CN113319479A

CN113319479A - Gardens drainage structures processing equipment

Info

Publication number: CN113319479A
Application number: CN202110762188.3A
Authority: CN
Inventors: 王梦飞
Original assignee: Zhejiang Guangxia Construction Vocational and Technical University
Current assignee: Zhejiang Guangxia Construction Vocational and Technical University
Priority date: 2021-07-06
Filing date: 2021-07-06
Publication date: 2021-08-31
Anticipated expiration: 2041-07-06
Also published as: CN113319479B

Abstract

The invention relates to the technical field of garden drainage, in particular to garden drainage structure processing equipment. The water in the outside can be prevented from flowing backwards; the utility model provides a gardens drainage structures processing equipment, drainage structures includes connecting pipe, bottom tube and the calabash body, and the connecting pipe is connected on the bottom tube, and the calabash body is arranged in connecting pipe and bottom tube, equipment includes arc arm, flat board and lead screw, and two arc arms slide on the flat board, and two arc arms are all connected at the lead screw, and the lead screw is connected on the flat board, and the rivers that flow back receive the guide of the calabash body, can be in the same direction as the space between the calabash body and the bottom tube, use the axis of the calabash body to scatter to both sides as the center, utilize the water conservancy diversion of the calabash body, make rivers flow from the space between connecting pipe and the bottom tube, avoided rivers to flow backward in the middle of the connecting pipe, thereby make connecting pipe, bottom tube and calabash body form one-way "drainage structures.

Description

Gardens drainage structures processing equipment

Technical Field

The invention relates to the technical field of garden drainage, in particular to garden drainage structure processing equipment.

Background

The garden drainage is to discharge water in a pipeline for conveying water to the outside, and the existing drainage structure can only discharge the water in the pipeline to the outside and cannot prevent the outside water from flowing backwards; when gardens drainage, after the water in the pipeline with delivery water discharges the external world, the external world has water, when the water gathering is too much, leads to water to flow backward into the pipeline of delivery water easily in the middle of to the gathering causes the water in the water pipe to block up or pollute at the external water in the pipe along with miscellaneous earth of follow-up and impurity flow backward into the water pipe.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a garden drainage structure processing device which can prevent external water from flowing backwards.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the utility model provides a gardens drainage structures processing equipment, drainage structures includes connecting pipe, bottom tube and the calabash body, and the connecting pipe is connected on the bottom tube, and the calabash body is arranged in connecting pipe and bottom tube, equipment includes arc arm, flat board and lead screw, and two arc arms slide on the flat board, and two arc arms all connect at the lead screw, and the lead screw is connected on the flat board.

Further, a heat insulating material is arranged in the middle of the arc-shaped arm.

Further equipment still includes pivot, base and welder, and the welder rotates on the base, and the pivot is fixed on the flat board.

The device further comprises a truss, a sliding rod, two rotating arms and two holding clamps, wherein the two holding clamps slide on the truss, the two rotating arms rotate on the truss, the sliding rod slides on the truss, the two holding clamps slide on the two rotating arms respectively, and the two rotating arms slide on the sliding rod.

Further the equipment still includes the commentaries on classics roller, all rotates on every embraces and presss from both sides and has a plurality of commentaries on classics rollers.

The garden drainage structure processing equipment has the beneficial effects that:

the power source is utilized to drive the screw rod to rotate, so that the screw rod drives the two arc-shaped arms to slide and approach on the flat plate, the bottom tube is clamped and fixed on the flat plate for positioning, then the gourd body and the connecting tube are conveniently and sequentially welded on the bottom tube, the positioning and clamping are conveniently carried out during processing, the labor is saved, and the operation process is simplified; if external water gathering is too many, water can return through the bottom tube flow, rivers receive the guide of the calabash body this moment, can be in the same direction as the space between the calabash body and the bottom tube, use the axis of the calabash body to scatter to both sides as the center, utilize the water conservancy diversion of the calabash body, make rivers flow from the space between connecting pipe and the bottom tube, avoided rivers to flow backward into in the middle of the connecting pipe, thereby make the connecting pipe, bottom tube and calabash body form one "one-way" drainage structures, avoid rivers to flow backward into the pipeline of carrying water, thereby avoided the gathering to lead to the fact in the water pipe to block up or pollute the water in the water pipe with miscellaneous earth of external water and impurity flow backward.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of a drainage structure according to the present invention;

FIG. 2 is a schematic cross-sectional view of a drainage structure according to the present invention;

FIG. 3 is a schematic view of the structure of the flat plate rotating on the base in the present invention;

FIG. 4 is a schematic structural view of a screw rod and a rotating shaft according to the present invention;

FIG. 5 is a schematic structural view of a slide bar and a rotating arm according to the present invention;

FIG. 6 is a schematic view of the structure of the clasping clamp and the rotating roller in the present invention;

FIG. 7 is a schematic view of the structure of the welding gun and the cylinder according to the present invention;

FIG. 8 is a schematic structural view of the hanging ring and the pressing plate of the present invention;

FIG. 9 is a schematic view of the structure of the arc plate and the cross beam of the present invention;

fig. 10 is a schematic structural view of a garden drainage structure processing device according to the present invention.

