CN207340427U - A cooling device for an electric cabinet - Google Patents

Abstract

The utility model discloses a heat dissipation device for an electric cabinet. The heat dissipation device for an electric cabinet includes a cabinet, a condenser, a blower and a fixing box; the fixing box is arranged on the cabinet; the condenser is installed in the fixing box, the blower is fixed in the fixing box and is located above the condenser; the air inlet of the condenser is communicated with the interior of the cabinet, the air outlet of the condenser is communicated with the air intake of the blower; the exhaust port of the blower is communicated with the interior of the cabinet. The utility model utilizes the centrifugal airflow generated by the high-speed operation of the blower, so that the high-temperature airflow inside the cabinet flows into the condenser through the air inlet of the condenser to be cooled into a low-temperature airflow, and then enters the blower through the air outlet of the blower and the air intake of the blower, and finally enters the cabinet from the exhaust port of the blower, forming an airflow circulation process, so that the heat in the cabinet is continuously cooled, and the heat dissipation performance of the heat dissipation device of the electric cabinet is improved.

Description

A cooling device for an electric cabinet

technical field

The utility model relates to the technical field of electric cabinets, in particular to a cooling device for electric cabinets.

Background technique

The electrical cabinet is a device used to accommodate various electrical components. The various electrical components inside are assembled and connected regularly according to the electrical diagram, so as to complete the voltage or current conversion in the electric power and provide users with a variety of different purposes. voltage or current. Since various electrical work needs to be completed in the electric cabinet, the heat in the electric cabinet will accumulate more and more due to the long-term work of high-power electrical components. If the heat in the electric cabinet cannot be dissipated in time, it is easy to Gas can damage electrical components and even cause a fire. The electric cabinets in the prior art are often equipped with several fans inside the electric cabinet, and the heat inside the electric cabinet is blown out of the electric cabinet through the fans; however, this cooling method of the electric cabinet will cause the air temperature around the electric cabinet to increase. Obviously higher than the air temperature in other places, it is easy to cause the surrounding air to accumulate too much heat and damage the surrounding environment, and in serious cases, a fire may occur; on the other hand, because the fan only blows the air in the electric cabinet to the electric cabinet In addition, when the surrounding air temperature rises to a certain level, the heat in the electric cabinet can no longer be blown out of the electric cabinet, because at this time the air temperature around the electric cabinet is almost the same as the temperature inside the electric cabinet. Therefore, this This kind of electric cabinet device with its own cooling fan has poor heat dissipation performance, and the heat dissipation method is only suitable for electric cabinets that emit a small amount of heat, and is not suitable for electric cabinets that emit large amounts of heat.

Utility model content

In view of this, the utility model provides a heat dissipation device for an electric cabinet to solve the defect of poor heat dissipation performance of the electric cabinet device with its own cooling fan in the prior art.

In order to achieve the above object, the utility model provides the following technical solutions:

A cooling device for an electric cabinet, comprising a cabinet body, a condenser, a blower and a fixing box; the fixing box is arranged on the cabinet body; the condenser is installed in the fixing box, and the blower is fixed on the In the fixed box and above the condenser; the air inlet of the condenser communicates with the interior of the cabinet, and the air outlet of the condenser communicates with the air intake of the blower; the blower The exhaust port communicates with the inside of the cabinet.

Preferably, the condenser includes a shell and a cooling tube; the shell is installed in the fixed box; the cooling tube is fixed in the shell; one end of the cooling tube is cooled by the shell The liquid inlet communicates with the liquid outlet of the external cooling source, and the other end of the cooling pipe communicates with the liquid inlet of the external cooling liquid through the cooling oil outlet of the housing.

Preferably, the cooling pipe is a copper pipe.

Preferably, the cooling device for the electric cabinet further includes a controller; the controller is fixed on the cabinet body; the control end of the controller is electrically connected to the blower.

From above-mentioned technical scheme as can be seen, the beneficial effect of the utility model is:

On the one hand, since the air inlet of the condenser communicates with the interior of the cabinet, the air outlet of the condenser communicates with the air intake of the blower, and the exhaust port of the blower communicates with the cabinet. Therefore, the utility model uses the centrifugal airflow generated by the high-speed operation of the blower, so that the high-temperature airflow inside the cabinet flows into the condenser through the air inlet of the condenser to be cooled into a low-temperature airflow, and then passes through the air outlet of the blower and the air blower. The suction port of the air blower enters the blower, and finally enters the cabinet from the exhaust port of the blower to form an air circulation process, which makes the heat in the cabinet cool continuously and improves the heat dissipation performance of the electric cabinet cooling device; on the other hand, due to The blower is fixed in the fixed box and located above the condenser, while the high-temperature air moves from bottom to top, and the low-temperature air moves from top to bottom, and the low-temperature air is sent upward by the fan, and the compressed high-temperature air enters the electric cabinet After the bottom is compressed into the condenser, the condenser converts the high-temperature air into low-temperature air, and the supply fan continues to blow into the electric cabinet, and the cycle is transformed, so that the inside of the electric cabinet can be completely converted into low-temperature air, so that the high-temperature air inside the cabinet can be quickly and quickly Cool down, thereby improving the heat dissipation efficiency of the utility model.

