阅读说明：本技术 一种汽车尾气净化器 (Automobile exhaust purifier ) 是由 张扣琼 于 2021-01-06 设计创作，主要内容包括：本发明公开了一种汽车尾气净化器,其结构包括连接接头、进气接口、操作箱、出气接口,连接接头与进气接口固定连接,进气接口和操作箱机械连接,出气接口与操作箱焊接连接,操作箱设有箱体、微粒过滤器、导流帽、蜂窝载体、滤芯,箱体的两侧与滤芯嵌固连接,箱体和蜂窝载体机械连接,本发明根据pm2.5等细小颗粒和液体之间具有可溶合的特点,通过水喷雾将水以喷洒的方式释放出来,这样设备内部的细小悬浮颗粒就会附着在喷洒的液体上,可溶合悬浮物溶入水中降低了水的蒸汽压,就会随着水沉淀下来,不会随着尾气流动,实现了细小悬浮颗粒的过滤,且喷洒的方式可以让液体的喷洒范围更广,能更好的吸收细小悬浮颗粒。(The invention discloses an automobile exhaust purifier, which structurally comprises a connecting joint, an air inlet interface, an operation box and an air outlet interface, wherein the connecting joint is fixedly connected with the air inlet interface, the air inlet interface is mechanically connected with the operation box, the air outlet interface is welded with the operation box, the operation box is provided with a box body, a particulate filter, a flow guide cap, a honeycomb carrier and a filter element, two sides of the box body are fixedly connected with the filter element in an embedded manner, and the box body is mechanically connected with the honeycomb carrier. Can better absorb fine suspended particles.)

1. An automobile exhaust purifier, its characterized in that: the structure of the air conditioner comprises a connecting joint (1), an air inlet interface (2), an operation box (3) and an air outlet interface (4), wherein the connecting joint (1) is fixedly connected with the air inlet interface (2), the air inlet interface (2) is mechanically connected with the operation box (3), and the air outlet interface (4) is welded with the operation box (3);

operation box (3) are equipped with box (31), particulate filter (32), water conservancy diversion cap (33), honeycomb carrier (34), filter core (35), the both sides and filter core (35) of box (31) are embedded and are connected, box (31) and honeycomb carrier (34) mechanical connection, honeycomb carrier (34) and particulate filter (32) clearance fit, particulate filter (32) and water conservancy diversion cap (33) interference fit.

2. The automotive exhaust purifier of claim 1, wherein: the particle filter (32) is provided with a filter body (321), an air cavity (322), a sliding block (323), a side rotating block (324), a filter block (325), a particle falling device (326), a water suction cylinder (327), a pushing plug (328) and a moving block (329), wherein the filter body (321) and the air cavity (322) are of an integrated structure, the air cavity (322) is in sliding connection with the sliding block (323), the filter body (321) is movably connected with the side rotating block (324) through a movable shaft, the filter body (321) is in clearance fit with the particle falling device (326), the side surface of the filter body (321) is mechanically connected with the moving block (329), the moving block (329) is fixedly connected with the pushing plug (328), the pushing plug (328) is in clearance fit with the water suction cylinder (327), and the filter body (321) is in movable clamping with the filter block (325).

3. An automotive exhaust gas purifier according to claim 2, wherein: the side rotating blocks (324) are distributed around an arc by a supporting body at equal intervals, and the length of the supporting body of the side rotating blocks (324) is gradually reduced clockwise.

4. An automotive exhaust gas purifier according to claim 2, wherein: the port of the water suction cylinder (327) is movably connected with a water suction port through a movable shaft, and the diameter of the water suction port of the water suction cylinder (327) is matched with the connecting port at the rear side of the grain falling device (326).

5. An automotive exhaust gas purifier according to claim 2, wherein: falling grain ware (326) is equipped with sprinkler head (261), rolling ball (262), connects face (263), water conservancy diversion chamber (264), conveyer pipe (265), guide tube (266), sprinkler head (261) picture water conservancy diversion chamber (264) is the integral structure, rolling ball (262) pass through loose axle and conveyer pipe (265) swing joint, conveyer pipe (265) and connection face (263) fixed connection, it connects to connect face (263) and water conservancy diversion chamber (264) embedded solid, water conservancy diversion chamber (264) and guide tube (266) looks gomphosis.

