CN217160354U - Energy-saving cooling equipment for IDC cabinet - Google Patents

Abstract

The utility model discloses a the utility model provides an IDC rack is with energy-conserving cooling device, include: a bottom plate and a rotating assembly. The upper surface fixed mounting of bottom plate has the air-cooler, install a plurality of groups dispersion subassembly outside the bottom plate. The rotating assembly is installed on the air cooler and comprises an installation disc, an installation groove, activated carbon absorption cotton and a motor. The utility model discloses an air cooler, including mounting disc, shaft coupling and air-cooler, the output fixed connection of shaft coupling and motor is passed through to a lateral wall of mounting disc, the motor passes through frame and air-cooler fixed connection, set up the same mounting groove of a plurality of specification on the mounting disc, and every all install the active carbon absorption cotton in the mounting groove. The utility model provides an IDC is energy-conserving cooling device for rack can ensure the dry state of air, consequently can avoid the moisture in the air too big phenomenon that the spare part appears damaging in causing the rack.

Description

Energy-saving cooling equipment for IDC cabinet

Technical Field

The utility model relates to a heat sink technical field especially is about IDC rack is with energy-conserving cooling device.

Background

The IDC server cabinet is a professional industry machine room cabinet designed according to the high requirement of a data center in the communication industry, is designed in a fully-detachable mode, is good in shock resistance and heat dissipation performance, and can completely meet the extremely high environmental requirements of the stability of server operation, the reliability and the safety of data storage and the like. With the increasing data processing capability of computers, servers with high-density hardware and software have been rapidly developed as important components. In recent years, the external shape of the server has become smaller and the function thereof has become more powerful, and the heat of the server has been rapidly increased. In the face of high heat flux density of the electronic devices in the server, how to dissipate heat is an important item. Generally, cold air is blown into the cabinet directly through an air cooler, and the cabinet is cooled through diffusion of the cold air.

Because the air blown out by the air cooler contains certain moisture, the phenomenon that parts in the cabinet are damaged is easily caused in the using process. If direct with in the leading-in rack of cold wind, cold air can expand rapidly, then can not be accurate cool down the serious position that generates heat, the air-cooler then will carry out the load operation for a long time this moment, can increase the consumption of electric energy to a certain extent. There is therefore a need for an energy saving and temperature reducing device for an IDC cabinet.

The information disclosed in this background section is only for enhancement of understanding of the general background of the invention and should not be taken as an acknowledgement or any form of suggestion that this information constitutes prior art already known to a person skilled in the art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an IDC is energy-conserving cooling device for rack, its dry state that can ensure the air avoids the moisture in the air too big phenomenon that causes spare part to appear damaging in the rack.

In order to achieve the above object, the utility model provides an IDC rack is with energy-conserving cooling device, include: a bottom plate and a rotating assembly. The upper surface fixed mounting of bottom plate has the air-cooler, install a plurality of groups dispersion subassembly outside the bottom plate. The rotating assembly is installed on the air cooler and comprises an installation disc, an installation groove, activated carbon absorption cotton and a motor. The utility model discloses a fan, including mounting disc, shaft coupling, air-cooler, motor, installation disc, the output fixed connection of shaft coupling and motor is passed through to a lateral wall of mounting disc, the motor passes through frame and air-cooler fixed connection, the same mounting groove of a plurality of specification has been seted up on the mounting disc, and every all install the active carbon absorption cotton in the mounting groove.

In one or more embodiments, the dispersion subassembly includes exhaust plate, exhaust hole, temperature sensor, adapter tube and solenoid valve, a plurality of exhaust hole has been seted up on the exhaust plate, the upper surface mounting of exhaust plate has fixed connection's temperature sensor, a lateral wall and the adapter tube intercommunication of exhaust plate, just the cover is equipped with fixed connection's solenoid valve on the outer wall of adapter tube.

In one or more embodiments, the air-cooler is provided with a support frame which is fixedly connected, the inner top wall of the support frame is fixedly provided with two mounting plates which are symmetrically distributed, and the two mounting plates are respectively positioned on two side walls of the mounting disc.

In one or more embodiments, two all set up flutedly on the relative lateral wall of mounting panel, and two all install fixed connection's heater strip on the inner wall of recess, and two the position and the mounting groove of heater strip and the cotton position of active carbon absorption are relative.

In one or more embodiments, the outer wall of the mounting disc is sleeved with a fixing ring which is fixedly connected, the fixing ring is provided with an annular sliding groove, and the annular sliding groove is in a shape like a T.

