CN117427390B - Gate valve energy storage cleaning device, pipeline structure and gate valve with filtering function - Google Patents

Abstract

The invention discloses a gate valve energy storage cleaning device, a pipeline structure and a gate valve with a filtering function, and relates to the technical field of gate valves. Including the gate valve body, gate valve body top-down has set gradually central first cavity, second cavity and the third cavity of mutual intercommunication, is provided with the feed end on the first cavity outer wall, is provided with the discharge end on the second cavity outer wall, and third cavity bottom is provided with the blowdown end, and first cavity inside is provided with the flabellum, fixedly connected with filter mantle between the inside upper and lower inner wall of second cavity. According to the invention, through the arrangement of the gate valve energy storage cleaning device, the adaptive gear in the energy storage timing assembly rotates along with the transmission assembly, so that the rotating arm and the supporting wheel intermittently jack up the ejection assembly, the cleaning assembly is also fixed on the transmission assembly, the cleaning assembly can continuously or periodically clean impurities in the filter cover, and then the filter cover can be flushed into the third chamber to be discharged along with the pollution discharge end when the ejection assembly jacks up the sealing plug.

Description

Gate valve energy storage cleaning device, pipeline structure and gate valve with filtering function

Technical Field

The invention relates to the technical field of gate valves, in particular to a gate valve energy storage cleaning device, a pipeline structure and a gate valve with a filtering function.

Background

A gate valve is a commonly used industrial valve for controlling the flow of a fluid (liquid or gas) and is composed of a liftable valve disc and a valve seat, and the on-off of the fluid is controlled by rotating the valve disc or the liftable valve disc.

When the gate valve with the filtering function is used, impurities can be effectively filtered by using the filtering component, but the impurities can be gathered at the position of the filtering component, and the accumulation of the impurities can influence the use effect of the filtering component along with the increase of the use time, so that the cleaning component is designed to timely clean the impurities at the position of the filtering component, and the accumulation of the impurities can influence the circulation speed at two sides of the filtering component, therefore, the cleaning component is needed to be used for timely cleaning the impurities at the position of the filtering component; in the fluid conveying process, the water pressure in the pipeline can be fluctuated up and down, especially the water hammer effect, the water hammer effect can lead to the increase of the water pressure change value in the pipeline, when the unbalanced water pressure is transmitted to the filter assembly of the gate valve, sundries originally deposited in the cavity are easy to be excited, the circulation effect of the filter assembly can be directly influenced, and therefore the gate valve energy storage cleaning device, the pipeline structure and the gate valve with the filtering function are invented.

Disclosure of Invention

The invention aims to provide a gate valve energy storage cleaning device, a pipeline structure and a gate valve with a filtering function, so as to solve the problems in the background art.

In order to achieve the above purpose, the present invention provides the following technical solutions: the gate valve energy storage cleaning device comprises three aspects, wherein the gate valve energy storage cleaning device of the first aspect comprises a gate valve body, a first chamber, a second chamber and a third chamber which are mutually communicated are arranged on the gate valve body from top to bottom in the center, a feeding end is arranged on the outer wall of the first chamber, a discharging end is arranged on the outer wall of the second chamber, a sewage draining end is arranged at the bottom of the third chamber, a fan blade is arranged in the first chamber, a filter cover is fixedly connected between the upper inner wall and the lower inner wall of the second chamber, materials entering from the feeding end are filtered by the filter cover and then discharged from the discharging end, a middle cover which is erected above the communication position of the second chamber and the third chamber is arranged in the filter cover, a pressing spring is fixedly connected to the inner wall of the top of the middle cover, a sealing plug is fixedly connected to the bottom end of the pressing spring and is blocked at the communication position of the second chamber and the third chamber, the energy storage timing assembly comprises an outer cover, the outer cover is fixed on the inner wall of the third chamber through a connecting rod, at least one side frame is arranged on the inner wall of the bottom of the outer cover, a rotatable transmission piece is rotationally connected to one side of the side frame, a rotating arm is fixedly connected to the other side of the transmission piece after penetrating through the side frame, a supporting wheel is arranged at the end of the rotating arm, an ejection assembly is arranged at the top of the outer cover in a penetrating mode, the ejection assembly comprises at least one ejector rod, the top of the ejector rod is abutted to the lower portion of a sealing plug, a pressing bow is fixedly connected to the bottom of the ejector rod, the pressing bow is matched with the supporting wheel, power is transmitted to the energy storage timing assembly through the transmission assembly, a cleaning assembly for cleaning the inner wall of the filter cover is arranged in the second chamber through the fan blade, the cleaning assembly can rotate under the driving of the transmission assembly, and the transmission assembly sequentially penetrates through the middle cover from top to bottom The sealing plug and the outer cover are in fit transmission with the transmission piece, so that the transmission piece drives the rotating arm to rotate, the rotating arm is abutted against the lower part of the pressing bow through the abutting wheel in the rotating process, the ejector rod intermittently pushes away the sealing plug, the second cavity is communicated with the third cavity, and impurities cleaned by the cleaning assembly flow to the third cavity and are discharged from the sewage discharge end.