6. An automotive exhaust gas purifier according to claim 5, wherein: the flow guide cavity (264) is an arc-shaped notch, and the notches of the flow guide cavity (264) are equidistantly distributed along the arc-shaped notch at the rear end of the flow guide cavity (264).

7. An automotive exhaust gas purifier according to claim 2, wherein: the utility model discloses a filter block, including filter block (325), filter block, pivot shaft, installation cavity (253), drainage face (254), activity ball (255), flow chamber (256), adsorbent (257), press block (251) and installation cavity (253) sliding connection, casing (252) are through loose axle and installation cavity (253) swing joint, drainage face (254) and casing (252) fixed connection, casing (252) and adsorbent (257) are connected in the embedded solid, adsorbent (257) and activity ball (255) activity block, casing (252) and flow chamber (256) are the integrated structure.

8. An automotive exhaust gas purifier according to claim 7, wherein: the mounting cavity (253) is of a cylindrical grid cylindrical structure, a spring is arranged in the middle of the flow plate surface (254), a sliding rail is arranged at one end of the flow guide plate surface (254) opposite to the sliding rail, the sliding rail of the flow guide plate surface (254) is connected with the pressing block (251) in a sliding mode, and a conical block is arranged on the surface of one end, facing downwards, of the pressing block (251).

Technical Field

The invention relates to the field of purifiers, in particular to an automobile exhaust purifier.

Background

The automobile exhaust purifier is a purifier, and can purify polluted gas discharged by automobile exhaust firstly and then discharge the polluted gas out of an engine body, so that the exhaust emission of an automobile is controlled, and the environmental pollution is reduced;

in the prior art, the main pollution source of automobile exhaust is pm2.5. fine particles which are suspended particles with the equivalent diameter of aerodynamic force of environmental air being less than or equal to 2.5 microns, while the filtering structure of the automobile exhaust purifier usually adopts a honeycomb filtering structure of reducing honeycomb ceramics and oxidizing honeycomb, because the diameters of the filtering holes of the honeycomb are all more than 2.5 microns, only large-particle pollutants can be filtered, and the pollutants with smaller particle diameters cannot be completely filtered.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the automobile exhaust purifier structurally comprises a connecting joint, an air inlet interface, an operating box and an air outlet interface, wherein the connecting joint is fixedly connected with the air inlet interface, the air inlet interface is mechanically connected with the operating box, and the air outlet interface is welded with the operating box;

the operation box is equipped with box, particulate filter, water conservancy diversion cap, honeycomb carrier, filter core, the both sides and the filter core of box are connected with the filter core is inlayed admittedly, box and honeycomb carrier mechanical connection, honeycomb carrier and particulate filter clearance fit, particulate filter and water conservancy diversion cap interference fit.

As a further optimization of the technical scheme, the particulate filter is provided with a filter body, an air cavity, a sliding block, a side rotating block, a filter block, a grain falling device, a water suction cylinder, a pushing plug and a moving block, wherein the filter body and the air cavity are of an integrated structure, the air cavity is in sliding connection with the sliding block, the filter body is movably connected with the side rotating block through a movable shaft, the filter body is in clearance fit with the grain falling device, the side surface of the filter body is mechanically connected with the moving block, the moving block is fixedly connected with the pushing plug in an embedded manner, the pushing plug is in clearance fit with the water suction cylinder, the filter body is movably clamped with the filter block, sliding tracks are arranged on two sides of the air cavity, and an air outlet hole extends out.

As the further optimization of this technical scheme, the piece is changeed by a supporter round an circular arc equidistance and distributes, the supporter length clockwise of the piece is changeed to the side decreases progressively step by step, the commentaries on classics piece supporter port department of the piece is inside sunken hemispheroid structure, the hemispheroid structure inside of the piece is changeed to the side is equipped with the active carbon, the venthole that the depressed end and the air cavity of the piece that changes to the side extend is relative, the piece that changes to the side transversely installs inside the ware body.

