SU1693349A1 - Device for cleaning boiler heat-transfer surfaces - Google Patents

Description

(21) 4728997/12

(22) 07,08,89

(46) 11/23/91. Bul, № 43

(71) State All-Union Plant for Mechanical and Chemical Cleaning of Boiler Units Boiler Cleaning

(72) V.S., Belokur

(53) 621Л.02 (088.8)

(56) USSR inventor certificate 9 1234716, cl. F 28 G 1/16, 1984.

(54) DEVICE FOR CLEANING HEATING SURFACES OF BOILER UNIT

(57) The invention relates to the cleaning of heating surfaces of heat and power equipment with high-pressure water jets. The purpose of the invention is to increase the reliability and quality of cleaning. The device for cleaning surfaces contains a working nozzle 14 connected through pressure valves 10, 11 to high-pressure hydraulic cylinders 2, 3, plungers 5, 6 of which are rigidly connected to the low-pressure pneumatic cylinder piston (П) 4 1. Air supply to the HDPE 1 through the spool valve 19, controlled by the reversing mechanism, the pneumatic cylinders 39, 40 of which are connected to the source of compressed gas through the spools 27, 28, installed at the end faces of the PND 1. The position of the plungers 29, 30 of the spools 27, 28 is connected with the position P 4. 1 hp f-ly, 1 ill.

with

SS

/

water b80kgs / cmЈG M

Bos8yx 1-5kgs / cm2

V ™

00

The invention relates to the cleaning of heating surfaces of heat and power equipment with high pressure water and can be used in industrial energy.

The purpose of the invention is to increase the reliability of the device and improve the quality of cleaning,

The drawing shows a schematic diagram of the device: surfaces for cleaning surfaces

The device for cleaning the heating surfaces of the boiler unit contains a duplex amplifier and a working

LIQUID CONTAINING Hi PNEBMOCILIND

Low pressure section 1 located on either side of the cc; ..; 2 high pressure 3 oscillator; In the low pressure cylinder 1, there is a 4E piston connected to the bottom of the hydraulic route 2 and the second pressure section EPA 5 and 6 UPNOSHEN / Plotchik 7 and clamping spring L 3. Outlets from the hydraulic cylinder OE I and .7 are installed No., -E punk 1e device 9b communicating hydraulic cylinders 2 and 3, respectively, via jack8-. and nl1-Ј-ь: e Ki. lnan iO M and pipe-provers 12 and {L with a working nozzle 14 to through the valve; 5c „; “E valves 15 and - 16 seconds. technical dody hp-c d-lz fly 2--3 kgf / si2 Pkvmotsilkn.tsr i from both ends connected to pipelines 17 w i8 with a gold distributor; consisting of a housing 19 with an air chamber 20 and a rotary zolistksk 2 i-h lotor made a central ok.o 22; channel 23 s in common –yy: di; rc with window 22 and channel 24 s open from the air, well; camera 20 “Air 7.0 through valve 25 connected to compressed air supply pipe 26 At the fault ends of pneumatic nets 1 are located spools 27 to Chapters 295 and 30 are respectively spring-loaded with spring 31 j and the free ends are inserted through seal 32 into low-pressure cylinder 1 with the ability to interact with piston 4 at one of its extreme positions, - spools 27 to 28 have channels 33 and 34., connected by pipelines 35 and 36 with pipelines vodom compressed air supply 26 and conduits 37 and 38 - with pneamotsshshndrami 39 & 40 "as well as channels 41 and 42 for air discharge s communicating with the pipeline

 and 38 respectively. In the plungers 29 and 30 are made about 3 dl for the passage of air. In the pneumatic cylinders 39 and AO there are pistons 44 and 45 respectively, the ends of the rods 46 and 47 of which are rigidly connected to the ends of the rod 485 on which the lever 49 is fixed for an orange-piano spool 21 spool distributor On pipelines 12 and 13, a safety valve to the pressure gauge is installed.

The device operates as follows:

When air is supplied to the pipeline, / b ok flows through pipeline 35 through a window 43 in the plunger 29 of the spool 27 into the channel 33 and further along the pipeline 37 from the pneumatic cylinder 39, moving the piston 44 to the right, while the spool 2 turns off chamber 20 with pipeline 17

