RU2293930C2 - Heating device for heating system - Google Patents

Abstract

FIELD: heat power engineering.

SUBSTANCE: heating device comprises heat exchanger that is provided with varying surface area and is composed of unmovable and movable radiators, telescopic tubes, and sealing devices. The radiators are separated by baffles and interconnected through the telescopic tubes mounted in a staggered order. The greater diameter of the tubes is provided with finning plates, and movable radiator moves along the guide between the arresters by means of an actuator controlled by the temperature difference relay.

EFFECT: enhanced efficiency.

1 dwg

Description

The invention relates to a power system and can be used in heating systems of buildings and structures.

A heat exchanger is known (SU 160223, 06/07/1985), containing chambers for heat transfer and heat transfer media separated by a composite tube sheet, in which heat pipe bundles are fixed with an additional bundle of rods installed in the annulus with the possibility of movement by means of a drive, while the camera for the heat-absorbing medium is equipped with an electrocontact pressure gauge installed at the input of the latter, connected through a regulator to a drive for moving the beam of rods.

The disadvantage of this heat exchanger is the complexity of the design, the high complexity of manufacturing and the impossibility of its use in heating systems of buildings.

A heat exchanger is known (SU 1101661, 07/07/1984) containing chambers for heat transfer and heat transfer media separated by a composite tube sheet with guides in which a stack of heat pipes is fixed, and to intensify heat transfer by controlling the temperature of the heat transfer medium, the tube sheet is equipped with guides and the package is installed in them with the possibility of axial movement by means of a drive, and the chamber of the heat-transfer medium at the outlet is equipped with an electrocontact thermometer connected through a regulator to the drive of displacement package of heat pipes.

The disadvantage of this heat exchanger is the great complexity of manufacturing the design and the need to use an intermediate highly volatile coolant in heat pipes, as well as the inability to use it in heating power plants.

Known heat exchanger (SU 32183, 05/30/1982) containing a heat exchange surface made in the form of a coil with a screen attached to it; the heat exchange surface is divided into sections and equipped with collector pipes, the sections are interconnected by means of flexible couplers, and the screen is made with longitudinal corrugations.

The disadvantages of this heat exchanger are the large metal consumption of the structure, as well as the impossibility of its use in heating systems.

A heat exchanger is known (SU 1590920, 09/07/1990), containing telescopic heat pipes installed in one another with a movable inner one inserted into the shaft cavity and a fixed outer part rigidly fixed to the shaft and connected to the movable part by means of a spring placed inside the pipe.

The disadvantage of this heat exchanger is the use of highly toxic substances as cooling media, significant power losses on the heat exchanger drive, the great complexity of manufacturing and the high cost of operation.

The closest in design to the claimed invention is a heat exchanger containing nozzles, fixed and movable chambers, telescopic tubes with sealing devices (RU 233413, 07.27.2004).

The disadvantage of the prototype is low compactness, small surface area of the heating.

The purpose of the invention is the development of a heat exchanger with a variable surface area, which will ensure the regulation of the heat transfer process and increase its efficiency depending on the difference in temperature inside the room and the hot coolant.

This goal is achieved in the heating device of the heating system, representing a heat exchanger with a variable surface area, consisting of a fixed and movable radiators, telescopic tubes, sealing devices, and according to the invention, the radiators are separated by partitions and connected by multidirectional horizontally arranged telescopic tubes, rigidly fixed in a checkerboard pattern, on the larger diameter of which are vertically fixed fins, and the movable radiator displacement Floats on the guide roller supports between limit stops managed by an actuator temperature difference relay.

The essence of the invention is as follows. The heating device is a heat exchanger with a variable surface area (see drawing), which includes a stationary radiator 1, in the upper part of which there is a supply pipe 2, and in the lower part of the outlet pipe 3. The fixed radiator has a rigid mount on the bracket 4. For to remove air plugs, an air cock 5 is installed in the upper part of the stationary radiator 1. To ensure better compactness, multidirectional telescopic rigidly fixed to the fixed radiator 1 in a checkerboard pattern e tubes 6, which are also staggered connected to a movable radiator 7, forming due partitions 8 installed in the radiator 1 and 7, the coil movement coolant. To ensure structural rigidity and increase the heating surface area at transitions from a larger diameter to a smaller one, telescopic tubes 6 are connected by fins 9. A drain valve 10 is installed at the bottom of the movable radiator 7. The movable radiator 7 moves along a guide 11 having a travel stop 12 and a return displacement 13, on the roller support 14. Changing the position of the movable radiator 7 is carried out using the actuator 15 of the crank-slide type connected to the motor red torus 16 whose operation is controlled due to the temperature difference of the relay 17.

The heater operates as follows. At the initial moment, when the room temperature has a value of less than 20 ° C, and the temperature of the hot coolant entering the heating device through the supply pipe 2 is less than 70 ° C, the temperature difference relay 17 supplies an electric signal to the gear motor, which mechanism 15 moves the movable radiator 7 mounted on the roller support 14, along the guide 11 in the opposite direction from the fixed radiator 1, rigidly mounted on the bracket 4. At the same time telescopic The tubes 6 are pulled out from each other, thereby increasing several times the heating surface area of the heat exchanger, thereby ensuring rapid heating of the room to 25 ° C.

The circulation of the hot heat carrier inside the heating device is carried out according to a coil circuit due to the partitions 8 installed in the radiators 1 and 7. Water passing through the telescopic tubes 6 enters as a result of flowing through them into the lower part of the stationary radiator and flows out of it through the outlet pipe 3. The actuator 15 stops pulling the telescopic tubes 6 of the heating device as soon as the roller bearing 14 touches the travel limiter 12, which turns off the gear motor 16.

Since air plugs can occur when filling the heating system with water, an air cock 5 is installed at the top of the fixed radiator 1 to remove them, and it has a drain cock 10 to drain the water at the end of the heating period or during repair of the heating device.

In the case when the room temperature exceeds 25 ° C or the temperature of the hot coolant exceeds 95 ° C, the temperature difference relay 17 will connect a gear motor 16 to the electric network, changing the direction of rotation of its shaft, and therefore the direction of movement of the actuator 15 and the movable radiator 7. As a result, the telescopic tubes 6 will begin to enter one into the other, while the fins 9 will begin to approach each other, and the surface area of the heating device will begin to decrease, thereby reducing the number of the heat transferred to the room. The process of compression and reduction of the area will take place until the optimum temperature in the range of 20-25 ° C is established in the room or until the roller bearing 14 reaches the return limiter 13, which will shut off the gear motor 15 by means of electrical communication.

Claims (1)

The heating device of the heating system, representing a heat exchanger with a variable surface area, consisting of fixed and movable radiators, telescopic tubes, sealing devices, characterized in that the radiators are separated by partitions and connected by multidirectional horizontally arranged telescopic tubes, rigidly fixed in a checkerboard pattern, on a larger diameter of which finned fins are vertically fixed, and a movable radiator moves along a guide on roller bearings between movement limiters by means of an actuator of a controlled temperature difference relay.