RU158897U1 - FREQUENCY CONVERTER INVERTER COOLING COOLING SYSTEM DEVICE - Google Patents

Abstract

1. The cooling system device of the inverter cabinet of the medium-frequency frequency converter, comprising a forced air cooling system with pressure fans, guide ducts and an inverter cabinet with power and low-current electronic devices of the cabinet control system, characterized in that the forced air cooling cooling system with pressure fans is made with two independent cooling circuits: the first circuit for cooling the power unit and the second circuit for cooled low-current electronic devices, moreover, the inverter cabinet with power and low-current electronic devices is divided into insulated sections for separating air flows, power electrical equipment is divided into separate power units mounted on the wall separating the compartments, the first circuit contains guide ducts made in such a way that form a supply of injected air directly to the radiators of the power electronic devices of the power units, forcing fans of the cooling circuits have different power and are installed separately. 2. The device according to claim 1, characterized in that the power units are installed in the openings on the wall separating the sections and are arranged in rows — for example, three units in height of the cabinet and from four to nine in width of the cabinet depending on the power and rated voltage of the converter, coolers (radiators) of power units are located on one side of the wall in the first cooling circuit, and low-current electronic devices of units are on the other side of the wall in the second circuit, while the power units are not

Description

The utility model relates to the field of electrical engineering, in particular to structural elements of cabinet design for general use for various electrical devices with cooling equipment by air flows with forced ventilation, and can be used to build various electrical devices.

A device is known for cooling the cabinet of power electrical equipment with a dual-stream cooling system (RU 145655 U1, published on September 27, 2014), which is the closest analogue to the claimed utility model, including a dual-stream cooling system, consisting of leading and dependent parts of the cooling system, cabinet, compartment with electronic devices, moreover, the cabinet consists of a body, which is a rectangular parallelepiped, the rear, front and side parts, and the back of the cabinet is made in the form of a straight an angular rear panel, in which there is an outlet opening of the cabinet, which is a perforated device with a size of 2500 × 500 mm, designed to exit the exhaust air, and the front of the cabinet is made in the form of a rectangular panel in which four vertical doors with openings are installed, and on the inside axial fans are mounted with the help of transitional parts, and air intakes with filters are installed on the outer part of the door, and power electrical equipment is located inside three cabinets and is attached to its base, dependent parts of the cooling system are installed on the front and rear parts of the power electrical equipment.

The disadvantages of the analogue are the low efficiency of the cooling system of the cabinet with electrical equipment associated with the need to install high-performance fans, as well as the difficulty of maintenance due to the need for regular monitoring and replacement of filter elements of the air intakes.

The objective of the utility model is to increase the efficiency and simplify maintenance of the cooling system of the cabinet with electrical equipment.

The technical result is the achievement of optimal cooling conditions for both power and low-current electrical equipment of the cabinet, which have different limitations in maintaining the temperature of the elements being cooled and the air flow necessary for their cooling.

The technical result is achieved by the fact that in the cooling system device of the inverter cabinet of the medium-voltage frequency converter, including the forced air cooling system with forcing fans, the ducting ducts and the inverter cabinet with power and low-current electronic devices of the cabinet control system, the forced air cooling cooling system with forcing fans is made with two independent cooling circuits, the first circuit for cooling the power unit and the second circuit - for cooling low-voltage electronic devices, and the inverter cabinet with power and low-current electronic devices is isolated sections for separating air flows, power electrical equipment is divided into separate power blocks mounted on the wall separating the compartments, the first circuit contains guide ducts made in this way that form the supply of injected air directly to the radiators of power electronic devices of power units, forcing fans to nturov have different cooling capacity and installed separately. Power blocks are installed in the openings on the wall separating the sections, and make up rows, for example, three blocks along the height of the cabinet and from four to nine across the width of the cabinet depending on the power and rated voltage of the converter, and the coolers (radiators) of the power blocks are on one side walls in the first cooling circuit, and low-current electronic devices of the blocks on the other side of the wall in the second circuit, while the power blocks do not contain cooling fans, and the supply of cooling air in the first cooling circuit be made separately on each vertical block row on the common guide duct provided with outlet openings opposite each cooler (radiator) of the power unit. The first circuit contains forcing fans installed in the upper part of the cabinet and supplying cooling air to the air ducts of the primary circuit, the number of which is determined by the number of air ducts for the vertical rows of power units, with each capacity, for example, from 1000 to 3000 m ³ / h, depending on the power of the converter medium voltage frequencies. The second circuit contains pressure fans installed on the doors of the front of the cabinet, designed to create excess pressure inside the cabinet and cool low-voltage electronic devices, with a capacity of, for example, no more than 20% of the capacity of the primary fans. The compartment with low-current electronic devices of the cabinet control system is located in a separate section on the swing frame installed in front of the doors in the front of the cabinet.