As a further optimization of the technical scheme, a cylinder port of the water suction cylinder is movably connected with a water suction port through a movable shaft, the diameter of the water suction port of the water suction cylinder is matched with a connection port at the rear side of the granule dropping device, an arc-shaped block spring is arranged in the middle of the water suction port of the water suction cylinder, and the port of the water suction cylinder is of an arc-shaped structure.

As the further optimization of this technical scheme, the grain falling device is equipped with sprinkler head, rolling ball, connection face, water conservancy diversion chamber, conveyer pipe, guiding tube, sprinkler head picture water conservancy diversion chamber is the integral structure, the rolling ball passes through loose axle and conveyer pipe swing joint, conveyer pipe and connection face fixed connection, it inlays solid the connection to connect face and water conservancy diversion chamber, water conservancy diversion chamber and guiding tube looks gomphosis, the sprinkler head is located the both sides of conveyer pipe respectively for the trapezium structure, the surface of spraying of sprinkler head is equipped with the hole of spraying, the rolling ball surface is equipped with the tiny filtration hole that the hole diameter is less than 2.5 microns, and its inside thin charcoal that presss from both sides closes.

As the further optimization of this technical scheme, the water conservancy diversion chamber is the arc notch, the notch in water conservancy diversion chamber distributes along the circular arc notch equidistance of water conservancy diversion chamber rear end, the notch volume in water conservancy diversion chamber is ordered with clockwise and is littleer more, it is communicating all between same connecting circular arc in water conservancy diversion chamber and the guiding tube.

As the further optimization of the technical scheme, the filter block is provided with a pressing block, a shell, an installation cavity, a drainage plate surface, a movable ball, a flowing cavity and an adsorption body, the pressing block is connected with the installation cavity in a sliding manner, the shell is movably connected with the installation cavity through a movable shaft, the drainage plate surface is fixedly connected with the shell, the shell is fixedly connected with the adsorption body, the adsorption body is movably clamped with the movable ball, the shell and the flowing cavity are of an integrated structure, an inclined long-strip notch is arranged on the drainage plate surface, the long-strip notch of the drainage plate surface is symmetrically clamped at the junction of the installation cavity at two sides of the shell respectively, an adsorption layer is arranged on the notch of the drainage plate surface, an inclined slope is arranged on the flowing cavity, the adsorption body is structurally characterized in that medical stones are laid on one layer of filter paper, a mixture of one layer of thin charcoal and activated carbon is superposed and clamped in, the movable ball is internally provided with activated carbon.

As a further optimization of the technical scheme, the installation cavity is of a cylindrical grid tubular structure, a spring is arranged in the middle of the flow plate surface, a sliding rail is arranged at one end of the flow guide plate surface opposite to the flow guide plate surface, the sliding rail of the flow guide plate surface is connected with a pressing block in a sliding mode, and a conical block is arranged on the surface of one end, facing downwards, of the pressing block.

Advantageous effects

Compared with the prior art, the automobile exhaust purifier has the following advantages:

1. the hemispherical structure with the inwards recessed side rotary block is opposite to the air outlet hole extending out of the air cavity, when air is sprayed out of the air cavity, the impact force of the sprayed air can push the side rotary block to rotate, so that the activated carbon in the side rotary block can better contact suspended particles in the air to adsorb the suspended particles, the length of the support columns of the side rotary block is different, the center of gravity of equipment is unstable, the equipment can be better pushed to rotate, meanwhile, the contact surfaces of the notches on the support columns of the side rotary block are different, the discharged air in the equipment cavity can be better contacted during rotation, and the fine suspended substances in the air in the equipment can be completely filtered.

2. According to the characteristic that fine particles such as pm2.5 and the like can be dissolved in liquid, water is released in a spraying mode through water spray, so that fine suspended particles in the equipment can be attached to the sprayed liquid, the soluble suspended matters are dissolved in the water to reduce the steam pressure of the water, the water can be precipitated along with the water and cannot flow along with tail gas, the fine suspended particles are filtered, and the spraying mode can enable the spraying range of the liquid to be wider and can better absorb the fine suspended particles.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic view of an overall structure of an automobile exhaust purifier according to the present invention.

Fig. 2 is an overall sectional structure diagram of the present invention.

