CN203050166U - Energy-saving type all-in-one communication base station - Google Patents

Abstract

The utility model discloses an energy-saving type all-in-one communication base station which is built up by color steel heat insulation plates. Spaced double-deck color steel heat insulation plates are respectively arranged on the top and side edges of the base station, an exhaust fan is mounted between a wind guiding channel separated by the double-deck color steel heat insulation plates on the top of the base station and the interior of the base station, and a heat exchanger is mounted in a heat dissipation channel separated by the double-deck color steel heat insulation plates on the side edges of the base station. An internal circulation air inlet at the upper end of the heat exchanger is communicated with the wind guiding channel on the top of the base station and is sealed, an air outlet of the heat exchanger is communicated with the interior of the base station and is sealed, a transverse fan mounted on an external wall is arranged at the bottom of the heat dissipation channel, and an exhaust outlet mounted in the external wall is formed in the top of the heat dissipation channel. Outer surfaces of the color steel heat insulation plates for construction of the base station are coated with nanometer heat insulation coatings. Through arrangement of the double-deck color steel heat insulation plates, internal circulation heat dissipation and external circulation heat dissipation are formed, the heat exchanger is used for cooling air in the internal of the base station, and thus an energy-saving purpose can be realized due to the fact that power consumption of an air conditioner is effectively reduced and service life of the air conditioner is prolonged.

Description

Energy-saving integrated communication base station

technical field

The utility model relates to a communication base station, in particular to an energy-saving integrated communication base station.

Background technique

Most of the existing communication base stations are assembled by color steel heat insulation boards or civil base stations are used as base stations. Common air conditioners are used to cool down the base station. Due to the heating of the internal equipment of the base station and the hot summer, the internal temperature of the base station is too high, so the air conditioner needs to work continuously for a long time. The power consumption is high and the life of the air conditioner is greatly shortened, resulting in high energy consumption and waste of resources.

Utility model content

The technical problem to be solved by the utility model is to provide an integrated communication base station which can save energy consumption.

The utility model solves the above technical problems with the following technical solutions:

The energy-saving integrated communication base station of the utility model is a base station built by color steel heat insulation panels. An exhaust fan is installed between the air guide channel separated by a layer of color steel heat insulation board and the inside of the base station. A heat exchanger is installed in the heat dissipation channel separated by a double-layer color steel heat insulation board on the side of the base station. The upper end of the heat exchanger The air inlet of the internal circulation is connected and sealed with the air guide channel on the top of the base station, the air outlet of the heat exchanger is connected and sealed with the inside of the base, the bottom of the cooling channel is equipped with a horizontal fan installed on the outer wall, and the top of the cooling channel is equipped with There are exhaust vents mounted on the exterior wall.

The heat dissipation channel is separated from the interior of the base station by a heat exchanger.

The heat exchanger is an aluminum finned heat exchanger.

The outer surface of the color-steel heat-shielding plate for constructing the base station is coated with a nano heat-shielding coating.

The utility model forms internal circulation heat dissipation and external circulation heat dissipation by setting double-layer color steel heat insulation boards, and uses a heat exchanger to cool the air inside the base station, which can effectively reduce the power consumption of the air conditioner and prolong the service life of the air conditioner so as to achieve the purpose of energy saving.

Description of drawings

Fig. 1 is an elevation sectional view of the utility model energy-saving integrated communication base station.

Fig. 2 is a top sectional view of the energy-saving integrated communication base station of the present invention.

In the figure: 1—color steel heat shield, 2—exhaust fan, 3—heat exchanger, 4—horizontal fan, 5—air exhaust port, 6—air guide channel, 7—radiation channel.

Detailed ways

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Figure 1, the energy-saving integrated communication base station of the utility model is constructed of a color steel insulation board 1, and communication equipment is installed in the base station, and the top and sides of the base station are respectively provided with double-layer color steel plates separated from each other. The heat shield 1, the air guide channel 6 separated by the double-layer color steel heat shield on the top of the base station and the inside of the base station is provided with an exhaust fan 2, and the exhaust fan 2 is installed on the color steel heat shield inside the top of the base station. The heat exchanger 3 is installed in the heat dissipation channel 7 separated by the double-layer color steel heat insulation board on the side of the base station, and the heat exchanger 3 is installed on the inner color steel heat insulation board, and separates the heat dissipation channel 7 from the inside of the base station open. The upper internal circulation air inlet of the heat exchanger 3 is connected and sealed with the air guiding channel 6 on the top of the base station, the air outlet of the heat exchanger 3 is connected and sealed with the inside of the base station, and the bottom of the cooling channel 7 is provided with a The top of the horizontal fan 4 and the heat dissipation channel 7 is provided with an air outlet 5 installed on the outer color steel heat shield.

The heat exchanger of the present utility model adopts the heat exchanger of the heat sink type made of aluminum.

Working principle of the utility model:

The hot air in the base station is extracted by the exhaust fan 2, enters the heat exchanger 3 through the air guide channel 6, and re-enters the machine room through the air outlet at the lower end of the heat exchanger after cooling down. The external cooling of the heat exchanger 3 uses the horizontal fan 4 to blow the outdoor air upward from the bottom, thereby taking away the heat of the heat exchanger 3 and exhausting it through the air outlet 5 .

The utility model can coat the outer surface of the color steel heat insulation board of the base station with a nano heat-insulation coating, which can effectively reduce the temperature rise of the outer wall due to sunlight, make the surface temperature of the base station close to or lower than the outdoor air temperature, and reduce The internal temperature rise caused by the heat conduction of the wallboard of the base station reduces the power consumption of the air conditioner.

The interior of the base station of the utility model adopts color steel heat insulation boards to form air guide channels and heat dissipation channels. A heat exchanger is installed in the heat dissipation channel. The heat exchanger is linked with the air conditioner. When the outdoor temperature is lower than the set temperature, the air conditioner is turned off and the heat exchange The air conditioner cools the air inside the base station, which can effectively reduce the power consumption of the air conditioner and prolong the service life of the air conditioner so as to achieve the purpose of energy saving.

Claims (4)

1. The energy-saving integrated communication base station is a base station built with color steel heat insulation boards. Communication equipment is installed in the base station. An exhaust fan is installed between the air guide channel separated by the double-layer color steel heat insulation board on the top and the inside of the base station, and a heat exchanger is installed in the heat dissipation channel separated by the double-layer color steel heat insulation board on the side of the base station. The inner circulation air inlet at the upper end of the heat exchanger is connected and sealed with the air guide channel at the top of the base station, the air outlet of the heat exchanger is connected with and sealed with the inside of the base, and the bottom of the heat dissipation channel is provided with a horizontal fan installed on the outer wall. There is an exhaust vent installed on the exterior wall at the top. 2. The energy-saving integrated communication base station according to claim 1, characterized in that, the heat dissipation channel is separated from the inside of the base station by a heat exchanger. 3. The energy-saving integrated communication base station according to claim 1 or 2, wherein the heat exchanger is a heat exchanger made of aluminum fins. 4. The energy-saving integrated communication base station according to claim 1, characterized in that, the outer surface of the color-steel heat-shielding plate that constructs the base station is coated with a nano-heat-shielding coating.

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