CN217741321U - Air-cooled SVG container device - Google Patents

Abstract

The utility model discloses an air-cooled SVG container device, which comprises a base, a box body, at least one exhaust fan and at least one sealing plate; the base is internally provided with a first inner cavity, and the base is also provided with an air inlet for communicating the first inner cavity with the outside; a second inner cavity for installing a power unit is arranged in the box body, and the first inner cavity is communicated with the second inner cavity through at least one communication port; the box body is also internally provided with an air guide channel corresponding to the exhaust fan, and the outlet end of the air guide channel is communicated with the first inner cavity; the box body is also provided with an air outlet corresponding to the air guide channel, and the air outlet is communicated with the corresponding air guide channel and is used for communicating the corresponding air guide channel with the outside. The utility model discloses can freely switch into extrinsic cycle heat dissipation and inner loop heat dissipation, can improve the radiating efficiency and improve the radiating effect, can also reduce the entering of sand and dust steam, can avoid sand and dust steam to damage equipment.

Description

Air-cooled SVG container device

Technical Field

The utility model relates to an air-cooled SVG container device.

Background

At present, for wind power generation, photovoltaic power stations and the like in remote areas, because a system cannot provide a large amount of reactive power, SVG equipment needs to be connected to stabilize voltage within a required range, and bad impact of grid faults on weak systems is avoided. In remote and water-deficient areas, air-cooled container type SVG equipment is widely used due to the convenience of transportation and installation. The conventional air-cooled container type SVG equipment mainly has two heat dissipation modes, wherein the first mode is external circulation heat dissipation, external air is sucked into the container to cool a power unit in the container, and then the air in the container is exhausted to the outside; the second type is internal circulation heat dissipation, and the inside and outside air of container does not exchange, and the air in the container only circulates in the container and flows, and then dispels the heat to the power unit in the container.

The existing air-cooled container type SVG equipment only has one heat dissipation mode of external circulation heat dissipation and internal circulation heat dissipation. For equipment only provided with external circulation heat dissipation, external dust and water vapor can enter the container along with air, and the power unit in the container can be damaged by the dust and water vapor accumulated for a long time. For the equipment only having internal circulation heat dissipation, the heat dissipation effect is relatively poor, and the risk of burning out the power unit in the container because of high temperature exists after long-term high strength operation.

Disclosure of Invention

The utility model aims to solve the technical problem that overcome prior art's defect, provide an air-cooled SVG container device, it can freely switch into extrinsic cycle heat dissipation and inner loop heat dissipation, can improve the radiating efficiency and improve the radiating effect, can also reduce the entering of sand and dust steam, can avoid sand and dust steam to damage equipment.

In order to solve the technical problem, the technical scheme of the utility model is that: an air-cooled SVG container device comprises a base, a box body, at least one exhaust fan and at least one sealing plate; wherein,

the base is internally provided with a first inner cavity, and the base is also provided with an air inlet used for communicating the first inner cavity with the outside;

a second inner cavity for installing a power unit is arranged in the box body, and the first inner cavity is communicated with the second inner cavity through at least one communication port;

the box body is also internally provided with an air guide channel corresponding to the exhaust fan, and the outlet end of the air guide channel is communicated with the first inner cavity;

the box body is also provided with an air outlet corresponding to the air guide channel, and the air outlet is communicated with the corresponding air guide channel and is used for communicating the corresponding air guide channel with the outside;

the inlet of the exhaust fan is communicated with the second inner cavity, the outlet of the exhaust fan is communicated with the corresponding air guide channel, and the exhaust fan is used for pumping the air in the second inner cavity into the corresponding air guide channel;

the shrouding with the air outlet corresponds, shrouding swivelling joint is in on the box and have primary importance and second place at rotatory in-process, work as the shrouding rotates extremely when the primary importance the shrouding shutoff is blocked up and is corresponded the air outlet is so that the air exhauster pumped passes flow in behind the air guide channel in the first inner chamber, work as the shrouding rotates when the second place the shrouding shutoff is blocked up the air guide channel and is made the air that the air exhauster pumped is followed the air outlet is discharged.

