CN216982378U - Directional row of heat source fixed point leads wind economizer system - Google Patents

Abstract

The utility model relates to a fixed-point heat directional air exhausting and guiding energy-saving system for a heat source, which comprises a heat source collector and a central controller, wherein an opening is formed in the bottom of the heat source collector, the opening is installed at a heat exhausting position of communication machine room equipment, a pipeline interface is formed in the top of the heat source collector, the pipeline interface is connected with a main air guide pipe through a first air guide pipe, the main air guide pipe is communicated with an outdoor air guide pipe through a pipeline adapter and a second air guide pipe, a fan assembly and a filter screen are sequentially arranged in the outdoor air guide pipe, and an air valve for controlling an air guiding channel is further arranged in the outdoor air guide pipe; a first temperature sensor is installed in the communication machine room, and a second temperature sensor is installed outdoors. The utility model realizes the purpose of reducing the energy consumption of the machine room by directionally collecting the heat source at fixed points in the communication machine room and adopting an intelligent emission mode, is environment-friendly, energy-saving and emission-reducing, can be used all the year round and is not influenced by seasons and the external temperature of the environment.

Description

Directional row of heat source fixed point leads wind economizer system

Technical Field

The utility model relates to an air exhaust and guide energy-saving system, in particular to an air exhaust and guide energy-saving system with fixed-point heat orientation of a heat source.

Background

Along with the increasing of the number of the communication machine room network equipment and users, the energy consumption requirement of the machine room communication equipment is greatly increased, the machine room network communication equipment generates heat, the room temperature in the machine room is promoted to be increased, the air conditioner demand in the communication machine room is increased, and the power consumption is obviously increased.

Various manufacturers use a plurality of different technologies and methods to reduce the temperature of the machine room and reduce the energy consumption of air conditioners in the machine room, and due to the influence of seasonal variation, the energy-saving effect is very small, and the dust removal of the system does not reach the standard and generates static electricity, thereby threatening the safety of communication equipment. Therefore, a machine room energy-saving product with excellent performance and low cost needs to be researched.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides the air exhausting and guiding energy-saving system with the fixed-point heat orientation of the heat source, which has a simple structure and is convenient to popularize.

An air exhausting and guiding energy-saving system with fixed-point heat orientation of a heat source comprises a heat source collector and a central controller, wherein the heat source collector is installed in a communication machine room, the cross section of the heat source collector is trapezoidal, an opening is formed in the bottom of the heat source collector and is installed at a heat exhaust position of equipment in the communication machine room, a pipeline interface is arranged at the top of the heat source collector and is connected with a main air guide pipe through a first air guide pipe, the main air guide pipe is communicated with an outdoor air guide pipe through a pipeline matcher and a second air guide pipe, a fan assembly and a filter screen are sequentially arranged in the outdoor air guide pipe, and an air valve for controlling an air guiding channel is further arranged in the outdoor air guide pipe;

the communication machine room is provided with a first temperature sensor indoors, a second temperature sensor outdoors, and the first temperature sensor, the second temperature sensor, the fan assembly and the air valve are connected with the central controller.

Preferably, the air valve comprises a motor assembly and an air door, the motor assembly is connected with the central controller, and the central controller controls the motor assembly to rotate forwards and backwards to realize rotation of the air door.

Preferably, the outdoor air guide pipe is communicated with a third air guide pipe and a fourth air guide pipe, the air door rotates forwards, the third air guide pipe is communicated, the air door rotates backwards, and the fourth air guide pipe is communicated.

Preferably, the third air guiding pipe and the fourth air guiding pipe are respectively communicated with the outside and the office

Preferably, the heat source collector is made of a high-strength, flame-retardant and high-temperature-resistant PVC material.

Preferably, a heat dissipation fan is installed at the heat outlet of the communication equipment room.

Preferably, the filter screen is a high-density fine steel screen.

