RU182489U1 - Voltage regulator housing - Google Patents

Abstract

The utility model relates to supporting structural devices and can be used for mounting a voltage stabilizer.

The task set by the developer of the new voltage stabilizer case was to increase the reliability of the case and improve operational characteristics. The technical result is to improve the natural convection of the housing of the voltage regulator. This technical result is achieved due to the cylindrical shape of the housing, which repeats the shape of the voltage stabilizer and provides the most effective for the implementation of natural convection its location inside the housing, as well as due to the presence of supports of the base and holes for the intake of cold air located in the bottom of the base and in the lower part lids and openings for the exit of heated air located in the end and upper lateral parts of the lid.

The essence of the utility model is that the voltage stabilizer body has a base and a cover, the base and the cover being made in a cylindrical shape, the bottom of the base being designed to install supports, and its upper part has openings for installing a voltage stabilizer in the center of the case, and in the bottom the base and in the lower part of the lid there are openings for intake of cold air, and in the end and upper lateral parts of the lid there are openings for the exit of heated air.

Description

The utility model relates to supporting structural devices and can be used for mounting a voltage stabilizer.

Various cases and devices are known for cooling electrical equipment.

For example, a case is known under the name "Device of natural air cooling of electrical equipment" according to the patent of the Russian Federation No. 114399 (IPC H05K 7/20; H02B 1/56). The specified body contains a main air path formed by openings in the cabinet wall for air to enter the lower compartment, a heated air outlet in the upper part of the cabinet, a partition between the compartments located with a certain slope, and a vertical screen installed above the lower compartment, in addition, the device is equipped with an additional air path formed by openings in the wall of the cabinet for air to enter the upper compartment and a guide shield installed with a certain slope, above the vertical screen and on wherein a distance, forming an outlet for connecting the main and additional air paths. This technical solution has several disadvantages. Firstly, the process of natural convection of the case is difficult due to the complexity of the design and the inconvenience of the location of the equipment inside the case. Secondly, this case is designed to cool two different elements so that the hot air of the lower element does not pass through the upper one, which also complicates the process of natural convection and makes it uncontrollable.

Known electronic circuit box according to patent GB No. 2310086 for the invention (IPC H05K 5/02; H05K 7/20). Said housing comprises a base, a plurality of side walls vertical from said base and cover, wherein the base has at least one communication hole between the inner and outer parts of the housing and the cover, at least a portion of which is inclined upward towards one of said side walls, and one of these side walls has an opening adjacent to its upper edge. This technical solution has some disadvantages. Firstly, it is not intended to provide natural convection to the voltage regulator. Secondly, the process of natural convection is complicated.

The task set by the developer of the new voltage stabilizer case was to increase the reliability of the case and improve operational characteristics. The technical result is to improve the natural convection of the housing of the voltage regulator. This technical result is achieved due to the cylindrical shape of the housing, which repeats the shape of the voltage stabilizer and provides the most effective for the implementation of natural convection its location inside the housing, as well as due to the presence of supports of the base and holes for the intake of cold air located in the bottom of the base and in the lower part cover, and openings for the exit of heated air located in the end and upper side parts of the cover.

The utility model is illustrated graphically, where:

in FIG. 1 - shows the case, a General view;

in FIG. 2 - shows the base of the housing with the assembled voltage stabilizer;

in FIG. 3 - shows the fastening of the main elements on a hairpin in a section.

The essence of the utility model is that the voltage stabilizer body has a base and a cover, and the base and cover are made of a cylindrical shape, the bottom of the base being designed to install supports, and its upper part has openings for installing a voltage stabilizer in the center of the case, and in the bottom the base and lower part of the lid have openings for intake of cold air, and in the end and upper lateral parts of the lid there are openings for the exit of heated air. In addition, the voltage stabilizer is attached to the base with brackets. Among other things, the brackets are fixed to the base using studs with brackets. In turn, the lid is fixed to the base using self-tapping screws. And the supports are made in the form of U-shaped channels. In addition, the supports are fixed to the base with a bolted connection. And in the upper part of the lid there is a hole for outputting the voltage regulator circuit breaker outward. For this reason, a screen is installed on the side of the lid.

