CN115899434B - Prevent long-pending husky water treatment pipeline - Google Patents

Abstract

The invention relates to the technical field of conveying pipelines, in particular to a sand accumulation prevention water treatment conveying pipeline which comprises a water conveying and sand discharging mechanism, a sand discharging mechanism and a transverse traction mechanism, wherein the water conveying and sand discharging mechanism comprises a transverse water guide assembly, a quantity control assembly arranged at one end of the water guide assembly, a water receiving pipe arranged on the quantity control assembly and a filter screen arranged in the water guide assembly. Through setting up the water catch bowl of unified filtration sewage and silt, and hang the stem of horizontal in the middle part of water catch bowl inner chamber, and install the filter screen of filter sand in the notch of water catch bowl bottom, the protection outer box of unified emission silt is installed to the bottom of water catch bowl simultaneously, and guide the sand horizontal tube of guiding that silt was carried at the internally mounted of protection outer box, and combine transmission cross axle and helical impeller whole along the horizontal rotation of protection outer box inner chamber, thereby can make unified gathering to the silt of protection outer box inner chamber obtain quick outwards discharging, and then can avoid the silt jam drain pipe that carries in the sewage.

Description

Prevent long-pending husky water treatment pipeline

Technical Field

The invention relates to the technical field of conveying pipelines, in particular to a sand accumulation preventing water treatment conveying pipeline.

Background

The water treatment method comprises physical treatment and chemical treatment, wherein the physical method comprises the steps of utilizing filter materials with different pore sizes, utilizing an adsorption or blocking mode to remove impurities in water, wherein the important one of the adsorption mode is that activated carbon is used for adsorption, the blocking method is that the water passes through the filter materials to enable the impurities with larger volume to pass through, so that cleaner water is obtained, the chemical method is that various chemicals are utilized to convert the impurities in the water into substances with smaller harm to human bodies, or the impurities are concentrated, the longest historical chemical treatment method is that alum is added into the water, after the impurities in the water are collected, the volume is enlarged, sediment after the water can be collected can be filtered conveniently and rapidly, and the removal of the impurities is realized.

At present, in the water treatment link, the sewage that discharges through the conduit is in the treatment period of a plurality of purifying ponds, and the silt that carries in the sewage can gather very easily in the narrow and small aperture of conduit, because there is the crooked pipe diameter of different degree in the conduit, in case the sewage velocity of flow is too low, silt just can be blocked by the narrow and small internal diameter of conduit, and then can make water treatment efficiency become low.

According to the above illustration, how to solve the technical difficulty that the sewage can prevent sediment in the sewage from blocking the inner diameter of the pipeline after the sewage passes through the water conveying pipeline with a narrow aperture is the invention.

Disclosure of Invention

The present invention aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the invention is as follows:

the utility model provides a prevent long-pending husky water treatment pipeline, including water delivery mechanism, sediment outflow mechanism and horizontal traction mechanism, water delivery mechanism includes horizontal water guide component, install the accuse volume subassembly of water guide component one end, install connect the water conduit on accuse volume subassembly, install the filter screen in water guide component, install the drain pipe at the water guide component other end, install the husky subassembly of collection bottom water guide component, install the outside collection subassembly of collection and movable mounting at connect the outside slide rail of water conduit, water guide component includes the water collecting bin that guides sewage and carries, installs at the main anchor clamps and the vice anchor clamps of water collecting bin inner chamber both ends and connect the stem in main anchor clamps and vice anchor clamps, accuse volume subassembly includes the urceolus of installing at water collecting bin one end and installs the inner tube in the urceolus inside, the sand collecting assembly comprises a protection outer box arranged at the bottom of a water collecting bin and a sand guiding transverse pipe arranged in the protection outer box, the gathering assembly comprises a reinforced outer pipe arranged at the outer end of the protection outer box, a filter core barrel movably arranged in the inner cavity of the reinforced outer pipe and a flow dispersing end movably arranged at the outer end of the reinforced outer pipe, the sand discharging mechanism comprises a transmission transverse shaft movably arranged in the protection outer box, a spiral impeller arranged outside the transmission transverse shaft, a servo motor arranged at the outer end of the transmission transverse shaft, a positioning piece arranged outside the servo motor and a gear piece movably arranged in the positioning piece, the transverse traction mechanism comprises a deflection assembly movably arranged in the outer barrel, a top-setting buckle arranged on the outer barrel, a stand column gear piece and a linkage toothed bar movably arranged in the top-setting buckle, a transverse chain movably arranged between the stand column gear piece and the deflection assembly, a stretching assembly movably connected on the deflection assembly, a transverse chain arranged between the stand column gear piece and the stand column gear piece, a stretching assembly movably connected with the positioning assembly, the sliding vane movably mounted in the water-receiving conduit and the sand scraping inner pad penetrating into the inner cavity of the water-receiving conduit, the deflection assembly comprises a deflection shaft movably mounted in the outer cylinder and an inserting rod mounted at the top of the deflection shaft, and the stretching assembly comprises a guide wheel mounted in the sand scraping inner pad and the sliding vane, a pull rod connected to one side of the guide wheel, a transversely arranged telescopic rod mounted on the pull rod and a spring positioned outside the telescopic rod.

