RU187790U1 - DEVICE FOR CLEANING HEAT AND POWER EQUIPMENT - Google Patents

Abstract

The utility model relates to a power system and can be used for chemical cleaning of various heat power equipment. A device for cleaning thermal power equipment includes a first tank, first pipelines for connecting the first tank with at least one inlet and one outlet of the equipment to be cleaned, and distribution valves installed on the first pipelines, at least two installed at the inlet and outlet of the equipment to be cleaned switchgears, a second tank, second pipelines for connecting the first and second containers to each other and third pipelines for connecting the second tank with at least m at least one fourth pipeline for connecting the second tank with at least two distribution devices, and mixing valves installed on at least one fourth pipeline, with one inlet and one outlet. The technical result is to increase the cleaning efficiency of heat and power equipment, expressed in the reduction of cleaning time due to the simultaneous washing of the inner and outer surfaces of the cleaning. 10 zpp-f-ly, 1 silt.

Description

DEVICE FOR CLEANING HEAT AND POWER EQUIPMENT

The utility model relates to a power system and can be used for chemical cleaning of various heat power equipment, in particular heat exchange equipment, boilers, refrigeration equipment and heating systems, during maintenance during operation or during repair.

A device for cleaning the internal cavities of thermal power equipment is known, which contains pipelines, taps or valves, containers, pumps, two containers for washing solutions, a container with a neutral liquid, and a pressure and velocity pulsation generator (patent for invention RU 2619010 C2, published on 05/11/2017).

A device for removing deposits from the inner walls of heat exchangers, containing a container for preparing aqueous solutions of chemical reagents with a pipeline connected through a valve to a closed circuit containing a container for working solutions, connected by a line, equipped with a pump to the input of the apparatus to be cleaned, to the output of which is connected a line equipped with parallel installed filters connected to a container for working solutions (utility model patent RU 67242 U1, publish 10.10.2007.).

A device is known for cleaning the inner surfaces of heat power equipment, comprising pipelines with fittings and a circulation pump for forming a circulating system, a main acidic tank for mixing acute hydrochloric acid in the pump with the spent solution circulating in the system, a tank for spent weakly acidic solutions, a causticizer and a filter, designed for foam sludge separation. The pump is equipped with a three-bladed impeller with a retaining sealing ring, the filter is equipped with a vertical baffle for changing the direction of the washing solution flow, and the device is additionally equipped with a removable line of polyethylene pipelines for supplying acute acid to the tank for weakly acid solutions, a portable drainage tank with a pump and a pumping line for drained solutions (patent for invention RU 2218533 C2, published on December 10, 2003).

A common disadvantage of the known devices for cleaning heat power equipment is the low cleaning efficiency due to the lack of the ability to simultaneously process the internal and external surfaces of the equipment. The lack of reversal of the flow of the working medium in the cleaning device also leads to additional time costs, which, in turn, reduces the cleaning efficiency.

As the closest analogue, a device for cleaning the internal cavities of heat-exchange equipment was selected, which contains a container for the processing fluid, the first and second pipeline lines for connecting the tank for the processing fluid, respectively, with the first and second input / output of the treated cavity of the heat-exchange equipment with the formation of a closed loop (system). At the same time, locking devices and a transfer pump are installed on the first and second lines. The device is equipped with two piping lines of jumpers connecting the first and second piping lines to provide reverse pumping of the processing fluid through the treated cavity. The device also includes means for heating the processing fluid, means for supplying water to the container for the processing fluid, connected to the container through a locking device (tap), as well as a locking device for draining the liquid from the tank, a locking device for draining the liquid from the circuit, and additional locking devices for connecting an additional treated cavity (second circuit) of heat-exchange equipment (patent for invention RU2532867 C1, published on November 10, 2014).

The disadvantages of the closest analogue include the complexity of the nodes for reversing the working medium (changing the direction of movement of the pumping of the working medium), since it is provided with several locking devices and two additional piping jumpers between the main piping lines, which ultimately reduces the efficiency of equipment cleaning.

A technical problem, the solution of which is provided by the claimed utility model, is the creation of a new device for cleaning thermal power equipment containing a system for reversing the working medium (i.e., a system for changing the direction of movement of the working medium through the processed equipment), which allows simultaneous cleaning of the internal and external surfaces of thermal power equipment due to the presence of two independent washing circuits in different, unrelated modes (washing washing m solution, washing with water, changing the direction of movement of liquids).

The technical result obtained by using the claimed utility model is to increase the cleaning efficiency of heat power equipment, expressed in the reduction of cleaning time due to the simultaneous washing of the inner and outer surfaces of the cleaning.

