WO2022015208A1 - Dehumidifier - Google Patents

Abstract

The invention relates to the field of electrical engineering, and more particularly is intended for drying air in a transformer. Described is a dehumidifier comprising: an air-permeable housing for a moisture absorbent; a heating element; an inlet opening; an outlet opening; a reservoir; a multisensor; and a control unit, wherein the dehumidifier further contains a shell with a mesh arranged therein, said shell being made of an acrylic tube and being mounted between a flange and a clamping cover coaxially with the longitudinal axis, and a flange for fastening the dehumidifier to a transformer. Inside a housing of a drain heater having an annular drain, lies a self-adjusting heating cable which connects to the control unit, and radiating elements of a tubular electric heater are provided. The technical problem consists in extending the range of dehumidifier technology. The technical result consists in increasing the operating reliability of the dehumidifier and providing better quality drying of air in a transformer.

Description

AIR DRYER

Technical field

The invention relates to the field of electrical engineering, and in particular is intended for drying transformer air.

State of the art

An improved dehumidifier for drying air is known for oil expansion tanks used in electrical equipment, comprising: a dehumidifying container having at least one inlet for dried air and at least one outlet for dried air; absorbent means contained in said drying container and suitable for drying air supplied from outside; heating means placed inside said drying container suitable for regenerating said absorbent means; detection means operatively connected to heating means and suitable for determining the state of saturation of said absorbent means, in which said detection means comprise at least one sensor connected to said drying container and suitable for measuring the degree of drying of said absorbent means, characterized in that said the sensor contains a strain gauge tension or compression sensor that converts tension or an applied force into a change in electrical resistance, connected by means of an electrical connection to a power supply source and attached to the specified drying container by fasteners (see patent RU N ° 2463099, publ. 10.10.2012).

The reasons why the technical result cannot be achieved is that during the operation of the dryer its working substance (sorbent) gets wet, which means that the weight of the sorbent increases. The spring is adjusted to the weight of the dry sorbent. When wet, the weight of the sorbent exceeds the set mark and a sensor is triggered, which gives a signal to close this flask, that is, the reliability of the air dryer is not ensured, therefore, the reliability of the air dryer is reduced.

A device for monitoring the temperature of a transformer is known, comprising: a connected fiber optic cable with a temperature sensor at one end, and the sensor is embedded in the transformer windings; an optical converter for transmitting light to the probe and receiving light from the probe through said coupled fiber and for converting the light received into an electrical signal, the light received back from the probe being controlled by the temperature of the probe; and a controller for converting the electrical signal into temperature (see patent document US 20060251147, published 09.11.2006).

The reasons why the technical result cannot be achieved are that the principle of operation is based on determining the pressure drops during inhalation and exhalation of the transformer and concerns only the control of the temperature of the transformer. For correct operation, an ultra-sensitive pressure sensor is required. During the operation of tenov, the sorbent is destroyed and washed out of the working flask. Addition of sorbent is possible only when dismantling the device as a whole, which affects the reliability of the air dryer.

Known air demo humidifier for the expansion tank of oil electrical equipment, and the specified air demo humidifier contains: a container containing a breathable moisture absorbent body capable of regeneration by heating from a saturated state of the specified absorbent and having an air inlet on one side of the body and an air outlet on the opposite sides of the body; an oil receiver connected to said air outlet of said vessel and comprising an oil bath through which demo-moistened air from said vessel passes, said oil receiver having an outlet channel formed above said bath and connected to said electric oil expansion vessel devices; a moisture-sensing monitoring unit in said housing to indicate its moisture content; and a heater located for heating said body in said container for regenerating said absorbent, taken as a prototype (see patent document US 2003089238, publ. 15.05.2003).

The reasons why the known solutions cannot achieve the required technical result are that the dehumidification is triggered in the presence of two signs: exceeding the humidity setting and the pressure when exhaling the transformer, there is also no possibility of easy refilling of the sorbent that has collapsed during operation. The above disadvantages cause low reliability of operation and low quality of air drying of the transformer.

Disclosure of the essence of the invention

The technical problem is to expand the arsenal of technical means of the air dryer.

The technical result consists in increasing the reliability of the air dryer and the quality of drying the air of the transformer.

