RU2271501C2 - Heating plant - Google Patents

Abstract

FIELD: water heating, applicable in heating systems.

SUBSTANCE: the plant has the sealed main tank made in the form of a constant-volume tank with inlet and outlet branch pipes and a cover, installed inside the tank are a liquid level detector and a thermoheater connected to the control unit, an additional tank is detachable and has an inlet connection, this tank has a liquid level detector and a cover, it is connected to the control unit, the cover carries a condensing device, check valve and heating components. The detachable tank is installed behind the heating components on the cover of the main tank that serves at the same time as the bottom of the additional tank. Fastened on the cover of the main tank are the inlet connection of the main tank with the check valve and the device for automatic air discharge made in the form of two interrelated check valves connected by a threaded pipe, they are positioned in the additional tank; one of the interrelated check valves is installed on the pipe connection of the main tank, fastened in the lower part of which is the outlet connection with a valve installed on it.

EFFECT: enhanced efficiency and simplified construction of the plant.

2 cl, 1 dwg

Description

The invention relates to the field of power engineering, in particular to installations for heating, and can be used for heating industrial facilities, residential premises, retail pavilions, garden houses, garages as the main heat source, and also in conjunction with other types of heating as a backup heat source .

A well-known autonomous system of hot water supply (US Pat. RU No. 1818507, class F 24 D 17/00, for 1993), including storage tanks installed on pipelines, a heat pump with an evaporator and condenser, gel installation.

The constructive implementation of such an autonomous hot water supply system complicates its manufacture, limits the climatic zones of its use and application in individual buildings where there is no central water supply.

Known boiler water system and a device for controlling its operation (US Pat. RU No. 2092744, CL F 24 H 1/08, 1997), containing a heat exchange chamber (with an ignition chamber, a combustion chamber, a water chamber with a coil and an exhaust pipe ), a tank for adding water, a circulation pump, a hot water supply device, a burner and a device for controlling the operation of this system.

The disadvantage of this boiler water heating system is its complexity, relative bulkiness, and the possibility of leaks of harmful components used in its work, which limits its use in domestic conditions.

A heat pump is known (USSR AS No. 892031, class MKI F 04 F 1/18, 1981), which contains a liquid tank with a storage line on which a heater, a refrigerator and a check valve are installed in series, and a main chamber of variable volume connected between the tank and the heater, an additional chamber of variable volume located between the refrigerator and the check valve, the movable cover of which is spring-loaded and kinematically connected by a rod to the cover of the main chamber of variable volume. In addition, two valves are additionally located on the line: one between the tank and the main chamber, and the other behind the secondary chamber.

The disadvantages of this system are the relatively low efficiency of heating the liquid due to the external location of the heater in the heated object, the delivery of only a certain portion of the heated liquid to the consumption system, the strictly defined geometric position of the main chamber relative to the additional chamber, and the presence of mechanical moving elements that cause additional complexity in ensuring their reliable sealing, which leads to excessive energy costs.

Also known is the heat pump installation adopted for the prototype (US Pat. RU No. 2173434, IPC F 24 H 1/08, F 25 V 29/00, F 04 F 1/04, 2001), containing a constant volume sealed tank with the lid, the main tank, inside which the liquid level sensor and the heater are located, in the upper part of it there is a complex outlet pipe adjustable in height relative to the liquid level sensor, the lower end of which is located below the main vessel cover, and the inlet pipe made in the lower part a constant volume tank reporting with the atmosphere, an additional tank located at least the level of the main tank, a check valve installed at the entrance to the additional tank, a heating element located between the main and additional tanks, as well as a mechanical control device and a control unit located in the supply line to which the heater is connected , a liquid level sensor and an electrothermal sensor mounted on the return line on which the check valve is installed.

The disadvantages of the known heat pump installation are the placement of an additional tank directly behind the main tank, while the liquid heated to boiling, coming from the main tank into an additional tank partially filled with cold liquid, loses a significant part of the thermal energy, after which the cooling liquid fills the heating elements, and this happens additional heat loss (total heat loss is about 50%), and to achieve the required temperature in the heated room enii requires additional power consumption, which reduces the efficiency of the heat pump system.