Description of drawings

Fig. 1 is an overall structural diagram of a cooling device for an electric cabinet provided by an embodiment of the present invention.

Fig. 2 is the overall structure diagram of the condenser provided by the embodiment of the utility model.

In the figure: 1-cabinet; 2-condenser; 3-blower; 4-fixed box; 5-controller; 20-housing; 21-coolant inlet; 22-drain port; 23-coolant outlet 24 - Cooling pipe.

In order to more clearly illustrate the technical solutions in the embodiments of the present invention or the prior art, the accompanying drawings described in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the accompanying drawings in the following description are only These are some embodiments of the present utility model. Those skilled in the art can also obtain other drawings based on these drawings without any creative work.

Detailed ways

The embodiment of the utility model provides a cooling device for an electric cabinet.

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

As shown in Figure 1, a kind of electric cabinet cooling device provided by the embodiment of the utility model includes a cabinet body 1, a condenser 2, a blower fan 3 and a fixing box 4; the fixing box 4 is arranged on the cabinet body 1 The condenser 2 is installed in the fixed box 4, the blower 3 is fixed in the fixed box 4 and is located above the condenser 2; the air inlet of the condenser 2 is connected with the cabinet The inside of the body 1 is connected, the air outlet of the condenser 2 is connected with the air inlet of the blower 3 ; the exhaust port of the blower 3 is connected with the inside of the cabinet 1 . In the embodiment of the utility model, the fixing box 4 can be fixed on the cabinet body 1 by gluing or threading; the condenser 2 is installed directly below the blower 3, so that the condenser The air outlet of 2 is connected with the suction port of the blower 3 more easily; the air inlet of the condenser 2 communicates with the air inside the cabinet 1 through a conduit, so that the air inside the cabinet 1 can be The room enters the interior of the condenser 2 for cooling and lowering the temperature; the exhaust port of the blower 3 communicates with the interior of the cabinet 1 through a conduit. Therefore, in the embodiment of the utility model, on the one hand, since the air inlet of the condenser 2 communicates with the inside of the cabinet body 1, the air outlet of the condenser 2 is connected to the air inlet of the blower 3 The exhaust port of the blower 3 is connected with the inside of the cabinet 1, so the utility model utilizes the centrifugal airflow generated by the high-speed operation of the blower 3 to make the high-temperature air inside the cabinet 1 pass through the air inlet of the condenser 2 It flows into the condenser 2 and is cooled into a low-temperature air flow, and then enters the blower 3 through the air outlet of the blower 3 and the suction port of the blower 3, and finally enters the cabinet 1 from the exhaust port of the blower 3, forming an air circulation process, so that the heat in the cabinet 1 is continuously cooled, and the heat dissipation performance of the heat sink of the electric cabinet is improved; on the other hand, since the blower 3 is fixed in the fixed box 4 and is located above the condenser 2, The high-temperature air moves from bottom to top, and the low-temperature air moves from top to bottom. The low-temperature air is sent upward by the blower 3. The compressed high-temperature air enters the bottom of the electric cabinet and is compressed into the condenser 2. The condenser 2 converts the high-temperature air into low-temperature air. The air is continuously blown into the electric cabinet by the supply fan, and circulated so that the interior of the electric cabinet can be completely converted into low-temperature air, so that the high-temperature air inside the cabinet body 1 can be cooled rapidly and rapidly, thereby improving the heat dissipation efficiency of the utility model.