The present invention may be further configured in a preferred example to: the bottom of catchment storehouse has been seted up the arc notch, and the frame adaptation in the filter screen outside runs through to catchment storehouse bottom arc notch in, simultaneously the stem is by hollow stainless steel material preparation, the stem is whole to be round platform shape structure, and the annular of inwards sunken has all been seted up at the outside both ends of stem.

Through adopting above-mentioned technical scheme, utilize and install the filter screen that can filter sewage and silt in the arc notch of water collection storehouse bottom to combine main anchor clamps and vice anchor clamps to hang the stem in the middle part of water collection storehouse inner chamber, the less mesa of stem one end can effectively separate to dredge sewage and silt this moment.

The present invention may be further configured in a preferred example to: the inner tube is made of ceramic material, and a circular truncated cone-shaped water delivery hole groove is formed in the inner tube.

Through adopting above-mentioned technical scheme, utilize to adopt ceramic material to make the inner tube to offer the hole groove of round platform shape with the inside of inner tube, the inner tube intercommunication can carry out smooth transport emission to silt in the port of sump inner chamber one end this moment, and then in order to avoid the gathering of silt to flow.

The present invention may be further configured in a preferred example to: the water receiving pipe is integrally of an L-shaped structure, an arc-shaped chute is formed in the inner wall of the water receiving pipe, and the arc-shaped chute is adaptive and constrained to the sliding sheets.

Through adopting above-mentioned technical scheme, utilize to connect the leading water pipe to set up to L shape, after sewage inflow connects leading water pipe inner chamber, silt in the sewage can be silted up in the inner chamber that connects leading water pipe horizontal tube structure, the adaptation constraint between arc slide and the gleitbretter of the leading water pipe inner wall of cooperation this moment, combines simultaneously to scrape the horizontal striking off of silt in the interior butt joint leading water pipe horizontal tube position of husky inner pad to this can make the quick emission of silt.

The present invention may be further configured in a preferred example to: the two ends of the protection outer box are provided with cylindrical ends protruding outwards, and a circular through hole is formed in the cylindrical end, close to one end of the gathering component, of the protection outer box.

Through adopting above-mentioned technical scheme, utilize will draw the inside of husky violently pipe installation at the protection outer box to combine to draw the suitability butt joint between the semicircular cushion in husky violently pipe and the transmission cross axle, when screw impeller fixes a position rotatoryly along the protection outer box inside, the silt of the inside semicircular cushion of transmission cross axle can carry out the interval outwards and discharge and carry the protection outer box this moment.

The present invention may be further configured in a preferred example to: the outer end of the filter core barrel is provided with densely distributed filter meshes, and the frame at the outer end of the filter core barrel is fit and attached in the annular notch at the inner side of the flow-dispersing end.