The technical result is achieved by the fact that the device for cleaning thermal power equipment containing the first tank, the first pipelines for connecting the first tank with at least one inlet and one outlet of the equipment to be cleaned, and the fittings installed on the first pipelines, according to a utility model, it is equipped with at least two switchgears installed at the inlet and outlet of the equipment being cleaned, a second tank, second pipelines for connecting the first and second containers g with another and third pipelines for connecting the second tank with at least one input and one output of the equipment to be cleaned, at least one fourth pipe for connecting the second tank with at least two distribution devices, and mounted on at least one fourth pipeline, mixing fittings, while the fittings installed on the first pipelines are made distribution.

Moreover, according to the utility model, switchgears can be made in the form of two-position three-line directional control valves.

Moreover, according to a utility model, distribution valves can be made in the form of three-way valves with a distribution function.

Moreover, according to a utility model, mixing valves can be made in the form of three-way valves with a mixing function.

Moreover, according to a utility model, a device for cleaning heat power equipment can be equipped with at least one pump installed between at least two switchgears and mixing valves.

Moreover, according to a utility model, a device for cleaning heat power equipment can be equipped with at least one pressure gauge installed between at least one switchgear and at least one input of the equipment to be cleaned.

Moreover, according to a utility model, a device for cleaning heat power equipment can be provided with at least one pressure gauge installed between at least one switchgear and at least one outlet of the equipment to be cleaned.

Moreover, according to a utility model, a device for cleaning heat power equipment can be equipped with at least one filter installed between the first container and the mixing valve.

Moreover, according to a utility model, a device for cleaning heat power equipment can be provided with at least one filter mounted between the second tank and the mixing valve.

Moreover, according to the utility model, each of the containers can be equipped with shutoff valves.

Moreover, according to a utility model, stop valves can be made in the form of two-way valves.

The inventive utility model is illustrated by the drawing, an example of a device for cleaning heat power equipment on which, however, is not the only possible, but clearly demonstrate the possibility of achieving the claimed technical result. At the same time, the given example of the implementation of the claimed utility model does not limit the possibilities of its implementation, not beyond the scope of the utility model formula, and is not exhaustive.

According to a utility model, a device may comprise a unit 1 for preparing a washing solution. As a washing solution, for example, the proven Topol-Zh surfactant or the Alba surfactant manufactured by NPK Monomer LLC (Russia, Volgograd) can be used. The device contains a first tank 2 and a second tank 3. The first tank 2 can be used for the working medium in the form of a washing solution, the second tank 3 for water.

The tubular heat exchanger 4, which contains two cavities (in-tube and annular spaces), the surfaces of which must be cleaned, is selected as a heat-power equipment to be cleaned in this example of a cleaning device.

The device contains first pipelines 5 for connecting the first tank 2 with two inputs and two outputs of the heat exchanger 4, second pipelines 6 for connecting the first tank 2 and the second tank 3 with each other, third pipelines 7 for connecting the second tank 3 with the inputs and outputs of the heat exchanger 4, and fourth pipelines 8 for connecting the second tank 3 with four switchgears 9, 10, 11 and 12 for reversing the flow of the working medium.

The distribution device 9 is installed at the first input of the heat exchanger 4, the device 10 is at the first output of the heat exchanger 4, the device 11 is at the second input of the heat exchanger 4, the device 12 is at the second output of the heat exchanger 4. Devices 9 and 10 are designed to reverse the working fluid when cleaning the pipe inside . Devices 11 and 12 are designed to reverse the working fluid when cleaning the annulus.

Switchgears 9, 10, 11 and 12 can be made in the form of two-position three-line directional control valves.

Distribution valves are installed on the first pipelines 5, which can be made, for example, in the form of three-way valves 13, 14, 15, 16 with a distribution function. On the fourth pipelines 8 installed mixing fittings, which can be performed, for example, in the form of three-way valves 17, 18 with a mixing function.

The cleaning device contains two pumps 19 and 20, and the pump 19 is installed on the piping 8 between the switchgear 11 and 12 and the mixing valve (valve 17), and the pump 20 is installed between the switchgear 11 and 12 and the valve 18.

To control the pressure at the inputs and outputs of the heat exchanger 4, the inventive device is equipped with four pressure gauges 21, 22, 23 and 24, with a pressure gauge 21 installed between the switchgear 9 and the inlet of the heat exchanger 4, a pressure gauge 22 between the distribution device 11 and the inlet of the heat exchanger 4, pressure gauge 23 - between the distribution device 10 and the output of the heat exchanger 4, the pressure gauge 24 between the distribution device 12 and the output of the heat exchanger 4.

The inventive device is also equipped with four filters 25, 26, 27 and 28, with the filter 25 located between the first container 2 and the valve 17, the filter 26 between the first container 3 and the valve 18, the filter 27 between the second container 3 and the valve 17, filter 28 - between the second tank 3 and valve 18. Tanks 2 and 3 are equipped with shutoff valves for supplying and draining water and washing solution, which is made in the form of two-way valves 29, 30, 31 and 32. Tank 2 is equipped with valves 29 and 30, tank 3 - valves 31 and 32.