As shown in Figure 2, the condenser 2 includes a housing 20 and a cooling pipe 24; the housing 20 is installed in the fixed box 4; the cooling pipe 24 is fixed in the housing 20; One end of the cooling pipe 24 communicates with the liquid outlet of the external cooling source through the cooling liquid inlet 21 of the housing 20, and the other end of the cooling pipe 24 communicates with the inlet of the external cooling liquid through the cooling oil outlet of the housing 20. The liquid port is connected; the bottom of the housing 20 is provided with a liquid discharge port 22, and the liquid discharge port 22 is used to discharge the water droplets generated on the surface of the cooling pipe 24; in the embodiment of the utility model, the cooling pipe 24 is horizontal Circling N layers (N is greater than or equal to 3), the cooling liquid enters into the cooling pipe 24 through one end of the cooling pipe 24, and then flows back to the cooling source from the other end of the cooling pipe 24, while the air inside the cabinet 1 is passed through The air inlet of the condenser 2 enters the condenser 2, and then passes through the surface of the cooling pipe 24 inside the condenser 2, so that the high-temperature air completes heat exchange on the surface of the cooling pipe 24, increasing the temperature between the high-temperature air and the cooling pipe 24. The contact area improves the heat exchange efficiency of high-temperature air, so that the heat dissipation performance of the electric cabinet is better.

Specifically, the cooling pipe 24 is a copper pipe; the surface of the cooling pipe 24 is provided with an outer anti-corrosion layer through an electroplating process, and a stainless steel hardening layer is arranged inside the outer anti-corrosion layer; There is a pure copper layer, the interior of the pure copper layer is fixedly connected with the titanium alloy conductive layer, and the interior of the titanium alloy conductive layer is provided with an inner anti-corrosion layer through an electroplating process; wherein, the inner anti-corrosion layer and the outer anti-corrosion layer are both Made of zinc material, the zinc material has better anti-corrosion effect, and the zinc adhesion ability can also be made stronger through electroplating; the stainless steel hardening layer is connected with the pure copper layer through forging; the pure copper layer is through forging The process is connected with the titanium alloy conductive layer, making the connection between the pure copper layer and the titanium alloy conductive layer more stable.

In order to facilitate the control and coordination of the working states of the condenser 2 and the blower 3, the electric cabinet cooling device also includes a controller 5; the controller 5 is fixed on the cabinet body 1; the control terminal of the controller 5 is connected to the The blower 3 is electrically connected. The user can input different control information according to actual needs, so as to better control the operation state of the blower 3; when the heat is too much, the air circulation inside the cabinet 1 can be accelerated by increasing the operation speed of the blower 3; when the heat is low , can appropriately control and reduce the operating speed of the air blower 3, and reduce the loss of electric energy.

In the embodiment of the utility model, the working process of the electric cabinet cooling device is as follows: when the power is turned on, the blower 3 and the condenser 2 start to work; the centrifugal airflow generated by the high-speed operation of the blower 3 is used to make the high-temperature airflow inside the cabinet It flows into the condenser 2 through the air inlet of the condenser 2 and is cooled into a low-temperature air flow, and then enters into the blower 3 through the air outlet of the blower 3 and the suction port of the blower 3, and finally enters from the exhaust port of the blower 3 In the cabinet body 1, an air flow circulation process is formed, so that the heat in the cabinet body 1 is continuously cooled, thereby improving the heat dissipation performance of the heat dissipation device of the electric cabinet body.

The above description of the disclosed embodiments enables those skilled in the art to realize or use the utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the general principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention. Therefore, the present invention will not be limited to these embodiments shown herein, but will conform to the widest scope consistent with the principles and novel features disclosed herein.

Claims (4)

1. A kind of 1. electricity cabinet heat radiation device, it is characterised in that：The electricity cabinet heat radiation device include cabinet, condenser, air blower and Fixed bin；The fixed bin is arranged on the cabinet；The condenser is installed in the fixed bin, and the air blower is fixed In the fixed bin and positioned at the top of the condenser；The air inlet of the condenser is connected with the inside of the cabinet, The gas outlet of the condenser is connected with the air entry of the air blower；The inside of the exhaust outlet of the air blower and the cabinet Connection.
2. A kind of 2. electric cabinet heat radiation device as claimed in claim 1, it is characterised in that：The condenser includes housing and cooling Pipe；The housing is installed in the fixed bin；The cooling tube is fixed in the housing；One end of the cooling tube passes through The cooling liquid inlet of the housing is connected with the liquid outlet of exterior cooling source, and the other end of the cooling tube passes through the housing Cooling-oil outlet is connected with the inlet of exterior coolant.
3. A kind of 3. electric cabinet heat radiation device as claimed in claim 2, it is characterised in that：The cooling tube is copper pipe.
4. A kind of 4. electric cabinet heat radiation device as described in any one of claim 1-3 claim, it is characterised in that：The electricity cabinet dissipates Thermal has further included controller；The controller is fixed on the cabinet；The control terminal of the controller and the air blast Machine is electrically connected.