CN115288278A

CN115288278A - Water circulation treatment device for landscape design

Info

Publication number: CN115288278A
Application number: CN202211079282.XA
Authority: CN
Inventors: 王鹭娜; 翁奎滨; 杨雨杭; 蒋超雄; 陈艳
Original assignee: Xiamen Gulong Real Estate Co ltd
Current assignee: Xiamen Gulong Real Estate Co ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-11-04

Abstract

The invention discloses a water circulation treatment device for garden landscape design, which belongs to the technical field of garden water treatment and comprises a main frame mechanism placed on the ground, wherein the main frame mechanism comprises a main frame and a water collecting tank placed on the ground, a primary screening mechanism is arranged on the main frame and is used for placing a plurality of mechanisms, the primary screening mechanism is used for primarily separating solid and liquid in the garden landscape circulating water and separating large solid sundries, a sundry pushing mechanism is arranged on the main frame mechanism, a material receiving disc is positioned below the top of the inner wall of a rotating shell and is used for pushing sundries screened out from the primary screening mechanism, and a soil screening mechanism is arranged on the main frame mechanism and is used for separating soil in the liquid screened out by the primary screening mechanism and pushing out the soil.

Description

Water circulation treatment device for landscape design

Technical Field

The invention relates to the technical field of garden water treatment, in particular to a water circulation treatment device for garden landscape design.

Background

The existing landscape water body is easy to be seriously polluted artificially due to lack of biodegradation function or shallow water body, including poor water quality of a guided water source and pollution of a water area entertainment place, various aquatic plants and microorganisms which are harmful to view grow under strong sunlight irradiation, deposition of feed added to ornamental fishes and the like, long-time pollutant accumulation can cause water quality deterioration, poor water body transparency, darkening of color and even peculiar smell, and therefore the landscape water body needs to be treated.

Chinese utility model patent that prior art publication number is CN212640048U discloses a water circulation treatment device for landscape, including the fixed station, the last fixed surface of fixed station is connected with the box, the side fixedly connected with mount of box, the inside fixedly connected with motor of mount, the inventor finds that there is following problem in the prior art and does not obtain good solution at the in-process that realizes this scheme: 1. when the device is used, purified water falls on the filter screen in the collecting box for filtering, and when impurities on the surface of the filter screen are accumulated more, the impurities are difficult to effectively clean, so that the filtering effect is influenced, and the drainage efficiency is reduced; 2. because there are foreign matter such as a large amount of leaves and rubbish in the inside of landscape water, this water circulation processing apparatus is difficult to clear away the inside foreign matter of water before carrying out water purification in the use, influences water treatment purification efficiency, and the practicality is poor.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the technical scheme that: the utility model provides a water circulation processing apparatus for landscape design, is including placing the body frame mechanism on ground, body frame mechanism including placing body frame and the header tank on ground, the body frame on be provided with preliminary screening mechanism, preliminary screening mechanism including rotating shell and shell landing leg, the body frame on fixed mounting have well frame, shell landing leg and well frame fixed mounting, body frame mechanism be used for placing a plurality of mechanisms, preliminary screening mechanism be used for carrying out preliminary separation with the solid and the liquid of landscape's circulating water, isolate large-scale solid debris, body frame mechanism on be provided with debris ejecting mechanism, debris ejecting mechanism include take-up (stock) pan and dish landing leg, take-up (stock) pan is located and rotates shell inner wall top below, dish landing leg and body frame fixed mounting, debris mechanism be arranged in will following the debris ejecting device that preliminary screening mechanism selected, body frame mechanism on be provided with earth screening mechanism, earth screening mechanism include that the side links the frame, link frame and well frame fixed mounting, screening mechanism be arranged in with the liquid ejecting mechanism that preliminary screening was screened, earth ejecting mechanism comes out earth and come out earth.

Further, preliminary screening mechanism include the rotation shell of fixed mounting on the shell landing leg, fixed mounting has semicircle baffle on the rotation shell, fixed mounting has the motor support on the body frame, fixed mounting has the rotation motor on the motor support, fixed mounting has the inlet pipe on the rotation shell, fixed mounting has the feed inlet on the inlet pipe, fixed mounting has the rotating turret on the output of rotation motor, the rotating turret rotates the installation with semicircle baffle, rotate on the rotating turret and install the material receiving box, fixed mounting has the gag lever post on the rotating turret, shell landing leg side fixed mounting has the side link plate, it installs long transmission shaft to rotate on the side link plate, long transmission shaft both ends fixed mounting has head pulley and tailwheel, the winding of head pulley and the rotating turret outside has the motor area, fixed mounting has axle link plate on the body frame, long transmission shaft rotates the installation with axle link plate, it has the water receiving box to rotate shell bottom fixed mounting.

Furthermore, the bottom of the rotating shell is provided with a hole for filtering out larger impurities.

Furthermore, the material receiving box can rotate relative to the rotating frame, and the material receiving box can only rotate for a certain angle towards one direction due to the existence of the limiting rod.

