CN112999722A - Self-cleaning filter with rotary spray head - Google Patents

Abstract

The invention discloses a self-cleaning filter of a rotary nozzle, which comprises an upper joint, a through pipe, a lower joint, a sampling pipe, a threaded movable joint cover and a quick-connection rotary nozzle, wherein the upper part of the through pipe is hermetically connected with the upper joint, the upper side of the center of the upper joint is connected with a water inlet pipeline, the lower side of the center of the upper joint is connected with the quick-connection rotary nozzle, the quick-connection rotary nozzle is arranged in the through pipe, the lower part of the quick-connection rotary nozzle is provided with the lower movable joint, the lower movable joint is used as a sample water inlet or a back-flushing cleaning water outlet, the threaded movable joint cover is sleeved outside the lower movable joint and is hermetically connected with the lower side of the through pipe, and the sampling pipe is connected with the lower part. The invention utilizes the pressure of water to drive the cleaning spray head to rotate, the front end of the spray head forms jet flow and rotates to sweep and flush the filter screen, and through the control of cleaning flow, compressed air of the air compressor is added into the cleaning water flow in a pulse mode to form pulse type high-pressure sweeping and flushing water flow, thereby solving the self-cleaning problem of the integral filter surface of the filter screen.

Description

Self-cleaning filter with rotary spray head

Technical Field

The invention relates to the field of self-cleaning filters, in particular to a self-cleaning filter of a rotary spray head.

Background

The precision filter used in the field of online water quality monitoring is complex, each equipment provider has a set of water quality sampling pretreatment system, the flow, the filter structure, the filter screen or the filter material and the cleaning mode adopted by the precision filtering water sample are respectively characterized, but the filtering precision is not high on the whole, the cleaning effect of the filter screen or the filter is not ideal, the long-term effective work of the precision filter cannot be guaranteed by self-cleaning, and the long-term effective work of the precision filter depends on regular manual cleaning and maintenance.

At present, stainless steel screens, ceramic filters, metal powder sintered filters and the like are generally adopted as the screens or filters of the precision filters. The cleaning of the screens or filters is generally by means of a reverse cleaning with tap water and compressed air. The cleaning is to add tap water and air to the water outlet surface of the filter screen or the filter integrally, and the reverse cleaning force is formed on the water outlet surface of the filter screen or the filter completely by pressure, so that impurities on the filter screen or the filter are washed away. When the filter screen or the filter is partially cleaned, the pressure difference between the inlet side and the outlet side of the filter screen or the filter is greatly reduced, the reverse cleaning acting force on the filter screen is lost, and most of the filtering area of the filter screen or the filter cannot be effectively cleaned.

That is to say, structural design and self-cleaning function of the precision filter applied to water quality on-line monitoring at present can not realize comprehensive effective cleaning of a filter screen or a filter filtering surface, and can not ensure that an effective filtering area is recovered after the precision filter is cleaned.

The failure time of the existing precision filter is prolonged by increasing the filtering area or reducing the filtering precision, and the normal use of the precision filter is ensured by regular manual cleaning and maintenance. Even so, the precision filtration precision which can be realized at present can only be 300 meshes to 600 meshes, and the use in oily or viscous water quality environment is more difficult.

The quality of the structure function of the precision filter is related to the effectiveness of on-line monitoring data and is also a safety guarantee for the normal work of an analytical instrument, so that a precision filter capable of working stably for a long time is needed.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a self-cleaning filter of a rotary spray head, which solves the problem of performing precise filtration on an analyzed water sample in online water quality monitoring application.

In order to achieve the purpose, the invention adopts the following technical scheme:

a self-cleaning filter of a rotary nozzle, which comprises an upper joint, a through pipe, a lower joint, a sampling pipe, a threaded loose joint cover, a rotary quick joint and the rotary nozzle, the rotary quick-connection joint and the rotary spray head are spliced into a quick-connection rotary spray head which is arranged in the through pipe, the upper part of the through pipe is hermetically connected with an upper joint, the upper side of the center of the upper joint is connected with a water inlet and air inlet pipeline, the lower side of the center of the upper joint is rotatably connected with the rotary quick joint to form a passage, a lower movable joint is arranged below the quick-joint rotary spray head and is used as a sample water inlet or a back-flushing cleaning water outlet, a threaded movable joint cover is sleeved outside the lower movable joint and is hermetically connected with the lower side of the through pipe, the sampling tube is connected with the lower part of the side edge of the upper joint and arranged in the through pipe, and the upper joint is communicated with water and compressed air to drive the rotary quick-joint to rotate through the rotary spray head.

Further, the sampling tube is connected with the upper joint through threads or is bonded with the upper joint.