Through adopting above-mentioned technical scheme, utilize and offer intensive filter mesh at the outer end of filter core section of thick bamboo to combine to strengthen the outer tube and transversely fix and the pressure boost of filter core section of thick bamboo outer end, obtain the filtration of filter core section of thick bamboo outer end filter mesh to silt and water this moment, with this safe discharge and the collection that can make the interior silt of conduit.

The present invention may be further configured in a preferred example to: the transmission cross shaft is composed of a cross rod, a backing ring and a semicircular cushion block which is arranged on the cross rod and is far away from one end of the servo motor, and the semicircular cushion block and the sand guiding cross tube are identical in shape.

Through adopting above-mentioned technical scheme, utilize and offer the adaptation in the inside backing ring of protection outer box at the one end that the transmission cross axle is close to servo motor, combine the backing ring to the prevention of seepage separation of the inside sewage of protection outer box, when transmission cross axle and screw impeller rotate, be located the inside silt of protection outer box and can obtain effective emission.

The present invention may be further configured in a preferred example to: the bottom of the deflection shaft is provided with a T-shaped annular groove which is concave inwards, and the middle part of the bottom surface of the deflection shaft is provided with a stand column which is adapted to penetrate into the outer cylinder.

Through adopting above-mentioned technical scheme, utilize urceolus top sleeve to the spacing constraint of deflection axle bottom stand, the spacing guide of cooperation water collection storehouse top guide bar to deflection axle bottom T font annular simultaneously to this stability in the period of can making deflection assembly whole rotation.

The present invention may be further configured in a preferred example to: the sand scraping inner cushion consists of two annular gaskets and a U-shaped inner ring arranged in the middle of the two annular gaskets.

Through adopting above-mentioned technical scheme, utilize scraping the location conveying of sediment after the interior U font inner loop of sand inner pad is facing to being scraped, cooperate two ring shape packing rings simultaneously to dock the horizontal scraping of diversion pipe inner chamber sediment, after U font inner loop guide sediment is carried towards the water collection storehouse inner chamber, U font inner loop can prevent that sediment from appearing flowing backwards this moment.

By adopting the technical scheme, the beneficial effects obtained by the invention are as follows:

1. according to the invention, the water collecting bin for uniformly filtering sewage and sediment is arranged, the middle part of the inner cavity of the water collecting bin is suspended with the horizontal core column, the filter screen for filtering sediment is arranged in the notch at the bottom of the water collecting bin, the protection outer box for uniformly discharging sediment is arranged at the bottom of the water collecting bin, the sediment guiding transverse pipe for guiding sediment to be conveyed is arranged in the protection outer box, and the transmission transverse shaft and the spiral impeller are combined to integrally rotate along the transverse direction of the inner cavity of the protection outer box, so that sediment uniformly gathered to the inner cavity of the protection outer box is discharged outwards rapidly, and sediment carried in sewage is prevented from blocking a drain pipe.

2. According to the invention, the water-receiving pipe is arranged, the sliding vane is movably arranged in the sliding groove on the inner wall of the water-receiving pipe, the guide wheel penetrating to the top of the water-receiving pipe is arranged on the sliding vane, meanwhile, the symmetrically distributed pull rod, the telescopic rod and the elastic stretching spring are movably arranged on the guide wheel, and the eccentric transmission and traction of the whole body opposite to the outer end of the pull rod are combined with the deflection assembly, at the moment, the pull rod drives the guide wheel and the sliding vane to transversely expand and contract along the sliding groove on the inner wall of the water-receiving pipe, so that the sand scraping inner pad arranged at the bottom of the guide wheel and penetrating to the inner cavity of the water-receiving pipe transversely scrapes and discharges the sand on the inner wall of the water-receiving pipe.

3. The invention adopts the two annular gaskets and the U-shaped inner ring arranged in the middle of the two annular gaskets, and the sand scraping inner cushion can transversely drive along the inner cavity of the water receiving pipe, so that the sand guided to one side close to the quantity control assembly can be pushed by the blocking of the U-shaped inner ring after the sand scraping inner cushion transversely scrapes the inner cavity of the water receiving pipe, thereby avoiding the counter-current transportation of the sand.

