structure positioned above the air outlet blade.

Further, the bending structure comprises a bending section and a straight edge section, the bending section is connected with the straight edge section and the air outlet blade, the bending angle of the bending section and the air outlet blade is larger than 60 degrees, and the included angle formed by the straight edge section and the air outlet blade is 25 degrees.

Further, the straight edge section has a length of at least 7mm.

Further, the minimum distance between the air outlet blades is 21mm.

Further, the device also comprises a filter screen and a filter screen bracket, wherein the filter screen is assembled and connected with the filter screen bracket, the filter screen bracket is arranged at the rear part of the shutter frame, and the filter screen bracket is assembled and connected with the shutter frame; and a water outlet is arranged at the bottom end of the filter screen frame.

Further, the filter screen bracket is welded with the shutter frame; the air outlet blades and the air inlet blades are connected with the shutter frame in a welding mode.

In order to solve the problems, the utility model adopts another technical scheme that:

the energy storage integrated cabinet comprises an installation clamping groove, wherein the installation clamping groove is positioned on any side surface perpendicular to the bottom surface of the energy storage integrated cabinet, and the shutter frame is assembled and connected with the installation clamping groove of the energy storage integrated cabinet;

the energy storage integrated cabinet further comprises a fan housing, wherein the fan housing is positioned on the inner side of the energy storage integrated cabinet and isolates air flow passing through the air outlet channel from air flow passing through the air inlet channel.

Further, the installation clamping groove is connected with the bottom end of the shutter frame in an assembling mode, and the installation clamping groove is provided with a water guide groove.

The utility model has the beneficial effects that: the utility model provides a shutter structure and an energy storage integrated cabinet, wherein the shutter structure is designed into a hot air outlet channel for upwardly discharging air and a cold air inlet channel for upwardly feeding air, and meanwhile, the hot air inlet channel is positioned at the top end of the cold air inlet channel, so that the directions of hot air outlet and cold air inlet are changed, blown hot air is prevented from being sucked back to a cold air inlet, the heat dissipation performance is enhanced, and the energy consumption is reduced; besides, the tail ends of the air outlet blades are provided with liquid collecting tanks for collecting rainwater falling into the air outlet blades due to the orientation of the hot air channels, so that the waterproof function is achieved, and the outdoor cabinet is prevented from being short-circuited due to water inflow in the working process.

Drawings

FIG. 1 is a schematic diagram of an integrated cabinet for storing energy according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a blind structure according to an embodiment of the present utility model;

FIG. 3 is an enlarged view B of a portion of FIG. 2;

FIG. 4 is a cross-sectional view C-C of FIG. 3;

FIG. 5 is a block diagram of an air outlet vane with a shutter structure according to an embodiment of the present utility model;

FIG. 6 is a front view of an air outlet vane with a shutter structure according to an embodiment of the present utility model;

FIG. 7 is a side view of an outlet vane with a louvered structure according to an embodiment of the present utility model;

FIG. 8 is an exploded view of an integrated energy storage cabinet according to one embodiment of the present utility model;

description of the reference numerals:

1. an air outlet blade; 2. air inlet blades; 3. a filter screen; 4. a fan housing;

5. a filter screen bracket; 6. installing a clamping groove; 7. a shutter frame; 8. an air outlet channel; 9.

an air inlet channel; 10. a water outlet; 11. and a water outlet.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 8, a louver structure and energy storage integrated cabinet includes a plurality of groups of air outlet blades 1, a plurality of groups of air inlet blades 2, a louver frame 7 and a fan cover 4; the shutter frame 7 is assembled and connected with the installation clamping groove 6 of the energy storage integrated cabinet, and the installation clamping groove 6 is positioned on any side surface perpendicular to the bottom surface of the energy storage integrated cabinet;

the plurality of groups of air outlet blades 1 are sequentially assembled and connected with the shutter frame 7 from top to bottom, the air outlet blades 1 are encircled to form an air outlet channel 8, and the air outlet direction of the hot air outlet channel 8 is inclined upwards relative to the horizontal plane; the plurality of groups of air inlet blades 2 are sequentially assembled and connected with the shutter frame 7 from top to bottom, the air inlet blades 2 are surrounded to form an air inlet channel 9, and the air inlet direction of the air inlet channel 9 is inclined upwards relative to the horizontal plane; the installation position of the air outlet blade 1 is positioned above the installation position of the air inlet blade 2; the fan housing 4 is located inside the energy storage integrated cabinet, and isolates the air flow passing through the air outlet channel 8 from the air flow passing through the air inlet channel 9.