The presence of the main and additional tanks in the form of two independent nodes connected by a highway, as well as a complex outlet pipe that is height-adjustable and installed in the main tank, complicates the design of the heat pump installation, while placing an additional tank inside the heated room may leak liquid vapor into the heated room , which degrades the environmental friendliness of the heated room, and for the removal of liquid vapor into the atmosphere, it is necessary to use additional devices that also complicate the design. In addition, during operation of the known heat pump installation, air is generated in the main tank, which reduces the efficiency of the installation, since there is a need for periodic manual removal of air, which does not ensure the operation of the installation in automatic mode.

The objective of the invention is to create such a installation for heating, which would have a higher efficiency, would simplify the design, ensure environmental friendliness of heated rooms and the operation of the installation for heating in automatic mode.

The problem is solved in that in the well-known heat pump installation, comprising a main tank made in the form of a sealed tank of constant volume with inlet and outlet nozzles and with a lid, inside of which a liquid level sensor and a thermoelectric heater connected to the control unit are installed, made in the form of a tank with an inlet nozzle additional capacity, non-return valve and heating elements, additional capacity, additionally containing a liquid level sensor and covers connected to the control unit y, on which the condensing device is mounted, is made in the form of a removable tank installed behind the heating elements on the cover of the main tank, which is also the bottom of the additional tank, and the main pipe inlet with a check valve and an automatic removal device located in the additional tank are fixed on the cover of the main tank air, made in the form of two reciprocal valves connected by a threaded tube, while one of the reciprocal valves is installed on pat BKE main receptacle, the bottom of which is fixed an outlet with a valve mounted thereon, comprising a removable spring configured with a predetermined elasticity.

The presence of a valve with a replaceable spring having a given elasticity installed on the outlet pipe of the main tank provides the required vapor pressure in the main tank and, accordingly, the temperature of the liquid in it is above 100 ° C, and since the additional tank is located behind the heating elements, the liquid with the above temperature enters from the main tank directly to the heating elements, which reduces heat loss and, therefore, increases the efficiency of the installation for heating.

Placing an additional tank on the cover of the main tank allows you to exclude the line for supplying liquid from the additional tank to the main one and use the inlet pipe of the main tank as the outlet pipe of the additional tank, which simplifies the design of the installation for heating.

A condensing device mounted on the lid of the additional tank ensures effective condensation of air and liquid vapors in the additional tank, and this eliminates the leakage of liquid vapor from the additional tank and their entry into the heated room, which ensures the environmentally friendlyness of the heated room and, therefore, the use of the installation for heating directly in heated rooms . A liquid level sensor installed inside the auxiliary tank ensures that it contains the minimum required amount of liquid, which prevents air from entering the auxiliary tank into the heating system in emergency situations (for example, leakage in the heating system). In these cases, the liquid level sensor instructs the control unit to disconnect the installation for heating from the network.

The presence in the installation for heating of an automatic air removal device that accumulates during operation in the main tank ensures the operation of the heating system in automatic mode, since there is no need for periodic manual removal of air from the main tank.

The drawing shows a diagram of the inventive installation for heating.

The heating installation includes an automatic control unit 1, made in the form of a sealed tank of constant volume with a lid 2, the main tank 3, which houses a thermoelectric heater 4 and a liquid level sensor 5 connected to the automatic control unit 1, which protects the thermoelectric heater 4 from overheating when the liquid level decreases in the main tank 3, in the lower part of which the outlet pipe 6 made in the form of a pipe is fixed, on which is installed made with a removable spring 7 located therein, having this elasticity, valve 8, which provides a given steam pressure in the main tank, and therefore a predetermined temperature of the liquid supplied through a direct line 9 to the heating elements 10 connected by a return pipe 11, on which an electrothermal sensor 12 and a filter are connected 13 with an inlet pipe 14 of an additional capacity 15.

The additional tank 15 is made in the form of a removable tank hermetically mounted on the lid 2 of the main tank 3 with a lid 16 on which the condensing device 17 is fixed. The cover 2 of the main tank 3 is at the same time the bottom of the additional tank 15. A liquid level sensor 18 is installed in the additional tank 15 the minimum required liquid level in the additional tank 15 and preventing emergency situations. The liquid level sensor 18 is located in the additional tank 15 10-15 mm below the minimum required liquid level in it.

On the lid 2 of the main tank 3, an inlet, which is simultaneously an outlet pipe of the additional tank 15, a pipe 19 of the main tank 3 with a check valve 20 mounted on it and a pipe 21, on which the automatic air removal device from the main tank 3 is mounted, is fixed made in the form of two reciprocal valves 22, 23 connected by a threaded tube 24, and the check valve 23 is placed above the level of the maximum possible amount of liquid in the additional tank 15.