In the inventive device for cleaning heat power equipment, control valves, three-way and two-way valves can be performed with a control function from external signals. This allows you to automate the cleaning process.

The inventive utility model works as follows.

At the beginning, a washing solution is prepared in the preparation unit 1, which is supplied through the valve 29 to the container 2.

The heat exchanger can be cleaned by rinsing with a washing solution and / or by rinsing with water.

Cleaning the inside of the heat exchanger 4.

For washing with a washing solution, it is necessary to connect the switchgear 9 with a capacity of 2 with a valve 13, a valve 14 - a connection of a switchgear 10 with a capacity of 2 and a valve 17 - a connection of a pump 19 with a capacity of 2. For a water wash with a valve 13, a connection of a switchgear 9 with a capacity of 3, valve 14 — communication of switchgear 10 with capacity 3 and valve 17 — communication of pump 19 with capacity 3.

After turning on the pump 19, it is necessary to turn on one of the distribution devices, for example, 9 and turn off the other - 10. The circulation of the working medium will begin. To change the direction of flow, it is necessary to turn off the switchgear 9 and turn on the switchgear 10. The circulation of the medium will begin in the opposite direction. Changing the direction of flow reduces the cleaning process.

 The duration of washing with a washing solution can be predefined or determined by the required pressure drop controlled by pressure gauges 21 and 23. The time of washing with water can also be pre-set.

Cleaning the annulus of the heat exchanger 4.

For flushing with a washing solution, it is necessary to connect the switchgear 11 with a capacity of 2 with a valve 15, with a valve 16 - connecting a device 12 with a capacity of 2 and a valve 18 - connecting a pump 20 with a capacity of 2. For flushing with water, it is necessary to provide a connection of a device 15 with a capacity of 15 valve 16 - communication device 12 with a capacity of 3 and valve 1 - communication pump 20 with a capacity of 3.

After turning on the pump 20, you must turn on one of the switchgear 11 or 12 and turn off the other. For example, turn on the switchgear 11 and turn off the switchgear 12. The circulation of the medium begins. To change the direction of flow, it is necessary to turn off the switchgear 11 and turn on the switchgear 12. The circulation of the medium will begin in the opposite direction. Changing the direction of flow reduces the cleaning process.

 The duration of washing with a washing solution can be predefined or determined by the required pressure drop, controlled by manometers 22 and 24. The time of washing with water can also be pre-set.

The inventive device for cleaning heat power equipment allows for the effective cleaning of a variety of heat exchangers without dismantling them with minimal time. The device can be used to clean various heat and power equipment: boilers, coils, refrigerators, pipelines, etc.

Claims (11)

1. A device for cleaning heat power equipment, comprising a first tank, first pipelines for connecting the first tank to at least one inlet and one outlet of the equipment to be cleaned, and fittings installed on the first pipelines, characterized in that it is provided with at least , two switchgears installed at the inlet and outlet of the equipment being cleaned, a second tank, second pipelines for connecting the first and second tanks to each other and third pipelines for soy insignia of the second tank with at least one inlet and one outlet of the equipment to be cleaned, at least one fourth pipeline for connecting the second tank with at least two distribution devices, and mounted on at least one fourth pipeline, mixing fittings, while the fittings installed on the first pipelines are made distribution.
2. A device for cleaning heat power equipment according to claim 1, characterized in that the switchgear is made in the form of two-position three-line directional control valves.
3. A device for cleaning heat power equipment according to claim 1, characterized in that the distribution valves are made in the form of three-way valves with a distribution function.
4. A device for cleaning heat power equipment according to claim 1, characterized in that the mixing fittings are made in the form of three-way valves with a mixing function.
5. A device for cleaning heat power equipment according to claim 1, characterized in that it is equipped with at least one pump installed between at least two switchgears and mixing valves.
6. A device for cleaning heat power equipment according to claim 1, characterized in that it is equipped with at least one pressure gauge installed between at least one switchgear and at least one input of the equipment to be cleaned.
7. A device for cleaning heat power equipment according to claim 1, characterized in that it is equipped with at least one pressure gauge installed between at least one switchgear and at least one outlet of the equipment to be cleaned.
8. A device for cleaning heat power equipment according to claim 1, characterized in that it is equipped with at least one filter installed between the first container and the mixing valve.
9. A device for cleaning heat power equipment according to claim 1, characterized in that it is equipped with at least one filter installed between the second tank and the mixing valve.
10. A device for cleaning heat power equipment according to claim 1, characterized in that each of the containers is equipped with shutoff valves.
11. A device for cleaning heat power equipment according to claim 10, characterized in that the shutoff valves are made in the form of two-way valves.

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