When valve 25 is blown off from the valve of 25 kgf / cmg, it fills chamber 20 and through channel 24 of the spool distributor and pipe 17 enters the cavity of pneumatic cylinder 1; moving piston 4 with plungers 5 and b to the right. "Air from the pneumatic cylinder t through pipeline 18 and channel 23 through approx. 22 is discharged into the atmosphere. In this case, permission s is created in the hydraulic cylinder 2, as a result of which the suction valve 15 is opened and the technical water enters the cavity of the hydraulic cylinder 2 under the plunger 5 The spring 31 is as-. rotates the plunger 29 of the spool 27 to its initial position, at which air flow into the channel is blocked, 33 oh and channel 41 is in communication with the atmosphere. When the piston 4 reaches the end of the valve plunger 30 of the valve 28, it presses the spring 31 the plunger 30 closes the channel 42 and informs the channel 34 through the window 43 in the plunger 30 with the pipeline 26 Air through the pipeline 36, the channel 34 of the spool 28 and the pipeline 38 enters the piston 45 of the pneumatic cylinder 40; moving it to the left. The rod 47 of the piston 45 moves to the left a rigidly connected rod 48, which by the lever 49 rotates the spool 21 of the spool valve s, aligning the channel 24 with the pipeline 18 and 23 with the pipeline 17S and also moves the rod 46 of the piston 44s by moving it to the left B of the piston 39. At the same time

the spirit from under the piston 44 through the pipeline 37 and the channel 4 of the spool 27 is discharged into the atmosphere. When the channel 24 of the spool valve is combined with the pipeline 18, the air from the chamber 20 is pushed into the pyromo-cylinder 1 under the piston 4 and starts to move it to the left, three of which come from the left side having hotsilchndra 1 through the pipeline 17, the channel 23 and the window 22 is discharged into the garbage; moving together with IIOPI 4, compresses the technical pressure in the cavity of the cylinder 2 o. The pressure of industrial water increases, for example, to 600 kgf / cm2 (piston piston is 125–130 times the transverse area plunger section) i up to a value sufficient for effective cleaning of the surfaces. “When the calculated water is reached in the cavity of hydraulic cylinder 2, the discharge valve 0 and technical water are high, the donation goes to the working nozzle I -, and draws it onto the heating surface to be cleaned.

Single-stage with the compression of process water in the cylinder 2 decontamination, technical water through the suction valve 16 begins to fill the cavity of the cylinder 3 "

When the piston 4 reaches the leftmost position, it acts on

plunner 29 zlSgnka 27 and moves oros from pistons which are connected to provide compressed air through pipeline 33 to channel 33 and pipeline 37 to the pneumatic cylinder 39 Piston 44 of the 39E pneumatic cylinder is rejected, it acts by turning it 46 by 46 to 44, which switches 49 spool valve, combining the channel 24 with the pipeline 17 Work cycle is repeated.

40

The saw blade is made in a saw blade; the spool is located on the ends of the center; a small pressure 5 the plunger is each spring loaded and is equipped with an interaction between the free piston and the low and 5 cylinder piston and the reversing mechanism is in the form of two

They are equipped with a lever for switching the lottery distributor, with pneumatic brakes with gold switches of the reversing mechanism.

2, The device according to claim 1, about tons of which are due to the fact that the spool valve and spool valve are supplied to a source of compressed air

The use of the present invention allows to obtain a stable, high-pressure installation with a simple and reliable design.

Invention Formula

 „Stretches for och stkhi surfaces heats the cat. h-ns. m pgreg. containing a fluid that has been consumed, high-pressure wipers, high pressure, integrated iibix with a working distributor with a working nozzle, a low pressure reference head connected to an opto-distributor with a distributor, and an distributor with a working nozzle; piston, iieHiioro cylinder in a low pressure cylinder, and plungers placed in high pressure cylinders and rigidly connected to the piston at the reversing mechanism and the switch of the reference mechanisms position characterized in that, with a chain to improve reliability and quality of cleaning, the switch nor reversive mez of pistons which are connected

0

Hannism is made in a saw blade of zolotniks located on the ends of the die;: pressure pressure 5 the plunger of each of which is spring-loaded is made with the interaction of the free end with the piston of the low dag 5 cylinder 5 and the reversing mechanism is made in the form of two stocks

mi n

They are equipped with a switching lever switch for the spool valve, with the pneumatics of the valve having a slide switch of the reversing mechanism.

2, The device according to claim 1, about tl and often because the spools and the spool valve are pumped to a source of compressed air,

Claims (2)

Claim 1. A device for cleaning the heating surfaces of a boiler unit, comprising a working fluid pressure booster made in the form of high pressure cylinders connected * 'to a working fluid source and a working nozzle, and a low pressure cylinder connected to a spool valve, a piston located in the cylinder low pressure, and plungers placed in high pressure cylinders and rigidly connected to the piston, a reversing mechanism and a position switch of the reversing mechanism, characterized in that nadezhnosti'raboty and increase quality of treatment, the switch position of the reversing of the mechanism is designed as a spool disposed on one ends of the cylinder bottom pressure, the plunger of each of which is spring-loaded and configured. the possibility of interaction of the free end with the piston of the low pressure cylinder, and the reversing mechanism is made in the form of two pneumatic cylinders, the piston rods of which are connected by ends and equipped with a lever for switching the valve distributor, while the pneumatic cylinders are connected to the -golds of the switching mechanism. 2. Adjustable position reversing and. 1, it is molded that the spools and spool valve are connected to a source of compressed air,