The housing of the voltage stabilizer consists of a base 1 and a cover 2. The base 1 has a circular shape. The cover 2 is made in the form of a cylinder with an open bottom. The base 1 contains supports 3. Supports are made in the form of U-shaped channels. The supports have fixing holes 4 and 5. The base 1 in the upper part has a flange 6 with holes 7 around the perimeter. In the lower part of the cover 2 there are mating holes 8 around the perimeter. The holes 7 are used to fasten the base 1 with the cover 2. Fixing holes 4 are used to fasten the supports 3 to the base 1. Fixing holes 5 are used to fasten the supports 3 to the brackets for mounting the voltage stabilizer housing on a vertical surface. Supports 3 are designed for easy transportation of the housing. In addition, due to the presence of supports 3, the quality of free air circulation in the housing is improved due to the gap between the supporting surface and the base 1. In the bottom of the base 1 and in the lower part of the cover 2 there are holes for intake of cold air 9. In the end and upper side parts of the cover 2 holes are made for the outlet of heated air 10. At the base 1, holes 11 are made for the studs 12. Brackets 13 are attached to the studs 12 for fastening the elements of the voltage stabilizer 13. The studs 12 are designed to mount the components of the stabilizer Ator voltage on the basis of 1. In addition, stud bolts 12 are secured through the base 11 of support 3 by means of, for example, bolts. The studs 12 are attached to the base 1 with nuts and washers. The voltage stabilizer transformer is fixed with brackets 14. The brackets 14 are fixed with studs 12. Accordingly, the position of the voltage stabilizer transformers is fixed relative to the base 1, and the position of the voltage stabilizer transformer is fixed relative to the brackets 14. In addition, a screen 15 can be installed on the side of the cover 2. Screen 15 is designed to display information about the operation of the voltage regulator. In the upper part of the cover 2, a hole 16 may be formed for the output of the voltage regulator circuit breaker. The case of the voltage regulator can be made of steel.

The assembly of the voltage stabilizer is as follows. The supports 3 are fastened to the bottom of the base 1 with the help of studs 12 with nuts. A voltage regulator transformer is installed on the upper part of the base 1 and fixed with brackets 14. For this, studs are installed in the base 1 in the holes 11. The voltage stabilizer transformer is attached with brackets 14. The brackets 14 are fixed with nuts to the studs 12. Accordingly, the voltage stabilizer is fixed with brackets 14 relative to the base 1. The voltage stabilizer boards and radiators are installed above the transformer. Due to the location of the brackets 14 on the studs 12, as well as due to the location of the studs 12 with the brackets 13 on the base 1, they provide the most correct position of the voltage stabilizer inside the case, so that free space remains in the center of the case, and gaps appear near the walls of the cover 2 to ensure natural convection. Then put on the cover 2 and fix it on the base 1, for example, using self-tapping screws. Thanks to the supports 3, a gap appears between the supporting surface and the base 1. Cold air through the cold air intake 9 enters the free space in the center of the housing and into the gaps near the walls of the cover 2. Cold air cools the heated elements of the voltage regulator. Heated air begins to move up and leaves the housing through the openings for the exit of heated air 10.

The new housing provides the possibility of natural convection due to the fact that the heated air rises and the freed space is filled with air from the space surrounding the device. Thus, a continuous stream of air is created inside the device during its operation. As a result, while the stabilizer is working and its elements are heated, there is a continuous movement of air inside the housing. This cooling method is quite effective and does not use a fan in the design, which, in turn, reduces the noise level during operation, increases reliability and significantly reduces fire hazard. For the reason that the fan may become clogged with dust, it may fail, then the equipment stops cooling and may also fail. When any elements ignite, the fan spreads the flame to the other components of the device, which also increases the fire hazard.

Claims (6)

1. The housing of the voltage regulator having a base and a cover, the bottom of the base being designed with the possibility of mounting supports, openings for collecting cold air are located in the lower part of the cover, and in the end and upper side parts of the cover there are openings for the exit of heated air, characterized in that in the bottom of the base there are holes for intake of cold air, and in the base there are holes for installing a voltage stabilizer in the center of the case using studs with brackets and brackets, moreover, the studs go through the base and fasten the supports, brackets and brackets in the center of the base. 2. The housing according to claim 1, characterized in that the cover is fixed to the base using self-tapping screws. 3. The housing according to claim 1, characterized in that the supports are made in the form of U-shaped channels. 4. The housing according to claim 1, characterized in that the supports are fixed to the base using a bolted connection. 5. The housing according to claim 1, characterized in that in the upper part of the lid there is a hole for the output of the voltage regulator circuit breaker. 6. The housing according to claim 1, characterized in that a screen is installed on the side of the lid.

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