Drawings

FIG. 1 is a schematic diagram of one embodiment of the present invention;

FIG. 2 is a schematic side elevation view of an embodiment of the present invention;

FIG. 3 is a partial cross-section and a schematic view of the dispersion of one embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the portion A of FIG. 3 according to an embodiment of the present invention;

FIG. 5 is a schematic view illustrating the internal dispersion of FIG. 3 according to an embodiment of the present invention;

FIG. 6 is an internal top view of the schematic of FIG. 1 in accordance with one embodiment of the invention;

FIG. 7 is a partially dispersed schematic illustration of FIG. 6 in accordance with an embodiment of the invention;

FIG. 8 is a schematic illustration of the dispersion of FIG. 6 and a partial cross-section thereof, in accordance with one embodiment of the present invention.

Reference numerals:

100. a water-conveying and sand-discharging mechanism; 110. a water guiding component; 111. a water collecting bin; 112. a main clamp; 113. an auxiliary clamp; 114. a stem; 120. a quantity control component; 121. an outer cylinder; 122. an inner tube; 130. connecting a water conduit; 140. a filter screen; 150. a drain pipe; 160. a sand collection assembly; 161. a protective outer case; 162. a sand guiding transverse pipe; 170. a gathering assembly; 171. reinforcing the outer tube; 172. a filter cartridge; 173. a dredging end; 180. a slide rail;

200. a sand discharging mechanism; 210. a transmission cross shaft; 220. a helical impeller; 230. a servo motor; 240. a positioning piece; 250. a gear member;

300. a transverse traction mechanism; 310. a deflection assembly; 311. a deflection shaft; 312. a rod; 320. a transverse chain; 330. a post gear member; 340. a top-mounted buckle; 350. a linkage toothed bar; 360. a spreader assembly; 361. a pull rod; 362. a guide wheel; 363. a telescopic rod; 364. a spring; 370. a sliding sheet; 380. and scraping the sand inner cushion.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present invention and features in the embodiments may be combined with each other.

The following describes some embodiments of the present invention with reference to the accompanying drawings.

Example 1

Referring to fig. 1-8, the sand accumulation preventing water treatment conveying pipeline provided by the invention comprises a water conveying and sand discharging mechanism 100, a sand discharging mechanism 200 and a transverse traction mechanism 300, wherein the sand discharging mechanism 200 is arranged on the water conveying and sand discharging mechanism 100, and the transverse traction mechanism 300 is arranged on the water conveying and sand discharging mechanism 100.

The water delivery and sand drainage mechanism 100 comprises a water guide assembly 110, a quantity control assembly 120, a water receiving pipe 130, a filter screen 140, a water drainage pipe 150, a sand collection assembly 160, a gathering assembly 170 and a sliding rail 180, the water guide assembly 110 further comprises a water collection bin 111, a main clamp 112, an auxiliary clamp 113 and a core column 114, the quantity control assembly 120 further comprises an outer barrel 121 and an inner tube 122, the sand collection assembly 160 further comprises a protective outer box 161 and a sand guiding transverse tube 162, the gathering assembly 170 further comprises a reinforced outer tube 171, a filter core barrel 172 and a dredging end 173, the sand drainage mechanism 200 comprises a transmission transverse shaft 210, a spiral impeller 220, a servo motor 230, a positioning piece 240 and a gear piece 250, the transverse traction mechanism 300 comprises a deflection assembly 310, a transverse chain 320, a stand column gear piece 330, a top clamping buckle 340, a linkage toothed bar 350, a stretching assembly 360, a sliding sheet 370 and a sand scraping inner cushion 380, the deflection assembly 310 further comprises a deflection shaft 311 and a plug rod 312, and the stretching assembly 360 further comprises pull rods 361, 362, guide wheels and a telescopic rod 364.