Furthermore, the bottom surface of the rotary spray head is provided with asymmetrical spray holes which are arranged in a row.

Furthermore, tangential nozzles are arranged on two sides of the bottom of the rotary spray head, and the tangential directions are opposite.

Further, two tangential nozzles are communicated with each other.

Further, the top connection is provided with a sampling port communicated with a sampling tube, and the bottom of the sampling tube is arranged at the lower part of the through tube

Further, the through pipe is a Tongming acrylic pipe.

Further, a sealing ring is arranged between the through pipe and the upper joint in a cushioning mode, and the sealing ring is 0-shaped.

Furthermore, a detachable filter screen is arranged on the upper side of the lower movable joint.

Furthermore, a sealing flat gasket is arranged between the thread loose joint cover and the through pipe.

By adopting the technical scheme of the invention, the invention has the beneficial effects that: the invention utilizes the pressure of water to drive the cleaning spray head to rotate, the front end of the spray head forms jet flow and rotates to sweep and flush the filter screen, and through the control of cleaning flow, compressed air of the air compressor is added into the cleaning water flow in a pulse mode to form pulse type high-pressure sweeping and flushing water flow, thereby solving the self-cleaning problem of the integral filter surface of the filter screen. The self-cleaning filter can be cleaned by self cleaning under the condition that a filter screen with the precision of 1000 meshes is in a severe water quality environment, and can be stably used for a long time under the condition of certain viscosity and oily water quality.

Drawings

FIG. 1 is a schematic diagram of a spin-head self-cleaning filter according to the present invention;

FIG. 2 is a view of the internal structure of a spin-head self-cleaning filter according to the present invention;

FIG. 3 is a structural view of a rotary sprayer provided by the present invention;

fig. 4 is an internal structure view of the rotary nozzle according to the present invention.

The device comprises a sampling pipe, a tangential nozzle, a sealing flat gasket, a spray washing hole, a sampling port, a sealing ring, a rotary quick connector, a rotary spray head, a thread loose joint cover, a lower loose joint cover, a sealing ring, a sealing flat gasket, a pipe, a sampling pipe, a tangential nozzle, a spraying hole, a sampling port and a.

Detailed Description

Specific embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in the figure, a rotatory nozzle 4 self-cleaning filter, including top connection 1, siphunculus 9, lower clutch, sampling tube 10, screw thread loose joint lid 5 and meet rotatory nozzle 4 soon, siphunculus 9 top and top connection 1 sealing connection, the upside and the intake pipe connection of intaking of 1 central authorities of top connection, the downside and the quick rotatory nozzle 4 that connects of 1 central authorities of top connection are connected, in the siphunculus 9 was located to quick connect rotatory nozzle 4, quick connect 4 below of rotatory nozzle to be equipped with down loose joint 6, lower loose joint 6 is used for washing the outlet for appearance water inlet or blowback, and screw thread loose joint lid 5 covers establishes in the loose joint 6 outside down and with siphunculus 9 downside sealing connection.

Sampling tube 10 is connected with the below of top connection 1 side and is located in siphunculus 9, top connection 1 is equipped with the sample connection 13 with sampling tube 10 intercommunication, the lower part of siphunculus 9 is located to sampling tube 10 bottom. The sampling tube 10 is screwed or bonded with the upper joint 1, and the upper part of the sampling tube 10 is provided with a sampling port 13 for sampling. The bottom of the sampling tube 10 is arranged at the lower part of the through pipe 9, so that a filtered water sample can enter a sample cup for sampling by an analytical instrument, the whole through pipe 9 does not need to be filled with useless water, the upper part of the through pipe 9 is always sealed with air, the utilization rate of the filtered water sample is improved, and the efficiency of the precision filter is improved.

The through pipe 9 is a Tongming acrylic pipe, so that the internal sampling and cleaning conditions can be observed conveniently.

The upper side of the lower movable joint 6 is provided with a filter screen 7, so that impurities are prevented from entering.

The quick-connection rotary sprayer 4 comprises a rotary quick-connection joint 3 and a rotary sprayer 4, the rotary sprayer 4 is connected with the rotary quick-connection joint 3 in an inserting mode, the rotary quick-connection joint 3 is rotatably connected to the lower side of the center of the upper joint 1 and forms a passage, and the upper joint 1 is communicated with water and compressed air and drives the rotary quick-connection joint 3 to rotate through the rotary sprayer 4.

