RU2304256C1 - Heating appliance - Google Patents

Abstract

FIELD: heat supply systems.

SUBSTANCE: heating appliance comprises housing made of individual sections or groups of the sections provided with top and bottom through openings and heat-transfer agent circulating inside the housing. The top openings is plugged from both sides. The heating appliance is provided with heating unit and temperature control unit that are arranged diametrically opposite and threadedly mounted in the bottom opening. The heat-transfer agent circulates in the looped circuit inside the housing.

EFFECT: enhanced efficiency.

4 cl, 3 dwg

Description

The invention relates to heat engineering, in particular to heating devices of heating systems, and is intended for heating residential and non-residential premises.

Known heating device - radiator MS - 140M - 500-0.9-7 GOST 8690, passport Рд 59Б.00.000 PS, adopted as a prototype, consisting of individual sections or groups of sections having channels through which the coolant (water) circulates.

The disadvantage of the heating device is that the heating of the radiator coolant can be carried out from heat sources (boiler or heating mains) through pipelines.

The objective of the invention is to create an autonomous heating device.

The specified technical result is achieved by the fact that the heating device, comprising a housing in the form of separate sections or groups of sections with upper and lower through holes, a coolant circulating in the housing, the upper hole on one side being plugged with a plug with a threaded hole of pipe thread F15, is equipped with a heating device and a temperature controller, which are installed diametrically opposite and fixed by means of a threaded connection in the lower hole, and the coolant circulates in a closed m contour of the housing.

At the same time, a Mayevsky crane is installed in one of the plugs, and in another pressure gauge (during commissioning) or a blank plug with an external thread Ф15 (during operation).

In this case, the heating device contains a housing with a heating element sealed in it, and a temperature controller - a housing with a sensor hermetically mounted in it - a temperature switch.

The housing of the heating element and the housing of the temperature controller are made in the form of radiator plugs.

The proposed heater is illustrated by the drawings shown in figures 1-3.

Figure 1 shows a General view of the heating device.

Figure 2 is a General view of the heating device.

Figure 3 is a General view of the temperature controller.

The heater includes a housing in the form of sections 1 (or groups of sections) with upper 2 and lower 3 through holes. The upper through hole 2 from one side and the other is drowned by plugs 4,5. In the lower through hole 3, a heating device and a temperature controller are diametrically opposed and fixed by means of a threaded connection.

The heating device consists of a housing 6 in the form of a radiator plug with a threaded hole through which an insulator 7, a heating element 8, is tightly mounted to the housing 6, which is hermetically mounted in the insulator 7 and has conclusions for connection to a 220V network (not shown).

The temperature controller consists of a casing 9 in the form of a radiator plug with a threaded hole through which the casing 10 of the sensor - temperature relay 11 is hermetically attached to the casing 9.

The housing 1 of the heater is filled with coolant (distilled water or special non-freezing liquid), which circulates in a closed circuit of the housing.

The heater and temperature controller are fixed in hole 3 through paronite gaskets (not shown).

Plugs 4 and 5 are made with the possibility of installing a Mayevsky crane in one of them, in another pressure gauge (during commissioning) or plugs (during operation), (not shown).

The heater operates as follows.

In the assembled form, the heater is filled with coolant through the hole of the upper plug until the radiator is completely filled and a pressure gauge is screwed into this hole. The heating device is connected to a 220 V network. When current passes through the heating element, the heat carrier is heated, which, expanding in volume, creates excessive pressure in the heating device. Overpressure is regulated by a Majewski tap.

When adjusting the heater at a maximum coolant temperature of 80 ° C, an overpressure of not more than 0.6 MPa is established, which eliminates the possibility of pressure above this value. After commissioning, the working temperature of the coolant is set from 65 ° to 75 ° C by a relay - a temperature regulator. The heat carrier, when heated, provides a temperature increase on the external circuits of the heater, which give off heat to the room, warming it to a predetermined temperature. Sensor - temperature switch ensures constant temperature of the coolant. After commissioning, a blind plug with an external pipe thread F15 is installed instead of a pressure gauge.

The heater can be manufactured using a standard radiator as housing 1. The heater and temperature controller can be made as follows.

Case 6 - in the form of a radiator plug with pipe right-hand thread ⌀32 and with a hole with pipe-thread ⌀20, through which an insulator 5 is tightly attached to the case 6, in which small-sized heating elements (tubular heating elements), open heating elements (electrodes) are mounted , plate elements (according to Japanese technology).

The casing 9 is in the form of a radiator plug with a left pipe thread 32 and with an opening with a pipe thread M12 × 1.5, through which the casing 10 of the sensor, temperature sensor TAD-101, is tightly attached to the body 9.

Claims (4)

1. A heating device comprising a housing in the form of separate sections or groups of sections with upper and lower through holes, a coolant circulating in the housing, the upper holes being plugged with plugs on both sides, characterized in that it is equipped with a heating device and a temperature controller, which are installed diametrically opposite and secured by a threaded connection in the lower hole, and the coolant circulates in a closed loop of the housing. 2. The heater according to claim 1, characterized in that one of the plugs is made with the possibility of installing a Mayevsky crane in it, and the other with the possibility of installing a pressure gauge in it during commissioning or a blank plug during operation. 3. The heating device according to claim 1, characterized in that the heating device comprises a housing with a heating element hermetically mounted in it, and a temperature controller - a housing with a sensor hermetically mounted in it - a temperature relay. 4. The heater according to claim 3, characterized in that the housing of the heating element and the housing of the temperature controller are made in the form of radiator plugs.

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