CN219227034U - Power supply and distribution energy-saving system for machine room - Google Patents

Abstract

The utility model relates to a power supply and distribution energy-saving system of a machine room, which comprises a mounting seat, a fan, a dehumidifying device, a heating device and an air conditioner, wherein the mounting seat is arranged in the machine room and is provided with an air channel which is communicated with the interior of the machine room and a vent hole; the fan is located in the wind channel, and the fan can positive and negative rotation set up, and dehydrating unit locates in the wind channel, and dehydrating unit includes absorbent sponge, storage water tank, and the dehumidification subassembly is laid in the wind channel to absorbent sponge, and the storage water tank is located absorbent sponge's below, and dehumidification subassembly is connected with absorbent sponge, and heating device locates in the wind channel, and the air conditioner is located in the computer lab. When the temperature difference between the machine room and the outside is not large, the temperature in the machine room can be controlled even if the air conditioner is not started, the machine room is ensured to be kept in a proper temperature state, the air conditioner is prevented from working for a long time, the energy consumption is reduced, the purpose of energy saving is realized, and meanwhile, the water vapor in the air can be adsorbed, so that the relative dryness of the machine room is ensured.

Description

Power supply and distribution energy-saving system for machine room

Technical Field

The utility model relates to the technical field of energy conservation, in particular to a power supply and distribution energy-saving system of a machine room.

Background

The machine room generally refers to telecom, network communication, mobile, double-line, electric power, government or enterprises and the like, places where servers are stored and provide IT services for users and staff, when power supply and distribution in the machine room run, the machine room needs to be kept in a proper constant temperature state, at present, the machine room is controlled by an air conditioner, and the existing machine room power supply and distribution energy-saving system also performs energy-saving control on the air conditioner system, but even if the air conditioner is controlled, the air conditioner also needs uninterrupted continuous work, and the energy consumption is larger.

Patent CN 217509335U discloses a power supply and distribution energy-saving device for a machine room, which comprises a machine room, wherein two ventilation holes which are symmetrically arranged are formed in the rear side wall of the machine room; the power supply and distribution group cabinet is arranged on the inner bottom surface of the machine room; the air conditioner is arranged on the inner bottom surface of the machine room; the driving mechanism is connected with the sliding mechanism; the exhaust mechanism is connected with the driving mechanism; and the air suction mechanism is connected with the driving mechanism.

In general, more electrical equipment is arranged in the machine room, and the machine room needs to be kept relatively dry, however, in the prior art, when the machine room is subjected to air flow exchange with the outside through the air exhaust mechanism and the air suction mechanism, external water vapor is easily brought into the machine room, and damage is caused to the electrical equipment in the machine room.

Disclosure of Invention

In view of the above, it is necessary to provide a power supply and distribution energy saving system for a machine room, which is used for solving the technical problem that external water vapor is easily brought into the machine room to damage electrical equipment in the machine room when the machine room exchanges air flow with the outside in the prior art.

The utility model provides a power supply and distribution energy saving system of a machine room, which comprises:

the mounting seat is arranged in the machine room and is arranged at the vent hole, and the mounting seat is provided with an air channel communicated with the interior of the machine room and the vent hole;

the fan is arranged in the air duct and is rotationally arranged to drive external air flow to the machine room from outside to inside through the air duct when the fan rotates positively, and drive the air flow in the machine room to flow to the outside from inside to outside through the air duct when the fan rotates reversely;

the dehumidifying device is arranged in the air duct and is close to the vent hole, the dehumidifying device comprises a water absorbing sponge, a water storage tank and a dehumidifying component, the water absorbing sponge is arranged in the air duct, the water storage tank is arranged below the water absorbing sponge, and the dehumidifying component is connected with the water absorbing sponge and is used for discharging moisture in the water absorbing sponge into the water storage tank;

the heating device is arranged in the air duct and used for heating air flow in the air duct when the fan rotates positively; the method comprises the steps of,

the air conditioner is arranged in the machine room and is used for working when the temperature difference between the machine room and the outside is large.

Optionally, the water absorbing sponge is provided with a plurality of through holes along the thickness direction, and each through hole is gradually and upwards inclined from outside to inside.