In one or more embodiments, the inner wall of annular spout is installed sliding connection's slider, the slider is "T" font, install fixed connection's dead lever on the outer wall of slider, just the dead lever is kept away from the one end and the air-cooler fixed connection of mounting disc.

In one or more embodiments, a controller is fixedly mounted on an outer wall of the air cooler, and the controller is electrically connected with the motor, the electromagnetic valve and the temperature sensor respectively.

In one or more embodiments, the one side of keeping away from the air-cooler of bottom plate upper surface installs fixed connection's mount, the mount is put on the shelf and is equipped with fixed mounting's connecting pipe, install humidity transducer on the inner wall of connecting pipe, just electric connection between humidity transducer and the controller.

In one or more embodiments, a through groove is clamped at a part of the connecting pipe opposite to the mounting disc, and the length of the shaft diameter of the through groove is the same as the thickness of the mounting disc.

In one or more embodiments, one end of the outer wall of the connecting pipe is communicated with the air guide pipe, the other end of the outer wall of the air guide pipe is of a solid structure, and the outer wall of the air guide pipe is communicated with the plurality of adapter pipes.

Compared with the prior art, according to the utility model discloses IDC rack is with energy-conserving cooling device has following beneficial effect:

1. the utility model discloses an IDC is energy-conserving cooling device for rack is in the use, and when the cold air that the air-cooler blew off was when passing through the runner assembly, the active carbon in the runner assembly absorbed cotton, can absorb the moisture in the air. When the active carbon absorption cotton needs to be changed, the rotation of accessible motor drive mounting disc can rotate the cotton of dry active carbon absorption on the mounting disc to connecting pipe department and accomplish the cotton change of active carbon absorption, and then can ensure the dry state of air, consequently can avoid the too big phenomenon that causes the interior spare part of rack to appear damaging of moisture in the air.

2. The utility model provides a dispersion subassembly, through installing the below of spare part in the rack with the air discharge plate respectively, can be smooth arrange the produced air of air-cooler to the cooling of spare part completion. When the temperature sensor on the air discharge plate detects that the temperature below the corresponding part is in a normal range, the corresponding electromagnetic valve can be closed, more gas generated by the air cooler can be introduced into the part with higher heat generation, the temperature in the whole cabinet is not required to be reduced to the same state, the working time of the load of the air cooler can be reduced, and therefore the energy-saving effect of the device can be improved to a certain extent.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of an energy-saving cooling device for an IDC cabinet provided by the present invention;

FIG. 2 is a schematic structural view of the air cooler shown in FIG. 1;

FIG. 3 is a schematic view of the rotating assembly shown in FIG. 2;

FIG. 4 is a schematic structural view of the dispersion assembly shown in FIG. 1;

FIG. 5 is a schematic structural view of the fixing frame shown in FIG. 2;

FIG. 6 is a schematic structural view of the supporting frame shown in FIG. 2;

fig. 7 is a schematic structural view of the fixing rod shown in fig. 2.

Reference numbers in the figures: the air conditioner comprises a base plate 1, an air cooler 2, a controller 2a, a fixing rod 2b, a sliding block 2c, a rotating assembly 3, a mounting plate 31, a mounting groove 32, activated carbon absorption cotton 33, a motor 34, a support frame 4, a mounting plate 4a, a groove 4b, a heating wire 4c, an air guide pipe 5, a dispersing assembly 6, an exhaust plate 61, an exhaust hole 62, a temperature sensor 63, a switching pipe 64, an electromagnetic valve 65, a fixing ring 7, an annular chute 7a, a fixing frame 8, a connecting pipe 8a, a humidity sensor 8b and a through groove 8 c.

Detailed Description

The following detailed description of the present invention is provided in conjunction with the accompanying drawings, but it should be understood that the scope of the present invention is not limited by the following detailed description.

Throughout the specification and claims, unless explicitly stated otherwise, the word "comprise", or variations such as "comprises" or "comprising", will be understood to imply the inclusion of a stated element or component but not the exclusion of any other element or component.

As shown in fig. 1 to 7, according to the utility model discloses an embodiment's IDC is energy-conserving cooling device for rack includes: bottom plate 1 and runner assembly 3, the last fixed surface of bottom plate 1 installs air-cooler 2, a plurality of groups dispersion assembly 6 are installed to the outside of bottom plate 1.