Further, the box body is located above the base and is borne on the base, and the communication port is arranged at the bottom of the box body.

Further, in order to filter sand, dust and water vapor, the air inlet and/or the communication port are/is provided with a filtering device.

Further provides a concrete structure of the second inner cavity, and the air-cooled SVG container device also comprises a partition plate; wherein,

the partition board is arranged in the box body and divides the second inner cavity into an air extraction cabin and an installation cabin for installing the power unit;

the inlet of the exhaust fan is communicated with the air extraction chamber;

the installation cabin is communicated with the first inner cavity through the communication port;

the partition plate is provided with at least one gas channel for communicating the air suction cabin and the installation cabin.

Further, the air-cooled SVG container device can further comprise a housing corresponding to the air guide channel; wherein,

the housings are arranged in the box body, and the air guide channels are positioned in the corresponding housings;

the air outlet is arranged on the side wall of the box body and communicated with the corresponding air guide channel.

The housing is also provided with a fan chamber positioned above the air guide channel, and the exhaust fan is arranged in the corresponding fan chamber.

In order to further facilitate the overhaul of the exhaust fan, the box body is further provided with an overhaul port corresponding to the fan chamber and communicated with the corresponding fan chamber and an overhaul door corresponding to the overhaul port and used for opening and closing the corresponding overhaul port.

Further provides a concrete connection mode of the sealing plate, wherein the lower end part of the sealing plate is hinged on the side wall of the box body;

the upper end of the sealing plate is connected with a handle.

Further, at least one door body is arranged on the side surface of the box body;

the base is provided with a step part corresponding to the door body.

Further provides a concrete structure of the base, and the base is of a reinforced concrete structure.

After the technical scheme is adopted, when the temperature in the second inner cavity is lower, the sealing plate is rotated to the first position, at the moment, under the pumping action of the exhaust fan, air in the second inner cavity is pumped into the air guide channel, air in the air guide channel flows into the first inner cavity and then flows into the second inner cavity through the communication port so as to carry out air cooling heat dissipation on the power unit in the second inner cavity, and internal circulation heat dissipation is formed. Under the internal circulation heat dissipation mode, the outside air hardly enters the first inner cavity and the second inner cavity, so that the entering of sand, dust, vapor and the like into the second inner cavity can be reduced, and the power unit is prevented from being damaged by the accumulated sand, dust and vapor.

When the temperature in the box body is too high, the sealing plate is rotated to the second position, under the pumping action of the exhaust fan, outside air enters the first inner cavity from the air inlet, then flows into the second inner cavity through the communication port so as to carry out air cooling heat dissipation on the power unit in the second inner cavity, then the air in the second inner cavity is pumped into the air guide channel by the exhaust fan, the air in the air guide channel is discharged from the air outlet, external circulation heat dissipation is formed, and the outside cold air can continuously flow into the second inner cavity to cool the power unit in the mode, so that the temperature in the second inner cavity can be rapidly reduced. When the temperature in the second inner cavity is reduced, the sealing plate can be rotated back to the first position again, and the internal circulation heat dissipation mode is switched.

Used this patent behind the air-cooled SVG container device, can freely switch between these two kinds of modes of extrinsic cycle heat dissipation and inner loop heat dissipation, can only adopt extrinsic cycle heat dissipation and then improve the radiating effect when the high temperature in the second inner chamber, and all the other most time can all adopt the inner loop heat dissipation to avoid as far as possible and reduce external sand and dust and steam entering in the second inner chamber, and then prevented that accumulated sand and dust and steam from damaging power unit has prolonged power unit's life, prolonged power unit's maintenance cycle, can be applied to under the complicated service scene. In addition, in rainy days and days with large wind and sand, an internal circulation heat dissipation mode is preferentially used so as to reduce the entering of sand, dust and water vapor; in a sunny day with less wind and sand, the external circulation heat dissipation mode can be used more, so that a better heat dissipation effect is obtained.

