SU1533776A1 - Apparatus for washing cavities and ducts - Google Patents

Abstract

The invention relates to the field of cleaning, namely to devices for supplying a pulsating detergent agent to the cavities and channels that are being flushed, and can be used in mechanical engineering and other branches of the national economy. The invention makes it possible to increase the washing efficiency and the reliability of the operation of the device. A device for washing cavities and channels is proposed, comprising a housing 1 and a two-stage power amplifier disposed therein, consisting of a control piston of differential type 9 with a nozzle 10 and a locking member 12 held in the housing by a spring 17 placed inside the piston 16 of the spool, stem which is included in the line pressure P _m of washing liquid and diffuser nozzle heads 30 included in the pressure chamber of the power amplifier tangentially to the backbone. Shut-off valve 12 closes nozzle 10 and the valve moves down, the tensile spring 17, the pressure P _m upstream of the valve increases and the piston 16 moves downward, expelling rod in its backbone certain volume. At the same time, the valve stem 9 displaces the high pressure pulse through the nozzles 30 into the line 8, creating in it a spin of washing liquid flow, a cavitation torch and a pressure pulsation. Then the spring 17 opens the valve plug 12, the power amplifier is returned to the pressure P _th line 8 upwardly and the cycle is repeated. This embodiment improves the efficiency of washing and reliability of the device. 4 hp ff, 1 ill.

Description

The invention relates to cleaning, in particular to devices for supplying a pulsating detergent agent to the cavities and channels that are being flushed, and can be used in mechanical engineering, as well as in other branches of the national economy.

The aim of the invention is to increase the efficiency of the washing process, and the reliability of operation.

The drawing shows the proposed device, a vertically transverse section.

The device comprises a housing 1 with inlet and outlet pressure openings 2 and 3, a bypass pipe connecting a cavity at the inoperative end of the housing 6 with the cavity 5 to the cavity pressure 7 of the supply line 8 of the washing liquid formed by the branch pipe on the working end of the housing the nozzle 10 and in the form of a T-shaped channel in the piston 9 with a recess 1 1, whose cross section is larger than the cross section of the nozzle 10, but always smaller than the cross section of the working end of the valve closure body 12, the piston rod 13 of the piston 9, placed in the axial vertical cavity I of the valve the channel rod 15 of the piston 16 of the spool, inside of which is placed the piston 9 of the valve, adjustable by stiffness spring 17 of the valve body 12, the end turns of which are fixed on the valve body 12 and inside the threaded

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plugs 18 of housing 1, with an element 19 in the form of an adjusting screw for adjusting the number of turns (stiffness, bone) of the spring 17 mounted inside the spring 17, annular grooves 20 and 21, made on the side surfaces of the pistons 9 and 16, communicated by channel and with a bypass pipe 22 of the exhaust pressure, a piston piston cavity 23 and a cavity of the nozzle 10, an annular groove 2 of the piston 16 connected by channels 25 with a cavity 1, bypass pipelines 26 and 27 with non-return valves installed in them

28 and 29, included in the pressure line of the RM, and the check valve 28 is normally open in the direction of the diffuser nozzle nozzles 30, connected tangentially 31 into the line

8 pipe 32, and a check valve

29 toward the high pressure cavity 1, a fine filter 33 located between the valve 28 and the diffuser nozzle nozzle 30, adjustable resistances in the form of throttles 3 installed in the pipelines 22 and the independent high pressure pipe 35. The device also has a piston cavity 36 of the spool in communication with the outlet pressure port 3.

The autonomous pipe 35f, in which pressure may be higher than the pressure Pm, is activated only under special rinsing conditions, for example

with additives to the washing fluid line 8 special components. And the stroke of the pistons 9 and 16 never exceeds the width of the grooves 20 and 21, 2h. In addition, a spring 37 is placed in the valve cavity 23, and holes 38 and 39 are made in the pistons of the valve and the valve.

The device works as follows.

The device occupies an indifferent position in the spaces relative to the main line 8 of the washing liquid of the pipeline 32. For example, the pressure Рн to the stem 15 of the valve and the piston rod 13 of the pistons 16 and 9 through the open non-return valve 29, the pipeline 27 and the channels 25 lifts them to INDUSTRY indicated in the drawing, where the locking member 12 gently closes the nozzle 10. The pressure Pm through the pipeline and the opening 2, as well as the channel 5 of the threaded plug 18 of the housing 1 loads the cavity 6. At the same time, the flow rate from the highway 8 to the cavity 6 is determined by the adjustable resistance the pressure in the cavity 6 increases and the piston 9 begins to move downward, thus stretching the spring 17, since the locking member 12 is pressed against the cross section of the recess 11 of the nozzle 10 by the differential pressure