As a further preferred of this technical scheme, drive assembly includes the transmission shaft, the one end fixedly connected with cross pin head of transmission shaft, the cross hole with cross pin head adaptation has been seted up to flabellum center bottom, the transmission shaft bottom runs through in proper order and covers, sealing plug and dustcoat back fixedly connected with drive gear, the driving medium is adapter gear, adapter gear and drive gear intermeshing, the outer wall fixedly connected with clearance subassembly that the transmission shaft is located the second cavity.

As the further preferred of this technical scheme, drive assembly includes the transmission shaft, the one end fixedly connected with cross pin head of transmission shaft, the cross hole with cross pin head adaptation has been seted up to flabellum center bottom, the transmission shaft outer wall has cup jointed the sleeve pipe, sleeve pipe and transmission shaft bottom run through well cover, sealing plug and dustcoat in proper order, sleeve pipe bottom fixedly connected with stationary face gear, the transmission shaft bottom stretches out the sleeve pipe back fixedly connected with drive gear, the driving medium is the adaptation gear, adaptation gear and drive gear intermeshing, the spout has been seted up to the position that the transmission shaft outer wall is located between stationary face gear and the drive gear, sliding connection has the sliding surface gear on the spout, the transmission shaft can drive the sliding surface gear and rotate, and the position that the transmission shaft outer wall is located the sliding surface gear below has slidingly sleeved movable disc, and the movable disc is fixed on the outer wall of ejector pin to follow the ejector pin reciprocates, movable disc top fixedly connected with pressing spring, lets pressing spring promote the sliding surface gear move up with stationary face gear meshing drive sleeve pipe rotatory when the movable disc moves up, the position fixedly connected with clearance subassembly that the outer wall is located the second cavity inside.

As a further preferable mode of the technical scheme, the driving gear and the adapting gear are respectively a straight gear and a crown gear or the driving gear and the adapting gear are respectively right-angle transmission bevel gears.

The pipeline structure of the second aspect uses the gate valve energy storage cleaning device, and the gate valve energy storage cleaning device comprises a pipeline assembly, wherein the pipeline assembly comprises a first shunt pipe, a second shunt pipe, a third shunt pipe and a fourth shunt pipe which are all of Y-shaped structures;

one end of the first shunt tube is fixedly arranged on the feeding end of the gate valve body, and the other two ends of the first shunt tube are respectively a first input end and a second input end;

one end of the second shunt tube is fixedly arranged on the discharge end of the gate valve body, and the other two ends of the second shunt tube are respectively a first output end and a second output end;

two ends of the third shunt tube are respectively fixed with the first input end of the first shunt tube and the first output end of the second shunt tube, a one-way valve is arranged at the connection position of the third shunt tube and the first input end, and a one-way valve is arranged at the connection position of the third shunt tube and the first output end of the second shunt tube;

the two ends of the fourth shunt tube are respectively fixed with the second input end of the first shunt tube and the second output end of the second shunt tube, a one-way valve is arranged at the connection position of the fourth shunt tube and the second input end, and a one-way valve is arranged at the connection position of the fourth shunt tube and the second output end of the second shunt tube.