Optionally, the dehumidifying device further comprises a grating plate, wherein the grating plate is arranged in the air duct, and the water absorbing sponge is arranged on the outer side of the grating plate.

Optionally, the dehumidifying assembly includes:

the extrusion part is positioned at the outer side of the water absorbing sponge, the extrusion part is slidably arranged in the air duct along the vertical direction, and extrudes the water absorbing sponge onto the grid plate, so that when the extrusion part moves downwards, the extrusion part extrudes the water absorbing sponge and discharges water into the water storage tank; the method comprises the steps of,

the first driving assembly is connected with the extrusion part and used for driving the extrusion part to move.

Optionally, the extrusion piece is elastically stretched in a direction toward the water absorbing sponge.

Optionally, the material of the extrusion is elastic; or,

the extrusion piece comprises a mounting part and an extrusion part, wherein the mounting part is connected with the driving assembly, and the extrusion part is elastically and telescopically mounted on the mounting part through an elastic piece.

Optionally, the dehumidification subassembly still includes two slide rails and two sliders, two the slide rail extends along vertical direction and sets up, and install in on the wind channel horizontal direction opposite both sides wall, two the slider respectively with the both ends in the horizontal direction of extrusion piece are connected, two the slider respectively with two slide rail sliding fit, so that the extrusion piece is along vertical direction sliding setting.

Optionally, the extrusion is provided with a threaded hole in a vertical direction;

the first driving assembly comprises a screw rod and a driving motor, the screw rod is rotatably installed in the air duct along the axis of the vertical direction, the screw rod is in threaded fit with the extrusion piece, and a main shaft of the driving motor is connected with the upper end of the screw rod and used for driving the screw rod to rotate.

Optionally, the power supply and distribution energy saving system of the machine room comprises a dustproof filter screen, wherein the dustproof filter screen is arranged in the air duct and is close to the vent hole.

Optionally, the computer lab power supply and distribution economizer system includes shutter and second drive assembly, the shutter install in ventilation hole department, second drive assembly with the blade of shutter is connected for the drive the switching of blade.

Optionally, the power supply and distribution energy saving system of the machine room comprises a control device, wherein the control device is electrically connected with the fan, the air conditioner, the dehumidifying device and the second driving assembly, and the control device is used for respectively controlling the fan, the air conditioner, the dehumidifying device and the second driving assembly to work.

Optionally, the power supply and distribution energy saving system of the machine room comprises a temperature detection device, wherein the temperature detection device comprises a first sensor arranged outside and a second sensor arranged in the machine room, the first sensor is used for detecting the outside temperature, and the second sensor is used for detecting the temperature in the machine room;

the control device is electrically connected with the first sensor and the second sensor, so as to respectively control the fan and the air conditioner to work according to the temperature difference between the machine room and the outside.

Compared with the prior art, the energy-saving system for supplying and distributing power in the machine room, provided by the utility model, is characterized in that a proper set temperature interval is set in the machine room, namely, in the set temperature interval, the power supply and distribution unit in the machine room can well run, and electric equipment such as the power supply and distribution unit and the like are arranged in the machine room, and heat is generated when the electric equipment runs, so that the temperature in the machine room is always higher than the outside temperature, when the temperature in the machine room is higher than the set temperature interval, the fan reversely rotates, hot air in the machine room is discharged to the outside through the air duct so as to achieve the aim of cooling the machine room, when the temperature in the machine room is lower than the set temperature interval, the fan positively rotates, and the heating device heats, so that the fan can convey hot air into the machine room, regulate and control the temperature of the machine room, and when the temperature in the machine room and the outside temperature are far higher than the set temperature interval, the fan has a poor effect of generating heat, the air conditioning effect can be performed through air conditioner working to the machine room, the air-conditioning device is relatively poor in temperature and the air-conditioning device is also provided with a relatively low temperature in the machine room, the air-conditioning device is required to be opened, the air-conditioning device is relatively poor in the air-conditioning device is not to be opened, and the air-conditioning device is relatively good in the air-drying machine room, and the air-drying device is relatively poor in the air-drying machine room is relatively air-room, and the air-drying device is relatively good in the air-drying air room is relatively, and even when the air-drying device is relatively high in the air-drying air room is relatively and can be relatively high in the air-drying air room and can be relatively high through the air-drying air room and can be relatively high when the air-drying air can and can be relatively high when compared, the air conditioner is prevented from being damaged, the energy consumption is reduced, the purpose of energy saving is achieved, and meanwhile, the condition that water vapor in the outside enters the machine room is avoided.