Furthermore, the sundries pushing mechanism comprises a material receiving disc fixedly arranged on a disc supporting leg, the two ends of the material receiving disc are fixedly provided with a head part touch spring and an end part touch spring, a sliding guide rail is fixedly arranged on the disc supporting leg, a connecting frame is fixedly arranged on the sliding guide rail, a long control rod is slidably arranged in the connecting frame, a lead screw is rotatably arranged in the long control rod, a scraping plate is slidably arranged in the material receiving disc, an inner column and an end part starting block are fixedly arranged on the scraping plate, a sliding column is slidably arranged outside the inner column, an inner spring is directly and fixedly arranged on the inner column and the sliding column, a transverse plate is fixedly arranged on the sliding column, a vertical plate is fixedly arranged on the transverse plate, a lifting block is slidably arranged on the vertical plate, an inserting block is fixedly arranged at the end part of the lifting block, an inserting spring is arranged between the inserting block and the vertical plate, a scraping plate hole is arranged on the scraping plate, an upper concave wheel is fixedly arranged at the end part of the lead screw, and a long transmission belt is wound outside the upper concave wheel, an upper gear is fixedly arranged on the upper concave wheel, a flat plate is fixedly arranged on the plate supporting leg, a long transmission belt is rotatably arranged on the flat plate, a lower gear is fixedly arranged on the long transmission belt and is meshed with the upper gear, a gear vertical frame is fixedly arranged on the flat plate, a gear frame is fixedly arranged on the gear vertical frame, a middle gear is rotatably arranged on the gear frame, a short control rod is slidably arranged on the gear frame, an upper rack is fixedly arranged on the short control rod and is meshed with the middle gear, an upper hexagonal shaft is rotatably arranged on the gear vertical frame, an upper cam is slidably arranged on the upper hexagonal shaft, an upper external gear is fixedly arranged at the end part of the upper hexagonal shaft, the upper cam is slidably arranged with the short control rod, a middle and external gear is rotatably arranged on the gear vertical frame, the middle and external gear is meshed with the upper external gear, a lower hexagonal shaft is rotatably arranged on the gear vertical frame, and an extension shaft is fixedly arranged on the lower hexagonal shaft, the lower hexagonal shaft is provided with a lower cam in a sliding manner, the lower cam is provided with a lower rack in a sliding manner, the lower rack is fixedly provided with a lower rack, the lower rack is meshed with the middle gear, the lengthened shaft is fixedly provided with a lower outer gear and a transmission wheel, the lower outer gear is meshed with the middle gear, the transmission wheel and the tail wheel are externally wound with a short transmission belt, the lower rack is fixedly provided with a sliding frame, the sliding frame is provided with a sliding frame hole, the sliding frame is slidably mounted with a flat plate, the flat plate is fixedly provided with a transverse vertical plate, a transverse spring is arranged between the sliding frame and the transverse vertical plate, the flat plate is fixedly provided with a lower vertical plate, a long control rod is slidably mounted with the lower vertical plate, a short transverse spring is arranged between the long control rod and the lower vertical plate, the long control rod is fixedly provided with a small inclined block, the flat plate is fixedly provided with a sliding vertical plate, the sliding vertical plate is slidably mounted with a movable column, the end of the movable column is fixedly provided with a lower insertion block, a lower insertion spring is arranged between the lower insertion block and the sliding vertical plate, and the movable column is fixedly mounted with a return block.

Furthermore, after the scraper is lifted, the inserting block is inserted into the hole of the scraper, and after the sliding frame slides, the lower inserting block is inserted into the hole of the sliding frame.

Furthermore, the upper concave wheel and the upper cam are in friction transmission, and the lower concave wheel and the lower cam are in friction transmission.

Furthermore, the upper hexagonal shaft and the lower hexagonal shaft are a section of hexagonal prism and a section of cylinder.

In an initial state, the scraper is in contact with the inner wall of the end of the take-up pan, the upper cam is engaged with the upper concave wheel, the tail wheel is driven to rotate by rotating the motor, thereby driving the drive wheel to rotate, thereby driving the extension shaft and the lower outer gear to rotate, the lower outer gear rotates, thereby driving the upper outer gear to rotate through the middle outer gear, thereby driving the upper hexagonal shaft to rotate, the upper hexagonal shaft rotates to drive the upper cam to rotate, the upper cam rotates to drive the upper concave wheel to rotate, thereby driving the lead screw to rotate, the inner post slides outwards in the sliding guide rail, thereby driving the scraper to push large debris in the take-up pan, when the scraper moves to the outermost side of the take-up pan, the end actuating block contacts with the end trigger bar, the end actuating block ascends under the action of the end trigger bar to drive the scraper to ascend, the insertion block is inserted into the hole of the scraper, at which the scraper is lifted, so as to not bring the residual debris back into contact during the return stroke, while the sliding post contacts with the short control bar, thereby driving the upper rack to slide, thereby driving the middle rack to slide, thereby driving the lower rack to rotate, thereby driving the lower rack to push the lower rack to rotate, thereby driving the extension spring to push the lower rack to rotate, thereby driving the extension spring to rotate, the interior post descends under the spring-back effect of inner spring, drive the scraper blade decline, the scraper blade resumes initial position, the post that slides simultaneously and the contact of long control lever left end, and promote long control lever and slide, thereby extrude short horizontal spring, drive little sloping block and return the piece contact, it slides to drive the activity post, thereby insert the piece down and take out from the carriage hole, afterwards under the spring-back effect of horizontal spring, the carriage slides right, thereby it drives middle gear revolve to drive the rack slip down, it slides with short control lever to drive the upper rack, lower concave wheel breaks away from with the lower cam, go up concave wheel and upper cam wheel and meet, get back to initial condition.