As a further preferable mode of the technical scheme, an opening and closing piece is arranged at the joint of the first shunt pipe and the feeding end of the gate valve body or the joint of the second shunt pipe and the discharging end of the gate valve body.

The gate valve with the filtering function in the third aspect adopts the gate valve energy storage cleaning device.

Compared with the prior art, the invention has the beneficial effects that:

this gate valve with filtering capability, through gate valve energy storage cleaning device's setting, fluid is filtered the back through the filter mantle, debris can be detained inside the filter mantle, the flabellum is rotated by the drive of fluid material, make energy storage timing subassembly operation through drive assembly, in energy storage timing subassembly, the adaptation gear in the energy storage timing subassembly rotates along with drive assembly, and then make rocking arm and support the wheel intermittent type nature and jack-up to ejecting subassembly, still be fixed cleaning component on the drive assembly, cleaning component can last or the clearance of the inside impurity of stepwise filter mantle, then let it be washed to the third cavity and discharge along with the blowdown end when ejecting subassembly is with the sealing plug jack-up.

Simultaneously, through the setting of pipeline structure, adopt detachable connection with pipeline subassembly and gate valve body simultaneously for this gate valve possesses the flexibility, according to actual demand, can select whether installation pipeline structure, thereby realize the unidirectional or two-way use of gate valve, the result of use thereof has been improved, in addition, the feasibility of pipeline device has been guaranteed in energy storage cleaning assembly's design, through the structure setting of gate valve body and cleaning assembly, debris can be effectively cleared up, ensure the inside fluidic normal circulation of pipeline, pipeline subassembly's setting and energy storage cleaning device's structural design, this gate valve has possessed flexibility and high efficiency in the use, can vibrate unidirectional or two-way fluidic use as required, the reliable operation of pipeline subassembly has been guaranteed simultaneously.

Drawings

FIG. 1 is a schematic overall structure of a first embodiment of the present invention;

fig. 2 is a schematic view of the internal structure of a gate valve body according to a first embodiment of the present invention;

fig. 3 is a schematic view illustrating an internal structure of a gate valve body according to a second embodiment of the present invention;

FIG. 4 is a schematic diagram of an energy storage timing assembly of the present invention;

FIG. 5 is a schematic view of a transmission assembly according to a first embodiment of the present invention;

FIG. 6 is a schematic diagram of a transmission assembly according to a second embodiment of the present invention;

FIG. 7 is a schematic view of a piping component according to the present invention.