The foregoing description is only an overview of the present utility model, and is intended to provide a better understanding of the present utility model, as it is embodied in the following description, with reference to the preferred embodiments of the present utility model and its details set forth in the accompanying drawings. Specific embodiments of the present utility model are given in detail by the following examples and the accompanying drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

fig. 1 is a schematic perspective view of an embodiment of a power supply and distribution energy saving system for a machine room according to the present utility model;

FIG. 2 is a schematic front view of FIG. 1 with the mounting base removed;

FIG. 3 is a perspective view of the fan and dehumidification device of FIG. 1;

fig. 4 is a schematic front view of the fan and dehumidifying apparatus of fig. 3.

Reference numerals illustrate:

1-mount pad, 11-wind channel, 12-socket, 2-fan, 3-dehydrating unit, 31-sponge that absorbs water, 32-storage water tank, 33-dehumidification subassembly, 331-extrusion, 332-lead screw, 333-driving motor, 34-grid board, 341-basin, 35-slider, 36-slide rail, 4-dustproof filter screen, 5-shutter, 6-heating device.

Detailed Description

Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings, which form a part hereof, and together with the description serve to explain the principles of the utility model, and are not intended to limit the scope of the utility model.

Referring to fig. 1, the power supply and distribution energy saving system of a machine room comprises a mounting seat 1, a fan 2, a dehumidifying device 3, a heating device 6 and an air conditioner, wherein the mounting seat 1 is arranged in the machine room and is arranged at a vent hole, and the mounting seat 1 is provided with an air duct 11 for communicating the interior of the machine room with the vent hole; the fan 2 is arranged in the air duct 11, and the fan 2 is rotatably arranged to drive external air flow to flow into the machine room from outside to inside through the air duct 11 when the fan 2 rotates positively, and drive air flow in the machine room to flow to the outside from inside to outside through the air duct 11 when the fan 2 rotates reversely; the dehumidifying device 3 is arranged in the air duct 11 and is close to the vent hole, the dehumidifying device 3 comprises a water absorbing sponge 31 and a water storage tank 32, the water absorbing sponge 31 is arranged in the air duct 11, the water storage tank 32 is arranged below the water absorbing sponge 31, and the dehumidifying component 33 is connected with the water absorbing sponge 31 and is used for discharging water in the water absorbing sponge 31 into the water storage tank 32; the heating device 6 is arranged in the air duct 11 to work when the fan 2 rotates forward, the heating device 6 is used for heating air flow in the air duct 11, the air conditioner is arranged in the machine room, and the air conditioner is used for working when the temperature difference between the machine room and the outside is large.

The utility model provides a power supply and distribution energy saving system of a machine room, wherein a proper set temperature interval is set in the machine room, namely, the power supply and distribution group in the machine room can well run in the set temperature interval, and the machine room is internally provided with electric equipment such as the power supply and distribution group, and the electric equipment generates heat when running, so the temperature in the machine room can always be higher than the outside temperature, when the temperature in the machine room is higher than the set temperature interval, the fan 2 is reversed, hot air in the machine room is discharged to the outside through the air duct 11, so as to achieve the aim of cooling the machine room, when the temperature in the machine room is lower than the set temperature interval, the fan 2 is positively rotated, and the heating device 6 is heated, so that the fan 2 can convey hot air into the machine room to regulate the temperature of the machine room, when the temperature in the machine room and the outside temperature are far higher than the set temperature interval, the heat dissipation effect of the fan 2 is poor, the machine room can be cooled through the air conditioner work, when the temperature in the machine room and the outside temperature are far lower than the set temperature interval, the temperature of the fan 2 can be increased through the air conditioner, and the machine room is relatively dry due to the fact that a large number of electric devices are arranged in the machine room, the dehumidifying device 3 is also arranged, the moisture in the air can be well absorbed through the water absorbing sponge 31, the moisture absorbing component 33 can timely discharge the moisture of the water absorbing sponge 31 into the water storage tank 32, the machine room is ensured to be relatively dry, when the temperature difference between the machine room and the outside is not large, the temperature in the machine room can be controlled even if the air conditioner is not started, and the temperature in the machine room is ensured to be kept in a proper temperature state, the air conditioner is prevented from working for a long time, the air conditioner is prevented from being damaged, the energy consumption is reduced, and the purpose of energy saving is achieved.