Furthermore, the earth screening mechanism comprises a stirring box fixedly mounted on a side connecting frame, a water pipe is fixedly mounted below the water receiving box, the water pipe and the stirring box are fixedly mounted, two ends of the stirring box are fixedly provided with an earth accumulating box, a drain hole is formed in the bottom of the stirring box, a lead screw box is fixedly mounted on the side face of the stirring box, a lead screw shaft is rotatably mounted on the lead screw box, a lower driving wheel is fixedly mounted at the end of the lead screw shaft, the connecting frame is slidably mounted in the lead screw box and forms threaded transmission with the lead screw shaft, an upper stirring plate is fixedly mounted on the connecting frame, a lower stirring plate is slidably mounted below the upper stirring plate, a stand column is fixedly mounted on the lower stirring plate and is slidably mounted with the upper stirring plate, a withdrawing spring is arranged between the lower stirring plate and the upper stirring plate, and a long transmission belt is wound outside the lower driving wheel.

Furthermore, the two ends of the shifting box are fixedly provided with mud collecting boxes.

Muddy water passes through the water pipe from the water receiving box and gets into stirring the box in, and the reversing rotation that makes a round trip is realized to lower driving wheel under the drive of long drive belt to realize linking frame for the reciprocating sliding of lead screw box, drive down and stir the board reciprocating sliding, with earth slope from both ends stir the entering in the long-pending mud case, stir down the board slidable for last stirring board, the liquid after detaching earth flows into the collecting tank in from stirring the hole of box, during rivers play entering landscape afterwards, accomplishes the water cycle.

Compared with the prior art, the invention has the beneficial effects that: (1) The invention can realize the multiple filtration of the garden landscape water, automatically separate and clean large impurities and soil, and put the filtered landscape water into the garden again for use; (2) The sundry pushing mechanism can realize automatic stirring of sundries, and can automatically lift and accumulate in the material receiving tray in the process of returning the stirring plate; (3) The primary screening mechanism, the sundry pushing mechanism and the soil screening mechanism are driven by the same power source, and the soil screening mechanism automatically realizes back-and-forth mud pushing action.

Drawings

Fig. 1 is a schematic view (view angle one) of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the primary screening mechanism of the present invention.

FIG. 3 is a schematic view of the internal structure of the primary screening mechanism of the present invention.

FIG. 4 is a schematic view of a partial structure of a material receiving box of the primary screening mechanism of the present invention.

Fig. 5 is a schematic structural view of the sundries pushing-out mechanism.

FIG. 6 is a partial schematic view of the structure at A in FIG. 5 according to the present invention.

FIG. 7 is a partial structure diagram of the portion B in FIG. 5 according to the present invention.

Fig. 8 is a schematic structural view of a long control rod of the sundries pushing-out mechanism.

Fig. 9 is a schematic structural view of the rebounding part of the sundries pushing-out mechanism.

Fig. 10 is a schematic structural view of the sliding column and the inner column of the sundries pushing-out mechanism.

Fig. 11 is a schematic top view of the sundries pushing-out mechanism.

Fig. 12 is a schematic structural view of a triangular shaft and a cam of the sundries pushing-out mechanism.

FIG. 13 is a schematic diagram of the relative positions of the receiving tray and the receiving box according to the present invention.

Fig. 14 is a schematic structural view of a soil screening mechanism of the present invention.

Fig. 15 is a schematic view of a screw shaft structure of the soil screening mechanism of the present invention.

FIG. 16 is a schematic structural view of a mud collection box of the mud screening mechanism of the present invention.

Fig. 17 is a structural schematic view of the main frame mechanism of the invention.

Fig. 18 is a schematic view of the overall structure of the present invention (view angle two).

Fig. 19 is a schematic view (view three) of the overall structure of the present invention.