In the embodiment of the present invention, please refer to fig. 1, fig. 2 and fig. 3, the rotating assembly 3 is installed on the air cooler 2. The rotating assembly 3 comprises a mounting disc 31, a mounting groove 32, activated carbon absorption cotton 33 and a motor 34. A side wall of the mounting disc 31 is fixedly connected with an output end of the motor 34 through a coupler, and the motor 34 is fixedly connected with the air cooler 2 through a rack. A plurality of mounting grooves 32 with the same specification are formed in the mounting disc 31, and activated carbon absorption cotton 33 is mounted in each mounting groove 32.

It should be noted that: in the later use process, when the temperature sensor 63 on the exhaust plate 61 detects that the temperature in the IDC cabinet exceeds the set value, a signal can be automatically sent to the controller 2a, and at the moment, the controller 2a controls the air cooler 2 to work. The air generated by the operation of the air cooler 2 flows into the connection pipe 8 a. The air flows into the connecting pipe 8a and passes through the activated carbon absorption cotton 33 in the rotating assembly 3, and at this time, the activated carbon absorption cotton 33 can absorb moisture wind contained in the cold air, so that the air can flow into the air duct 5 in a relatively dry state.

When the humidity sensor 8b in the air duct 5 detects that the humidity in control is greater than the set range, the phase controller 2a sends a signal, and the controller 2a controls the motor 34 to rotate. At this time, the motor 34 drives the mounting plate 31 to rotate until another dry activated carbon absorbent cotton 33 on the mounting plate 31 is rotated into the connecting pipe 8 a. The dry activated carbon absorbent wool 33 will continue to absorb moisture in the cold air, thereby reducing damage to components in the IDC cabinet due to the relatively high moisture in the air.

In an embodiment of the present invention, referring to fig. 1, fig. 2 and fig. 4, the dispersing assembly 6 includes an exhaust plate 61, an exhaust hole 62, a temperature sensor 63, an adapter tube 64 and a solenoid valve 65. The exhaust plate 61 is provided with a plurality of exhaust holes 62. The upper surface mounting of exhaust plate 61 has fixed connection's temperature sensor 63, a lateral wall and the adapter tube 64 intercommunication of exhaust plate 61, just the cover is equipped with fixed connection's solenoid valve 65 on the outer wall of adapter tube 64.

It should be noted that: the cold air flowing into the air duct 5 can be smoothly guided into the exhaust plate 61 through the connecting pipe 8a, and the air is discharged to the outside through the exhaust holes 62 in the exhaust plate 61, so that the temperature of the parts can be reduced. When the temperature sensor 63 on the exhaust plate 61 detects that the temperature below the corresponding part is in the normal range, the corresponding solenoid valve 65 can be closed, more gas generated by the air cooler 2 can be introduced into the part with higher heat generation, the temperature in the whole cabinet is not required to be reduced to the same state, the load working time of the air cooler 2 can be reduced, and therefore the energy-saving effect of the device can be improved to a certain extent.

In the embodiment of the present invention, please refer to fig. 2 and fig. 6, a support frame 4 fixedly connected to the air cooler 2 is installed thereon. The interior roof fixed mounting of support frame 4 has two symmetric distribution's mounting panel 4a, and two mounting panel 4a is located the both sides wall of mounting disc 31 respectively. Two all set up fluted 4b on the relative lateral wall of mounting panel 4a, and two all install fixed connection's heater strip 4c on the inner wall of recess 4b, and two heater strip 4 c's position is relative with mounting groove 32 and the position of active carbon absorption cotton 33.

It should be noted that: since the heating wires 4c are located opposite to the mounting grooves 32 and the activated carbon absorbent wool 33, the activated carbon absorbent wool 33 rotated out of the through groove 8c moves between the two heating wires 4c along with the rotation of the motor 34 in the later use process. Through the work of heater strip 4c, can toast activated carbon absorption cotton 33, and then can accelerate giving off of moisture in the activated carbon absorption cotton 33, make activated carbon absorption cotton 33 can continue to use, consequently reducible later stage staff absorbs cotton 33's the change degree of difficulty to activated carbon.

In the embodiment of the present invention, please refer to fig. 2, fig. 3 and fig. 7, a fixing ring 7 is sleeved on the outer wall of the mounting plate 31. Annular chute 7a has been seted up on solid fixed ring 7, just annular chute 7a is "T" font, sliding connection's slider 2c is installed to annular chute 7 a's inner wall. Slider 2c is "T" font, install fixed connection's dead lever 2b on the outer wall of slider 2c, just dead lever 2b keeps away from the one end and the air-cooler 2 fixed connection of mounting disc 31.