Drawings

Fig. 1 is a schematic structural view of the air-cooled SVG container device of the present invention;

fig. 2 is a side sectional view of the air-cooled SVG container apparatus of the present invention in an internal circulation mode;

fig. 3 is a side sectional view of the air-cooled SVG container apparatus of the present invention in an external circulation mode;

fig. 4 is a bottom view of the box body of the present invention;

fig. 5 is a rear view of the air-cooled SVG container device of the present invention.

Detailed Description

In order that the present invention may be more readily and clearly understood, the following detailed description of the present invention is provided in connection with the accompanying drawings.

As shown in fig. 1 to 5, an air-cooled SVG container device includes a base 1, a box body 2, at least one exhaust fan 3 and at least one sealing plate 4; wherein,

a first inner cavity 5 is formed in the base 1, and an air inlet 6 for communicating the first inner cavity 5 with the outside is formed in the base 1;

a second inner cavity 7 for installing a power unit 100 is arranged in the box body 2, and the first inner cavity 5 is communicated with the second inner cavity 7 through at least one communication port 8;

an air guide channel 9 corresponding to the exhaust fan 3 is further arranged in the box body 2, and the outlet end of the air guide channel 9 is communicated with the first inner cavity 5;

the box body 2 is also provided with an air outlet 10 corresponding to the air guide channel 9, and the air outlet 10 is communicated with the corresponding air guide channel 9 and is used for communicating the corresponding air guide channel 9 with the outside;

an inlet of the exhaust fan 3 is communicated with the second inner cavity 7, an outlet of the exhaust fan 3 is communicated with the corresponding air guide channel 9, and the exhaust fan 3 is used for pumping air in the second inner cavity 7 to the corresponding air guide channel 9;

the sealing plate 4 corresponds to the air outlet 10, the sealing plate 4 is rotatably connected to the box body 2 and has a first position and a second position in the rotating process, when the sealing plate 4 rotates to the first position, the sealing plate 4 blocks the corresponding air outlet 10 so that the air pumped by the exhaust fan 3 flows into the first inner cavity 5 after passing through the air guide channel 9, and when the sealing plate 4 rotates to the second position, the sealing plate 4 blocks the air guide channel 9 so that the air pumped by the exhaust fan 3 is discharged from the air outlet 10; in this embodiment, there are 3 exhaust fans 3, and the exhaust fans 3, the air guide channel 9, the air outlet 10 and the sealing plate 4 are all in one-to-one correspondence; the box body 2 may be a container, the power unit 100 is an indispensable component in an SVG device, the specific structure of the power unit 100 is the prior art well known to those skilled in the art, and details are not described in this embodiment.

Specifically, when the temperature in the second inner cavity 7 is low, the sealing plate 4 is rotated to the first position, at this time, under the pumping action of the exhaust fan 3, the air in the second inner cavity 7 is pumped into the air guide channel 9, the air in the air guide channel 9 flows into the first inner cavity 5, and then flows into the second inner cavity 7 through the communication port 8 so as to perform air cooling heat dissipation on the power unit 100 in the second inner cavity 7, thereby forming internal circulation heat dissipation. In the internal circulation heat dissipation mode, the outside air hardly enters the first inner cavity 5 and the second inner cavity 7, so that the entering of sand, dust, vapor and the like into the second inner cavity 7 can be reduced, and the power unit 100 is prevented from being damaged by the accumulated sand and dust and vapor.