Further, in order to ensure the smoothness of the airflow in the air duct 11, the water absorbing sponge 31 is provided with a plurality of through holes along the thickness direction thereof, and each through hole is gradually inclined upwards from outside to inside, so that the smoothness of the airflow in the air duct 11 is ensured, and the water vapor in the airflow can be absorbed. Further, the specific arrangement of the plurality of through holes is not limited, and in this embodiment, the plurality of through holes are arranged in an array.

Further, since the material of the absorbent sponge 31 is a flexible material, in order to avoid the swing of the absorbent sponge 31 back and forth under the driving of the air flow, the dehumidifying device 3 further comprises a grating plate 34, the grating plate 34 is arranged in the air duct 11, wherein the absorbent sponge 31 is arranged at the outer side of the grating plate 34, the absorbent sponge 31 can be well fixed by arranging the absorbent sponge 31 on the grating plate 34, and the swing of the absorbent sponge 31 back and forth is placed, and the normal flow of the air flow is not affected due to the permeability of the grating plate 34.

Further, when the water absorbing sponge 31 absorbs water to saturation, the water absorbing performance is reduced, and in order to maintain a good water absorbing effect all the time, the dehumidifying component 33 comprises an extrusion 331 and a first driving component, the extrusion 331 is positioned at the outer side of the water absorbing sponge 31, the extrusion 331 is slidably mounted on the air duct 11 along the vertical direction, the extrusion 331 extrudes the water absorbing sponge 31 onto the grid plate 34, so that when the extrusion 331 moves downwards, the extrusion 331 extrudes the water absorbing sponge 31 and discharges water into the water storage tank; the first driving component is connected with the extrusion piece 331, the first driving component is used for driving the extrusion piece 331 to move, when the water absorbing sponge 31 absorbs more water, the first driving component drives the extrusion piece 331 to move up and down in the vertical direction, and the water in the water absorbing sponge 31 can be extruded through the extrusion piece 331 and the grating plate 34, and flows downwards to the water storage tank 32, so that the water in the water absorbing sponge 31 can be timely discharged, and the water absorbing sponge can always keep better water absorption.

Further, the pressing member 331 is elastically stretched in a direction toward the water absorbing sponge 31. The setting can be better extrude the sponge 31 that absorbs water, can avoid simultaneously the sponge 31 that absorbs water produces the deformation and leads to the condition that absorbs water effect variation in the use.

Further, the elastic mounting mode of the extrusion 331 is not limited, and the extrusion 331 may be made of an elastic material, so as to be elastically stretchable, or the extrusion 331 may include a mounting portion and an extrusion portion, where the mounting portion is connected to the driving assembly, and the extrusion portion is elastically stretchable and mounted on the mounting portion through an elastic member.

Further, in order to collect the moisture in the water storage tank 32 better, a water tank 341 with an upward opening is provided at the lower side of the grating plate 34, the opening of the water tank 341 is located under the water absorbing sponge 31, a water outlet is provided at the bottom of the water tank 341, and the water outlet is communicated with the water storage tank 32 through a pipeline.

Further, the specific movement manner of the extrusion 331 is not limited herein, in this example, the dehumidifying assembly 33 further includes two sliding rails 36 and two sliding blocks 35, the two sliding rails 36 extend along the vertical direction and are mounted on two opposite side walls of the air duct 11 in the horizontal direction, the two sliding blocks 35 are respectively connected with two ends of the extrusion 331 in the horizontal direction, and the two sliding blocks 35 are respectively slidingly engaged with the two sliding rails 36, so that the extrusion 331 is slidingly disposed along the vertical direction.