In the figure: 1. a gate valve body; 101. a first chamber; 102. a second chamber; 103. a third chamber; 104. a filter cover; 105. a middle cover; 106. pressing down the spring; 107. a sealing plug; 108. cleaning the assembly; 109. a fan blade; 110. a feed end; 111. a discharge end; 112. a sewage discharge end; 2. a conduit assembly; 201. a first shunt tube; 202. a second shunt tube; 203. a third shunt tube; 204. a fourth shunt tube; 205. a one-way valve; 206. an opening and closing member; 3. a transmission assembly; 301. a transmission shaft; 302. a cross pin head; 303. a drive gear; 304. a movable plate; 305. a pressing spring; 306. a chute; 307. a sliding face gear; 308. a sleeve; 309. a fixed face gear; 4. an energy storage timing assembly; 401. an outer cover; 402. a connecting rod; 403. a side frame; 404. an adapter gear; 405. a rotating arm; 406. a supporting wheel; 5. an ejection assembly; 501. a push rod; 502. the bow is pressed.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Embodiment one: as shown in fig. 1, 2 and 5, the present invention provides a technical solution: the core of the technical proposal is a gate valve energy storage cleaning device, and the gate valve energy storage cleaning device is designed to prefabricate an adaptive pipeline structure and a gate valve with a filtering function by means of the gate valve energy storage cleaning device, the gate valve energy storage cleaning device comprises a gate valve body 1, a first chamber 101, a second chamber 102 and a third chamber 103 which are mutually communicated in the center are arranged on the gate valve body 1 from top to bottom, a feeding end 110 is arranged on the outer wall of the first chamber 101, a discharging end 111 is arranged on the outer wall of the second chamber 102, a sewage draining end 112 is arranged at the bottom of the third chamber 103, a fan blade 109 is arranged in the first chamber 101, a filter cover 104 is fixedly connected between the upper inner wall and the lower inner wall of the second chamber 102, materials entering from the feeding end 110 are discharged from the discharging end 111 after being filtered by the filter cover 104, a middle cover 105 which is arranged above the communicating position of the second chamber 102 and the third chamber 103 is arranged in the filter cover 104, the inner wall of the top of the middle cover 105 is fixedly connected with a pressing spring 106, the bottom end of the pressing spring 106 is fixedly connected with a sealing plug 107, the sealing plug 107 is blocked at the communication position of the second chamber 102 and the third chamber 103, an energy storage timing component 4 is arranged in the third chamber 103, the energy storage timing component 4 comprises an outer cover 401, the outer cover 401 is fixed on the inner wall of the third chamber 103 through a connecting rod 402, at least one side frame 403 is arranged on the inner wall of the bottom of the outer cover 401, one side of the side frame 403 is rotationally connected with a rotatable transmission piece, the other side of the transmission piece penetrates through the side frame 403 and then is fixedly connected with a rotating arm 405, the end head of the rotating arm 405 is provided with a supporting wheel 406, the top of the outer cover 401 is penetrated and is provided with an ejection component 5, the ejection component 5 comprises at least one ejector rod 501, the top of the ejector rod 501 is propped against the lower part of the sealing plug 107, the bottom of the ejector rod 501 is fixedly connected with a pressing bow 502, the pressing bow 502 is matched with the supporting wheel 406, the fan blade 109 transmits power to the energy storage timing assembly 4 through the transmission assembly 3, the transmission assembly 3 is internally provided with a cleaning assembly 108 for cleaning the inner wall of the filter cover 104 in the second chamber 102, the cleaning assembly 108 can rotate under the driving of the transmission assembly 3, the transmission assembly 3 sequentially penetrates through the middle cover 105, the sealing plug 107 and the outer cover 401 from top to bottom and then is matched with a transmission piece to be transmitted, the transmission piece drives the rotating arm 405 to rotate, the rotating arm 405 is abutted against the lower part of the pressing bow 502 through the abutting wheel 406 in the rotating process, the ejector rod 501 intermittently pushes the sealing plug 107 open, the second chamber 102 is communicated with the third chamber 103, and impurities cleaned by the cleaning assembly 108 are discharged from the drain end 112 after flowing to the third chamber 103.

It should be noted that: the cleaning component 108 used in the present technical solution is essentially a brush and a connecting rod 402, the connecting rod 402 is connected to the rotating member of the transmission component 3, in this embodiment, the cleaning component 108 has two connecting rods 402 connected to the two brushes to continuously clean the inner wall of the filter cover 104, because the continuous cleaning mode is adopted in this embodiment, the cleaning component is more suitable for transporting materials with more impurities in fluid, the cleaning component is more suitable for the effect of the design of the cleaning component, and in addition, it should be noted that in this design, the first chamber 101, the second chamber 102 and the third chamber 103 are all fixed in a splicing mode, the two adjacent chambers can be fixed in a traditional mode such as bolts, the connection mode is not limited, and in addition, the first chamber 101, the second chamber 102 and the third chamber 103 are all in a split design, so that the replacement and maintenance of internal structural members are convenient.

It should be noted that the bottom of the middle cover 105 is erected inside the second chamber 102 by means of a plurality of support columns, a certain distance is reserved between the bottom of the middle cover 105 and the communication position between the second chamber 102 and the third chamber 103, the communication position between the second chamber 102 and the third chamber 103 is in a horn-shaped structure, the sealing plug 107 is pressed by the pressing spring 106 to ensure tightness, and when the ejection assembly 5 pushes the sealing plug 107 open, impurities can be flushed into the third chamber 103 along with fluid materials, and then discharged from the sewage discharge end 112.