The second circuit contains pressure fans installed on the doors of the front of the cabinet, designed to create excess pressure inside the second circuit section and cool low-voltage electronic devices, with a capacity of, for example, no more than 20% of the capacity of the primary fans. Low-current electronic devices of the control system of the inverter cabinet are located in a separate compartment on the swing frame installed in front of the doors in the front of the cabinet.

The inventive device of the cooling system of the inverter cabinet of the frequency converter includes a forced air cooling system with blowing fans, guide ducts and an inverter cabinet with power and low-current electronic devices of the power unit and inverter control systems, while the forced air cooling system with blowing fans is made with two independent circuits cooling, the first circuit - for cooling the power part and the second circuit - for cooling low-current ele electronic devices, moreover, the inverter cabinet with power and low-current electronic devices is divided into isolated sections for separating air flows, power electrical equipment is divided into separate power units mounted on the wall separating the cabinet sections, the first circuit contains guide ducts made in such a way that they form the supply of forced air directly to the radiators of the power electronic devices of the power units, the blowing fans of the cooling circuits are different power and installed separately.

In addition, in the proposed device:

- power blocks are installed in the openings on the wall separating the sections, and make up rows, for example, three blocks in height of the cabinet and from four to nine in width of the cabinet depending on the power and rated voltage of the medium-frequency frequency converter, and the radiators of the power blocks are one by one side of the wall in the first cooling circuit, and low-current electronic devices of the blocks on the other side of the wall in the second circuit, while the power blocks do not contain cooling fans, and the supply of cooling air in the first the cooling circuit is carried out separately for each vertical row of blocks along a common guide duct equipped with outlet openings opposite each radiator of the power block;

- the first circuit contains forcing fans installed in the upper part of the cabinet and supplying cooling air to the ducts of the first circuit, the number of which is determined by the number of vertical rows of power units, with each capacity, for example, from 1000 to 3000 m ³ / h depending on the power of the frequency converter medium voltage;

- the second circuit contains a blower fan mounted on the doors of the front of the cabinet, designed to create excess pressure inside the section of the second loop and cool low-voltage electronic devices, with a capacity of, for example, no more than 20% of the capacity of the blower fan of the first circuit;

- low-current electronic devices of the control system of the inverter cabinet are located in a separate compartment on the swing frame installed in front of the doors in the front of the cabinet.

The utility model is illustrated by drawings.

In FIG. 1 is a general view of the device of the cooling system of the cabinet of the inverter of the frequency converter (side view in section along one of the vertical rows of power units).

In FIG. 2 is a general view of a separate power unit mounted on a wall dividing the cabinet sections with wall elements and a guide duct. The following notation is used in the figures:

1 - cabinet inverter frequency converter;

2 - power blocks of the inverter;

3 - power electronic devices with radiators;

4 - compartment with low-current electronic devices of the power unit control system;

5 - compartment with low-current electronic devices of the control system of the inverter cabinet;

6 - a blower fan of the first cooling circuit;

7 - a blowing fan of the second cooling circuit;

8 - guide duct of the first cooling circuit of power electronic devices of power units;

9 - air flow directions of the first cooling circuit;

10 - direction of air flow of the second cooling circuit;

11 - wall dividing the cabinet sections;

12 - section of the cabinet of the first cooling circuit;

13 - section of the cabinet of the second cooling circuit;

14 - outlet openings (nozzles) for supplying cooling air from the duct to the radiators of power electronic devices of power units;

15 - filters with a low degree of air purification;

16 - filter with a high degree of air purification.