The PMP1 is located inside the nozzle 10 and the cavity 23, since the grooves 20, 21 and the cavity 23 are connected by holes 38 and 39 formed in the pistons x 16 and 9. The downward movement of the piston 9 starts before the movement of the piston 16, Since the difference in cross sections of the piston 9 and its rod 13 is greater than the difference in cross sections of the piston 16 and its rod 15. Stretching the spring 17 and compressing the spring 37 increases the pressure in cavity 6, and a downward movement of the piston 16 begins. Rod 13 increases the pressure in the cavity as a shut-off valve 29 closes the channel 27. At the same time, the shut-off valve 28 The ala 26 opens and the flow rate of the channel 26, equal to the volume of fluid displaced by the plunger 13 from the cavity 1h, overcoming the resistance of the narrow part of the diffuser nozzle nozzles 30, is injected tangentially 31 into the fluid flow of the washing fluid line 8.

In the narrow part of the diffuser nozzle nozzle 30, a cavita5 is generated.

The plume, which impinges imperceptibly into the main line 8 of the washing liquid, mixes with it and forms small cavitation bubbles actively acting on the walls of the flushing channels and cavities, thus improving the quality of the washing. At the same time, the flow is twisted, reducing the hydraulic loss, and the losses, and the efficiency of the action of the washing liquid increases, the filters 3 prevent the wear of the device from entering the line 8. The operation of the spring 17 on tension., E, is equal to the working stroke of the pistons 9 16, reaches its maximum and, overcoming the force of pressing the locking member 12 to the cross section of the recess And the nozzle 10, the differential pressure

RM RM RYL relay disconnects it from the piston 9 and returns to the position close to the original. Through the nozzle 10 there is a flow through the grooves 20 and 21 into the pipe 22 of the pressure PRb, x. The pressure in cavity 6 decreases to P6.

and the shaft 9 together with the piston 16 is moved upwards, since the pressure 13 on the rod 13 and the spring 37 on the piston 9 enter the return valve 29 through the opening 27 of the pipeline 27, the bore and channels 25 into the cavity 1h, and the pressure 15 acts on the rod 15 The PM cavity 7, equal to the pressure in line 8, the 9 orthus meets gently with the locking member 12, its nozzle 10 closes again, the pressure in the cavity 6 grows and both pistons 9 and 16 stop, not income until it stops at the threaded plug 18.

e In this case, their impact is eliminated, ensuring smooth operation of the device. Thereafter, the cycles are repeated at a frequency proportional to the flow through the resistance 3 of the pipe line; water k into cavity 6. Thus, an increase in the power of the device is achieved in the process of generating parameters of pressure pulsations in the washing stream, increasing its activity

Influence on flushed channels and cavities of various products. This is achieved by the fact that pressure pulses of both stem 15 and stem

e 13. In addition, the flow of line 8 is affected by pressure pulses that generate the shut-off member 12 when triggered. At the same time, the activity of the flow effect on the washed objects also increases due to the ragged rhythm of pressure fluctuations, which is achieved by different speeds of movement of the pistons 9 and 16 and the difference in the sections of the rods 13 and 15. Along with this, clogging of the Drifting fluid in the pipeline 8 of the pipeline 32 is prevented by products wear of rubbing elements (pistons and rods) due to tgr, one hundred elements of the device, after the useful work is completed by the pressure PM, transfer the waste liquid not to the main line 8, but to the stand tank before discharge into which it is Searched through a system of fine filters 33 and centrifuges (not labeled). In addition, all leaks on the precision gaps are also directed to the tank. This makes it possible to increase the quality of washing and increase the service life of the washing liquid and the device.

The widths of the grooves 20, 21 and pistons 9 and 16 are made such that the pistons never exceed their widths, and the sub-shaft cavity 36 is always with pressure PBA (holes 3. The independent pressure pipe 35 is only operational during special rinsing modes, for example when adding into the washing liquid of the main tank of various components and additives increasing its washing activity, which expands the functionality of the device.In addition, the pipeline 35 allows to increase the flow rate into the cavity 6, and consequently, expand the range The azone frequency of pressure fluctuations of the washing liquid, which also expands the functionality and increases the efficiency of the flushing process. Adjustable resistance 3 of conduit 22 allows the piston 9 and 16 to be controlled by varying the pressure differential across the valve body 12 due to the change in pressure. 23, the nozzle 10 and the recess 11, in which the magnitude of the expansion of the spring 17 changes when the closure member 12 is torn off. So, for example, as the pressure Pbc increases, the pressure drop across the closure organ 12 decreases This reduces the stroke of the pistons 9 and 16, and, consequently, the amplitude of pressure oscillations of the fluid. In this case, the recess 11 of the nozzle 10 increases the efficiency of the force control.

