SU1412009A1 - Air heating installation - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to reduce the mass and dimensions of the heat accumulator - torus by increasing the degree of its discharge. At the end of the discharge of the heat accumulator and the operation of the unit at a small air supply, the fan device is switched to a large air supply, and the excess air, which is obtained in this case, is re-directed to the heat accumulator. 1 il.

Description

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The invention relates to ventilation heating technology, in particular to electric air heaters with heat storage.

The purpose of the invention is to reduce the mass and dimensions of the heat accumulator by increasing its degree of discharge.

The drawing shows the scheme of the proposed installation.

The installation contains a heat accumulator - torus 1 with a charging control unit 2, a fan 3, the inlet of which through the first damper 4 is connected to the outlet of the thermal accumulator 1 and through the second damper 5 to an external air supply nozzle. The regulating dampers 4 and 5 are connected to a common actuator 6 containing the extreme position sensor 7 and connected to the first and second inputs, respectively, to the first and second outputs of the spacer adjusting unit 8. The installation also contains a block 9 of a two-step change in the air supply of the fan 3 with a smaller air feed 10 and a higher air feed starting 11, an air supply adjustment block 12, a flap 13 that is installed in the duct between the outlet of the fan 3 and the inlet of the heat accumulator 1 and has a drive 14, first 15 and second 16 logic gates And, inverter 17

and logical element OR 18, with the sensor 7 of the extreme position of the actuator of the regulating flaps 4 and 5 and the first outputs of the blocks for controlling the heat removal 8 and air supply adjustment 12 are connected to the second, first and third inputs of the logic element 15 And the output of the first logic element 15 is connected with the first input of the actuator 14 of the shutter 13, the first input of the logic element OR 18 and through the inverter 17 is connected to the second inputs of the second logic element AND 16 and the actuator 14 of the shutter 13. The first output of the air control unit 12 opodachi connected to the first input of the second logic element And 16, the output of which is connected to the starting device 10 lesser air supply. The second output of the air supply control unit 12 is connected to the second input of the logic element OR 18, which is connected to the starting device 11 of the larger air supply.

 The installation works as follows.

The heat accumulator 1 is charged with heat to the required level using the charge control unit 2. Heat removal occurs when air passes through Heat accumulator 1. The heat removal intensity is controlled by dampers 4 and 5 with the help of a common actuator 6 according to signals from heat removal control unit 8. When the heat removal control unit 8 supplies a signal to increase the heat output (for example, when the set temperature in the room decreases), it is fed to the first input, the actuator 6 of the control flaps 4 and 5, the flap 4 starts to open, and the flap 5 closes. To reduce heat removal, the regulation is reversed. The hot air from the heat accumulator 1 passes the damper 4, mixes with the unheated air supplied through the damper 5, and the fan 3 flows into the room. The air supply of the installation may be varied in a two-step manner. For this purpose, a device for a two-stage change in the air supply of the fan (for example, a two-speed electric motor) is provided. If it is required to reduce the air supply (for example, when the relative humidity of the room decreases), a signal 1 appears at the first outlet of the air supply control unit 12, which through the second logic element 16 and the starting device 10 converts the fan 3 through the second air supply unit 9 on the lesser air supply level. If it is necessary to increase the air supply, the logical 1 signal appears at the second output of the air supply control unit 12 and through the logical element OR 18 and the larger air supply starting device 11 with the help of the unit 9 takes the fan 3 to the higher air supply stage.

Towards the end of the discharge, when the temperature of the heat accumulator of torus 1 decreases, a situation may arise when the actuator 6 of the dampers 4 and 5 reaches the extreme position (the damper 4 is fully open, the damper 5 is fully closed5

m) ia 1) The go (- sensor a 7 cr. and its position has a logical 1 signal), and block 8 regulates the heat removal requires increasing the heat removal (at the first output of block 8 a logical 1 signal). If the air supply control unit 12 sets the unit to work at a lesser air supply stage (the first output of the block 12 has a logical 1 signal), a logical 1 signal appears at all inputs, and consequently, the first logic element output AND 15. The signal is logical .1 from the output of the element 15 through the actuator 14 opens the valve 13, through the logical element OR 18 includes a stage of greater air supply and through the inverter 17 enforces a prohibition (signal of the logical O) to the second logical element AND 16 and the second input of the drive 14 (the signal of the logical O at the input of the logic element And 16 turns off the lower level of air supply, and the same signal at the second input of the actuator 14 turns off the closing action of the latter on the flap 13). The unit goes to the stage of greater air supply, providing an increase in heat removal from the heat accumulator 1, due to an increase in the speed of the air passing through the heat accumulator. In this case, the air supply to the room does not change, since the degree of opening of the valve 13 is selected so that the air flow rate through it is equal to the difference between the larger and the smaller air supply of the installation.

Thus, the operation of the proposed plant at a lower air supply allows to reduce the residual temperature of the heat accumulator as the flow rate and air velocity through the heat accumulator increase, which increases the heat removal. When the residual temperature of the heat accumulator decreases, the heat accumulating capacity of a unit volume of the heat accumulator increases, thus the heat accumulator volume decreases. The proposed installation provides

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a reduction in capital costs, a heat storage device, and a room where it is mounted.

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Claims (1)

Invention Formula A heating unit for air preheating, containing a heat accumulator 10 with a charging control unit, a fan whose inlet through the first and second dampers, having a common drive with an end position sensor, is connected to the supply nozzle 15 of the outdoor air and the outlet of the exhaust cage, the heat removal control unit, the first and second terminals of which are connected separately to the first and second inputs of the damper actuator, b.chock 20 control air supply, the first and second outputs of which through the starting devices of smaller and larger air supply are connected with a two-step change unit 25 of the fan, characterized in that, in order to reduce the mass and dimensions of the heat accumulator by increasing its degree of discharge, it is installed. Novka is equipped with two elements And, 30 by an inverter and an element OR the first input of the first AND is connected to the first output of the heat removal control unit, the second input to the output of the end position sensor, the third to the first output of the air supply control unit, the output of the first AND is connected to the first drive input of the third valve installed in the duct connecting the output of the vendor to the heat accumulator inlet directly, with the second input of the same drive through the inverter and with the first input OR, the second input of which is connected to the second output of the control unit air supply lirings, connected by the first output to the first input of the second I, the second input of which is connected to the output of the inverter, the output to the input of the starting apparatus of a smaller feed, and the output of the OR element to the input of the starting apparatus of a larger feed. 35 0 Editor I. Shulla Compiled by O.Turpak Tehred M. Proofreader L. Patay Order 3676/58 Circulation 832 VPShPI State Committee of the USSR for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., d. A / 5 Subscription