The utility model has the beneficial effects that: the utility model provides a shutter structure and an energy storage integrated cabinet, wherein the shutter structure is designed into an air outlet channel 8 for upwards discharging air and an air inlet channel 9 for upwards feeding air, and meanwhile, the air inlet channel is positioned at the top end of the air inlet channel 9, so that blown hot air is prevented from being sucked back to a cold air inlet, the heat dissipation performance is enhanced, and the energy consumption is reduced; in addition, a fan housing 4 is arranged inside the integrated cabinet, and the fan housing 4 isolates the air flow passing through the air outlet blades 1 from the air flow passing through the air inlet blades 2.

Further, a liquid collecting tank is arranged on one side of the air outlet blade 1 positioned in the energy storage integrated cabinet, and water outlets 10 are formed in two ends of the air outlet blade 1.

As can be seen from the above description, since the air outlet direction of the air outlet channel 8 is upward relative to the horizontal plane, rainwater can fall into the outdoor cabinet along the air outlet channel 8, so that a liquid collecting tank is arranged on the inner side of the air outlet blade 1 to collect rainwater or other liquid drops which may enter from the channel, and water outlets 10 are formed on two sides of the air outlet blade 1 to discharge the collected liquid from two ends of the air outlet blade 1, so as to prevent the rainwater from entering the outdoor cabinet.

Further, the liquid collecting tank is a bending structure positioned above the air outlet blade 1.

Further, the bending structure comprises a bending section and a straight edge section, the bending section is connected with the straight edge section and the air outlet blade 1, the bending angle of the bending section and the air outlet blade 1 is larger than 60 degrees, and the included angle formed by the straight edge section and the air outlet blade 1 is 25 degrees.

Further, the straight edge section has a length of at least 7mm.

Further, the minimum distance between the air outlet blades 1 is 21mm.

As can be seen from the above description, the liquid collecting tank of the air outlet blade 1 is a bending structure with a bending direction facing to the top end of the blade, the bending structure comprises a bending section and a straight section, the bending section connects the straight section and the air outlet blade 1, wherein the bending angle between the bending section and the air outlet blade 1 is 90 °, the function of the air outlet blade is to form a groove for collecting liquid drops, the included angle between the straight section and the air outlet blade 1 is 25 °, and the air outlet blade is used as a baffle to prevent the liquid drops from splashing. In addition, through testing, the length of the straight edge section is at least 7mm, so that a good collecting effect can be achieved; meanwhile, in order to ensure the air outlet efficiency and leave enough space for arranging the liquid collecting tank, the minimum distance between the air outlet blades 1 is 21mm.

Further, the installation clamping groove 6 is connected with the bottom end of the shutter frame 7 in an assembling mode, and the installation clamping groove 6 is provided with a water guide groove.

As is apparent from the above description, the installation groove 6 is assembled with the bottom end of the louver frame 7, and the installation groove 6 is provided with a water guiding groove, so that the liquid discharged from the water outlets 10 at the two ends of the hot air inlet blade is collected and treated, and is guided to the outside.

Further, the energy storage integrated cabinet further comprises a filter screen 3 and a filter screen bracket 5, wherein the filter screen 3 is assembled and connected with the filter screen bracket 5, the filter screen bracket 5 is arranged at one end, which is opposite to the rear part of the shutter frame 7 and is close to the inside of the energy storage integrated cabinet, and the filter screen bracket 5 is assembled and connected with the shutter frame 7;

as is apparent from the above description, in order to prevent tiny droplets and moist air from entering the interior of the outdoor cabinet, the filter screen 3 and the filter screen bracket 5 are disposed inside the louver frame 7, and the filter screen bracket 5 is assembled and connected with the louver frame.

Further, a water outlet is formed in the bottom of the filter screen support 5, and the water outlet is communicated with the water guide groove.

As can be seen from the above description, the bottom end of the filter screen bracket 5 is provided with a water outlet 11, the water outlet 11 is communicated with a water guiding groove positioned on the mounting clamping groove 6, and the liquid collected by the hot air flow blade is discharged.