The cooling system device of the inverter cabinet of the frequency converter comprises an inverter cabinet of pos. 1 with power units of the inverter pos. 2, including power electronic devices with radiators pos. 3 and the compartment with low-current electronic devices pos. 4 power unit control systems, compartment with low-current electronic devices, pos. 5 inverter control systems with forced air cooling system with forcing fans pos. 6 and pos. 7 and guide ducts pos. 8. Forced air cooling system with forcing fans pos. 6 and pos. 7 is made with two independent cooling circuits with air flow directions indicated by solid arrows pos. 9 for the first cooling circuit and the dashed arrows in pos. 10 for a second cooling circuit. Inverter cabinet pos. 1 to form two independent cooling circuits pos. 9 and pos. 10 is divided by the wall pos. 11 into two isolated sections, pos. 12 and pos. 13. In the first section, pos. 12 with forcing fans pos. 6 and guide ducts pos. 8, the first cooling circuit pos. 9, designed for cooling power electronic devices pos. 3, located in the power blocks pos. 2. In the second section, pos. 13, with a blower pos. 7, a second cooling circuit pos. 10, designed for cooling low-voltage electronic devices pos. 4 power unit control systems and pos. 5 inverter control systems

The power electronic equipment of the inverter cabinet is structurally divided into separate power units, pos. 2, which are installed in the openings on the wall pos. 11 dividing the cabinet into sections, so that the radiators pos. 3 power electronic devices of power blocks pos. 2 are located on one side of the wall pos. 11 in the first section of the pos. 12, and the compartment pos. 4 with low-current electronic devices of the power unit control system on the other side of the wall pos. 11 in the second section, pos. 13. In the inverter cabinet pos. 1 power blocks pos. 2 are rows, for example, three blocks in height and from four to nine in width of the inverter cabinet pos. 1. The number of power blocks pos. 2 is determined depending on the power and rated voltage of the converter. Each vertical row of power blocks pos. 2 contains its own blower fan pos. 6 and air duct pos. 8, the number of which is determined by the number of vertical rows of power blocks pos. 2. Forcing fans pos. 6 of the first cooling circuit, pos. 9 are installed in the upper part of the cabinet pos. 1 and supply cooling air to the ducts pos. 8 of the first cooling circuit, pos. 9, while the power blocks pos. 2 do not contain cooling fans, and cooling air is supplied directly to the radiators pos. 3 power electronic devices of power blocks pos. 2 with a common for each vertical row of power blocks pos. 2 ducts pos. 8 through the outlet (nozzle) pos. 14. Nozzles are located opposite each radiator pos. 3 power blocks pos. 2. The performance of each discharge fan pos. 6, the first cooling circuit pos. 9 is, for example, from 1000 to 3000 m ³ / h, depending on the power of the medium-frequency frequency converter.

The second cooling circuit pos. 10 contains a blower fan pos. 7 mounted on the front door of the cabinet pos. 1, designed to create excess pressure inside the second section of the pos. 13 and the formation of the second cooling circuit pos. 10 used for cooling low-voltage electronic devices pos. 4 power control systems pos. 2 and low-current electronic devices pos. 5 inverter control systems. In the second section, pos. 13 compartment with low-current electronic devices, pos. 5, the inverter control system is located on a swing frame installed in front of the doors in front of the cabinet pos. 1, and has a hole for communication with the air flow pos. 10 second section pos. 13. Forcing fan pos. 7 of the second cooling circuit, pos. 10 due to the low heat of low-current electronic devices pos. 4 and pos. 5 has a capacity, for example, not more than 20% of the total capacity of the blowing fans pos. 6 of the first cooling circuit, pos. 9.

The operation of the first cooling circuit pos. 9 is as follows. Pressure fan pos. 6 supplies cooling air through the filter pos. 15 with a low degree of purification in the common for each vertical row of power blocks pos. 2 duct pos. 8 supply of cooling air. Common duct pos. 8 allows one blower fan pos. 6 for cooling radiators pos. 3 three vertically located power blocks pos. 2, which reduces the overall power consumption of the device.

From the common duct pos. 8 supply of chilled air through nozzles pos. 14, located directly at the cooled surface of the radiators pos. 3 power blocks pos. 2, the injected air is supplied to the ribbed surface of the radiators pos. 3 power blocks pos. 2. Nozzles pos. 14 are located in the center of the radiators pos. 3 and provide uniform blowing of its ribbed surface. Direct forced airflow of radiators pos. 3 allows to reduce the thermal resistance "radiator surface - environment".

Since in the first section pos. 12 inverter cabinet pos. 1 there are no low-current electronic devices, this makes it possible to use a filter pos. 15 with a low degree of air purification. Using the filter pos. 15 with a low degree of air purification allows the use of a less efficient fan pos. 6, which reduces its cost, energy consumption and lowers noise.