As shown in fig. 5, the transmission assembly 3 includes a transmission shaft 301, one end of the transmission shaft 301 is fixedly connected with a cross pin head 302, a cross hole adapted to the cross pin head 302 is provided at the bottom of the center of the fan blade 109, a driving gear 303 is fixedly connected to the bottom end of the transmission shaft 301 after sequentially penetrating through the middle cover 105, the sealing plug 107 and the outer cover 401, the transmission member is an adapting gear 404, the adapting gear 404 and the driving gear 303 are meshed with each other, and the outer wall of the transmission shaft 301 located in the second chamber 102 is fixedly connected with the cleaning assembly 108.

It should be noted that: it should be noted that the transmission assembly 3 of the present embodiment is designed according to the requirement of continuous cleaning, the cleaning assembly 108 is directly fixed on the transmission shaft 301, and in addition, according to the estimation of the amount of a certain impurity in the flow rate per unit time of the fluid, the gear ratio of the suitable adapting gear 404 and the driving gear 303 can be rotated, so as to effectively control the frequency of cleaning.

Embodiment two: as shown in fig. 3 and 6, on the basis of the first embodiment, the transmission assembly 3 is replaced, the transmission assembly 3 includes a transmission shaft 301, one end of the transmission shaft 301 is fixedly connected with a cross pin head 302, a cross hole adapted to the cross pin head 302 is formed at the bottom of the center of a fan blade 109, a sleeve 308 is sleeved on the outer wall of the transmission shaft 301, the sleeve 308 and the bottom end of the transmission shaft 301 sequentially penetrate through the middle cover 105, the sealing plug 107 and the outer cover 401, a fixed face gear 309 is fixedly connected to the bottom of the sleeve 308, a driving gear 303 is fixedly connected to the bottom end of the transmission shaft 301, a adapting gear 404 is meshed with the driving gear 303, a sliding groove 306 is formed at a position between the fixed face gear 309 and the driving gear 303 on the outer wall of the transmission shaft 301, a sliding face gear 307 is slidably connected to the sliding groove 306, the transmission shaft 301 can drive the sliding face gear 307 to rotate, a movable disc 304 is slidably sleeved at a position below the sliding face gear 307, the movable disc 304 is fixed on the outer wall of the ejector rod 501 and moves up and down along with the ejector rod 501, a spring 304 is fixedly connected to the top of the movable disc 304, when the movable disc 304 moves up and pushes the pressing face gear 305, the pressing spring 305 is pushed up, and the sliding face gear 307 is meshed with the second outer wall 308 to the second outer wall 308, and the pressing face gear 308 is fixedly connected to the inner wall 102.

It should be noted that: unlike the first embodiment, the present embodiment aims at conveying fluid materials with low impurity content, the cleaning assembly 108 of the present embodiment does not continuously rotate, and cleaning is performed inside the filter cover 104 only when the sealing plug 107 is opened, so that the service life of the cleaning assembly 108 is effectively prolonged, and the service life of the cleaning assembly 108 which continuously works is affected to a certain extent due to friction between the brush of the cleaning assembly 108 and the filter cover 104, so that frequent fresh replacement of the cleaning assembly 108 is required.

As a specific embodiment, the driving gear 303 and the adapting gear 404 are a spur gear and a crown gear, respectively, or the driving gear 303 and the adapting gear 404 are right angle transmission bevel gears, respectively.

As a specific embodiment, the pipeline structure designed according to the gate valve energy storage cleaning device includes a pipeline assembly 2, where the pipeline assembly 2 includes a first shunt pipe 201, a second shunt pipe 202, a third shunt pipe 203 and a fourth shunt pipe 204 which are all in a Y-shaped structure; one end of the first shunt tube 201 is fixedly arranged on the feeding end 110 of the gate valve body 1, and the other two ends of the first shunt tube 201 are respectively a first input end and a second input end; one end of the second shunt tube 202 is fixedly arranged on the discharge end 111 of the gate valve body 1, and the other two ends of the second shunt tube 202 are respectively a first output end and a second output end; two ends of the third shunt tube 203 are respectively fixed with the first input end of the first shunt tube 201 and the first output end of the second shunt tube 202, a one-way valve 205 is arranged at the connection position of the third shunt tube 203 and the first input end, and a one-way valve 205 is arranged at the connection position of the third shunt tube 203 and the first output end of the second shunt tube 202; two ends of the fourth shunt tube 204 are respectively fixed with the second input end of the first shunt tube 201 and the second output end of the second shunt tube 202, a one-way valve 205 is arranged at the connection position of the fourth shunt tube 204 and the second input end, and a one-way valve 205 is arranged at the connection position of the fourth shunt tube 204 and the second output end of the second shunt tube 202.