Further, the specific form in which the first driving assembly drives the pressing member 331 to slide is not limited, and in this embodiment, the pressing member 331 is provided with a threaded hole along the vertical direction; the first driving assembly comprises a screw rod 332 and a driving motor 333, the screw rod 332 is rotatably mounted in the air duct 11 along the axis of the vertical direction, the screw rod 332 is in threaded fit with the extrusion 331, and a main shaft of the driving motor 333 is connected with the upper end of the screw rod 332 and is used for driving the screw rod 332 to rotate. More specifically, the lower end of the screw 332 is rotatably mounted on the lower side wall of the air duct 11, the upper end of the screw 332 passes through the upper side wall of the air duct 11, the driving motor 333 is mounted on the upper side of the mounting base 1, and the spindle of the driving motor 333 is connected with the screw 332.

Further, in order to prevent that external dust from entering into in the computer lab, and cause the damage to electrical equipment in the computer lab, computer lab power supply and distribution economizer system includes dustproof filter screen 4, dustproof filter screen 4 locates in the wind channel 11, and be close to the ventilation hole sets up, through dustproof filter screen 4 can filter dust in the air well to keep clean in the computer lab.

Further, the installation mode of the dust-proof filter screen 4 is not limited, in this embodiment, the dust-proof filter screen 4 is detachably installed in the air duct 11, specifically, a socket 12 communicating with the air duct 11 is formed on the upper side of the installation seat 1, the socket 12 is adapted to the dust-proof filter screen 4, and the dust-proof filter screen 4 is inserted into the air duct 11 from the socket 12, so that the dust-proof filter screen 4 is convenient to clean in a later stage.

Further, when the temperature of the machine room is regulated and controlled through the air conditioner, in order to ensure the tightness of the machine room, the power supply and distribution energy saving system of the machine room comprises a shutter 5 and a second driving component, the shutter 5 is installed at the vent hole, the second driving component is connected with blades of the shutter 5 and used for driving the blades to open and close, when the air conditioner works, the second driving component closes the blades, the vent hole is closed through the blades, the tightness of the machine room is ensured, when the fan 2 starts to work, the second driving component opens the blades, so that the machine room is communicated with the outside through the vent hole, and the fan 2 is convenient to work. It should be noted that, the shutter 5 and the second driving assembly are in the prior art, and will not be described again in detail.

Further, the specific form of the heating device 6 is not limited, and in this embodiment, the heating device 6 is a resistance wire, and the resistance wire is disposed in the air duct 11 in a net structure.

Further, the power supply and distribution energy saving system of the machine room comprises a control device, wherein the control device is electrically connected with the fan 2, the air conditioner, the dehumidifying device 3 and the second driving assembly, and the control device is used for respectively controlling the fan 2, the air conditioner, the dehumidifying device 3 and the second driving assembly to work.

Further, the power supply and distribution energy saving system of the machine room comprises a temperature detection device, wherein the temperature detection device comprises a first sensor arranged outside and a second sensor arranged in the machine room, the first sensor is used for detecting the outside temperature, and the second sensor is used for detecting the temperature in the machine room; the control device is electrically connected with the first sensor and the second sensor, so as to respectively control the fan 2 and the air conditioner to work according to the temperature difference between the machine room and the outside. In this embodiment, the temperature suitable for the machine room is first set as a first temperature interval, the temperature detected by the first sensor is a first temperature, the temperature detected by the second sensor is a second temperature, the second temperature is always greater than the first temperature, when the second temperature is higher than the first temperature interval, the first temperature is lower than or equal to the first temperature interval, and when the first temperature and the second temperature are not greatly different, the fan 2 is controlled to rotate reversely, hot air in the machine room is discharged outdoors through the air duct 11, so as to achieve the purpose of cooling the machine room, when the first temperature and the second temperature are both higher than the first temperature interval, the air conditioner is controlled to work at this time, when the second temperature is lower than the first temperature interval, and when the first temperature and the second temperature are not greatly different, the heating device 6 is operated, and the fan 2 is controlled to rotate positively, so that the fan 2 can convey the hot air to the machine room to regulate and control the temperature. Based on the above, the air conditioner can also quickly regulate temperature when the first temperature and the second temperature are greatly different.

