CN208480203U - Distributed heat removal air channel structure for energy storage cabinet - Google Patents
Distributed heat removal air channel structure for energy storage cabinet Download PDFInfo
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- CN208480203U CN208480203U CN201821223281.7U CN201821223281U CN208480203U CN 208480203 U CN208480203 U CN 208480203U CN 201821223281 U CN201821223281 U CN 201821223281U CN 208480203 U CN208480203 U CN 208480203U
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- air
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- storage cabinet
- exhaust apparatus
- plenums
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Abstract
The utility model proposes a kind of distributed heat removal air channel structures for energy storage cabinet, including vertical air plenums, air-intake device and exhaust apparatus, vertical air plenums are fixedly mounted on energy storage cabinet rear wall, vertical air plenums front surface is equipped with several lateral exhaust apparatus from top to bottom, the position of exhaust apparatus and the position of energy storage cabinet subrack correspond, several fan blades are equipped in exhaust apparatus, fan blade is set as the radial pattern structure centered on the rear surface midpoint of exhaust apparatus, air-intake device is fixedly mounted on energy storage cabinet bottom, and it is connected with vertical air plenums, air-intake device bottom surface is equipped with several air inlets.The utility model radiates to inside using gas circulation in such a way that vertical air plenums, air-intake device and several exhaust apparatus combine, and only needing to have an air inlet can be realized the heat dissipation of multiple modules, improve radiating efficiency, reduces energy consumption, save the cost.
Description
Technical field
The utility model belongs to machinery radiating technical field, and especially a kind of distributed heat removal air duct for energy storage cabinet is tied
Structure.
Background technique
Traditional heat-dissipating uses fan cooling, needs to install radiator for each electronic module, it is big that there are occupied spaces, wind
Measure the problem that energy consumption is high, heat dissipation installation is complicated.
Summary of the invention
The technical issues of the utility model is solved be to provide a kind of distributed heat removal air channel structure for energy storage cabinet,
In such a way that vertical air plenums, air-intake device and several exhaust apparatus combine, radiated using gas circulation to inside, only
There need to be an air inlet that the heat dissipation of multiple modules can be realized, improve radiating efficiency, reduce energy consumption, save the cost.
Realize the technical solution of the utility model aim are as follows:
For the distributed heat removal air channel structure of energy storage cabinet, including vertical air plenums, air-intake device and exhaust apparatus, wherein
Vertical air plenums are hollow cylindrical structure, are fixedly mounted on energy storage cabinet rear wall, vertical air plenums front surface is equipped with several from top to bottom
The position of lateral exhaust apparatus, the position of exhaust apparatus and energy storage cabinet subrack corresponds, and the lower surface of exhaust apparatus and inserts
The upper surface of case maintains an equal level;Several fan blades are equipped in exhaust apparatus, fan blade is set as centered on the rear surface midpoint of exhaust apparatus
Radial pattern structure;Air-intake device is fixedly mounted on energy storage cabinet bottom, and is connected with vertical air plenums, and air-intake device bottom surface is equipped with
Several air inlets.
Further, the distributed heat removal air channel structure for energy storage cabinet of the utility model is equipped on air-intake device
Airflow regulating switch, for adjusting intake and air inlet wind speed.
Further, the distributed heat removal air channel structure for energy storage cabinet of the utility model, the quantity of exhaust apparatus is extremely
It is less 10.
Further, the distributed heat removal air channel structure for energy storage cabinet of the utility model, in each exhaust apparatus
The quantity of fan blade is at least 6.
Further, the distributed heat removal air channel structure for energy storage cabinet of the utility model, fan blade and vertical air plenums it
Between angle be 30 °~60 °.
The utility model compared with the prior art by using the above technical solution, has following technical effect that
1, the distributed heat removal air channel structure for energy storage cabinet of the utility model passes into cabinet body by vertical air plenums
Interior all modules radiate, and reduce the use of radiator, significantly reduce energy consumption.
2, the air quantity inside the distributed heat removal air channel structure air duct for energy storage cabinet of the utility model maintains constant
Value, can adjust intake by airflow regulating switch according to actual environment, so that heat dissipation effect is significantly improved
3, the distributed heat removal air channel structure for energy storage cabinet of the utility model increases the flow range of wind, further mentions
High cooling efficiency.
