RU145655U1 - DEVICE OF COOLING COOLING SYSTEM FOR POWER ELECTRICAL EQUIPMENT - Google Patents

Abstract

1. The device of the cooling system of the cabinet of power electrical equipment, including a dual-stream cooling system, consisting of the leading and dependent parts of the cooling system, cabinet, compartment with electronic devices, and the cabinet consists of a case, which is a rectangular parallelepiped, back, front and side parts and the back of the cabinet is made in the form of a rectangular rear panel, in which there is an outlet opening of the cabinet, which is a perforated device with a size of 2500 × 500 m, designed for the exhaust air outlet, and the front part of the cabinet is made in the form of a rectangular panel in which four vertical doors with openings are installed, and axial fans are mounted on the inside of the doors using transition parts, and air intakes with filters are installed on the outside of the door, and the power electrical equipment is located inside the cabinet and is attached to its base, the dependent parts of the system are installed on the front and rear parts of the power electrical equipment emy ohlazhdeniya.2. The device according to claim 1, characterized in that the leading part of the cooling system contains four axial fans with a total capacity of 8000 m / h, which are mounted on the front doors of the cabinet using transitional parts. 3. The device according to claim 1, characterized in that the dependent part of the cooling system includes six axial fans with a total capacity of 2700 m / h, which are mounted at the bottom of the cabinet on the frame of power electrical equipment. The device according to claim 1, characterized in that the compartment with electronic devices

Description

The utility model relates to the field of electrical engineering, in particular to general-purpose structural elements for various electrical devices and cooling by air flows, in an open cycle and can be used to build various power electrical devices.

The prior art is known for a cooling system of a cabinet of a static converter containing an individual axial fan installed in the upper part of the cabinet (see V.I. Krupovich, Handbook for the Design of Automated Electric Drives and Process Control Systems, M. Energoizdat, 1982, p. 278).

This system is closest in technical essence to the proposed utility model and adopted as a prototype.

A disadvantage of the known cooling system is its insufficient efficiency, which does not provide cooling of cabinet designs that impede the placement of compartments with electronic devices on these structures.

The objective of the utility model is to increase the efficiency of the cabinet cooling system.

The technical result is expressed in improving the cooling conditions of power electrical equipment, as well as in maintaining the temperature of the cabinet elements not more than 60 ° C.

The problem is solved, the technical result is achieved by creating a two-stream cooling system, consisting of the leading part of the cooling system (four axial fans with a total capacity of 8000 m ³ / h, which are mounted on the front door of the cabinet) and the dependent part of the cooling system (six axial fans with a common productivity of 2700 m ³ / h, which are mounted at the bottom of the cabinet on the frame of power electrical equipment).

The tests of the device for cooling the cabinet of power electrical equipment confirmed the increase in the efficiency of the cooling system of the cabinet, improving the cooling of power electrical equipment and maintaining the temperature of the cabinet elements no more than 60 ° C.

In this case, the device of the cooling system of the cabinet of power electrical equipment includes a dual-stream cooling system, consisting of the leading and dependent parts of the cooling system, cabinet, compartment with electronic devices, the cabinet consisting of a case, which is a rectangular parallelepiped, back, front and side parts, and the back of the cabinet is made in the form of a rectangular rear panel, in which there is an outlet opening of the cabinet, which is a perforated device with a size of 250 0 × 500 mm, designed for the exhaust air outlet, and the front part of the cabinet is made in the form of a rectangular panel in which four vertical doors with openings are installed, moreover, axial fans are mounted on the inner side of the doors with transition parts, and on the outer part of the door air intakes with filters are installed, and power electrical equipment is placed inside the cabinet and attached to its base, dependent parts are installed on the front and rear parts of power electrical equipment and cooling systems.

In addition, in the proposed device:

- the leading part of the cooling system contains four axial fans with a total capacity of 8000 m ³ / h, which are mounted on the front doors of the cabinet using transitional parts;

- the dependent part of the cooling system includes six axial fans with a total capacity of 2700 m ³ / h, which are mounted at the bottom of the cabinet on the frame of power electrical equipment;

- a compartment with electronic devices is installed on the doors of the front of the cabinet, which ensures the convenience of their maintenance and operation;

- the distance between the end surfaces of the fans of the leading and dependent parts of the cooling system is, for example, 400 mm.

The utility model is illustrated in the drawing, which shows a diagram of the device cooling system of the cabinet of power electrical equipment, where:

1 - the leading part of the cooling system;

2 - wardrobe;

3 - power electrical equipment;

4 - cooling air flow;

5 - the first secondary air flow;

6 - dependent part of the cooling system;

7 - the second secondary air flow;

8 - cabinet cavity;

9 - compartment with electronic devices;

10 - cabinet outlet;

L is the distance between the end surfaces of the fans of the leading and dependent parts of the cooling system.

The utility model provides for the creation of a dual-stream cooling system, consisting of the leading part of the cooling system (four axial fans with a total capacity of 8000 m ³ / h, which are mounted on the front door of the cabinet) and the dependent part of the cooling system (six axial fans with a total capacity of 2700 m ³ / hour, which are mounted at the bottom of the cabinet on the frame of power electrical equipment).