Specifically, the quantity control assembly 120 is installed at one end of the water guide assembly 110, the water receiving pipe 130 is installed on the quantity control assembly 120, the filter screen 140 is installed in the water guide assembly 110, the water discharge pipe 150 is installed at the other end of the water guide assembly 110, the sand collecting assembly 160 is installed at the bottom of the water guide assembly 110, the gathering assembly 170 is installed at the outside of the sand collecting assembly 160, the sliding rail 180 is movably installed at the outside of the water receiving pipe 130, the main clamp 112 and the auxiliary clamp 113 are respectively installed at two ends of the inner cavity of the water collecting bin 111, the core column 114 is connected in the main clamp 112 and the auxiliary clamp 113, the outer cylinder 121 is installed at one end of the water collecting bin 111, the inner tube 122 is installed inside the outer cylinder 121, the protective outer box 161 is installed at the bottom of the water collecting bin 111, the sand guiding transverse tube 162 is installed inside the protective outer box 161, the reinforcing outer tube 171 is installed at the outer end of the protective outer box 161, the filter core tube 172 is movably installed at the inner cavity of the reinforcing outer tube 171, the flow dispersing end 173 is movably arranged at the outer end of the reinforced outer tube 171, the transmission cross shaft 210 is movably arranged in the protective outer box 161, the spiral impeller 220 is arranged outside the transmission cross shaft 210, the servo motor 230 is arranged at the outer end of the transmission cross shaft 210, the positioning piece 240 is arranged outside the servo motor 230, the gear piece 250 is movably arranged in the positioning piece 240, the deflection assembly 310 is movably arranged in the outer tube 121, the top-setting buckle 340 is arranged on the outer tube 121, the upright post gear piece 330 and the linkage toothed bar 350 are movably arranged in the top-setting buckle 340, the transverse chain 320 is linked between the upright post gear piece 330 and the deflection assembly 310, the stretching assembly 360 is movably connected to the deflection assembly 310, the sliding sheet 370 is movably arranged in the water receiving pipe 130, the sand scraping inner pad 380 penetrates into the inner cavity of the water receiving pipe 130, the deflection shaft 311 is movably arranged in the outer tube 121, the inserted bar 312 is arranged at the top of the deflection shaft 311, the guide wheel 362 is arranged in the sand scraping inner pad 380 and the sliding sheet 370, the pull rod 361 is connected to one side of the guide wheel 362, a horizontally arranged telescopic rod 363 is mounted on the pull rod 361, and a spring 364 is located outside the telescopic rod 363.

Utilize to scrape husky inner pad 380 and adopt two ring shape packing rings and install the U font inner ring at two ring shape packing rings middle part, scrape husky inner pad 380 and transversely strike off the back against connecing the water guide pipe 130 inner chamber this moment, by being directed to the separation promotion of being close to accuse volume subassembly 120 one side can be under the separation promotion of U font inner ring, so can avoid the silt to appear reversing and carry, and movable mounting gleitbretter 370 in the spout that connects water guide pipe 130 inner wall, and install the guide pulley 362 that runs through to connecing the water guide pipe 130 top on gleitbretter 370, simultaneously movable mounting symmetrically distributed's pull rod 361 and telescopic link 363 and elastic tension's spring 364 on guide pulley 362, and combine deflection subassembly 310 whole to carry out horizontal expansion and shrink along the spout that connects water guide pipe 130 inner wall this moment, and install filter screen 140 of filter sand in the notch of water collection storehouse 111 bottom, simultaneously at the bottom installation unified discharge outer box 161, and install the guide pulley 162 that leads to carry to connect the water guide pipe 130 top, and the outside the horizontal axis 210 that can be carried along the horizontal direction of the whole rotation of the water guide pipe 161, thereby can prevent the outer channel 161 from being carried along the horizontal direction of the whole inner chamber of the outer channel 161, and can prevent the outer channel 161 from being shut down.

Example two

Referring to fig. 3 to 5, on the basis of the first embodiment, an arc slot is formed at the bottom of the water collection bin 111, the frame on the outer side of the filter screen 140 is adapted to penetrate into the arc slot at the bottom of the water collection bin 111, meanwhile, the core column 114 is made of hollow stainless steel material, the whole core column 114 is in a circular truncated cone structure, annular grooves which are concave inwards are formed at two ends of the outer portion of the core column 114, the inner tube 122 is made of ceramic material, a circular truncated cone water delivery hole groove is formed in the inner tube 122, the water receiving pipe 130 is in an L-shaped structure, an arc chute is formed in the inner wall of the water receiving pipe 130, and the arc chute is adapted to be constrained to the sliding sheets 370.