When the temperature in the box body 2 is too high, the sealing plate 4 is rotated to the second position, under the pumping action of the exhaust fan 3, outside air enters the first inner cavity 5 from the air inlet 6, then flows into the second inner cavity 7 through the communication port 8 so as to perform air-cooling heat dissipation on the power unit 100 in the second inner cavity 7, then the air in the second inner cavity 7 is pumped into the air guiding channel 9 by the exhaust fan 3, and the air in the air guiding channel 9 is discharged from the air outlet 10, so that external circulation heat dissipation is formed, and in this mode, outside cold air can continuously flow into the second inner cavity 7 to cool the power unit 100, so that the temperature in the second inner cavity 7 can be rapidly reduced. When the temperature in the second internal cavity 7 is reduced, the sealing plate 4 can be rotated back to the first position again, and the internal circulation heat dissipation mode is switched.

Used this patent behind the air-cooled SVG container device, can freely switch between these two kinds of modes of extrinsic cycle heat dissipation and inner loop heat dissipation, can only adopt extrinsic cycle heat dissipation and then improve the radiating effect when the high temperature in second inner chamber 7, and all the other most time can all adopt the inner loop heat dissipation to avoid as far as possible and reduce external sand and dust and steam entering in the second inner chamber 7, and then prevented that accumulated sand and dust and steam from damaging power unit 100 has prolonged power unit 100's life has prolonged power unit 100's maintenance cycle, can be applied to under the complicated use scene.

In addition, in rainy days and days with large wind and sand, an internal circulation heat dissipation mode is preferentially used so as to reduce the entering of sand, dust and water vapor; in a sunny day with less wind and sand, the external circulation heat dissipation mode can be used more, so that a better heat dissipation effect is obtained.

As shown in fig. 1 to 5, the box body 2 may be located above the base 1 and supported on the base 1, and the communication port 8 is disposed at the bottom of the box body 2; specifically, the first inner cavity 5 is located below the second inner cavity 7, and the air inlet 6 is disposed on a side wall of the base 1. More specifically, in the external circulation heat dissipation mode, the external air enters the first inner cavity 5 from the air inlet 6, and then flows into the second inner cavity 7 from the communication port 8. The purpose of this design is that the sand and dust and the moisture in the air will settle in the first inner cavity 5, so that the sand and dust, the moisture and the like flowing into the second inner cavity 7 are reduced, and further the sand and dust, the moisture and the like are prevented from damaging the power unit 100 in the second inner cavity 7.

As shown in fig. 1 to 5, a filtering device 11 is installed on the air inlet 6 and the communication port 8; specifically, the filtering device 11 is detachably installed, the filtering device 11 can filter out moisture and dust, and the filtering device 11 may include a filter net therein.

As shown in fig. 2 to 4, the air-cooled SVG container device may further include a partition 12; wherein,

the partition board 12 is installed in the box body 2 and divides the second inner cavity 7 into an air extracting chamber 13 and an installation chamber 14 for installing the power unit 100;

the inlet of the exhaust fan 3 is communicated with the air extracting chamber 13;

the installation chamber 14 is communicated with the first inner cavity 5 through the communication port 8;

the partition board 12 is provided with at least one gas channel for communicating the air extracting chamber 13 and the installation chamber 14; specifically, in the internal circulation heat dissipation mode, the sealing plate 4 is located at the first position, and under the pumping action of the exhaust fan 3, the air in the air pumping chamber 13 is pumped into the air guide channel 9 by the exhaust fan 3, then flows into the first inner cavity 5, then flows into the installation chamber 14 from the communication port 8, and then flows into the air pumping chamber 13 from the air channel, thereby realizing the internal circulation of the air.

In the external circulation heat dissipation mode, the sealing plate 4 is located at the second position, and under the pumping action of the exhaust fan 3, outside air enters the first inner cavity 5 from the air inlet 6, then flows into the installation chamber 14 through the communication port 8, then flows into the air exhaust chamber 13 from the air passage, is pumped into the air guide passage 9 by the exhaust fan 3, and is finally discharged from the air outlet 10, so that external circulation of the air is realized.