It should be noted that: at present, many gate valves are limited by port directions, so the pipeline assembly 2 is designed, and by utilizing four groups of Y-shaped pipelines and four one-way valves 205, materials can enter from the feeding end 110 of the gate valve body 1 no matter how the pipeline assembly 2 is connected, so that the installation process is simplified, and the installation can be carried out without distinguishing the front and the back.

As a specific embodiment, the connection between the first shunt 201 and the feeding end 110 of the gate valve body 1 or the connection between the second shunt 202 and the discharging end 111 of the gate valve body 1 is provided with an opening and closing member 206, when the whole pipeline assembly 2 needs to be opened or closed, the opening and closing member 206 needs to be used, and the pipeline can be stopped by the opening and closing member 206 and installed at any position.

As a specific implementation mode, the gate valve with the filtering function is designed, and the gate valve energy storage cleaning device is adopted, so that the filtering of fluid materials is achieved, the timing cleaning of pure machinery is realized, and the cleanliness of the fluid materials is guaranteed efficiently and stably.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made hereto without departing from the spirit and scope of the invention as defined by the appended embodiments and equivalents thereof.

Claims (7)

1. The utility model provides a gate valve energy storage cleaning device, includes gate valve body (1), gate valve body (1) top-down has set gradually first cavity (101), second cavity (102) and third cavity (103) that the center is mutual to be linked together, be provided with feed end (110) on first cavity (101) outer wall, be provided with discharge end (111) on second cavity (102) outer wall, third cavity (103) bottom is provided with blowdown end (112), its characterized in that: the inside flabellum (109) that is provided with of first cavity (101), fixedly connected with filter mantle (104) between the inside upper and lower inner wall of second cavity (102), material that feed end (110) got into is discharged from discharge end (111) after filtering by filter mantle (104), the inside of filter mantle (104) is provided with and erects well cover (105) in second cavity (102) and third cavity (103) intercommunication department top, well cover (105) top inner wall fixedly connected with pushes down spring (106), the bottom fixedly connected with sealing plug (107) of pushing down spring (106), sealing plug (107) blocks up in second cavity (102) and third cavity (103) intercommunication department, third cavity (103) inside is provided with energy storage timing subassembly (4), energy storage timing subassembly (4) are including dustcoat (401), dustcoat (401) are fixed on the inner wall of third cavity (103) through connecting rod (402), dustcoat (401) bottom inner wall is provided with at least one sideframe (403), sideframe (403) one side rotates the transmission piece that is connected with rotatable, the another side of rocking arm (403) is provided with end (405) and runs through, top (5) of rocking arm (405) are connected with, top (405) are connected with ejector pin (5), ejecting subassembly (5) are including at least one ejector pin (501), and ejector pin (501) top is contradicted in the below of sealing plug (107), ejector pin (501) bottom fixedly connected with presses bow (502), presses bow (502) and support round (406) looks adaptation, on flabellum (109) are given energy storage timing subassembly (4) with power transmission through drive assembly (3), drive assembly (3) are provided with clearance subassembly (108) of clearance filter mantle (104) inner wall in second cavity (102) inside, and clearance subassembly (108) can be rotatory under the drive of drive assembly (3), drive assembly (3) top-down runs through in proper order middle cover (105), sealing plug (107) and dustcoat (401) back and driving medium cooperation transmission for the driving medium drives rocking arm (405) rotation, lets ejector pin (501) intermittent type nature's top open (107) through supporting round (406) and pushes down in pressing bow (502) below in the rotatory in-process, lets second cavity (102) and third cavity (103) be linked together, clearance subassembly (108) clear up impurity and flow to drain out after (112) by third cavity.

