RU195873U1 - DEVICE FOR CLEANING SURFACES OF HEATING BOILER UNITS - Google Patents

Abstract

The utility model relates to the field of energy and can be used to clean the heating surfaces of energy-technological equipment with the saving of compressed gas. A device for cleaning the heating surfaces of boiler units, containing a pneumatic pulse device with a pneumatic distributor and a quick pneumatic valve brought by a pipe to the corresponding heating surface, a control unit made in the form of a controller and a control panel. The pneumatic pulse device contains a pressure switch installed in the working cavity of the pneumatic pulse device, which is the feedback of the control unit, connected to one of its inputs, the outputs of the control unit are connected to the electric drive of the ball valve of the pneumatic pulse device, the electromagnetic coil of the pneumatic distributor and the electric drive of the pneumatic valve. The technical result consists in saving compressed gas due to the presence of feedback on the pressure in the working cavity of the pneumatic pulse device. 1 ill.

Description

The proposed technical solution relates to the field of energy and can be used to clean the heating surfaces of energy-technological equipment with the saving of compressed gas.

Known "Cleaning device for removing harmful deposits from surfaces" according to patent No. 2658064 (publ. 06/19/2018), the device and the principle of which are contained in the description of the invention.

The disadvantage of this invention is the inability to bring the individual membrane valves of the device into a state of maintenance. In the event of failure of one valve of the device for its repair, it is necessary to turn off and stop all mounted valves on the energy technology device.

Known "Pneumatic impulse system for caving in arches and cleaning surfaces of apparatuses from deposits" according to patent No. 2301915 (published on June 27, 2007), the device and principle of which are contained in the description of the invention.

The main disadvantage of the presented system is the inability to control each valve separately and the corresponding device. System devices connected by a pipeline are all controlled by a single valve; for this reason, operation of separately selected devices is impossible and, as a result, the maximum amount of compressed gas from the line will be spent with each system operation.

It is known "Device for cleaning heating surfaces of energy-technology equipment", according to the patent for utility model No. 170745 (published 05.05.2017), which is selected as the closest prototype, containing:

set of pneumatic pulse generators,

a source of compressed air connected to its output through a controlled pneumatic valve and a common main line for supplying compressed air to the respective cavities of the control chambers and to the corresponding internal cavities of the storage chambers of the pulsed air generators,

set of trigger pneumatic valves,

and a control unit connected by its first output to the control input of the controlled pneumatic valve,

providing the flow of compressed air through a common main line into the corresponding cavities of the control chambers and into the storage chambers of the pneumatic pulse generators,

the control unit is made in the form of a controller.

The disadvantage is the inability to adjust the controller in automatic mode due to the lack of feedback on changes in the characteristics of the fuel during operation of the boiler.

The main task is to create an economical maintainable device with the ability to adjust its operation.

The technical result of the proposed technical solution is to save compressed gas due to the presence of feedback on the pressure in the working cavity of the pneumatic pulse device, using the pressure switch installed in it and maintainability of the device without stopping the main process due to the remote quick-acting pneumatic valve.

In FIG. 1 shows a General view of the device for cleaning the heating surfaces of boiler units.

A device for cleaning the heating surfaces 1 of the boiler unit 2, containing a pneumatic pulse device 3 with a high-speed pneumatic valve 4, connected by a pipe 5 to the corresponding heating surfaces 1, a source of compressed gas 6 connected to the corresponding input of the pneumatic valve 7 having an electric drive 8, a common main line 9 compressed gas connected to the working cavity 10 of the pneumatic pulse device and the control cavity 11 of the high-speed pneumatic valve 4 by means of pneumatic a distributor 12 with an electromagnetic coil 13, the input of which is connected to a common main line 9 of compressed gas, and the output to the control cavity 11 of the high-speed pneumatic valve 4, the control unit 14, made in the form of a controller, a control panel 15, between the output of the high-speed pneumatic valve 4 and the pipe 5, a ball valve 16 is installed with an electric drive 17, to which control signals are received from the outputs 18, 19, 20 of the control unit 14, to the inputs 21, 22 of which signals are received from the control panel 15 and the pressure switch 23, mounted on the working cavity 10 of the pneumopulse device 3, respectively.

The number of pneumatic impulse devices and their location on the boiler depend on the technical characteristics of the boiler itself and are calculated in the process of preliminary preliminary design with the exact places of the inset nozzles.

Saving of compressed gas occurs due to the presence of feedback from the pressure switch installed in the working cavity of the pneumatic pulse device 3. In case of failure of the high-speed pneumatic valve 4, the compressed gas from the working cavity begins to flow into the volume of the boiler unit, while the pressure switch 23 will not close During a long time. If there is no closure of the pressure switch, the control unit 14 gives a signal to close the ball valve 16 of the pneumatic pulse device 3 and the high-speed pneumatic valve 4 in the common main line 9 of the compressed gas. Due to this, in the device in automatic mode in case of emergency, there is a saving in compressed gas.

In normal operation, the pressure switch 23 can be set to the exact pressure value in the entire range of operating pressures of the pneumatic pulse device 3. If it is necessary to save compressed gas, the pressure switch 23 is switched to the minimum acceptable value, while the control unit 15 will provide a signal to the pneumatic distributor 12 at reaching the set value, thereby saving compressed gas during operation.

The operation of the device for cleaning heating surfaces is as follows. When the pneumatic valve 7 is open, the compressed gas enters the working cavity of the pneumatic pulse device 3 through a common main line 9 of compressed gas, and at the same time, through the pneumatic distributor 12 to the control cavity 11 of the high-speed pneumatic valve 4. The pneumatic pulse device 3 is injected with compressed gas until the pressure in both cavities, the control 11 of the high-speed pneumatic valve and the working 10 air-pulse device will not be equal. At the end of the inlet, the pressure switch 23 closes, giving an input signal 22 to the control unit 14, signaling that the air-pulse device 3 is ready for start-up. On the control panel 15 installed at the operator’s workplace, the algorithm of the pneumatic impulse device 3 is selected, by which a second signal 21 about readiness for launch is formed. If there are two signals from the time relay and the control panel 15, a signal is sent to the electro-magnetic coil 13 of the air distributor 12. The compressed gas from the control cavity through the air distributor 12 is discharged into the atmosphere. The pneumatic impulse device 3 starts up, the compressed gas forms a shock wave, which, acting on the ash drifts on the heating surfaces, cleans the latter.

For maintenance of pneumatic impulse devices, ball valves 16 and pneumatic valve 7 of the compressed gas line are shut off, while the main technical process of the boiler unit does not stop. The remote high-speed pneumatic valve 4 relative to the working cavity 10 of the pneumatic pulse device allows maintenance without any special devices.

Thus, the proposed device for cleaning heating surfaces allows you to repair without stopping the equipment and save gas due to the presence of feedback on the pressure in the working cavity of the pneumatic pulse device using the pressure switch installed in it.

Claims (1)

A device for cleaning the heating surfaces of boiler units, containing a pneumatic pulse device with a pneumatic distributor and a quick pneumatic valve, connected by a pipe to the corresponding heating surface, a control unit made in the form of a controller, and a control panel, characterized in that the pneumatic pulse device contains a pressure switch installed in the working the cavity of the pneumopulse device, which is the feedback of the control unit, connected to one of its inputs, the output the control unit connected to the electrical actuator of ball valve pnevmoimpulsnogo device pnevmoelektroraspredelitelya electromagnetic coil and an electric pneumatic valve actuator.

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