As shown in fig. 2 and 3, the air-cooled SVG container device may further include a housing 15 corresponding to the air-guiding passage 9; wherein,

the casings 15 are installed in the box body 2, and the air guide channels 9 are positioned in the corresponding casings 15;

the air outlet 10 is arranged on the side wall of the box body 2 and communicated with the corresponding air guide channel 9.

As shown in fig. 1 to 4, a fan chamber 16 located above the air guide channel 9 may be further disposed in the housing 15, and the exhaust fan 3 is installed in the corresponding fan chamber 16; in this embodiment, the enclosure 15 is mounted within the extraction chamber 13.

As shown in fig. 1 to 4, the box body 2 may further include an access opening 17 corresponding to the fan chamber 16 and communicating with the corresponding fan chamber 16, and an access door 18 corresponding to the access opening 17 and opening and closing the corresponding access opening 17, so as to facilitate maintenance of the exhaust fan 3.

As shown in fig. 1 to 3, the lower end of the sealing plate 4 is hinged to the side wall of the box body 2;

the upper end of the sealing plate 4 is connected with a handle.

As shown in fig. 1 to 3, at least one door body 19 is arranged on the side surface of the box body 2;

a step part 20 corresponding to the door body 19 is arranged on the base 1; in this embodiment, the base 1 may be a reinforced concrete structure.

The utility model discloses a theory of operation as follows:

when the temperature in the second inner cavity 7 is lower, the sealing plate 4 is rotated to the first position, at this time, under the pumping action of the exhaust fan 3, the air in the second inner cavity 7 is pumped into the air guide channel 9, the air in the air guide channel 9 flows into the first inner cavity 5, and then flows into the second inner cavity 7 through the communication port 8 so as to perform air cooling and heat dissipation on the power unit 100 in the second inner cavity 7, thereby forming internal circulation heat dissipation. In the internal circulation heat dissipation mode, the outside air hardly enters the first inner cavity 5 and the second inner cavity 7, so that the entering of sand, dust, vapor and the like into the second inner cavity 7 can be reduced, and the power unit 100 is prevented from being damaged by the accumulated sand and dust and vapor.

When the temperature in the box body 2 is too high, the sealing plate 4 is rotated to the second position, under the pumping action of the exhaust fan 3, outside air enters the first inner cavity 5 from the air inlet 6, then flows into the second inner cavity 7 through the communication port 8 so as to perform air-cooling heat dissipation on the power unit 100 in the second inner cavity 7, then the air in the second inner cavity 7 is pumped into the air guiding channel 9 by the exhaust fan 3, and the air in the air guiding channel 9 is discharged from the air outlet 10, so that external circulation heat dissipation is formed, and in this mode, outside cold air can continuously flow into the second inner cavity 7 to cool the power unit 100, so that the temperature in the second inner cavity 7 can be rapidly reduced. When the temperature in the second internal cavity 7 is reduced, the sealing plate 4 can be rotated back to the first position again, and the internal circulation heat dissipation mode is switched.

Used this patent behind the air-cooled SVG container device, can freely switch between these two kinds of modes of extrinsic cycle heat dissipation and inner loop heat dissipation, can only adopt extrinsic cycle heat dissipation and then improve the radiating effect when the high temperature in second inner chamber 7, and all the other most time can all adopt the inner loop heat dissipation to avoid as far as possible and reduce external sand and dust and steam entering in the second inner chamber 7, and then prevented that accumulated sand and dust and steam from damaging power unit 100 has prolonged power unit 100's life has prolonged power unit 100's maintenance cycle, can be applied to under the complicated use scene. In addition, in rainy days and days with heavy wind and sand, an internal circulation heat dissipation mode is preferentially used so as to reduce the entrance of sand, dust and water vapor; in a sunny day with less wind and sand, the external circulation heat dissipation mode can be used more, so that a better heat dissipation effect is obtained.