The filter screen 140 which can filter and dredge sewage and sediment is arranged in the arc-shaped notch at the bottom of the water collection bin 111, the core column 114 is suspended at the middle part of the inner cavity of the water collection bin 111 by combining the main clamp 112 and the auxiliary clamp 113, the smaller table top at one end of the core column 114 is matched to effectively separate and dredge the sewage and the sediment, the circular truncated cone-shaped hole groove is formed in the inner tube 122, at the moment, the inner tube 122 is communicated with the port at one end of the inner cavity of the water collection bin 111 to carry out smooth conveying and discharging of the sediment, and further, sediment gathering is avoided, after the sewage flows into the inner cavity of the water connection pipe 130, sediment in the sewage can be blocked in the inner cavity of the transverse pipe structure of the water connection pipe 130, meanwhile, the arc-shaped slide way of the inner wall of the water connection pipe 130 is matched with the adaptive constraint between the slide 370, and at the moment, the inner pad 380 of scraping can be used for transversely scraping the sediment in the transverse pipe part of the water connection pipe 130, and the sediment can be discharged rapidly.

Example III

Referring to fig. 3 and 5, on the basis of the first embodiment, cylindrical ends protruding outwards are provided at two ends of the protection outer case 161, a circular through hole is provided in the cylindrical end of the protection outer case 161 near one end of the gathering component 170, densely distributed filter meshes are provided at the outer end of the filter core barrel 172, a frame at the outer end of the filter core barrel 172 is fit and attached to an annular notch at the inner side of the flow-dredging end 173, the transmission cross shaft 210 is composed of a cross rod, a backing ring and a semicircular cushion block installed on the cross rod and far away from one end of the servo motor 230, and the semicircular cushion block has the same shape as the sand guiding cross tube 162.

The sand guiding cross pipe 162 is arranged in the protection outer box 161, the adaptation butt joint between the sand guiding cross pipe 162 and the semicircular cushion blocks in the transmission cross shaft 210 is combined, when the spiral impeller 220 is positioned and rotated along the inside of the protection outer box 161, the semicircular cushion blocks in the transmission cross shaft 210 can discharge and convey sediment in the protection outer box 161 outwards at intervals, the outer end of the filter element barrel 172 is transversely fixed and pressurized by combining the reinforcing outer pipe 171, the filtering of sediment and water by the filtering meshes at the outer end of the filter element barrel 172 is achieved, meanwhile, the anti-seepage barrier of the adaptation constraint in the protection outer box 161 is formed at one end of the transmission cross shaft 210 close to the servo motor 230, and the anti-seepage barrier of the sewage in the protection outer box 161 is combined, so that sediment in the protection outer box 161 can be effectively discharged when the transmission cross shaft 210 and the spiral impeller 220 rotate, and sediment in the water conveying pipeline can be safely discharged and collected.

Example IV

Referring to fig. 5 to 8, on the basis of the first embodiment, the bottom of the deflection shaft 311 is provided with an inward concave T-shaped ring groove, the middle of the bottom of the deflection shaft 311 is provided with a column which is adapted to penetrate into the outer cylinder 121, and the sand scraping inner pad 380 is composed of two annular washers and a U-shaped inner ring installed in the middle of the two annular washers.

Utilize urceolus 121 top sleeve to deflection shaft 311 bottom stand's spacing constraint, cooperation water collection storehouse 111 top guide bar is to deflection shaft 311 bottom T font annular spacing guide simultaneously, can make the stability during the whole rotation of deflection assembly 310 this moment, and cooperation scrapes the location conveying of sediment after the sand inner ring is facing to scraping in the sand inner pad 380, cooperation two ring washers butt joint water guide 130 inner chamber horizontal scraping of sediment simultaneously, after U font inner ring guide sediment is carried towards water collection storehouse 111 inner chamber, U font inner ring can prevent that the sediment from appearing backward flow this moment.