Reference numbers: 101-rotating the housing; 102-a feed inlet; 103-a feed pipe; 104-a rotating motor; 105-a motor mount; 106-housing legs; 107-semicircular baffle plates; 108-a turret; 109-motor belt; 110-head wheel; 111-long drive shaft; 112-tail wheel; 113-axle connection plate; 114-side link plate; 115-a water receiving box; 116-a receiving cartridge; 117-limit rod; 201-a take-up pan; 202-head touch spring; 203-end touch spring; 204-disc legs; 205-long drive belt; 206-short drive belt; 207-sliding guide rail; 208-a connecting frame; 209-lead screw; 210-a squeegee; 2101-scrape hole; 211-end start block; 212-an insertion block; 213-lifting the block; 214-insertion spring; 215-riser; 216-a transverse plate; 217-sliding post; 218-an inner spring; 219-inner column; 220-long control rod; 221-short control rod; 222-upper rack; 223-upper gear; 224-concave wheel on; 225-upper cam; 226-middle gear; 227-the gear carrier; 228-lower rack; 229-lower rack; 230-upper hexagonal shaft; 231-an upper outer gear; 232-middle and outer gear; 233-lower gear; 234-concave wheel; 235-lower cam; 236-a carriage; 2361-holes for sliding rack; 237-plate; 238-lower hexagonal shaft; 239-a lower outer gear; 240-gear stand; 241-an elongated shaft; 242-a transmission wheel; 243-transverse spring; 244-cross vertical plates; 245-short cross spring; 246-lower vertical plate; 247-lower insert block; 248-lower insertion spring; 249-small oblique blocks; 250-a sliding vertical plate; 251-a movable column; 252-a retract block; 301-water pipe; 302-side connecting frame; 303-sludge accumulation box; 304-a toggle box; 305-lower deflector plate; 306-a retraction spring; 307-upper toggle plate; 308-upright post; 309-connecting frames; 310-a screw shaft; 311-a lead screw box; 312-lower driving wheel; 401-the main frame; 402-middle frame; 403-water collecting tank.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example (b): as shown in fig. 1, fig. 13, fig. 17, fig. 19, a water circulation processing apparatus for landscape design, including placing the body frame mechanism on ground, body frame mechanism is including placing body frame 401 and header tank 403 on ground, be provided with preliminary screening mechanism on the body frame 401, preliminary screening mechanism is including rotating shell 101 and shell landing leg 106, fixed mounting has well frame 402 on the body frame 401, shell landing leg 106 and well frame 402 fixed mounting, body frame mechanism is used for placing a plurality of mechanisms, preliminary screening mechanism is used for carrying out preliminary separation with the solid and the liquid in the landscape's circulating water, separate large-scale solid debris, be provided with debris ejecting mechanism on the body frame mechanism, debris ejecting mechanism includes take-up pan 201 and dish landing leg 204, take-up pan 201 is located and rotates shell 101 inner wall top below, dish landing leg 204 and body frame 401 fixed mounting, debris ejecting mechanism is used for the debris ejecting device that sieves from preliminary screening mechanism, be provided with earth screening mechanism on the body frame mechanism, the screening mechanism includes side even frame 302, side even frame 302 and well frame 402 fixed mounting, debris ejecting mechanism is used for the liquid ejecting device that will tentatively screens the earth screening mechanism.

As shown in fig. 2, 3, and 4, the preliminary screening mechanism includes a rotating casing 101 fixedly mounted on a casing supporting leg 106, a semicircular baffle 107 is fixedly mounted on the rotating casing 101, a motor bracket 105 is fixedly mounted on a main frame 401, a rotating motor 104 is fixedly mounted on the motor bracket 105, a feeding pipe 103 is fixedly mounted on the rotating casing 101, a feeding port 102 is fixedly mounted on the feeding pipe 103, a rotating frame 108 is fixedly mounted on an output end of the rotating motor 104, the rotating frame 108 and the semicircular baffle 107 are rotatably mounted, a material receiving box 116 is rotatably mounted on the rotating frame 108, a limiting rod 117 is fixedly mounted on the rotating frame 108, a side connecting plate 114 is fixedly mounted on a side surface of the casing supporting leg 106, a long transmission shaft 111 is rotatably mounted on the side connecting plate 114, a head pulley 110 and a tail pulley 112 are fixedly mounted at two ends of the long transmission shaft 111, a motor belt 109 is wound on the outer sides of the head pulley 110 and the rotating frame 108, a shaft connecting plate 113 is fixedly mounted on the main frame 401, the long transmission shaft 111 is rotatably mounted with the shaft connecting plate 113, and a water receiving box 115 is fixedly mounted at the bottom of the rotating casing 101.

As shown in fig. 3, the bottom of the rotating housing 101 has holes for filtering out larger impurities.

As shown in FIG. 4, the material receiving box 116 can rotate relative to the rotating rack 108, and due to the existence of the limiting rod 117, the material receiving box 116 can only rotate a certain angle in one direction.

Landscape water enters the rotating shell 101 from the feeding hole 102 through the feeding pipe 103, the rotating motor 104 rotates to drive the rotating rack 108 to rotate, so as to drive the material receiving box 116 to move, and sundries which cannot be filtered through the holes in the rotating shell 101 are fished out and poured into the sundry pushing mechanism.