It should be noted that: by installing the fixing ring 7, when the motor 34 drives the mounting plate 31 to rotate, the mounting plate 31 can drive the fixing ring 7 to rotate together. The fixed ring 7 can rotate on the outer wall of the slide 2c via an annular slide 7 a. Because annular spout 7a and slider 2c are "T" font, slider 2c is through fixed connection between dead lever 2b and the air-cooler 2, consequently dead lever 2b accessible slider 2c and annular spout 7a support the rotation of mounting disc 31, can make the rotation of mounting disc 31 more stable.

Wherein, fixed mounting has controller 2a on the outer wall of air-cooler 2, just electric connection between controller 2a respectively and motor 34, solenoid valve 65 and temperature sensor 63, through with electric connection between controller 2a and the electrical equipment in this device, but this device of automatic control carries out operation work.

One side of the upper surface of the bottom plate 1, which is far away from the air cooler 2, is provided with a fixed connection fixing frame 8, and a fixedly installed connecting pipe 8a is erected on the fixing frame 8. Install humidity transducer 8b on the inner wall of connecting pipe 8a, just electric connection between humidity transducer 8b and controller 2a, through humidity transducer 8b, can real-time detection flow in 5 interior moisture content in the gas of air duct. When the moisture content exceeds the standard, it indicates that too much moisture in the activated carbon absorption cotton 33 can not continuously absorb moisture in the air, and then the motor 34 can be controlled to work in time, so that the motor 34 can drive the mounting disc 31 to rotate at the first time, and the activated carbon absorption cotton 33 is replaced.

In an embodiment of the present invention, please refer to fig. 2 and fig. 5, a through groove 8c is formed in a portion of the connecting pipe 8a opposite to the mounting plate 31, and a length of an axial diameter of the through groove 8c is the same as a thickness of the mounting plate 31. It should be noted that: because the length of logical groove 8c shaft diameter is the same with the thickness of mounting disc 31, and the both sides of logical groove 8c inner wall are installed the rubber circle. When mounting groove 32 in mounting disc 31 rotated to logical 8c inner walls, the rubber circle can closely laminate with the outer wall of mounting disc 31, and then the phenomenon of gas leakage appears in reducible junction between them.

Wherein, the one end and the air duct 5 of connecting pipe 8a outer wall are linked together, the other end of 5 outer walls of air duct is the solid structure, just the outer wall and a plurality of switching pipes 64 of air duct 5 are linked together, sets up the other end of 5 outer walls of air duct into the solid structure, can avoid the gas in the air duct 5 to outwards flow out through the port, and then make the gas in the air duct 5 can be smooth flow into the air discharge plate 61 through switching pipes 64.

In using the present cooling device, first, the worker needs to install the device at the desired location through the base plate 1 and install the vent plate 61 in the dispersion module 6 under the components in the IDC cabinet. The installation of the device can be completed after the adapter tube 64 is communicated with the air cooler 2 through the air duct 5 and the connecting tube 8 a.

A signal may be automatically sent to the controller 2a when a temperature sensor 63 on the vent plate 61 detects that the temperature in the IDC cabinet exceeds a set point. The controller 2a controls the air cooler 2 to work, the air generated by the air cooler 2 during working flows into the connecting pipe 8a, and the air flows into the connecting pipe 8a and passes through the activated carbon absorbent cotton 33 in the rotating assembly 3, at the moment, the activated carbon absorbent cotton 33 can absorb the moisture air contained in the cold air, so that the air can flow into the air duct 5 in a relatively dry state.

When the humidity sensor 8b in the air duct 5 detects that the humidity in control is greater than the set range, the phase controller 2a sends a signal, and the controller 2a controls the motor 34 to rotate. At this time, the motor 34 drives the mounting plate 31 to rotate until another dry activated carbon absorbent cotton 33 on the mounting plate 31 is rotated into the connecting pipe 8 a. The dry activated carbon absorbent wool 33 will continue to absorb moisture in the cold air, thereby reducing damage to components in the IDC cabinet due to the relatively high moisture in the air.

The cold air flowing into the air duct 5 can be smoothly guided into the exhaust plate 61 through the connecting pipe 8a to be pinched, and the air is discharged outwards through the exhaust holes 62 in the exhaust plate 61, so that the temperature of the parts can be reduced. When the temperature sensor 63 on the exhaust plate 61 detects that the temperature below the corresponding component is in the normal range, the corresponding electromagnetic valve 65 can be closed, and more air generated by the air cooler 2 can be introduced into the component with higher heat generation. Need not to all to fall to same state with the temperature in the whole rack, reducible air-cooler 2 load work's time, consequently can improve the energy-conserving effect of this device to a certain extent.