The work of the proposed installation for heating is as follows.

Previously, the main tank 3, heating elements 10, the forward and reverse lines 9, 11 and the additional tank 15 are filled with water (liquid), and the water level in the additional tank 15 is minimal, 10-15 mm higher than the level of the sensor 18. Using block 1 automatic control include thermoelectric heater 4 and bring the water in the main tank 3 to a boil. When steam appears in the main tank 3, the pressure increases sharply, at which the air in the main tank 3 passes through the pipe 21, opens the valve 22 and through the pipe 24, coming to the valve 23, closes it, and boiling water under the influence of steam pressure through the outlet pipe 6 enters the valve 8 and, when the pressure in the main tank exceeds the resistance of the spring 7 of the valve 8, boiling water opens the valve 8 and enters the heating elements 10 in a straight line 9, and then through the return line 11 through the filter 13 and the inlet pipe 14 enters an additional tank 15, where, using a condensing device 17, an effective condensation of water vapor occurs. When the water displaced by the steam in the main tank 3 is lower than the level of the sensor 5, the latter sends a signal to the automatic control unit 1, which turns off the thermoelectric heater 4, while the steam continues to displace boiling water in the heating elements 10, since the vaporization takes place a certain time after disconnecting the thermoelectric heater 4.

After the action of steam, the pressure in the main tank 3 drops, condensation of the vapor and the formation of vacuum occurs, under the action of which the check valve 20 opens and the main tank 3 is filled with water coming from the additional tank 15 through the inlet pipe 19. At the same time, the valve 22 closes, and the valve 23 opens and air from the tube 24 enters an additional container 15, where it condenses along with water vapor.

The required temperature in the heated room during operation of the heating system is maintained by the electrothermal sensor 12. If the water temperature in the return line 11 is equal to the specified value, the electrothermal sensor 17 gives the command to the control unit 1 to turn off the electric heater 4. When the water temperature in the return line 11 decreases a value, for example 3-5 ° C, the electrothermal sensor 17 gives a command to the automatic control unit 1 to turn on the thermoelectric heater 4 and the cycle repeats.

The presence of a valve with a replaceable spring having a given elasticity installed on the outlet pipe of the main tank provides the required vapor pressure in the main tank and, accordingly, the temperature of the liquid in it is above 100 ° C, and since the additional tank is located behind the heating elements, the liquid with the above temperature enters from the main tank directly to the heating elements, which reduces heat loss and, therefore, increases the efficiency of the installation for heating.

Placing an additional tank on the cover of the main tank allows you to exclude the line for supplying liquid from the additional tank to the main one and use the inlet pipe of the main tank as the outlet pipe of the additional tank, which simplifies the design of the installation for heating.

The presence of a lid on an additional tank with a condensing device fixed on it ensures effective condensation of air and liquid vapors in the additional tank, and this eliminates the leakage of liquid vapor from the additional tank and their entry into a heated room, which ensures the environmentally friendlyness of the heated room and, therefore, the use of the installation for heating directly in heated rooms. A liquid level sensor installed inside the auxiliary tank ensures that it contains the minimum required amount of liquid, which prevents air from entering the auxiliary tank into the heating system in emergency situations (for example, leakage in the heating system). In these cases, the liquid level sensor instructs the control unit to disconnect the installation for heating from the network.

The presence in the installation for heating of an automatic air removal device that accumulates during operation in the main tank ensures the operation of the heating system in automatic mode, since there is no need for periodic manual removal of air from the main tank.

Claims (2)

1. Installation for heating, including a main tank made in the form of a sealed tank of constant volume with an inlet and outlet nozzles and with a cover, inside of which a liquid level sensor and a thermoelectric heater connected to the control unit are installed, an additional tank made in the form of a tank with an inlet pipe, a check valve and heating elements, characterized in that the additional container, further comprising a liquid level sensor connected to the control unit and a lid on which is fixed the denser device is made in the form of a removable tank installed behind the heating elements on the cover of the main tank, which is also the bottom of the additional tank, and the main pipe inlet with a check valve and an automatic air removal device made in the form two reciprocal valves connected by a threaded tube, while one of the reciprocal valves is installed on the nozzle of the main tank, in the bottom parts of which the outlet pipe is fixed with a valve mounted on it. 2. Installation for heating according to claim 1, characterized in that the valve mounted on the outlet pipe contains a replaceable spring made with a given elasticity.