The working principle and the using flow of the invention are as follows: the operator needs to install the pull rod 361 on the guide wheel 362 in advance, install the guide wheel 362 on the arc-shaped pad in the middle of the sliding sheet 370, then movably install the sliding sheet 370 in the chute on the inner wall of the water collecting pipe 130, then install the bottom end of the guide wheel 362 on the top of the sand scraping inner pad 380, at this time, the sand scraping inner pad 380 is movably installed in the inner cavity of the water collecting pipe 130, and the outer wall of the sand scraping inner pad 380 can be attached to the inner wall of the water collecting pipe 130 for transverse transmission extension, then install the inner end of the water collecting pipe 130 on the control component 120, then suspend the stem 114 in the middle of the inner cavity of the water collecting bin 111 by using the main clamp 112 and the auxiliary clamp 113, at this time, the smaller table surface of one end of the stem 114 is close to the inner end of the control component 120, then install the filter screen 140 in the arc-shaped notch on the bottom of the water collecting bin 111, then movably install the linkage toothed bar 350 in the top buckle 340, at this time, the gear at the top end of the linkage toothed bar 350 is meshed with the external tooth mouth of the upright post gear member 330, the deflection gear at the bottom end of the linkage toothed bar 350 is driven to the tooth mouth at the outer side of the linkage toothed bar 350, then an operator needs to start and operate the servo motor 230, and the inner end shaft lever of the servo motor 230 is combined to drive the linkage of the transmission cross shaft 210, at this time, the spiral impeller 220 arranged at the outer side of the transmission cross shaft 210 is positioned and rotated along the inner cavity of the protection outer box 161, at this time, the water and the sediment conveyed through the inner cavity of the water receiving and collecting pipe 130 and the water collecting bin 111 are separated by the core column 114, at this time, the sediment is gathered together into the inner part of the protection outer box 161, the transmission cross shaft 210 and the spiral impeller 220 discharge the sediment outwards, at this time the sediment positioned in the protection outer box 161 is conveyed into the filter core tube 172 through the sand receiving cross tube 162, at this point, the silt gathers and collects in the interior cavity of the filter cartridge 172. At this time, the residual water in the sediment can be conveyed into the dredging end 173 by the filtering holes at the outer end of the filtering core barrel 172, so that the water in the sediment can be effectively discharged, and the problem that the sediment in the water blocks the water conveying pipeline can be avoided.

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 therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims (10)

1. The sand accumulation prevention water treatment conveying pipeline is characterized by comprising a water conveying and sand discharging mechanism (100), a sand discharging mechanism (200) and a transverse traction mechanism (300);

the water delivery and sand discharge mechanism (100) comprises a horizontally arranged water guide assembly (110), a quantity control assembly (120) arranged at one end of the water guide assembly (110), a water receiving and guiding pipe (130) arranged on the quantity control assembly (120), a filter screen (140) arranged in the water guide assembly (110), a drain pipe (150) arranged at the other end of the water guide assembly (110), a sand collection assembly (160) arranged at the bottom of the water guide assembly (110), a gathering assembly (170) arranged outside the sand collection assembly (160) and a sliding rail (180) movably arranged outside the water receiving and guiding pipe (130);

the water guide assembly (110) comprises a water collection bin (111) for guiding sewage to be conveyed, a main clamp (112) and an auxiliary clamp (113) which are arranged at two ends of an inner cavity of the water collection bin (111), and a core column (114) connected in the main clamp (112) and the auxiliary clamp (113);

the volume control assembly (120) comprises an outer cylinder (121) arranged at one end of the water collection bin (111) and an inner tube (122) arranged inside the outer cylinder (121);

the sand collection assembly (160) comprises a protection outer box (161) arranged at the bottom of the water collection bin (111) and a sand guiding transverse tube (162) arranged inside the protection outer box (161);

the gathering assembly (170) comprises a reinforced outer tube (171) arranged at the outer end of the protective outer box (161), a filter core barrel (172) movably arranged in the inner cavity of the reinforced outer tube (171) and a flow-dispersing end head (173) movably arranged at the outer end of the reinforced outer tube (171);

