SU1698587A1 - Liquid heating plant - Google Patents

Abstract

The invention relates to heat supply, and m. used for heating industrial and domestic buildings. The purpose of the invention is to increase reliability and safety by reducing the likelihood of steam entering pumping devices (WL). The (U) unit contains at least one heater 1, the casing 2 of which is equipped with a level sensor, as well as the heating element 4 installed in its lower part, and connected to the supply pipe and the lower part to the discharge pipelines (T) 5 and 6 . T 6 communicates with the input of NU 7, U is equipped with at least one steam condenser 8, connected by steam pipe 9 to housing 2 in its upper part, and condensate pipe 10 with shut-off device 11 to T 6 in the section to NU 7 along flow, with T 5 wound inside the housing 2 below the zone of connection to the last mu steam pipe 9 and level sensor. In operation, the steam and gas mixture, which collects in the upper part of the housing 2, is periodically discharged into the condenser 8, where the steam condenses, which reduces the likelihood of it entering the oil chamber 7. 5 Il.

Description

The invention relates to heat supply and can be used for heating industrial and domestic buildings and structures.

A known installation for heating a liquid, comprising a heater with heating elements, connected the lower part to the inlet and upper to the outlet water pipes. The disadvantage of this device is the reduced safety and performance due to the inability to remove steam (when it is formed in the heater) in addition to the outlet water supply.

A known installation for heating a liquid, containing at least one heater, the housing of which is equipped with a level sensor, as well as a heating element installed in its lower part, and connected to the inlet and bottom part to the outlet pipes, the last of which is connected to the input of the pumping device. The disadvantage of this installation is the possibility of steam entering the pumping device when it is formed in the heater, which can lead to a breakdown of the pump and interrupt the circulation of liquid through the heater.

The aim of the invention is to increase the reliability of the installation by reducing the likelihood of steam entering the pumping device.

In the installation, this goal is achieved by the fact that it is equipped with at least one steam condenser connected by a steam line to the heater body in its upper part, and a condensate line, which is additionally equipped with a shut-off device, to a discharge pipe in the area upstream of the pumping device, and heater pipe is installed inside the housing below the zone of connection to the last steam line and level sensor.

In Fig. 1, an apparatus for heating a liquid is shown; figure 2 is the same, a longitudinal section; in Fig.Z - electrode of the heating element; figure 4 - connection diagram of the electrode with the electrical network; figure 5 - emergency shutdown mechanism.

The embodiment of the installation for heating the liquid, shown in figure 1, contains two heaters 1 (the installation can contain any number of heaters 1), the housing 2 of each of which is equipped with a level sensor 3, 'as well as a heating element 4 installed in its lower part, and connected to the inlet 5 and the lower part - to the outlet 6 of the pipelines of the heated fluid (in particular, water). The discharge pipe 6 is in communication with the input of the pumping device 7 (in the embodiment shown in figure 1, there are two such devices). The installation is equipped with two capacitors 8 prr (in the embodiment of FIG. 1, the number of capacitors 8 is equal to the number of heaters 1), each of which is connected by a steam line 9 to the housing 2 of heater 1 in its upper part, 10 and a condensate line 10, which is additionally equipped with a shut-off device 11 , - to the discharge pipe 6 in the area up to the pumping device 7 along the flow, and the supply pipe 5 of each 15 of the heater 1 is wound inside the housing 2 below the aeons of connection to the last steam pipe 9 and level sensor 3 (figure 2).

The installation contains a collector 12, to which the expansion tank 14 is connected with a pipe 13, equipped with an emergency shutdown mechanism 15 and connected by pipelines 16 and 17 to the output of the pumping device 7, and by pipelines 18 and 19 to the backup tank 20. Elements 21 are connected to the pipeline 17 heating system. The heaters 1 are equipped with pressure gauges 22, control valves 23, water taps 24. An additional pumping device 30 is installed on the pipe 19. The pipes 16 and 17 are equipped with taps 25 and 26.

The heating element 4 is made of electrode, and the electrodes 27 (Fig. 3) are made in the form of perforated stainless steel plates 35 and are connected to an electric holder 28 (Fig. 4) made of textolite and connected to an electric network.

The emergency shutdown mechanism 40 (Fig. 5) has a spring-loaded rod 29, one end of which is connected to an electromagnetic switch 30, and the second link 31 is connected to a float 32 provided with an adjusting weight 33. The float 32 45 is located in the casing 34 connected to the expansion tank 14 according to the principle of communicating vessels, the Heater is equipped with a hatch 35 with a cover for routine inspection, repair and replacement of electrodes 27. The unit is equipped with control valves 36 and 37. For the removal of non-condensable gases, capacitors 8 can be equipped gas removal system (not shown). Another way 55 to remove gases through pumping devices 7 (together with a condenser), pipe 16 and from tank 14 to the atmosphere.

Installation works as follows.

The whole installation is filled with water and voltage is supplied to the electrodes 27 of the heater 1. After heating the water in the heater 1, the taps 36 and 37 are opened, the pump devices 7 are started and 5 are circulated along the circuit. Heater 1 - pump device 7 pipeline 16 - expansion tank 14 , After warming up this circuit to a temperature of about 96 ° C, close the faucet 25 and enclose 10 cold store 26, as a result of which water circulates through the elements 21 of the heating system.

The vapor-gas mixture formed in the heater 1 accumulates in the upper part of the housing 2. To remove them, before the level measured by the sensor 3 (Fig. 2) drops below the lower end of the supply pipe 5. open the valve 23 and release steam into the condenser 8, where it it condenses, the condensate being discharged as it accumulates, opening the shut-off device 11.

The water level in the expansion tank 14 is controlled by the emergency shutdown mechanism 15: when the water level rises, the float 32 rises and the electromagnetic switch 30 turns off the suction device 7, When the level is excessively low, the float 32 hangs with the load 33 on the rod 31, and the switch turns on the pump device 7.

The reliability and safety of the installation is increased by reducing the likelihood of large quantities of steam entering the pumping devices 7, i.e. reduce the likelihood of their failure.

Claims (2)

Claim Installation for heating a liquid, containing at least one heater, the housing of which is equipped with a level sensor and a heating element installed in its lower part and connected to the inlet and lower part to the outlet 15 pipelines, the last of which is connected to the input of the pumping device, characterized in that, in order to increase reliability and safety by reducing the likelihood of steam entering the pumping device, it is equipped with at least one steam condenser connected by a steam line to the heater body in its upper parts, and the condensate line, which * is additionally 25 equipped with a shut-off device, to the outlet pipe in the area up to the pumping device in the upstream direction, and the heater inlet pipe is brought into the housing is below the connection area to the last 30 steam line and level sensor. Figure 2 2Ί \ 1 OOOOOOOO ooΌΟΟΟΟΟ OOOOOOOO OOOOOOOO OOOOOOOO OOOOOOOO OOOOOOOO OOOOOOOO OOOOOOOO oo OOOQ OO FIG. 3