Detailed description of the invention
Fig. 1 is the scheme of installation of the distributed heat removal air channel structure for energy storage cabinet of the utility model;
Fig. 2 is the overall structure figure of the distributed heat removal air channel structure for energy storage cabinet of the utility model;
Fig. 3 is the air outlet structure figure of the distributed heat removal air channel structure for energy storage cabinet of the utility model.
Appended drawing reference meaning: 1: vertical air plenums, 2: exhaust apparatus, 3: air-intake device, 4: air inlet 5: subrack, 6: fan blade.
Specific embodiment
The embodiments of the present invention is described below in detail, the example of the embodiment is shown in the accompanying drawings, wherein
Same or similar label indicates same or similar element or element with the same or similar functions from beginning to end.Lead to below
It crosses the embodiment being described with reference to the drawings to be exemplary, is only used for explaining the utility model, and cannot be construed to practical to this
Novel limitation.
For the distributed heat removal air channel structure of energy storage cabinet, including vertical air plenums, air-intake device and exhaust apparatus 2.
Embodiment 1
For the distributed heat removal air channel structure of energy storage cabinet, as shown in Figure 1, 2, including vertical air plenums 1,3 and of air-intake device
Exhaust apparatus 2.
Wherein, vertical air plenums 1 are hollow cylindrical structure, are fixedly mounted on energy storage cabinet rear wall, and 1 front surface of vertical air plenums is from upper
Several lateral exhaust apparatus 2 are installed under.
The position of exhaust apparatus 2 and the position of energy storage cabinet subrack 5 correspond, and the lower surface of exhaust apparatus 2 and subrack 5
Upper surface maintain an equal level.As shown in figure 3, being equipped with several fan blades 6, the rear table that fan blade 6 is set as with exhaust apparatus 2 in exhaust apparatus 2
Radial pattern structure centered on the midpoint of face.The quantity of exhaust apparatus 2 is 10, and the quantity of the fan blade 6 in each exhaust apparatus 2 is
6, and the angle between fan blade 6 and vertical air plenums 1 is 45 °.
Air-intake device 3 is fixedly mounted on energy storage cabinet bottom, and is connected with vertical air plenums 1, if 3 bottom surface of air-intake device is equipped with
Dry air inlet 4.Airflow regulating switch is installed on air-intake device 3, for adjusting intake and air inlet wind speed.
Embodiment 2
For the distributed heat removal air channel structure of energy storage cabinet, including vertical air plenums 1, air-intake device 3 and exhaust apparatus 2.
Wherein, vertical air plenums 1 are hollow cylindrical structure, are fixedly mounted on energy storage cabinet rear wall, and 1 front surface of vertical air plenums is from upper
Several lateral exhaust apparatus 2 are installed under.
The position of exhaust apparatus 2 and the position of energy storage cabinet subrack 5 correspond, and the lower surface of exhaust apparatus 2 and subrack 5
Upper surface maintain an equal level.Be equipped with several fan blades 6 in exhaust apparatus 2, fan blade 6 be set as be with the rear surface midpoint of exhaust apparatus 2
The radial pattern structure of the heart.The quantity of exhaust apparatus 2 is 15, and the quantity of the fan blade 6 in each exhaust apparatus 2 is 8, and fan blade
6 with vertical air plenums 1 at 60 ° of angles.
Air-intake device 3 is fixedly mounted on energy storage cabinet bottom, and is connected with vertical air plenums 1, if 3 bottom surface of air-intake device is equipped with
Dry air inlet 4.Airflow regulating switch is installed on air-intake device 3, for adjusting intake and air inlet wind speed.
Embodiment 3
For the distributed heat removal air channel structure of energy storage cabinet, including vertical air plenums 1, air-intake device 3 and exhaust apparatus 2.
Wherein, vertical air plenums 1 are hollow cylindrical structure, are fixedly mounted on energy storage cabinet rear wall, and 1 front surface of vertical air plenums is from upper
Several lateral exhaust apparatus 2 are installed under.