the sand discharging mechanism (200) is arranged in the water conveying and sand discharging mechanism (100) and comprises a transmission cross shaft (210) movably arranged in the protective outer box (161), a spiral impeller (220) arranged outside the transmission cross shaft (210), a servo motor (230) arranged at the outer end of the transmission cross shaft (210), a positioning piece (240) arranged outside the servo motor (230) and a gear piece (250) movably arranged in the positioning piece (240);

the transverse traction mechanism (300) is arranged on the water delivery and sand discharge mechanism (100) and comprises a deflection assembly (310) movably arranged in an outer cylinder (121), a top-setting buckle (340) arranged on the outer cylinder (121), a stand column gear piece (330) and a linkage toothed bar (350) movably arranged in the top-setting buckle (340), a transverse chain (320) linked between the stand column gear piece (330) and the deflection assembly (310), a stretching assembly (360) movably connected to the deflection assembly (310), a sliding sheet (370) movably arranged in a water receiving pipe (130) and a sand scraping inner pad (380) penetrating into an inner cavity of the water receiving pipe (130);

the deflection assembly (310) comprises a deflection shaft (311) movably arranged in the outer cylinder (121) and a plunger (312) arranged at the top of the deflection shaft (311);

the stretching assembly (360) comprises a guide wheel (362) arranged in a sand scraping inner pad (380) and a sliding sheet (370), a pull rod (361) connected to one side of the guide wheel (362), a transverse telescopic rod (363) arranged on the pull rod (361) and a spring (364) arranged outside the telescopic rod (363).

2. The sand accumulation prevention water treatment conveying pipeline according to claim 1, wherein an arc-shaped notch is formed in the bottom of the water collection bin (111), and a frame on the outer side of the filter screen (140) is adapted to penetrate into the arc-shaped notch in the bottom of the water collection bin (111).

3. The sand accumulation preventing water treatment conveying pipeline according to claim 1, wherein the core column (114) is made of a hollow stainless steel material, the whole core column (114) is of a round table-shaped structure, and annular grooves which are concave inwards are formed in two ends of the outer part of the core column (114).

4. The sand accumulation preventing water treatment conveying pipeline as claimed in claim 1, wherein the inner pipe (122) is made of ceramic material, and a circular truncated cone-shaped water conveying hole groove is formed in the inner pipe (122).

5. The sand accumulation preventing water treatment conveying pipeline according to claim 1, wherein the water receiving pipe (130) is of an L-shaped structure as a whole, an arc-shaped chute is formed in the inner wall of the water receiving pipe (130), and the arc-shaped chute is adapted and restrained to the sliding sheet (370).

6. The sand accumulation prevention water treatment conveying pipeline according to claim 1, wherein cylindrical ends protruding outwards are arranged at two ends of the protection outer box (161), and a circular through hole is formed in the cylindrical end of the protection outer box (161) close to one end of the gathering assembly (170).

7. The sand accumulation prevention water treatment conveying pipeline according to claim 1, wherein densely distributed filter meshes are formed in the outer end of the filter core barrel (172), and a frame at the outer end of the filter core barrel (172) is fit and attached to an annular notch inside the dredging end head (173).

8. The sand accumulation preventing water treatment conveying pipeline according to claim 1, wherein the transmission cross shaft (210) is composed of a cross rod, a backing ring and a semicircular cushion block which is arranged on the cross rod and is far away from one end of the servo motor (230), and the semicircular cushion block has the same shape as the sand guiding cross tube (162).

9. The sand accumulation prevention water treatment conveying pipeline according to claim 1, wherein a T-shaped annular groove which is concave inwards is formed in the bottom of the deflection shaft (311), and a stand column which is adapted to penetrate into the outer barrel (121) is arranged in the middle of the bottom surface of the deflection shaft (311).

10. The sand accumulation preventing water treatment conveying pipeline as claimed in claim 1, wherein the sand scraping inner pad (380) is composed of two annular gaskets and a U-shaped inner ring arranged in the middle of the two annular gaskets.

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