Fig. 3 is a schematic view of the structure of the particulate filter of the present invention.

Fig. 4 is a diagram of the operation state of fig. 3.

Fig. 5 is a schematic structural diagram of the grain dropping device of the present invention.

Fig. 6 is a schematic view of the filter structure of the present invention.

In the figure: the device comprises a connecting joint 1, an air inlet interface 2, an operation box 3, an air outlet interface 4, a box body 31, a particle filter 32, a diversion cap 33, a honeycomb carrier 34, a filter element 35, a body 321, an air cavity 322, a sliding block 323, a side turning block 324, a filter block 325, a particle falling device 326, a water suction cylinder 327, a pushing plug 328, a moving block 329, a sprinkler 261, a rotating ball 262, a connecting plate surface 263, a diversion cavity 264, a conveying pipe 265, a guide pipe 266, a pressing block 251, a shell 252, a mounting cavity 253, a diversion plate surface 254, a movable ball 255, a flow cavity 256 and an adsorbent 257.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, an automobile exhaust purifier structurally comprises a connecting joint 1, an air inlet interface 2, an operation box 3 and an air outlet interface 4, wherein the connecting joint 1 is fixedly connected with the air inlet interface 2, the air inlet interface 2 is mechanically connected with the operation box 3, and the air outlet interface 4 is welded with the operation box 3;

operation box 3 is equipped with box 31, particulate filter 32, water conservancy diversion cap 33, honeycomb carrier 34, filter core 35, the both sides and the filter core 35 of box 31 are connected with the embedded solid, box 31 and honeycomb carrier 34 mechanical connection, honeycomb carrier 34 and particulate filter 32 clearance fit, particulate filter 32 and water conservancy diversion cap 33 interference fit realize being the filtration of tiny particle.

The particle filter 32 is provided with a body 321, an air cavity 322, a sliding block 323, a side rotating block 324, a filter block 325, a particle falling device 326, a water suction cylinder 327, a pushing plug 328 and a moving block 329, wherein the body 321 and the air cavity 322 are of an integrated structure, the air cavity 322 is in sliding connection with the sliding block 323, the body 321 is movably connected with the side rotating block 324 through a movable shaft, the body 321 is in clearance fit with the particle falling device 326, the side surface of the body 321 is mechanically connected with the moving block 329, the moving block 329 is fixedly connected with the pushing plug 328, the pushing plug 328 is in clearance fit with the water suction cylinder 327, the body 321 is movably clamped with the filter block 325, sliding tracks are arranged on two sides of the air cavity 322, and an air outlet hole extends out of one surface of the air cavity 322 facing the inner side of the body 321 to.

The side commentaries on classics piece 324 is distributed around an circular arc equidistance by a supporter, the supporter length clockwise of side commentaries on classics piece 324 is degressive step by step, the commentaries on classics piece supporter port department of side commentaries on classics piece 324 is inside sunken hemispheroid structure, the inside active carbon that is equipped with of hemispheroid structure of side commentaries on classics piece 324, the venthole that the depressed end of side commentaries on classics piece 324 and air cavity 322 extend is relative, the side commentaries on classics piece 324 is transversely installed inside the ware body 321, filtration suspended particles that can be more comprehensive.

The port of the water suction cylinder 327 is movably connected with a water suction port through a movable shaft, the diameter of the water suction port of the water suction cylinder 327 is matched with the connection port at the rear side of the grain falling device 326, an arc-shaped block spring is arranged in the middle of the water suction port of the water suction cylinder 327, the port of the water suction cylinder 327 is of an arc-shaped structure, and the filtering device is driven to rotate through water flow impact force.

Falling grain ware 326 is equipped with sprinkler head 261, rolling ball 262, connects face 263, water conservancy diversion chamber 264, conveyer pipe 265, guide tube 266, sprinkler head 261 picture water conservancy diversion chamber 264 is the integral structure, rolling ball 262 passes through loose axle and conveyer pipe 265 swing joint, conveyer pipe 265 with be connected face 263 fixed connection, it connects to connect face 263 and water conservancy diversion chamber 264 and inlay solid, water conservancy diversion chamber 264 and guide tube 266 gomphosis mutually, sprinkler head 261 is the trapezium structure and is located the both sides of conveyer pipe 265 respectively, sprinkler head 261's the surface of spraying is equipped with the hole of spraying, it is equipped with the tiny filtration hole that the hole diameter is less than 2.5 microns to roll ball surface, and its inside thin charcoal of cramping combines the characteristics of tiny suspended solid, degrades the suspended solid with the mode of spraying 262.