The above-mentioned embodiments further explain in detail the technical problems, technical solutions and advantages solved by the present invention, and it should be understood that the above only is a specific embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. An air-cooled SVG container device is characterized in that the device comprises a base (1), a box body (2), at least one exhaust fan (3) and at least one sealing plate (4); wherein,

a first inner cavity (5) is formed in the base (1), and an air inlet (6) used for communicating the first inner cavity (5) with the outside is formed in the base (1);

a second inner cavity (7) for installing a power unit (100) is formed in the box body (2), and the first inner cavity (5) is communicated with the second inner cavity (7) through at least one communication port (8);

an air guide channel (9) corresponding to the exhaust fan (3) is further arranged in the box body (2), and the outlet end of the air guide channel (9) is communicated with the first inner cavity (5);

an air outlet (10) corresponding to the air guide channel (9) is further formed in the box body (2), and the air outlet (10) is communicated with the corresponding air guide channel (9) and is used for enabling the corresponding air guide channel (9) to be communicated with the outside;

the inlet of the exhaust fan (3) is communicated with the second inner cavity (7), the outlet of the exhaust fan (3) is communicated with the corresponding air guide channel (9), and the exhaust fan (3) is used for pumping air in the second inner cavity (7) into the corresponding air guide channel (9);

shrouding (4) with air outlet (10) correspond, shrouding (4) swivelling joint be in on box (2) and have primary importance and second place at rotatory in-process, work as shrouding (4) rotate extremely during the primary importance shrouding (4) shutoff is blocked and is corresponded air outlet (10) are so that the air of air exhauster (3) pumping passes flow in behind wind-guiding passageway (9) in first inner chamber (5), work as shrouding (4) rotate extremely during the second place shrouding (4) shutoff is blocked wind-guiding passageway (9) and make the air of air exhauster (3) pumping is followed air outlet (10) are discharged.

2. The air-cooled SVG container device according to claim 1, wherein the box body (2) is located above the base (1) and carried on the base (1), the communication port (8) being provided at the bottom of the box body (2).

3. An air-cooled SVG container device according to claim 1, wherein said air intake (6) and/or said communication port (8) is mounted with a filtering device (11).

4. The air-cooled SVG container device according to claim 1, further comprising a partition (12); wherein,

the partition board (12) is arranged in the box body (2) and divides the second inner cavity (7) into an air extraction cabin (13) and an installation cabin (14) for installing the power unit (100);

the inlet of the exhaust fan (3) is communicated with the air extraction cabin (13);

the installation cabin (14) is communicated with the first inner cavity (5) through the communication port (8);

the partition board (12) is provided with at least one gas channel for communicating the air suction cabin (13) and the installation cabin (14).

5. The air-cooled SVG container device according to claim 1, further comprising a housing (15) corresponding to the air guide passage (9); wherein,

the housings (15) are mounted in the box body (2), and the air guide channels (9) are positioned in the corresponding housings (15);

the air outlet (10) is arranged on the side wall of the box body (2) and communicated with the corresponding air guide channel (9).

6. The air-cooled SVG container device according to claim 5, characterized in that a fan chamber (16) is further provided in said housing (15) above said air guiding channel (9), said air exhauster (3) being mounted in said corresponding fan chamber (16).

7. The air-cooled SVG container device according to claim 6, wherein said box body (2) is further provided with an access opening (17) corresponding to said fan chamber (16) and communicating with said corresponding fan chamber (16), and an access door (18) corresponding to said access opening (17) for opening and closing said corresponding access opening (17).

8. The air-cooled SVG container device according to claim 5, characterized in that,

the lower end part of the sealing plate (4) is hinged on the side wall of the box body (2);

the upper end of the sealing plate (4) is connected with a handle.

9. The air-cooled SVG container device according to claim 1, characterized in that,

at least one door body (19) is arranged on the side surface of the box body (2);

the base (1) is provided with a step part (20) corresponding to the door body (19).

10. The air-cooled SVG container device according to claim 1, wherein the base (1) is a reinforced concrete structure.

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