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and protects the locking member 12 from cavitational destruction of the working surface. When the pressure Pout in the pipeline 22 decreases, the pressure drop across the shut-off organ 12 increases, which leads to an increase in tension of the spring 17 before the shut-off member 12. The stroke of the pistons 9 and 16 increases, therefore, the amplitude of pressure fluctuations of the washing liquid and the like increases. Moreover, in the dynamics, the pistons 9 and 16 never come into contact with the threaded rod, timid 18. This is achieved by the fact that the spring 17 in the free state (with the nozzle 10 open) lowers the locking member 12 lower than indicated in the drawing. Consequently, the piston 9 meets the shut-off member 12 earlier, the nozzle 10 is closed and both pistons 9 and 16 are stopped by a hydraulic seal in the cavity 6. The stroke of the pistons 9 and 16 is also controlled by the adjusting element 19, which (rotates) increases or decreases the number of workers turns of the spring 17, affecting the separation of the closure member 12, i.e. move

The technical and economic efficiency of the invention consists in increasing the efficiency of the washing process and the reliability of the device in operation, which allows it to be used as a device for washing cavities and channels of high power, without increasing the power capacity of pumping plants.

Claims (5)

1. Device for washing cavities and channels, comprising a housing with a cylindrical cavity, a branch pipe located at its working end for supplying washing fluid into the cavity being flushed, a valve spring-loaded axially in the cypindrical cavity with an axial channel and a valve mounted on the non-working end of the housing shut off the axial channel of the spool having a T-shaped channel, the axial part of which is open on the side of the non-working end of the body, and the output opening, of the jumper are located on the side along erhnosti valve and annular about 1 point on the outer wall at the outlet channel jumper subspace axially gin's valve valve body located in front of the open axial part of its channel, and nozzle nozzles for supplying washing fluid to the flushing channels, the cylindrical cavity in the zone of the non-working end of the body and the nozzle cavity communicating through a bypass line with a throttle embedded in the neg, and spring stiffness the spool exceeds the spring stiffness of the valve's ferrule organ, characterized in that, with CLR, the reliability and the efficiency of the flushing process are improved, the spool and valve are in the form of a piston with rods, with the piston and valve stem located respectively in the axial channel of the piston and the valve stem with the possibility of axial movement along the corresponding channel walls, the axial channel of the spool is plugged at the free end of its rod, and two annular grooves are made on the outer surface of the piston piston, The T-shaped channel is made in the piston of the valve, the piston cavity of which is communicated through holes in its piston through the jumper of the T-shaped channel, the annular groove of the valve and by means of tures in an sidewall of the valve from one of the annular grooves to date first, the free end of the spring of the locking member is associated with the non-working end of the body, the spring of the slide is placed in the valve piston cavity and connected with the free end to the valve piston end, the valve piston and valve spool are connected to each other through holes in the side wall of the housing and communicated with these holes bypass pipe with a throttle built into it through the valve valve bore and the valve piston ring bore in communication with it, the bypass pipe for communicating these cavities to them It has an outlet fitting built into it, five 0 five 0 five 0 five 0 The cavity of the nozzle at the working end of the housing communicates with the valve stem under the valve in the rod and piston of the spool with the outlet of this channel into the annular groove of the piston of the valve that is not connected to the annular groove of the valve and the holes in the side wall of the housing and the bypass pipe connected to these holes and having a check valve, normally open in the direction of the valve shaft, and the nozzle nozzle communicated through an additional channel in the piston rod and piston with the outlet of this channel in the ring -hand groove of the piston slide valve, not communicating with the annular groove to / 1apane, an opening in the side wall of the housing and communicated with the conduit opening with check valve, a normally open towards the nozzle head. 2. The device according to claim 1, about tl and - often because the nozzle nozzle has a tapering section in the middle part, the flow area of which is less than the flow area of the non-return valve integrated into the bypass pipe connected to the nozzle nozzle. 3. The device according to claim 1, which is the fact that the non-working end of the body has a threaded plug with an adjusting screw located inside the spring of the locking member to adjust the number of turns of the spring. . A device according to claim 1, in which it has an additional pipeline for supplying chemical reagents to the washing liquid, communicated with a hole in the body, made in its side wall in the area of the non-working end. 5. The device according to claim 1, wherein the pipeline connected to the nozzle nozzle has a fine filter between the check valve and the nozzle nozzle. I