The present utility model is not limited to the above-mentioned embodiments, and any changes or substitutions that can be easily understood by those skilled in the art within the technical scope of the present utility model are intended to be included in the scope of the present utility model.

Claims (10)

1. The utility model provides a computer lab supplies distribution economizer system, locates in the computer lab, the computer lab is equipped with the ventilation hole of intercommunication external world, its characterized in that, it includes:

the mounting seat is arranged in the machine room and is arranged at the vent hole, and the mounting seat is provided with an air channel communicated with the interior of the machine room and the vent hole;

the fan is arranged in the air duct and is rotationally arranged to drive external air flow to the machine room from outside to inside through the air duct when the fan rotates positively, and drive the air flow in the machine room to flow to the outside from inside to outside through the air duct when the fan rotates reversely;

the dehumidifying device is arranged in the air duct and is close to the vent hole, the dehumidifying device comprises a water absorbing sponge, a water storage tank and a dehumidifying component, the water absorbing sponge is arranged in the air duct, the water storage tank is arranged below the water absorbing sponge, and the dehumidifying component is connected with the water absorbing sponge and is used for discharging moisture in the water absorbing sponge into the water storage tank;

the heating device is arranged in the air duct and used for heating air flow in the air duct when the fan rotates positively; the method comprises the steps of,

the air conditioner is arranged in the machine room and is used for working when the temperature difference between the machine room and the outside is large.

2. The power supply and distribution energy saving system of a machine room according to claim 1, wherein the water absorbing sponge is provided with a plurality of through holes in a penetrating manner along the thickness direction, and each through hole is gradually arranged in an upward inclined manner from outside to inside.

3. The machine room power supply and distribution energy saving system according to claim 2, wherein the dehumidifying device further comprises a grid plate arranged in the air duct, wherein the water absorbing sponge is arranged outside the grid plate.

4. A machine room power supply and distribution energy saving system according to claim 3, wherein the dehumidifying assembly comprises:

the extrusion part is positioned at the outer side of the water absorbing sponge, the extrusion part is slidably arranged in the air duct along the vertical direction, and extrudes the water absorbing sponge onto the grid plate, so that when the extrusion part moves downwards, the extrusion part extrudes the water absorbing sponge and discharges water into the water storage tank; the method comprises the steps of,

the first driving assembly is connected with the extrusion part and used for driving the extrusion part to move.

5. The machine room power supply and distribution energy saving system according to claim 4, wherein the pressing member is elastically stretched in a direction toward the water absorbing sponge.

6. The machine room power supply and distribution energy saving system according to claim 4, wherein the extrusion is provided with a threaded hole in a vertical direction;

the first driving assembly comprises a screw rod and a driving motor, the screw rod is rotatably installed in the air duct along the axis of the vertical direction, the screw rod is in threaded fit with the extrusion piece, and a main shaft of the driving motor is connected with the upper end of the screw rod and used for driving the screw rod to rotate.

7. The machine room power supply and distribution energy saving system according to claim 1, wherein the machine room power supply and distribution energy saving system comprises a dust-proof filter screen, wherein the dust-proof filter screen is arranged in the air duct and is arranged close to the vent hole.

8. The machine room power supply and distribution energy saving system according to claim 1, wherein the machine room power supply and distribution energy saving system comprises a shutter and a second driving assembly, the shutter is installed at the vent hole, and the second driving assembly is connected with the blades of the shutter and is used for driving the blades to open and close.

9. The machine room power supply and distribution energy saving system according to claim 8, wherein the machine room power supply and distribution energy saving system comprises a control device, the control device is electrically connected with the fan, the air conditioner, the dehumidifying device, the heating device and the second driving assembly, and the control device is used for controlling the fan, the air conditioner, the dehumidifying device and the second driving assembly to work respectively.

10. The machine room power supply and distribution energy saving system according to claim 9, wherein the machine room power supply and distribution energy saving system comprises a temperature detection device, the temperature detection device comprises a first sensor arranged outside and a second sensor arranged in the machine room, the first sensor is used for detecting the outside temperature, and the second sensor is used for detecting the temperature in the machine room;

the control device is electrically connected with the first sensor and the second sensor, so as to respectively control the fan and the air conditioner to work according to the temperature difference between the machine room and the outside.

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