The bottom surface of the rotary spray head 4 is provided with asymmetrical spray holes 12, and the spray holes 12 are arranged in a row. Tangential nozzles 11 are arranged on two sides of the bottom of the rotary spray head 4, and the tangential directions are opposite. Two tangential nozzles 11 are communicated with each other. The radial edges of the rotary spray head 4 are provided with two symmetrical tangential nozzles 11 which generate rotary torque under the driving of the spray kinetic energy, and a row of asymmetrical spray holes 12 form spray washing water flow to wash the filter screen 7. Connect rotatory nozzle 4 soon and can form comprehensive sweeping type to filter screen 7 and wash, this rotatory nozzle 4 self-cleaning mode is that it is simple effective to wash filter screen 7, and the cleaning performance is good.

A sealing ring 2 is arranged between the through pipe 9 and the upper joint 1 in a cushioning mode, and the sealing ring 2 is 0-shaped.

A sealing flat gasket 8 is arranged between the thread loose joint cover 5 and the through pipe 9.

Self-cleaning filters have three operating states: the method comprises the steps of filtering and sampling, backwashing and emptying, and the processes are controlled by an external electromagnetic valve.

Filtering and sampling: the lower movable joint 6 is used as a sample water inlet, a water sample with pressure enters the filter from the lower movable joint 6, the upper joint 1 is in a closed state at the moment, the emptying of the rotary quick joint 3 is closed, the water sample filtered by the filter screen 7 passes through the sampling tube 10 and enters a sampling cup of an analysis instrument from a sampling port of the sampling tube 10, and the filtering and sampling process is finished after the sampling cup is filled.

Back washing: the lower loose joint 6 is used as a blowback cleaning water outlet, and after filtering and sampling, the filter needs to be cleaned. At this point, sampling tube 10 is closed, top connection 1 is open, evacuation of rotary quick connect 3 is open, and water and pulse ram host air top connection 1 enters the filter. Under the push of water and pressure sink air pressure, the spray head drives the high-speed rotating quick-connection rotating to perform high-pressure sweeping type back flushing on the filter screen 7, and then the filter screen is discharged from the rotating quick-connection joint 3, the self-rotating spray head 4 and the lower movable connection joint 6.

Emptying: the lower movable joint 6 is used as a back flushing cleaning water outlet, water inlet is cut off after back flushing is finished, back flushing is continued by the compressed air, all residual water in the filter is discharged through the rotary quick joint 3, and then the residual water is discharged from the lower movable joint 6. Then the upper connector 1 is opened to empty the whole sampling tube 10 pipeline, and the emptying process is finished.

The rotary quick-connection joint 3 in the self-cleaning filter is an existing joint and is not a workpiece.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A self-cleaning filter of a rotary nozzle is characterized by comprising an upper joint, a through pipe, a lower joint, a sampling pipe, a threaded loose joint cover, a rotary quick joint and the rotary nozzle, the rotary quick-connection joint and the rotary spray head are spliced into a quick-connection rotary spray head which is arranged in the through pipe, the upper part of the through pipe is hermetically connected with an upper joint, the upper side of the center of the upper joint is connected with a water inlet and air inlet pipeline, the lower side of the center of the upper joint is rotatably connected with the rotary quick joint to form a passage, a lower movable joint is arranged below the quick-joint rotary spray head and is used as a sample water inlet or a back-flushing cleaning water outlet, a threaded movable joint cover is sleeved outside the lower movable joint and is hermetically connected with the lower side of the through pipe, the sampling tube is connected with the lower part of the side edge of the upper joint and arranged in the through pipe, and the upper joint is communicated with water and compressed air to drive the rotary quick-joint to rotate through the rotary spray head.

2. The spin head self-cleaning filter of claim 1, wherein the sampling tube is threaded or bonded to the top fitting.

3. The spin head self-cleaning filter of claim 1, wherein the spin head floor is provided with asymmetric wash holes in a row.

4. The spin head self-cleaning filter of claim 1, wherein tangential nozzles are provided on opposite sides of the bottom of the spin head, and the tangential directions are opposite.

5. The spin head self-cleaning filter of claim 4, wherein two tangential nozzles are in communication.

6. The self-cleaning filter with rotating spray head of claim 1, wherein the upper joint is provided with a sampling port communicated with a sampling tube, and the bottom of the sampling tube is arranged at the lower part of the through pipe.

7. The showerhead self-cleaning filter of claim 1, wherein the through-tube is a tomayaki tube.

8. The self-cleaning filter with rotating spray head of claim 1, wherein a sealing ring is arranged between the through pipe and the upper joint in a padding way, and the sealing ring is 0 type.

9. The spin head self-cleaning filter of claim 1, wherein the lower loose joint has a removable screen on the top.

10. The self-cleaning filter with rotating spray head of claim 1, wherein a sealing flat washer is arranged between the threaded loose joint cover and the through pipe.

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