RU74695U1 - RADIATOR FOR CENTRAL WATER HEATING SYSTEMS WITH THERMAL CONTROL DEVICE - Google Patents

Abstract

1. A radiator for central water heating systems, comprising a node for lower connection to the system, sections with vertical and horizontal pipelines interconnected by nipples, and a temperature control device that automatically regulates the flow of heat carrier through the radiator and connected to the radiator through a connecting pipe, characterized in the fact that the vertical pipe of the extreme section of the radiator, which is equipped with an airtight upper part, is used as a connecting tube risposobleniem with a channel for passage of coolant and a seat for the connection of the thermostatic device and end sections separated from other sections of the bottom radiator nippelem.2 deaf. The radiator according to claim 1, characterized in that the thermostatic device comprises a sensor, a bellows, a tuning spring and a valve.

Description

The utility model relates to heating radiators with an air temperature regulator in rooms, in particular to radiators with clandestine piping.

Known temperature control unit installed in the mains of the flow of the coolant between the heating system and the heating device (RF Certificate No. 222528, publ. 10.04.2002, F24H 3/06). A heating convector including a heat exchanger mounted in a casing with a thermostatic valve is also known. In this case, the heat exchanger is made of a bent pipe having at least one inlet and one outlet straight pipe sections on which heat exchange elements are fixed. Between the straight sections there is a radius transition, on which a thermostatic valve is installed. The thermostatic valve automatically or by means of manual control regulates the flow rate of the coolant and, accordingly, the temperature of the heat exchanger (RF Patent No. 2272224, publ. 20.10.2005, F24H 3/00).

The disadvantage of the above structures is the impossibility of their use for radiators with a lower connection to the central heating network when underground piping is carried out.

The closest technical solution is a radiator with a lower connection to the heating system, in which the thermostatic device is installed using external connecting headsets (see the Catalog of radiator temperature controllers and locking and connecting elements from Danfoss. VD.53.P10.50 Danfoss 04/2004, p. 35). The disadvantage of such a system for connecting a thermostatic device is the presence of additional structural elements outside the sectional radiator case. This complicates the design, increases the weight of the radiator as a whole. This reduces the convenience of placing such radiators in the premises.

The technical result achieved by the implementation of the proposed utility model is to reduce the material consumption and weight of the radiator while maintaining accuracy and a wide range of temperature control. Besides

Moreover, the number of joints requiring sealing is reduced, which increases the reliability of the heating radiator.

The technical result is achieved by the fact that in the radiator for central water heating systems containing a lower connection to the system, sections with vertical and horizontal pipelines are interconnected using nipples and a temperature control device that provides automatic control of the flow of heat carrier through the radiator and connected to the radiator through the connecting pipe, ACCORDING TO THE USEFUL MODEL, the vertical pipe of the end section of the radiator is used as the connecting pipe ra, which it is equipped at the top of a sealed device with a channel for passage of coolant and a seat for the connection of the thermostatic device and end sections separated from other sections of the radiator from below a hollow nipple.

The temperature-regulating device of the radiator, which provides automatic control of the flow of coolant, may contain a sensor, a bellows, a tuning spring and a valve.

The possibility of implementing the claimed technical solution, characterized by the above set of features, as well as the possibility of realizing the purpose can be confirmed by the description of the design of the radiator, which is illustrated by the drawings.

Figure 1 presents a front view of a sectional radiator containing a temperature control device (with a cut in the location of the two extreme sections).

Figure 2 presents the temperature control device.

The radiator contains an extreme section 1 and subsequent sections 2 with horizontal pipelines 3. The sections are connected to each other from above and below by nipples 4 (Fig. 1). The sections contain vertical pipelines, in particular, section 1 contains a vertical pipe 5 sealed in the upper part with a device 6 to which a temperature control device 7 with a temperature setting handle 8 is connected. A lower connection unit to the central water heating system 9 with an inlet is located below the radiator 10 and output 11 nozzles for the coolant. Between these nozzles at the junction of the end section 1

with the next section, a dead nipple 12 is installed in order to exclude the ingress of coolant at the outlet of the radiator.

The device 6 has a channel for the passage of coolant 13 and a seat 14 for attaching a thermostatic device (figure 1). The temperature control device includes a sensor 15, a bellows 16, a tuning spring 17 and a valve 18 (figure 2).

The principle of operation of a radiator with a temperature control device is as follows. The consumer sets the rotation of the knob 8 to the desired temperature in the room. The sensor of the temperature control device 15 senses a change in ambient temperature. The bellows 16 and the sensor 15 are filled with volatile liquid and its vapor. The pressure in the bellows is balanced by the compression force of the tuning spring 17. As the temperature of the air around the sensor rises (compared to the set by the consumer), part of the liquid evaporates and the vapor pressure in the bellows increases. In this case, the bellows increases in volume by moving the valve cone 18 in the direction of closing the opening for the coolant duct to the radiator until an equilibrium is reached between the spring force and vapor pressure. In this case, it is possible that the room will be very hot, the valve cone will completely block the hole for the coolant duct, and the radiator will cease to function at all. This is an important advantage in terms of coolant economy.

When the air temperature decreases (compared to the set by the consumer), the vapors condense, the pressure in the bellows drops, which leads to a decrease in its volume and the valve cone moves towards the opening of the coolant duct opening to a position at which the system will again establish equilibrium.

Thus, it is proposed in radiators with an underground gasket of supply pipelines to use an extreme radiator section equipped with a special device instead of external, rather bulky headsets. This reduces material consumption, the weight of the radiator, ensures its compactness, and also increases reliability by reducing the number of connections requiring sealing. In this case, the use of temperature-controlled

devices with automatic control of coolant flow, provides accuracy and a wide range of temperature control is not worse than in the prototype.

Claims (2)

1. A radiator for central water heating systems, comprising a node for lower connection to the system, sections with vertical and horizontal pipelines interconnected by nipples, and a temperature control device that automatically regulates the flow of heat carrier through the radiator and connected to the radiator through a connecting pipe, characterized in the fact that the vertical pipe of the extreme section of the radiator, which is equipped with an airtight upper part, is used as a connecting tube risposobleniem with a channel for passage of coolant and a seat for the connection of the thermostatic device and end sections separated from other sections of the radiator from below a hollow nipple. 2. The radiator according to claim 1, characterized in that the thermostatic device comprises a sensor, a bellows, a tuning spring and a valve.