The position of exhaust apparatus 2 and the position of energy storage cabinet subrack 5 correspond, and the lower surface of exhaust apparatus 2 and subrack 5
Upper surface maintain an equal level.Be equipped with several fan blades 6 in exhaust apparatus 2, fan blade 6 be set as be with the rear surface midpoint of exhaust apparatus 2
The radial pattern structure of the heart.The quantity of exhaust apparatus 2 is 10, and the quantity of the fan blade 6 in each exhaust apparatus 2 is 8, and fan blade
6 with vertical air plenums 1 at 30 ° of angles.
Air-intake device 3 is fixedly mounted on energy storage cabinet bottom, and is connected with vertical air plenums 1, if 3 bottom surface of air-intake device is equipped with
Dry air inlet 4.Airflow regulating switch is installed on air-intake device 3, for adjusting intake and air inlet wind speed.
The characteristics of the utility model energy storage cabinet distributed heat removal air duct, is:
1) air channel structure is circulated using air duct radiation gas to radiate to inside, and cold wind need to only enter from air inlet,
Then all modules in cabinet body are passed by vertical air plenums to radiate, without all installing radiator to modules, is subtracted
The use of few radiator, significantly reduces energy consumption.
2) cold wind enters from air inlet, in vertical air plenums internal circulation, so that the air quantity inside air duct maintains steady state value,
Air quantity is able to maintain constant, moreover it is possible to adjust intake by airflow regulating switch, heat dissipation function can be adjusted according to actual environment
Rate, so that heat dissipation effect is significantly improved
3) outlet air fan blade is designed using radial pattern structure, and fan blade direction can be adjusted according to actual use situation, real
Show the flow range for increasing wind, further increases radiating efficiency.
The above is only some embodiments of the utility model, it is noted that for the common skill of the art
For art personnel, without departing from the principle of this utility model, several improvement can also be made, these improvement should be regarded as this
The protection scope of utility model.
Claims (5)
1. be used for energy storage cabinet distributed heat removal air channel structure, which is characterized in that including vertical air plenums (1), air-intake device (3) and
Exhaust apparatus (2), wherein vertical air plenums (1) are hollow cylindrical structure, are fixedly mounted on energy storage cabinet rear wall, before vertical air plenums (1)
Surface is equipped with several lateral exhaust apparatus (2), the position of exhaust apparatus (2) and the position of energy storage cabinet subrack (5) from top to bottom
It corresponds, and the upper surface of the lower surface of exhaust apparatus (2) and subrack (5) maintains an equal level;Several fan blades are equipped in exhaust apparatus (2)
(6), fan blade (6) is set as the radial pattern structure centered on the rear surface midpoint of exhaust apparatus (2);Air-intake device (3) is fixed
It is mounted on energy storage cabinet bottom, and is connected with vertical air plenums (1), air-intake device (3) bottom surface is equipped with several air inlets (4).
2. the distributed heat removal air channel structure according to claim 1 for energy storage cabinet, which is characterized in that air-intake device
(3) airflow regulating switch is installed, for adjusting intake and air inlet wind speed on.
3. the distributed heat removal air channel structure according to claim 1 for energy storage cabinet, which is characterized in that exhaust apparatus
(2) quantity is at least 10.
4. the distributed heat removal air channel structure according to claim 1 or 3 for energy storage cabinet, which is characterized in that each go out
The quantity of fan blade (6) in wind apparatus (2) is at least 6.
5. the distributed heat removal air channel structure according to claim 4 for energy storage cabinet, which is characterized in that fan blade (6) with
Angle between vertical air plenums (1) is 30 °~60 °.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821223281.7U CN208480203U (en) | 2018-07-31 | 2018-07-31 | Distributed heat removal air channel structure for energy storage cabinet |
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Application Number | Priority Date | Filing Date | Title |
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CN201821223281.7U CN208480203U (en) | 2018-07-31 | 2018-07-31 | Distributed heat removal air channel structure for energy storage cabinet |
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CN208480203U true CN208480203U (en) | 2019-02-05 |
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CN (1) | CN208480203U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115279159A (en) * | 2022-09-28 | 2022-11-01 | 深圳市兴晟图信息技术有限公司 | Intelligent machine cabinet for machine room |
-
2018
- 2018-07-31 CN CN201821223281.7U patent/CN208480203U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN115279159A (en) * | 2022-09-28 | 2022-11-01 | 深圳市兴晟图信息技术有限公司 | Intelligent machine cabinet for machine room |
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