The operation of the second cooling circuit pos. 10 is carried out in the following way.

Before the blower fan pos. 7 of the second cooling circuit, pos. 10 the filter pos. 16 with a high degree of air purification to prevent dust from entering the second section of pos. 13 inverter cabinet pos. 1, with low-current electronic devices pos. 4 power unit control systems and pos. 5 inverter control systems. Pressure fan pos. 7 second circuit pos. 10 of the cooling system forms the position indicated by dashed arrows. 10 air flow and creates excess pressure in the second section of the pos. 13 cabinet pos. 1 with low-current electronic devices pos. 4 and pos. 5 in order to exclude getting into the second section pos. 13 dust.

Heated air is discharged by the air flows of the cooling circuits pos. 9 and pos. 10 from the cabinet pos. 1 in its upper part.

By creating a system of forced air cooling of the inverter cabinet pos. 1 with forcing fans pos. 6 and pos. 7 and guide ducts pos. 8 with two independent cooling circuits pos. 9 and pos. 10, the first circuit pos. 9 for cooling power electronic devices pos. 3 and the second circuit pos. 10 for cooling low-current electronic devices pos. 4 power unit control systems and pos. 5 inverter control systems, with the separation of the inverter cabinet pos. 1 into two isolated sections, pos. 12 and pos. 13 for the separation of air flows, the implementation of the guide ducts pos. 8 so that they form a supply of injected air directly to the radiators pos. 3 power electronic devices of power blocks pos. 2, and forcing fans pos. 6 and pos. 7 cooling circuits pos. 9 and pos. 10 have different capacities and are installed separately, the efficiency of the cabinet cooling system pos. 1, the cooling of the power and operating conditions of low-current electrical equipment is improved, it is possible to maintain the required different temperature for each cooling circuit, pos. 9 and pos. 10 and simplifies maintenance of ventilation equipment.

The tests of the device for cooling the cabinet of the inverter of the frequency converter confirmed an increase in the efficiency of the cooling system of the cabinet, improvement of the cooling conditions of power and low-current electrical equipment while maintaining the temperature on the radiators of power electronic devices not more than 75 ° C, providing the calculated crystal temperature of the devices not more than 90 ° C and temperature cabinet elements no more than 60 ° C.

Claims (5)

1. The cooling system device of the inverter cabinet of the medium-frequency frequency converter, comprising a forced air cooling system with pressure fans, guide ducts and an inverter cabinet with power and low-current electronic devices of the cabinet control system, characterized in that the forced air cooling cooling system with pressure fans is made with two independent cooling circuits: the first circuit for cooling the power unit and the second circuit for cooled low-current electronic devices, moreover, the inverter cabinet with power and low-current electronic devices is divided into insulated sections for separating air flows, power electrical equipment is divided into separate power units mounted on the wall separating the compartments, the first circuit contains guide ducts made in such a way that form a supply of injected air directly to the radiators of the power electronic devices of the power units, forcing fans of the cooling circuits have different power and are installed separately. 2. The device according to claim 1, characterized in that the power units are installed in the openings on the wall separating the sections and are arranged in rows — for example, three units in height of the cabinet and from four to nine in width of the cabinet depending on the power and rated voltage of the converter moreover, the coolers (radiators) of the power units are located on one side of the wall in the first cooling circuit, and the low-current electronic devices of the units are located on the other side of the wall in the second circuit, while the power units do not contain cooling fans, and the cooling supply air in the first cooling circuit is carried out separately for each vertical row of blocks along a common guide duct equipped with outlet openings opposite each cooler (radiator) of the power unit. 3. The device according to claim 1, characterized in that the first circuit contains forcing fans installed in the upper part of the cabinet and supplying cooling air to the ducts of the primary circuit, the number of which is determined by the number of ducts for the vertical rows of power units, with each capacity, for example, from 1000 to 3000 m ³ / h depending on the power of the medium-frequency frequency converter. 4. The device according to p. 1, characterized in that the second circuit contains blowing fans installed on the doors of the front of the cabinet, designed to create excess pressure inside the cabinet and cool low-voltage electronic devices with a capacity of, for example, not more than 20% of the capacity of the blowers of the primary circuit. 5. The device according to claim 1, characterized in that the compartment with low-current electronic devices of the cabinet control system is located in a separate section on a swing frame mounted in front of the doors in front of the cabinet.

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