2. The gate valve energy storage cleaning device of claim 1, wherein: the transmission assembly (3) comprises a transmission shaft (301), one end of the transmission shaft (301) is fixedly connected with a cross pin head (302), a cross hole matched with the cross pin head (302) is formed in the center bottom of the fan blade (109), a driving gear (303) is fixedly connected after the bottom end of the transmission shaft (301) sequentially penetrates through the middle cover (105), the sealing plug (107) and the outer cover (401), the transmission member is an adapting gear (404), the adapting gear (404) and the driving gear (303) are meshed with each other, and the transmission shaft (301) is located in the outer wall of the second cavity (102) and is fixedly connected with a cleaning assembly (108).

3. The gate valve energy storage cleaning device of claim 1, wherein: the transmission assembly (3) comprises a transmission shaft (301), one end of the transmission shaft (301) is fixedly connected with a cross pin head (302), a cross hole matched with the cross pin head (302) is formed in the center bottom of the fan blade (109), a sleeve (308) is sleeved on the outer wall of the transmission shaft (301), the sleeve (308) and the bottom end of the transmission shaft (301) sequentially penetrate through the middle cover (105), the sealing plug (107) and the outer cover (401), a fixed face gear (309) is fixedly connected to the bottom of the sleeve (308), a driving gear (303) is fixedly connected to the bottom end of the transmission shaft (301) after the bottom end of the transmission shaft extends out of the sleeve (308), the transmission member is an adapting gear (404), the adapting gear (404) and the driving gear (303) are meshed with each other, a sliding groove (306) is formed in the position, between the outer wall of the transmission shaft (301) and the fixed face gear (309) and the driving gear (303), the sliding groove (306) is connected with a sliding face gear (307) in a sliding mode, the transmission shaft (301) can drive the sliding face gear (307) to rotate, the outer wall of the transmission shaft (301) is located below the sliding face gear (307) and is sleeved on the sliding disc (501) in a sliding mode, the outer wall (501) is fixed on the sliding disc (501), the top of the movable disc (304) is fixedly connected with a pressing spring (305), when the movable disc (304) moves upwards, the pressing spring (305) pushes the sliding face gear (307) to move upwards to be meshed with the fixed face gear (309) so as to drive the sleeve (308) to rotate, and the cleaning assembly (108) is fixedly connected to the outer wall of the sleeve (308) at the position inside the second cavity (102).

4. A gate valve energy storage cleaning apparatus according to claim 2 or 3, characterized in that: the driving gear (303) and the adapting gear (404) are respectively a straight gear and a crown gear or the driving gear (303) and the adapting gear (404) are respectively right-angle transmission bevel gears.

5. A pipeline structure, using a gate valve energy storage cleaning device as defined in any one of claims 1-4, characterized in that: the pipeline assembly (2) comprises a first shunt pipe (201), a second shunt pipe (202), a third shunt pipe (203) and a fourth shunt pipe (204) which are all of Y-shaped structures;

one end of the first shunt tube (201) is fixedly arranged on the feeding end (110) of the gate valve body (1), and the other two ends of the first shunt tube (201) are respectively a first input end and a second input end;

one end of the second shunt tube (202) is fixedly arranged on the discharge end (111) of the gate valve body (1), and the other two ends of the second shunt tube (202) are respectively a first output end and a second output end;

two ends of the third shunt tube (203) are respectively fixed with a first input end of the first shunt tube (201) and a first output end of the second shunt tube (202), a one-way valve (205) is arranged at the connection position of the third shunt tube (203) and the first input end, and a one-way valve (205) is arranged at the connection position of the third shunt tube (203) and the first output end of the second shunt tube (202);

the two ends of the fourth shunt tube (204) are respectively fixed with the second input end of the first shunt tube (201) and the second output end of the second shunt tube (202), a one-way valve (205) is arranged at the connection position of the fourth shunt tube (204) and the second input end, and a one-way valve (205) is arranged at the connection position of the fourth shunt tube (204) and the second output end of the second shunt tube (202).

6. A pipe structure according to claim 5, wherein: the opening and closing piece (206) is arranged at the joint of the first shunt pipe (201) and the feeding end (110) of the gate valve body (1) or at the joint of the second shunt pipe (202) and the discharging end (111) of the gate valve body (1).

7. Gate valve with filtering capability, its characterized in that: a gate valve energy storage cleaning device according to any one of claims 1-4.