As shown in fig. 5, 6, 7, 8, 9, 10, 11, 12 and 18, the sundries ejecting mechanism comprises a receiving tray 201 fixedly mounted on a tray supporting leg 204, a head touch spring 202 and an end touch spring 203 are fixedly mounted at two ends of the receiving tray 201, a sliding guide 207 is fixedly mounted on the tray supporting leg 204, a connecting frame 208 is fixedly mounted on the sliding guide 207, a long control rod 220 is slidably mounted in the connecting frame 208, a lead screw 209 is rotatably mounted in the long control rod 220, a scraping plate 210 is slidably mounted in the receiving tray 201, an inner column 219 and an end start block 211 are fixedly mounted on the scraping plate 210, a sliding column 217 is slidably mounted outside the inner column 219, an inner spring 218 is directly fixedly mounted on the inner column 219 and the sliding column 217, a horizontal plate 216 is fixedly mounted on the horizontal plate 216, a vertical plate 215 is slidably mounted on the vertical plate 215, a lifting block 213 is slidably mounted on the vertical plate 215, and an insertion block 212 is fixedly mounted at an end of the lifting block 213, an insertion spring 214 is arranged between the insertion block 212 and the vertical plate 215, a scraper hole 2101 is arranged on the scraper 210, an upper concave wheel 224 is fixedly arranged at the end part of the screw rod 209, a long transmission belt 205 is wound outside the upper concave wheel 224, an upper gear 223 is fixedly arranged on the upper concave wheel 224, a flat plate 237 is fixedly arranged on the plate supporting leg 204, the long transmission belt 205 is rotatably arranged on the flat plate 237, a lower gear 233 is fixedly arranged on the long transmission belt 205, the lower gear 233 is meshed with the upper gear 223, a gear vertical frame 240 is fixedly arranged on the flat plate 237, a gear frame 227 is fixedly arranged on the gear vertical frame 240, a middle gear 226 is rotatably arranged on the gear frame 227, a short control rod 221 is slidably arranged on the gear frame 227, an upper rack 222 is meshed with the middle gear 226, an upper hexagonal shaft 230 is rotatably arranged on the gear vertical frame 240, an upper cam 225 is slidably arranged on the upper hexagonal shaft 230, an upper external gear 231 is fixedly installed at the end part of the upper hexagonal shaft 230, an upper cam 225 and a short control rod 221 are installed in a sliding manner, an intermediate and external gear 232 is installed on a gear vertical frame 240 in a rotating manner, the intermediate and external gear 232 is meshed with the upper external gear 231, a lower hexagonal shaft 238 is installed on the gear vertical frame 240 in a rotating manner, an extension shaft 241 is fixedly installed on the lower hexagonal shaft 238, a lower cam 235 is installed on the lower hexagonal shaft 238 in a sliding manner, a lower rack frame 229 is installed on the lower cam 235 in a sliding manner, a lower rack 228 is fixedly installed on the lower rack frame 229, the lower rack 228 is meshed with the intermediate gear 226, a lower external gear 239 and a transmission wheel 242 are fixedly installed on the extension shaft 241, the lower external gear 239 is meshed with the intermediate and external gear 232, a short transmission belt 206 is wound outside the transmission wheel 242 and the tail wheel 112, and a sliding frame 236 is fixedly installed on the lower rack frame 229, the sliding frame 236 is provided with a sliding frame hole 2361, the sliding frame 236 is slidably mounted with a flat plate 237, the flat plate 237 is fixedly provided with a transverse vertical plate 244, a transverse spring 243 is arranged between the sliding frame 236 and the transverse vertical plate 244, the flat plate 237 is fixedly provided with a lower vertical plate 246, the long control rod 220 is slidably mounted with the lower vertical plate 246, a short transverse spring 245 is arranged between the long control rod 220 and the lower vertical plate 246, the long control rod 220 is fixedly provided with a small inclined block 249, the flat plate 237 is fixedly provided with a sliding vertical plate 250, the sliding vertical plate 250 is slidably provided with a movable column 251, the end part of the movable column 251 is fixedly provided with a lower insertion block 247, a lower insertion spring 248 is arranged between the lower insertion block 247 and the sliding vertical plate 250, and the movable column 251 is fixedly provided with a return block 252.

As shown in fig. 6 and 9, after the squeegee 210 is lifted, the insertion block 212 is inserted into the squeegee hole 2101, and after the slide frame 236 slides, the lower insertion block 247 is inserted into the slide frame hole 2361.

As shown in FIG. 7, the upper concave wheel 224 is frictionally engaged with the upper cam 225, and the lower concave wheel 234 is frictionally engaged with the lower cam 235.

As shown in fig. 12, the upper hexagonal shaft 230 and the lower hexagonal shaft 238 are a section of a hexagonal prism plus a section of a cylinder.

In the initial state, the scraping plate 210 contacts with the inner wall of the end part of the receiving tray 201, at the same time, the upper cam 225 is meshed with the upper concave wheel 224, the tail wheel 112 is driven to rotate by the rotating motor 104, so as to drive the driving wheel 242 to rotate, so as to drive the extension shaft 241 and the lower external gear 239 to rotate, the lower external gear 239 rotates to drive the upper external gear 231 to rotate through the middle external gear 232, so as to drive the upper hexagonal shaft 230 to rotate, the upper hexagonal shaft 230 rotates to drive the upper cam 225 to rotate, the upper cam 225 rotates to drive the upper concave wheel 224 to rotate, so as to drive the lead screw 209 to rotate, so as to drive the inner column 219 to slide outwards in the sliding guide rail 207, so as to drive the scraping plate 210 to push large impurities in the receiving tray 201, when the scraping plate 210 moves to the outermost side of the receiving tray 201, the end part starting block 211 contacts with the end part contact spring 203, so as to lift the scraping plate 210, the insert block 212 is inserted into the scraper hole 2101, at this time, the scraper 210 is lifted, in order to avoid bringing back the residual garbage during the return stroke, at the same time, the sliding column 217 contacts the short control rod 221, pushing the short control rod 221 to slide, thereby driving the upper rack 222 to slide, thereby driving the middle gear 226 to rotate, thereby driving the lower rack 228 to slide, at this time, the upper cam 225 disengages from the upper concave wheel 224, the lower cam 235 abuts against the lower concave wheel 234, at this time, the reverse rotation is achieved, at the same time, the lower rack 228 drives the lower rack frame 229 and the sliding frame 236 to slide, thereby pressing the horizontal spring 243, the lower insert block 247 is inserted into the sliding frame hole 2361, subsequently, the tail wheel 112 is driven to rotate by the rotating motor 104, thereby driving the transmission wheel 242 to rotate, thereby driving the extended shaft 241 and the lower hexagonal shaft 238 to rotate, thereby driving the lower cam 235 to rotate, the lower concave wheel 234 to rotate, the lower concave wheel 233 to rotate, thereby driving the upper gear 223 to rotate, and realizing the rotation opposite to the outward pushing motion, thereby driving the sliding column 217 to retreat, when the lifting block 213 is in contact with the head contact spring 202, the insertion block 212 presses the insertion spring 214, the insertion block 212 pushes out the scraper hole 2101, the inner column 219 descends under the resilience of the inner spring 218, thereby driving the scraper 210 to descend, the scraper 210 restores the initial position, and simultaneously the sliding column 217 is in contact with the left end of the long control rod 220, and pushes the long control rod 220 to slide, thereby pressing the short cross spring 245, thereby driving the small inclined block 249 to be in contact with the retreating block 252, thereby driving the movable column 251 to slide, thereby taking out the lower block 247 from the sliding frame hole 2361, and then under the resilience of the cross spring 243, the sliding frame 236 slides rightward, thereby driving the lower rack 228 to slide, thereby driving the middle gear 226 to rotate, driving the upper rack 222 and the short control rod 221 to slide, the lower cam 234 is disengaged from the lower cam 235, the upper concave wheel 224 and the upper cam 225 are engaged, thereby returning to the initial state.