The utility model discloses in circuit and control that relate to be prior art, do not carry out too much repeated description here.

The foregoing descriptions of specific exemplary embodiments of the present invention have been presented for purposes of illustration and description. It is not intended to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application to enable one skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the claims and their equivalents.

Claims (10)

1. The utility model provides an IDC rack is with energy-conserving cooling device which characterized in that includes:

the air cooler comprises a base plate (1), wherein an air cooler (2) is fixedly arranged on the upper surface of the base plate (1), and a plurality of groups of dispersing assemblies (6) are arranged outside the base plate (1); and

rotating assembly (3), rotating assembly (3) are installed on air-cooler (2), rotating assembly (3) are including mounting disc (31), mounting groove (32), active carbon absorption cotton (33) and motor (34), the output fixed connection of shaft coupling and motor (34) is passed through to a lateral wall of mounting disc (31), motor (34) are through frame and air-cooler (2) fixed connection, the same mounting groove (32) of a plurality of specification has been seted up on mounting disc (31), and every all install active carbon absorption cotton (33) in mounting groove (32).

2. The IDC is energy-conserving cooling device for rack of claim 1, characterized in that, dispersion subassembly (6) includes air discharge plate (61), exhaust hole (62), temperature sensor (63), adapter tube (64) and solenoid valve (65), seted up a plurality of exhaust hole (62) on air discharge plate (61), the surface mounting of air discharge plate (61) has fixed connection's temperature sensor (63), a lateral wall and the adapter tube (64) intercommunication of air discharge plate (61), and the cover is equipped with fixed connection's solenoid valve (65) on the outer wall of adapter tube (64).

3. The IDC is energy-conserving cooling device for rack of claim 1, characterized by, install fixed connection's support frame (4) on air-cooler (2), the interior roof fixed mounting of support frame (4) has two symmetric distribution's mounting panel (4a), and two mounting panel (4a) are located the both sides wall of mounting disc (31) respectively.

4. The IDC cabinet energy-saving cooling device of claim 3, characterized in that, two of the mounting plates (4a) are provided with a groove (4b) on the opposite side wall, and two of the grooves (4b) are provided with a heating wire (4c) on the inner wall, and the two heating wires (4c) are opposite to the mounting groove (32) and the activated carbon absorbent cotton (33).

5. The IDC is energy-conserving cooling apparatus for rack of claim 1, characterized by, the cover is equipped with fixed ring (7) of fixed connection on the outer wall of mounting disc (31), seted up annular spout (7a) on fixed ring (7), and annular spout (7a) is "T" font.

6. The energy-saving and temperature-reducing device for the IDC cabinet is characterized in that a sliding block (2c) in sliding connection is installed on the inner wall of the annular sliding groove (7a), the sliding block (2c) is T-shaped, a fixing rod (2b) in fixed connection is installed on the outer wall of the sliding block (2c), and one end, far away from the mounting disc (31), of the fixing rod (2b) is fixedly connected with an air cooler (2).

7. The energy-saving and temperature-reducing device for the IDC cabinet according to claim 1, characterized in that a controller (2a) is fixedly installed on the outer wall of the air cooler (2), and the controller (2a) is electrically connected with the motor (34), the solenoid valve (65) and the temperature sensor (63) respectively.

8. The IDC is energy-conserving cooling device for rack of claim 1, characterized in that, the mount (8) of fixed connection is installed to the one side of bottom plate (1) upper surface far away from air-cooler (2), the mount (8) is put on the shelf and is equipped with fixedly mounted connecting pipe (8a), install humidity transducer (8b) on the inner wall of connecting pipe (8a), just electric connection between humidity transducer (8b) and controller (2 a).

9. The energy-saving and temperature-reducing device for the IDC cabinet as claimed in claim 8, wherein the connecting tube (8a) is provided with a through slot (8c) at the part opposite to the mounting plate (31), and the length of the axial diameter of the through slot (8c) is the same as the thickness of the mounting plate (31).

10. The energy-saving and temperature-reducing device for the IDC cabinet of claim 8, wherein one end of the outer wall of the connecting pipe (8a) is communicated with the air duct (5), the other end of the outer wall of the air duct (5) is of a solid structure, and the outer wall of the air duct (5) is communicated with the plurality of adapter pipes (64).

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