Further, the filter screen bracket 5 is welded with the shutter frame 7.

Further, the air outlet blade 1, the air inlet blade 2 and the shutter frame 7 are welded and connected.

The utility model provides a shutter structure and an energy storage integrated cabinet, which can be applied to an outdoor environment, and the shutter structure and the energy storage integrated cabinet are described below with reference to specific embodiments:

the first embodiment of the utility model is as follows: referring to fig. 1 to 8, a louver structure and an energy storage integrated cabinet includes a plurality of groups of air outlet blades 1, a plurality of groups of air inlet blades 2, a louver frame 7 and a fan cover 4, wherein the plurality of groups of air outlet blades 1 and the louver frame 7 are sequentially welded from top to bottom; the air inlet blades 2 and the shutter frame 7 are sequentially welded from top to bottom, the shutter frame 7 is assembled and connected with the installation clamping groove 6 of the energy storage integrated cabinet, and the installation clamping groove 6 is positioned on any side surface perpendicular to the bottom surface of the energy storage integrated cabinet; the air outlet blades 1 are surrounded to form an air outlet channel 8, and the air outlet direction of the air outlet channel 8 faces upwards relative to the horizontal plane; the air inlet blades 2 are surrounded to form an air inlet channel 9, and the air inlet direction of the air inlet channel 9 faces upwards relative to the horizontal plane; the installation position of the air outlet blade 1 is positioned above the installation position of the air inlet blade 2; the fan housing 4 is assembled on the inner side of the energy storage integrated cabinet by bolts, and isolates the air flow passing through the air outlet channel 8 from the air flow passing through the air inlet channel 9.

Specifically, the shutter frame 7 consists of three groups of frames, namely a top end frame and two side end frames, and the bottom end of the shutter frame 7 is connected with a mounting clamping groove 6 positioned on any side surface of the outdoor cabinet; the air inlet blade forms an included angle of 60 degrees with the horizontal plane.

Namely, in the present embodiment: through the hot air outlet channel 8 of upwards air-out and the cold wind air inlet channel 9 of upwards air-in with tripe structural design, hot air inlet channel is located cold wind air inlet channel 9 top simultaneously to utilize fan housing 4 to keep apart cold and hot air current inside, thereby prevent that the hot-blast back of blowing out from inhaling to cold wind air intake, reinforcing heat dispersion reduces the energy consumption.

The second embodiment of the utility model is as follows: referring to fig. 1 to 8, in the first embodiment, a liquid collecting tank is disposed on one side of an air outlet blade 1 located inside an energy storage integrated cabinet, and two ends of the air outlet blade 1 are provided with water outlets 10.

That is, in this embodiment, since the air outlet direction of the hot air outlet channel 8 is upward with respect to the horizontal plane, rainwater can fall into the outdoor cabinet along the hot air outlet channel 8, so that a liquid collecting tank is provided inside the air outlet blade 1 to collect rainwater or other liquid drops which may enter from the channel, and water outlets 10 are provided at two sides of the air outlet blade 1 to discharge the collected liquid from two ends of the air outlet blade 1, so as to prevent the rainwater from entering the outdoor cabinet.

Specifically, the liquid collecting tank is a bending structure positioned above the air outlet blade 1; the bending structure comprises a bending section and a straight edge section, wherein the bending section is connected with the straight edge section and the air outlet blade 1, the bending angle between the bending section and the air outlet blade 1 is 63 degrees, and the included angle formed by the straight edge section and the air outlet blade 1 is 25 degrees; through testing, the straight edge section has good collection effect when the length is at least 7mm, and achieves the waterproof grade of IPX 5; meanwhile, in order to ensure the air outlet efficiency and leave enough space for arranging the liquid collecting tank, the minimum distance between the air outlet blades 1 is 21mm.