As shown in fig. 14, 15, 16 and 18, the soil screening mechanism includes a toggle box 304 fixedly mounted on a side link 302, a water pipe 301 is fixedly mounted below a water receiving box 115, the water pipe 301 and the toggle box 304 are fixedly mounted, two ends of the toggle box 304 are fixedly mounted with a sludge accumulating box 303, a drain hole is formed at the bottom of the toggle box 304, a lead screw box 311 is fixedly mounted on the side surface of the toggle box 304, a lead screw shaft 310 is rotatably mounted on the lead screw box 311, a lower driving wheel 312 is fixedly mounted at the end of the lead screw shaft 310, a link 309 is slidably mounted in the lead screw box 311, the link 309 and the lead screw shaft 310 form a thread transmission, an upper toggle plate 307 is fixedly mounted on the link 309, a lower toggle plate 305 is slidably mounted below the upper toggle plate 307, a vertical column 308 is fixedly mounted on the lower toggle plate 305, the vertical column 308 is slidably mounted with the upper toggle plate 307, a retraction spring 306 is disposed between the lower toggle plate 305 and the upper toggle plate 307, and a long driving belt 205 is wound outside the lower driving wheel 312.

As shown in fig. 15, two thirds of the surface of the screw shaft 310 is threaded.

As shown in fig. 16, the two ends of the toggle box 304 are fixedly provided with mud collecting boxes 303.

Muddy water enters the toggle box 304 from the water receiving box 115 through the water pipe 301, the lower transmission wheel 312 is driven by the long transmission belt 205 to realize back-and-forth reversing rotation, so that the connecting frame 309 slides back and forth relative to the screw rod box 311 to drive the lower toggle plate 305 to slide back and forth, soil is pulled out from two ends of an upper slope to enter the mud collecting box 303, the lower toggle plate 305 can slide relative to the upper toggle plate 307, liquid after soil removal flows into the water collecting box 403 from holes of the toggle box 304, and then water flows out to enter garden landscapes to complete water circulation.