The utility model has the beneficial effects that:

the utility model can effectively discharge the heat discharged by the equipment heating source in the communication machine room out of the communication machine room in time by directionally collecting the heat source at a fixed point and heat in the communication machine room and adopting an intelligent discharge mode, thereby achieving the purposes of reducing the refrigerating capacity of an air conditioner and reducing the energy consumption of the machine room, and can also convey the discharged heat to each office space to reduce the energy consumption of the air conditioner in the office under a specific external environment temperature.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of a heat source collector;

FIG. 2 is a schematic view of a fixed-point heat source, heat directional air-guiding and energy-saving system of a machine room according to the present invention;

the air conditioner comprises a heat source collector, a 2-opening, a 3-pipeline interface, a 4-first air guide pipe, a 5-main air guide pipe, a 6-pipeline matcher, a 7-second air guide pipe, an 8-outdoor air guide pipe, a 9-fan assembly, a 10-filter screen, an 11-air valve, a 12-central controller, a 13-first temperature sensor, a 14-second temperature sensor, a 15-third air guide pipe, a 16-fourth air guide pipe, a 17-communication machine room and a 18-wall.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention easier to clearly understand, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

As shown in the attached drawings, the heat source fixed-point heat directional air exhaust and guide energy-saving system comprises a heat source collector 1 and a central controller 12, wherein the heat source collector 1 is installed in a communication machine room 17, the cross section of the heat source collector 1 is trapezoidal, an opening 2 is formed in the bottom of the heat source collector 1, the opening 2 is installed at a heat exhaust port of equipment of the communication machine room 17, a pipeline interface 3 is arranged at the top of the heat source collector 1, the pipeline interface 3 is connected with a main air guide pipe 5 through a first air guide pipe 4, the main air guide pipe 5 is communicated with an outdoor air guide pipe 8 through a pipeline matcher 6 and a second air guide pipe 7, a fan assembly 9 and a filter screen 10 are sequentially arranged in the outdoor air guide pipe 8, and an air valve 11 for controlling an air guide channel is further arranged in the outdoor air guide pipe 8;

the communication machine room 17 is provided with a first temperature sensor 13 indoors and a second temperature sensor 14 outdoors, and the first temperature sensor 13, the second temperature sensor 14, the fan assembly 9 and the air valve 11 are all connected with the central controller 12.

The air valve 11 comprises a motor assembly and an air door, the motor assembly is connected with the central controller 12, and the central controller 12 controls the motor assembly to rotate forwards and backwards to realize rotation of the air door.

The outdoor air guide pipe 8 is communicated with a third air guide pipe 15 and a fourth air guide pipe 16, the air door rotates forwards, the third air guide pipe 15 is communicated, the air door rotates backwards, and the fourth air guide pipe is communicated with air.

The third air guide pipe 15 and the fourth air guide pipe 16 are respectively communicated with the outdoor and the office.

The heat source collector 1 is made of PVC material with high strength, flame retardance and high temperature resistance.

And a heat radiation fan is arranged at the heat discharge port of the equipment in the communication machine room 17.

The filter screen 10 is a high-density fine steel mesh.

When the heat source collector is used, the heat source collector 1 is arranged at a heat discharge port of equipment, hot air is completely concentrated in the heat source collector by utilizing the pressure of hot air discharged by a heat dissipation fan of equipment of a communication machine room and the heat rising principle, then the hot air enters the main air guide pipe 5 through the first air guide pipe 4 and is discharged out of the machine room through the main air guide pipe, the accumulation of heat of the machine room is reduced, and the energy consumption of an air conditioner is reduced;

when the central controller 12 detects that the temperature of the first temperature sensor 13 in the communication machine room is higher than a threshold value, the fan assembly 9 is controlled to work, and the heat of the machine room begins to be discharged to the outside; when the second temperature sensor 14 detects that the outdoor temperature is less than or equal to 15 ℃, the central controller 12 controls the air valve 11 to rotate reversely, so that the outdoor air guide pipe 8 is communicated with the fourth air guide pipe 16, heat in the machine room is discharged to indoor office places, and the energy consumption of air conditioners in the office places is reduced; when the second temperature sensor 14 detects that the outdoor temperature is higher than 15 ℃, the central controller 12 controls the air valve 11 to rotate forward, so that the outdoor air guide pipe 8 is communicated with the third air guide pipe 15, and heat is discharged outdoors.