The third embodiment of the utility model is as follows: referring to fig. 1 to 8, on the basis of the second embodiment, the shutter structure of the outdoor cabinet further includes a filter screen 3 and a filter screen bracket 5, the filter screen 3 is assembled and connected with the filter screen bracket 5, the filter screen bracket 5 is disposed at one end, which is opposite to the rear of the shutter frame 7 and is close to the interior of the energy storage integrated cabinet, and the filter screen bracket 5 is connected with the shutter frame 7 through welding; meanwhile, the installation clamping groove 6 is provided with a water guide groove, the bottom of the filter screen bracket 5 is provided with a water outlet 11, the water outlet 11 is communicated with the water guide groove, and liquid flowing out from the water outlets 10 at the two ends of the hot air inlet blade is guided out through the water outlet.

That is, in this embodiment, in order to prevent tiny droplets and humid air from entering the outdoor cabinet, the filter screen 3 and the filter screen bracket 5 are disposed inside the louver frame 7, and the filter screen bracket 5 and the louver frame are assembled and welded, so that the droplets are prevented from overflowing from the edges of the frame.

In summary, the utility model provides a louver structure and an energy storage integrated cabinet, wherein the louver structure is designed into an air outlet channel for upwards air outlet and an air inlet channel for upwards air inlet, and meanwhile, the air inlet channel is positioned at the top end of the air inlet channel, so that the directions of hot air outlet and cold air inlet are changed, blown hot air is prevented from being sucked back to a cold air inlet, the heat dissipation performance is enhanced, and the energy consumption is reduced; besides, the tail ends of the air outlet blades are provided with liquid collecting tanks for collecting rainwater falling into the air outlet blades due to the orientation of the hot air channels, so that the waterproof function is achieved, and the outdoor cabinet is prevented from being short-circuited due to water inflow in the working process.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (10)

1. A shutter structure, characterized in that: comprises a plurality of groups of air outlet blades, a plurality of groups of air inlet blades and a shutter frame;

the plurality of groups of air outlet blades are sequentially assembled and connected with the shutter frame from top to bottom, the air outlet blades are encircled to form an air outlet channel, and the air outlet direction of the air outlet channel is inclined upwards relative to the horizontal plane; the plurality of groups of air inlet blades are sequentially assembled and connected with the shutter frame from top to bottom, the air inlet blades surround an air inlet channel, and the air inlet direction of the air inlet channel is inclined upwards relative to the horizontal plane; the mounting position of the air outlet blade is located above the mounting position of the air inlet blade.

2. A shutter structure according to claim 1, wherein: a liquid collecting tank is arranged on one side of the air outlet blade, and water outlets are formed in two ends of the air outlet blade.

3. A shutter structure according to claim 2, wherein: the liquid collecting tank is a bending structure positioned above the air outlet blade.

4. A shutter structure according to claim 3, wherein: the bending structure comprises a bending section and a straight edge section, the bending section is connected with the straight edge section and the air outlet blade, the bending angle of the bending section and the air outlet blade is larger than 60 degrees, and the included angle formed by the straight edge section and the air outlet blade is 25 degrees.

5. A shutter structure according to claim 4, wherein: the straight edge section has a length of at least 7mm.

6. A shutter structure according to claim 5, wherein: the minimum distance between the air outlet blades is 21mm.

7. A shutter structure according to claim 6, wherein: the novel shutter frame comprises a shutter frame, a shutter frame and a shutter frame, and is characterized by also comprising a filter screen and a filter screen bracket, wherein the filter screen is connected with the filter screen bracket in an assembling way, the filter screen bracket is arranged at the rear of the shutter frame, and the filter screen bracket is connected with the shutter frame in an assembling way; and a water outlet is arranged at the bottom end of the filter screen frame.

8. A shutter structure according to claim 7, wherein: the filter screen bracket is welded with the shutter frame; the air outlet blades and the air inlet blades are connected with the shutter frame in a welding mode.

9. An energy storage integrated cabinet using the shutter structure of any one of claims 1 to 8, comprising a mounting slot, wherein the mounting slot is positioned on any side surface perpendicular to the bottom surface of the energy storage integrated cabinet, and the shutter frame is assembled and connected with the mounting slot of the energy storage integrated cabinet;

the energy storage integrated cabinet further comprises a fan housing, wherein the fan housing is positioned on the inner side of the energy storage integrated cabinet and isolates air flow passing through the air outlet channel from air flow passing through the air inlet channel.

10. An energy storage integrated cabinet according to claim 9, wherein: the installation clamping groove is connected with the bottom end of the shutter frame in an assembling mode, and the installation clamping groove is provided with a water guide groove.