The invention discloses a water circulation treatment device for landscape design, which has the working principle that: landscape water enters the rotary shell 101 from the feed inlet 102 through the feed pipe 103, the rotary motor 104 rotates to drive the rotary rack 108 to rotate, thereby driving the material receiving box 116 to move, sundries which cannot be filtered through holes in the rotary shell 101 are fished out and poured into the material receiving tray 201, the tail wheel 112 is driven to rotate through the rotary motor 104, thereby driving the driving wheel 242 to rotate, thereby driving the extension shaft 241 and the lower external gear 239 to rotate, the lower external gear 239 rotates, thereby driving the upper external gear 231 to rotate through the middle external gear 232, thereby driving the upper hexagonal shaft 230 to rotate, the upper hexagonal shaft 230 rotates to drive the upper cam 225 to rotate, the upper cam 225 rotates to drive the upper concave wheel 224 to rotate, thereby driving the screw rod 209 to rotate, driving the inner column 219 to slide outwards in the sliding guide rail 207, thereby driving the scraper 210 to push large sundries in the material receiving tray 201, when the scraper 210 moves to the outermost side of the material receiving tray 201, the end start block 211 contacts with the end contact spring 203, the end start block 211 rises under the action of the end contact spring 203 to drive the scraper 210 to rise, the insertion block 212 is inserted into the scraper hole 2101, the scraper 210 rises at the moment, the purpose is that the residual garbage is not brought back in the return stroke, at the same time, the sliding column 217 contacts with the short control rod 221 to push the short control rod 221 to slide, thereby driving the upper rack 222 to slide, thereby driving the middle gear 226 to rotate, thereby driving the lower rack 228 to slide, at the moment, the upper cam 225 is separated from the upper concave wheel 224, the lower cam 235 is butted with the lower concave wheel 234, at the moment, the reverse rotation is realized, at the same time, the lower rack 228 drives the lower rack 229 and the sliding frame 236 to slide, thereby extruding the transverse spring 243, the lower insertion block 247 is inserted into the sliding frame hole 2361, then the tail wheel 112 is driven to rotate by the rotating motor 104, thereby driving the driving transmission wheel 242 to rotate, thereby driving the additional long shaft 241 and the lower hexagonal shaft 238 to rotate, thereby rotating the lower cam 235, rotating the lower cam 235 to rotate the lower concave wheel 234, rotating the lower concave wheel 234 to rotate the lower gear 233, thereby rotating the upper gear 223, and rotating the upper gear to rotate in opposition to the outward pushing motion, thereby rotating the sliding post 217 to retreat, when the raising piece 213 comes into contact with the head contact spring 202, the insertion piece 212 presses the insertion spring 214, the insertion piece 212 pushes out the squeegee hole 2101, the inner post 219 descends by the rebound of the inner spring 218, thereby driving the squeegee 210 to descend, the squeegee 210 returns to the initial position, and at the same time, the sliding post 217 comes into contact with the left end of the long control lever 220 and pushes the long control lever 220 to slide, thereby pressing the short cross spring 245, driving the small inclined piece 249 to contact with the retreating piece 252, thereby driving the movable post 251 to slide, thereby taking out the lower insertion piece from the carriage hole 2361, and subsequently, under the rebound action of the cross spring 243, the sliding frame 236 slides rightwards to drive the lower rack 228 to slide so as to drive the middle gear 226 to rotate, drive the upper rack 222 and the short control rod 221 to slide, the lower concave wheel 234 is separated from the lower convex wheel 235, the upper concave wheel 224 is in butt joint with the upper convex wheel 225, the initial state is returned, muddy water enters the toggle box 304 from the water receiving box 115 through the water pipe 301, the lower transmission wheel 312 is driven by the long transmission belt 205 to realize reversing rotation back and forth, so that the connecting frame 309 slides back and forth relative to the lead screw box 311, the lower toggle plate 305 slides back and forth, soil is toggled out from two ends to enter the sludge collection box 303, the lower toggle plate 305 can slide relative to the upper toggle plate 307, the liquid after removing the soil flows into the water collection box 403 from the hole of the toggle box 304, and then water flows out to enter the garden landscape, and water circulation is completed.

Claims

1. The utility model provides a water circulation processing apparatus for landscape design, is including placing the body frame mechanism on ground, its characterized in that: body frame mechanism including placing body frame (401) and header tank (403) on ground, body frame (401) on be provided with preliminary screening mechanism, preliminary screening mechanism including rotating shell (101) and shell landing leg (106), body frame (401) on fixed mounting have well frame (402), shell landing leg (106) and well frame (402) fixed mounting, body frame mechanism be used for placing a plurality of mechanisms, preliminary screening mechanism be used for carrying out preliminary separation with the solid and the liquid of landscape's circulating water, separate large-scale solid debris, body frame mechanism on be provided with debris ejecting mechanism, debris ejecting mechanism include take-up (201) and dish landing leg (204), take-up (201) are located and rotate shell (101) inner wall top below, dish landing leg (204) and body frame (401) fixed mounting, ejecting mechanism be arranged in will following the debris ejecting device that preliminary screening mechanism chooseed out, body frame mechanism on be provided with screening mechanism, screening mechanism including screening side even mud screening frame (302), screening mechanism is used for screening mechanism and earth mounting in the preliminary screening mechanism.

2. The water circulation treatment device for landscape architecture design according to claim 1, characterized in that: preliminary screening mechanism including rotation shell (101) of fixed mounting on shell landing leg (106), fixed mounting has semicircle baffle (107) on rotation shell (101), fixed mounting has motor support (105) on body frame (401), fixed mounting has rotation motor (104) on motor support (105), fixed mounting has inlet pipe (103) on rotation shell (101), fixed mounting has feed inlet (102) on inlet pipe (103), fixed mounting has rotating turret (108) on the output of rotation motor (104), rotating turret (108) and semicircle baffle (107) rotate the installation, it installs material receiving box (116) to rotate on rotating turret (108), fixed mounting has gag lever post (117) on rotating turret (108), shell landing leg (106) side fixed mounting has side link board (114), it installs long transmission shaft (111) to rotate on side link board (114), long transmission shaft (111) both ends fixed mounting has head pulley (110) and tailwheel (112), head pulley (110) and rotating turret (108) outside winding has motor area (109), fixed mounting has main frame link board (113) on body frame (106), it installs water receiving box (113) and rotation shaft (101) bottom fixed mounting has water receiving box (113).