The utility model can effectively reduce the energy consumption of the communication machine room and the air conditioner in the office, and the annual energy saving rate of the air conditioner in the machine room is about 60 percent and the effective annual energy saving rate of the air conditioner in the office is about 35 percent according to the heat formula Q ═ Cm Δ t ═ 4.2 ^ 10^3 ^ m Δ t Joule measurement.

The utility model can effectively discharge the heat discharged by the equipment heating source in the communication machine room out of the communication machine room in time by directionally collecting the heat source at a fixed point and heat in the communication machine room and adopting an intelligent discharge mode, thereby achieving the purposes of reducing the refrigerating capacity of an air conditioner and reducing the energy consumption of the machine room, and can also convey the discharged heat to each office space to reduce the energy consumption of the air conditioner in the office under a specific external environment temperature.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (7)

1. A heat source fixed-point heat oriented air exhaust and guide energy-saving system is characterized by comprising a heat source collector (1) and a central controller (12), the heat source collector (1) is arranged in a communication machine room (17), the cross section of the heat source collector (1) is trapezoidal, an opening (2) is arranged at the bottom of the heat source collector (1), the opening (2) is arranged at a heat outlet of the communication machine room (17) equipment, the top of the heat source collector (1) is provided with a pipeline interface (3), the pipeline interface (3) is connected with a main air guide pipe (5) through a first air guide pipe (4), the main air guide pipe (5) is communicated with an outdoor air guide pipe (8) through a pipeline matcher (6) and a second air guide pipe (7), a fan component (9) and a filter screen (10) are sequentially arranged in the outdoor air guide pipe (8), an air valve (11) for controlling an air guide channel is also arranged in the outdoor air guide pipe (8);

communication computer lab (17) indoor installation has first temperature sensor (13), outdoor installation has second temperature sensor (14), first temperature sensor (13) second temperature sensor (14) fan subassembly (9) blast gate (11) all with central controller (12) are connected.

2. The system of claim 1, wherein the heat source is a fixed-point heat-oriented air-guiding energy-saving system, and the system comprises: the air valve (11) comprises a motor assembly and an air door, the motor assembly is connected with the central controller (12), and the central controller (12) controls the motor assembly to rotate forwards and backwards to realize rotation of the air door.

3. The system of claim 2, wherein the heat source is arranged in a fixed-point heat-oriented air-guiding energy-saving manner, and the system comprises: the outdoor air guide pipe (8) is communicated with a third air guide pipe (15) and a fourth air guide pipe (16), the air door rotates forwards, the third air guide pipe (15) is communicated, the air door rotates backwards, and the fourth air guide pipe is communicated with air.

4. The system of claim 3, wherein the heat source is arranged in a fixed-point heat-oriented air-guiding energy-saving manner, and the system comprises: the third air guide pipe (15) and the fourth air guide pipe (16) are respectively communicated with the outside and the office.

5. The system of claim 1, wherein the heat source is a fixed-point heat-oriented air-guiding energy-saving system, and the system comprises: the heat source collector (1) is made of PVC materials with high strength, flame retardance and high temperature resistance.

6. The system of claim 1, wherein the heat source is a fixed-point heat-oriented air-guiding energy-saving system, and the system comprises: and a heat radiation fan is arranged at the heat discharge port of the equipment in the communication machine room (17).

7. The system of claim 1, wherein the heat source is a fixed-point heat-oriented air-guiding energy-saving system, and the system comprises: the filter screen (10) is a high-density fine steel mesh.

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