The water conservancy diversion chamber 264 is the arc notch, the notch of water conservancy diversion chamber 264 distributes along the circular arc notch equidistance of water conservancy diversion chamber 264 rear end, the notch volume of water conservancy diversion chamber 264 is sequencing with clockwise direction and is progressively littleer, it is all communicating between the same connecting circular arc of water conservancy diversion chamber 264 and guide tube 266, and the rotation of pushing equipment, the better filter particle of ability.

The using method comprises the following steps: during the driving process of the automobile, the tail gas of the automobile can pass through the purifier of the tail gas of the automobile during the emission process, the power supply is started, the tail gas emitted by the automobile is matched with the diversion cap 33, and is limited by the space at the junction of the slide block 323 of the air cavity 322 and the slide block 323, the slide blocks 323 are close to each other along the sliding track on the air cavity 322, the airflow between the slide blocks 323 can be extruded out from the extending air outlet hole of the air cavity 322 through extrusion force, the extending air outlet hole of the air cavity 322 faces the notch of the side rotating block 324, the side rotating block 324 can be pushed to rotate, the inside of the side rotating block 324 is provided with active carbon, the active carbon can adsorb fine particles in the tail gas, the air area contacted with the side rotating block 324 is larger through the rotation of the side rotating block 324, the fine particles in the tail gas can be effectively absorbed, and the side rotating block 324 is transversely installed in the automobile body 321, can adsorb the suspended fine particles in the transverse cavity of the absorber 321 to further improve the adsorption of the fine suspended particles, at the same time, the lower end of the absorber 321 is filled with liquid, the water suction opening of the water suction cylinder 327 faces downwards, the moving block 329 slides upwards along the cavity wall of the absorber 321 to drive the pushing plug 328 to move upwards, the space between the pushing plug 328 and the cylinder body of the water suction cylinder 327 is enlarged to generate suction force, the lower end of the absorber 321 is filled with liquid and is guided into the water suction cylinder 327, after the water suction cylinder 327 absorbs a certain amount of liquid, the water suction opening of the water suction cylinder 327 rotates 90 degrees along the connecting shaft anticlockwise, the middle of the water suction opening of the water suction cylinder 327 is provided with an arc-shaped block spring, because the rotation track of the water suction opening of the water suction cylinder is an arc, the arc-shaped block spring block has strong pressure resistance and can change along with the rotation angle change when, when the spray head contacts with the protruding edge of the falling particle device 326, the arc-shaped edge can better slide, under the coordination of the spring, the water suction port of the water suction cylinder 327 can be compressed and popped out and can be completely clamped with the notch of the falling particle device 326, the moving block 329 moves downwards along the cavity wall of the body 321, water in the water suction cylinder 327 is extruded out by the extrusion force of the pushing plug 328, the extruded liquid can be shunted to the diversion cavity 264 from the notch of the connecting plate surface 263, the liquid volume can be different due to the different volume of the diversion cavity 264, so that the gravity center of the connecting plate surface 263 is unstable, the liquid rotates under the impact force of the extrusion of the liquid, the liquid flows to the guide pipe 266 from the diversion cavity 264, then flows to the delivery pipe 265 through the guide pipe 266, and is intensively sprayed out through the spray head 261, the spray contact area of the liquid can be expanded in a spray mode, and the spray heads are installed at two sides of the, the scope that sprinkler head 261 can take into account is bigger like this, and connects face 263 rotatory under the impact force effect of liquid, and the rotation has gets rid of the power, further enlarges liquid spraying area through throwing, and the tiny suspended particle of adhesion tail gas that like this can be better realizes the filtration of tiny suspended solid.