The technical result is achieved by the fact that the air dryer, including a breathable moisture absorbent body, a heating element, an inlet and outlet, a vessel, a multisensor, a control unit, while the air dryer contains a flask, inside which there is a grid, and the flask is made of an acrylic pipe and installed between the flange and a casing clamping coaxially to the longitudinal axis, a flange for attaching an air dryer to a transformer, a self-regulating heating cable that is connected to the control unit, heating element radiators; self-regulating thermal cable is made of a semi-conductive matrix, inside of which there are two conductive copper wires; heating element radiators are installed around the bulb axis more than one; the temperature sensor is located in the control unit; in the control unit there is a processor with the ability to connect to information networks for data transmission by means of internal networks of substations; the processor has a remote control of the air dryer; heater radiators are made in the form of a dielectric heater in an aluminum case.

Description of drawings

In FIG. 1 shows a general view of the air dryer, where:

1. Mounting flange

2. Flange pipe

3. Flange clamp nut 4. Screwdriver for clamping nut

5. Flange body

6. Multi-sensor

7. Bulb mounting flange

8. Mesh laying

9. Ten

10. Carrying pipe

11. Grid flask

12. Flask

13. Heating element radiator

14. Mesh bottom

15. Mesh cover

16. Clamping cover

17. Drain heater housing

18. Self-regulating heat cable

19. Drain housing cover

20. Hairpin

21. Pipe plug

22. Cable entry

23. Control cabinet

24. Cabinet mounting bracket

25. Indication of operating modes

26. Button for turning on the test mode

27. Control cabinet temperature sensor

28. Teng heating control cabinet

29. Control unit

The air dryer contains a flask 12, inside of which there is a grid 11, and the flask 12 is made of an acrylic pipe and installed between the flange 1 and the clamping casing 16 coaxially with the longitudinal axis, the flange for attaching the air dryer to the transformer 1, a self-regulating heating cable 18, which is connected to the control unit 29, heating element radiators 13. Implementation of the invention

Atmospheric air, entering the air dryer through holes (not shown in the figure) in the body of the drain heater 17, passes into the container of the flask 12. Inside the flask 12, a grid of the flask 11 is installed, into which silica gel is poured - a colorless, moisture-absorbing substance in the form of granules and dried. Further, through the holes in the carrier pipe 10 passes through the flange body 5, the flange pipe 2 enters the electrical equipment, for example, a transformer.

At the top of the dehumidifier in the nozzle is a multi-sensor 6, which controls the temperature and humidity. The processor is programmed so that when the silica gel gains more moisture than the set value, this is determined by the multi-sensor 6 (the first event has occurred). As soon as it happened, the system starts looking for the "exhalation" of the transformer. This is implemented in this design by changing the temperature. When the power of the transformer increases, the temperature of the air in it rises, the oil in it expands and, accordingly, pushes the heated air out of the transformer. There is a "breath". When the temperature rises for a programmed time interval, the multisensor determines "exhalation". Heaters are switched on 9. Drying takes place during the programmed time. Condensate forms on the walls of the flask 12, which flows down through the holes in the body of the drain heater 17.

To operate the device in the cold season, a self-regulating thermal cable 18 is built into the drain, which turns on and maintains the drain temperature in a positive value, which prevents the condensate from freezing.

After heating elements 9 have been worked out, the drain works for the programmed time, which allows all the condensate to drain.

The temperature sensor 27 is built into the control unit 23. When the temperature drops below +20°C, the heater 28 turns on and heats up the box. The temperature sensor allows you to maintain a positive temperature in the control cabinet, provided that the dehumidifier is connected to the network.

Claims

CLAIM

1. An air dryer for a transformer, including a breathable moisture absorbent body, a heating element, an inlet and outlet, a vessel, a multisensor, a control unit, characterized in that the air dryer contains a bulb made of an acrylic pipe installed between the flange of the bulb to the transformer and the clamping casing coaxially with the longitudinal axis, heater radiators installed around the flask, while inside the flask there is a grid filled with silica gel, inside of which there is a carrier pipe with holes, in addition, the air dryer contains a heater body with an annular drain and a lid in which a self-regulating heating cable is laid with the possibility its connection to the control unit.

2. Air dryer according to claim 1, characterized in that the self-regulating thermal cable is made of a semi-conductive matrix, inside of which there are two conductive copper wires.

3. Air dryer according to claim 1, characterized in that the temperature sensor is located in the control unit.

4. Air dryer according to claim 1, characterized in that the control unit contains a processor with the ability to connect to information networks for data transmission through the internal networks of substations.

5. Air dryer according to item 4, characterized in that the processor has a remote control of the air dryer operation.

6. Air dryer according to claim 3, characterized in that the heating element radiators are made in the form of a dielectric heater in an aluminum case.