The leading part of the cooling system 1 includes four axial fans with a total capacity of 8000 m ³ / h, which are mounted on the front doors of the cabinet using transitional parts.

Cabinet 2 is designed to protect the power electrical equipment located in it from the penetration of solids with a diameter of more than 2.5 mm. Cabinet 2 consists of a body, which is a rectangular parallelepiped, the rear, front and side parts.

The back of the cabinet 2 is made in the form of a rectangular rear panel. In the rear part there is an outlet opening of the cabinet 10, which is a perforated device with a size of 2500 × 500 mm designed to exit the exhaust air.

The front part of the cabinet 2 is made in the form of a rectangular panel in which four vertical doors with holes are installed, and, on the inner side of the doors, axial fans are mounted using transitional parts. On the outside of the door there are air intakes with filters.

Power electrical equipment 3 is placed inside the cabinet 2 and attached to its base. On the front and rear (not shown in the diagram) parts of the power electrical equipment 3 are installed dependent parts of the cooling system.

The cooling air stream 4 is created by the fans as the leading part of the cooling system 1. The cooling air stream 1 in the cabinet is divided into two streams 5 (the first secondary air stream) and 7 (second secondary air stream).

The first secondary air stream 5 is taken by fans by the dependent part of the cooling system 6 for cooling the power electrical equipment 3. The second secondary air stream 7 is directed to the cooling of the cabinet body 2, which ensures the achievement of the technical result, which is expressed in improving the cooling conditions of the power electrical equipment, as well as in maintaining temperature of cabinet elements no more than 60 ° C.

The dependent part of the cooling system 6 includes six axial fans with a total capacity of 2700 m / h, which are mounted at the bottom of the cabinet on the frame of power electrical equipment.

The compartment with electronic devices 9 is installed on the doors of the front of the cabinet, which ensures the convenience of their maintenance and operation.

The distance between the end surfaces of the fans of the leading and dependent parts of the cooling system L is, for example, 400 mm.

The work of the proposed device.

The cooling air is taken from the external environment by four fans by the leading part of the cooling system 1, creating a cooling air stream 4, which is divided into two secondary streams. The first secondary air stream 5 is directed in the direction of the cooling system dependent part 6, consisting of three axial fans with a total capacity of 2700 m ³ / h. Having passed the distance L between parts 1 and 6, the first secondary air stream 5 is taken by the fans of the dependent part 6 of the cooling system, after which sent to cool the power electrical equipment 3 and mixed with the second secondary air stream 7. The distance L between parts 1 and 6 is determined from the characteristics of the flows 4 and 5 so that the excess the total pressure in the first secondary air stream 5 at the inlet to the dependent part of the cooling system 6 was from 20 to 50 Pa. The second secondary air stream 7 is directed into the cavity of the cabinet 8 between the structure of the cabinet 2 and the power electrical equipment 3. The cooling air stream 4, moving under the action of high pressure, cools the power electrical equipment 3, the walls of the cabinet 2 and the compartments with electronic devices 9, and then leaves from the cabinet through the cabinet outlet 10.

Thus, the claimed device design increases the efficiency of the cabinet cooling system, improves the cooling of power electrical equipment and maintains the temperature of the cabinet elements no more than 60 ° C.

It should be noted that the claimed utility model is not limited to the particular cases of its implementation disclosed in the description. Other forms of execution of the considered device are also possible in the amount of the essential features of the claimed utility model.

Claims (5)

1. The device of the cooling system of the cabinet of power electrical equipment, including a dual-stream cooling system, consisting of the leading and dependent parts of the cooling system, cabinet, compartment with electronic devices, and the cabinet consists of a case, which is a rectangular parallelepiped, back, front and side parts and the back of the cabinet is made in the form of a rectangular rear panel, in which there is an outlet opening of the cabinet, which is a perforated device with a size of 2500 × 500 m, designed for the exhaust air outlet, and the front part of the cabinet is made in the form of a rectangular panel in which four vertical doors with openings are installed, and axial fans are mounted on the inside of the doors using transition parts, and air intakes with filters are installed on the outside of the door, and the power electrical equipment is located inside the cabinet and is attached to its base, the dependent parts of the system are installed on the front and rear parts of the power electrical equipment emy cool. 2. The device according to p. 1, characterized in that the leading part of the cooling system contains four axial fans with a total capacity of 8000 m ³ / h, which are mounted on the front doors of the cabinet using transitional parts. 3. The device according to p. 1, characterized in that the dependent part of the cooling system includes six axial fans with a total capacity of 2700 m ³ / h, which are mounted at the bottom of the cabinet on the frame of power electrical equipment. 4. The device according to claim 1, characterized in that the compartment with electronic devices is installed on the doors of the front of the cabinet, which ensures the convenience of their maintenance and operation. 5. The device according to claim 1, characterized in that the distance between the end surfaces of the fans of the leading and dependent parts of the cooling system is, for example, 400 mm.