Example two

Referring to fig. 1-6, an automobile exhaust purifier structurally comprises a connecting joint 1, an air inlet interface 2, an operation box 3 and an air outlet interface 4, wherein the connecting joint 1 is fixedly connected with the air inlet interface 2, the air inlet interface 2 is mechanically connected with the operation box 3, and the air outlet interface 4 is welded with the operation box 3;

operation box 3 is equipped with box 31, particulate filter 32, water conservancy diversion cap 33, honeycomb carrier 34, filter core 35, the both sides and the filter core 35 of box 31 are connected with the embedded solid, box 31 and honeycomb carrier 34 mechanical connection, honeycomb carrier 34 and particulate filter 32 clearance fit, particulate filter 32 and water conservancy diversion cap 33 interference fit realize being the filtration of tiny particle.

The particle filter 32 is provided with a body 321, an air cavity 322, a sliding block 323, a side rotating block 324, a filter block 325, a particle falling device 326, a water suction cylinder 327, a pushing plug 328 and a moving block 329, wherein the body 321 and the air cavity 322 are of an integrated structure, the air cavity 322 is in sliding connection with the sliding block 323, the body 321 is movably connected with the side rotating block 324 through a movable shaft, the body 321 is in clearance fit with the particle falling device 326, the side surface of the body 321 is mechanically connected with the moving block 329, the moving block 329 is fixedly connected with the pushing plug 328, the pushing plug 328 is in clearance fit with the water suction cylinder 327, the body 321 is movably clamped with the filter block 325, sliding tracks are arranged on two sides of the air cavity 322, and an air outlet hole extends out of one surface of the air cavity 322 facing the inner side of the body 321 to.

The side commentaries on classics piece 324 is distributed around an circular arc equidistance by a supporter, the supporter length clockwise of side commentaries on classics piece 324 is degressive step by step, the commentaries on classics piece supporter port department of side commentaries on classics piece 324 is inside sunken hemispheroid structure, the inside active carbon that is equipped with of hemispheroid structure of side commentaries on classics piece 324, the venthole that the depressed end of side commentaries on classics piece 324 and air cavity 322 extend is relative, the side commentaries on classics piece 324 is transversely installed inside the ware body 321, filtration suspended particles that can be more comprehensive.

The port of the water suction cylinder 327 is movably connected with a water suction port through a movable shaft, the diameter of the water suction port of the water suction cylinder 327 is matched with the connection port at the rear side of the grain falling device 326, an arc-shaped block spring is arranged in the middle of the water suction port of the water suction cylinder 327, the port of the water suction cylinder 327 is of an arc-shaped structure, and the filtering device is driven to rotate through water flow impact force.

Falling grain ware 326 is equipped with sprinkler head 261, rolling ball 262, connects face 263, water conservancy diversion chamber 264, conveyer pipe 265, guide tube 266, sprinkler head 261 picture water conservancy diversion chamber 264 is the integral structure, rolling ball 262 passes through loose axle and conveyer pipe 265 swing joint, conveyer pipe 265 with be connected face 263 fixed connection, it connects to connect face 263 and water conservancy diversion chamber 264 and inlay solid, water conservancy diversion chamber 264 and guide tube 266 gomphosis mutually, sprinkler head 261 is the trapezium structure and is located the both sides of conveyer pipe 265 respectively, sprinkler head 261's the surface of spraying is equipped with the hole of spraying, it is equipped with the tiny filtration hole that the hole diameter is less than 2.5 microns to roll ball surface, and its inside thin charcoal of cramping combines the characteristics of tiny suspended solid, degrades the suspended solid with the mode of spraying 262.

The water conservancy diversion chamber 264 is the arc notch, the notch of water conservancy diversion chamber 264 distributes along the circular arc notch equidistance of water conservancy diversion chamber 264 rear end, the notch volume of water conservancy diversion chamber 264 is sequencing with clockwise direction and is progressively littleer, it is all communicating between the same connecting circular arc of water conservancy diversion chamber 264 and guide tube 266, and the rotation of pushing equipment, the better filter particle of ability.