3. The water circulation treatment device for landscape architecture design according to claim 1, characterized in that: the sundries pushing-out mechanism comprises a material receiving disc (201) fixedly installed on a disc supporting leg (204), the two ends of the material receiving disc (201) are fixedly provided with a head contact spring (202) and an end contact spring (203), a sliding guide rail (207) is fixedly installed on the disc supporting leg (204), a connecting frame (208) is fixedly installed on the sliding guide rail (207), a long control rod (220) is installed in the connecting frame (208) in a sliding mode, a lead screw (209) is installed in the long control rod (220) in a rotating mode, a scraping plate (210) is installed in the material receiving disc (201) in a sliding mode, an inner column (219) and an end starting block (211) are fixedly installed on the scraping plate (210), a sliding column (217) is installed outside the inner column (219) in a sliding mode, an inner spring (218) is directly and fixedly installed on the inner column (219) and the sliding column (217), a transverse plate (216) is fixedly installed on the sliding column (217), a vertical plate (215) is fixedly installed on the transverse plate (216), a lifting block (213) is installed on the vertical plate (215) in a sliding mode, an end part of the lifting block (213) is fixedly installed on the end part of the lifting block (213), a spring inserting block (212), a spring hole (2101) is installed on the vertical plate (210), a concave wheel (224) is installed on the scraping plate (210), the outer side of the upper concave wheel (224) is wound with a long transmission belt (205), the upper concave wheel (224) is fixedly provided with an upper gear (223), the plate supporting leg (204) is fixedly provided with a flat plate (237), the flat plate (237) is rotatably provided with the long transmission belt (205), the long transmission belt (205) is fixedly provided with a lower gear (233), the lower gear (233) is meshed with the upper gear (223), the flat plate (237) is fixedly provided with a gear vertical frame (240), the gear vertical frame (240) is fixedly provided with a gear carrier (227), the gear carrier (227) is rotatably provided with a middle gear (226), the gear carrier (227) is rotatably provided with a short control rod (221), the short control rod (221) is fixedly provided with an upper rack (222), the upper rack (222) is meshed with the middle gear (226), the gear vertical frame (240) is rotatably provided with an upper hexagonal shaft (230), the upper cam (225) is rotatably provided with an upper cam (231), the end of the upper hexagonal shaft (230) is fixedly provided with an outer gear (225), the upper gear (232) is meshed with an upper gear (240), and the lower gear (232), a lengthened shaft (241) is fixedly installed on a lower hexagonal shaft (238), a lower cam (235) is installed on the lower hexagonal shaft (238) in a sliding manner, a lower rack frame (229) is installed on the lower cam (235) in a sliding manner, a lower rack (228) is fixedly installed on the lower rack frame (229), the lower rack (228) is meshed with a middle gear (226), a lower outer gear (239) and a transmission wheel (242) are fixedly installed on the lengthened shaft (241), the lower outer gear (239) is meshed with the middle outer gear (232), a short transmission belt (206) is wound outside the transmission wheel (242) and a tail wheel (112), a sliding frame (236) is fixedly installed on the lower rack frame (229), a sliding frame hole (2361) is formed in the sliding frame (236) and a flat plate (237) are installed in a sliding manner, a transverse vertical plate (244) is fixedly installed on the flat plate (237), a transverse spring (244) is arranged between the sliding frame (236) and the transverse plate (244), a lower vertical plate (246) is fixedly installed on the flat plate (237), a long control rod (220) and a short control block (249) is installed between the long control rod (220) and the transverse plate (246), sliding mounting has movable post (251) on slip riser (250), and movable post (251) tip fixed mounting inserts piece (247) down, inserts under being provided with between piece (247) and the slip riser (250) and inserts spring (248), and fixed mounting has on the movable post (251) to return piece (252).

4. The water circulation treatment device for landscape architecture design according to claim 1, characterized in that: the soil screening mechanism comprises a shifting box (304) fixedly installed on a side connecting frame (302), a water pipe (301) is fixedly installed below a water receiving box (115), the water pipe (301) and the shifting box (304) are fixedly installed, sludge accumulation boxes (303) are fixedly installed at two ends of the shifting box (304), drain holes are formed in the bottom of the shifting box (304), a lead screw box (311) is fixedly installed on the side surface of the shifting box (304), a lead screw shaft (310) is rotatably installed on the lead screw box (311), a lower driving wheel (312) is fixedly installed at the end part of the lead screw shaft (310), a connecting frame (309) is slidably installed in the lead screw box (311), the connecting frame (309) and the lead screw shaft (310) form threaded transmission, an upper shifting plate (307) is fixedly installed on the connecting frame (309), a lower shifting plate (305) is slidably installed below the upper shifting plate (307), a vertical column (308) is fixedly installed on the lower shifting plate (305), a retraction spring (306) is arranged between the lower shifting plate (305) and an outer transmission belt (205).

5. The water circulation treatment device for landscape architecture design according to claim 2, characterized in that: the bottom of the rotating shell (101) is provided with a hole for filtering out larger sundries.

6. The water circulation treatment device for landscape architecture design according to claim 2, characterized in that: the material receiving box (116) rotates relative to the rotating frame (108), and the material receiving box (116) can only rotate towards one direction due to the existence of the limiting rod (117).

7. The water circulation treatment device for landscape architecture design according to claim 3, characterized in that: after the scraper (210) is lifted up, the inserting block (212) is inserted into the scraper hole (2101), and after the sliding frame (236) slides, the lower inserting block (247) is inserted into the sliding frame hole (2361).

8. The water circulation treatment device for landscape architecture design according to claim 3, characterized in that: the upper concave wheel (224) and the upper convex wheel (225) are in friction transmission, and the lower concave wheel (234) and the lower convex wheel (235) are in friction transmission.

9. The water circulation treatment device for landscape architecture design according to claim 3, characterized in that: the upper hexagonal shaft (230) and the lower hexagonal shaft (238) are a section of hexagonal prism plus a section of cylinder.

10. The water circulation treatment device for landscape architecture design according to claim 4, characterized in that: and mud accumulation boxes (303) are fixedly arranged at both ends of the stirring box (304).