The filter block 325 is provided with a pressing block 251, a shell 252, an installation cavity 253, a drainage plate surface 254, a movable ball 255, a flow cavity 256 and an adsorbent 257, the pressing block 251 is connected with the installation cavity 253 in a sliding manner, the shell 252 is movably connected with the installation cavity 253 through a movable shaft, the drainage plate surface 254 is fixedly connected with the shell 252, the shell 252 is fixedly connected with the adsorbent 257, the adsorbent 257 and the movable ball 255 are movably clamped, the shell 252 and the flow cavity 256 are of an integrated structure, the drainage plate surface 254 is provided with an inclined long-strip notch, the long-strip notches of the drainage plate surface 254 are symmetrically clamped at the junction of the installation cavity 253 at the two sides of the shell 252 respectively, the notch of the drainage plate surface 254 is provided with an adsorption layer, the flow cavity 256 is provided with an inclined slope, the adsorbent 257 is structured by paving medical stone on one layer of filter paper and then superposing one layer of mixture of thin charcoal and activated carbon, the movable ball 255 is clamped in the adsorption cavity, and activated carbon is arranged inside the movable ball, so that the water can be recycled.

The installation cavity 253 is a cylindrical grid tubular structure, a spring is arranged in the middle of the flow plate surface 254, a sliding rail is arranged at one end of the flow guide plate surface 254 opposite to the sliding rail, the sliding rail of the flow guide plate surface 254 is connected with the pressing block 251 in a sliding mode, a conical block is arranged on the surface of one end, facing downwards, of the pressing block 251, and suspended particles are further filtered through an installation adsorption structure.

The filter block 325 is installed on the basis of the first embodiment, the rotating ball 262 is installed inside the delivery pipe 265 through the connecting shaft, when the device works, a plurality of filter paper layers are installed inside the installation cavity 253, a gap is reserved between the filter paper layers, an adsorption layer is installed on the surface of the rotating ball 262, a power supply is started, sprayed liquid can adsorb fine suspended particles, the fine particles can slide to a groove cavity of the filter block 325 arranged on the device body 321 along with the liquid, the water suction cylinder 327 can continuously guide the liquid, the precipitated liquid can flow along the direction of the adsorption force under the influence of the adsorption force, the liquid containing the fine particles can pass through the filter block 325 and the drainage plate surface 254, the adsorption body on the notch of the drainage plate surface 254 can adsorb the fine particles inside the liquid, the liquid can also be guided to the installation cavity 253 through the inclined notch, and the liquid can be adsorbed into the filter paper layers through the meshes of the installation cavity 253, the filter paper layer has an adsorption force, can adsorb substances such as liquid and the like, especially for fine particles, because the filter paper layer is of a hole structure which is stacked together through a plurality of fine soft holes, the fine particles can be completely clamped on the holes of the filter paper layer when the fine particles are adsorbed, the fine particles are not easy to fall off, water is an invisible object and can be randomly separated from the filter paper layer, at the moment, the pressing block 251 can slide along the sliding track of the installation cavity 253 to extrude the liquid in the filter paper layer, the conical block port on the pressing block 251 is of a sharp-pointed structure, the liquid in the filter paper layer can be better extruded out, after the liquid is extruded out, the spring in the installation cavity 253 can utilize the rebound characteristic to enable the filter paper layer to be filled in the installation cavity 253 again for absorption, the water body separation of the equipment can be realized, the separated liquid can pass through the adsorption body 257, the filter paper medical stone on the structure of the adsorption body 257 and the mixture of the thin charcoal and the active carbon form a particle filtering layer which can filter out fine particles, the inside of the movable ball 255 is provided with active carbon, the movable ball 255 is movably clamped beside the adsorption body 257, under the impact force of water flow, the movable ball 255 rotates, so that the activated carbon in the movable ball can better adsorb fine particles, the separated and filtered liquid flows out along the slope of the flow cavity 256 and is guided into the delivery pipe 265 by the water suction cylinder 327 again, and the fine particles can be further filtered by the adsorption pores of the adsorption layer on the rotary ball through the rotary ball 262 on the delivery pipe 265, and the thin wood charcoal adsorbs fine particles to realize the complete separation of water and particles, so that the sprayed liquid can be recycled, and the filtering effect of the fine particles of the equipment can be better realized through water body separation.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.