In the figure: a connecting pipe 101; a bottom tube 102; a gourd body 103; an arc-shaped arm 201; a plate 202; a screw rod 203; a rotating shaft 204; a base 205; upright 301; a lead screw 302; an arc plate 303; a cross member 304; a lifting ring 305; a platen 306; a roller 401; a truss 501; a slide bar 502; a rotating arm 503; a clasping clip 504; a welding gun 601; and a cylinder 701.

Detailed Description

Referring to fig. 1 and 2, an exemplary operation for preventing water from flowing backward is shown as follows:

when water is drained in a garden, after the water in a water conveying pipeline is drained to the outside, water exists in the outside, when the water is excessively gathered, the water is easily poured into the water conveying pipeline, in order to avoid the backflow, the drainage structure comprises a connecting pipe 101, a bottom pipe 102 and a gourd body 103, the connecting pipe 101 is connected to the bottom pipe 102, the gourd body 103 is positioned in the connecting pipe 101 and the bottom pipe 102, the connecting pipe 101 can be connected to the pipeline through bolts, the water is drained to the outside through the connecting pipe 101 and the bottom pipe 102, after the water enters from the connecting pipe 101, the water is scattered by the gourd body 103, then flows into the bottom pipe 102 along the space between the gourd body 103 and the connecting pipe 101 and flows out from the bottom pipe 102, if the outside water is excessively gathered, the water flows back through the bottom pipe 102, and the water flow is guided by the gourd body 103, the water can be dispersed towards two sides by taking the axis of the gourd body 103 as the center along the space between the gourd body 103 and the bottom pipe 102, the water flow is enabled to flow out from the gap between the connecting pipe 101 and the bottom pipe 102 by utilizing the flow guide of the gourd body 103, the water flow is prevented from flowing backwards into the connecting pipe 101, so that the connecting pipe 101, the bottom pipe 102 and the gourd body 103 form a 'one-way' drainage structure, the water flow is prevented from flowing backwards into a water conveying pipeline, and the water gathered outside and mixed with soil and impurities are prevented from flowing backwards into the water conveying pipeline to cause blockage or pollution to the water in the water conveying pipeline;

simultaneously equipment includes arc arm 201, dull and stereotyped 202 and lead screw 203, two arc arms 201 slide on dull and stereotyped 202, two arc arms 201 are all connected at lead screw 203, lead screw 203 is connected on dull and stereotyped 202, lead screw 203 uses the centre as the border, the screw thread opposite direction of both sides, can utilize power supply drive lead screw 203 to rotate, it is close to make lead screw 203 drive two arc arms 201 slide on dull and stereotyped 202, press from both sides the tight fixing on dull and stereotyped 202 of bottom tube 102 clamp, fix a position, then be convenient for weld calabash body 103 and connecting pipe 101 on bottom tube 102 in proper order, be convenient for add man-hour and fix a position and the centre gripping, use manpower sparingly and simplified operation process.

Referring to fig. 3 and 10, an exemplary operation for preventing the arc-shaped arm 201 from deforming is shown as follows:

after the bottom tube 102 is clamped and fixed on the flat plate 202 by the two arc-shaped arms 201, the hoist body 103 and the connecting tube 101 are sequentially welded on the bottom tube 102, so that heat is transferred to the arc-shaped arms 201 by the bottom tube 102 due to temperature generated during welding, the arc-shaped arms 201 are heated and deformed, the arc-shaped arms 201 are not in an arc-shaped structure any more, and positioning during subsequent clamping of the bottom tube 102 is not accurate enough; therefore, in the invention, the heat insulating material is arranged in the middle of the arc-shaped arm 201, the surface of the inner side of the arc-shaped arm 201 is contacted with the bottom pipe 102, and after the temperature of the bottom pipe 102 is transferred, the temperature of the surface of the inner side of the arc-shaped arm 201 is increased, but the heat insulating material in the middle can prevent the outer side surface of the arc-shaped arm 201 from being affected, thereby ensuring that the arc-shaped structure of the arc-shaped arm 201 cannot be changed; the heat insulating material may be glass fiber, asbestos, rock wool, etc.

Referring to FIGS. 3 and 4, one exemplary operation that can be achieved to accomplish welding around the bottom tube 102 is shown:

after the hoist body 103 and the connecting pipe 101 are contacted on the bottom pipe 102, welding needs to be performed around the connecting position when welding is performed, and a welding gun needs to be moved, so that the welding difficulty and the welding procedure of an operator are increased, and physical strength is consumed; therefore, the equipment further comprises a rotating shaft 204, a base 205 and a welding gun 601, wherein the welding gun 601 rotates on the base 205, the rotating shaft 204 is fixed on the flat plate 202, so that after the hoist body 103 is in contact with the connecting pipe 101 on the bottom pipe 102, the rotating shaft 204 is used for driving the flat plate 202 to rotate, the hoist body 103 and the connecting pipe 101 are in contact on the bottom pipe 102 and can rotate around the axis of the bottom pipe 102 together, the welding gun 601 is fixed in a fixed position, the welding gun 601 rotates on the base 205, after the hoist body 103 is in contact with the bottom pipe 102, the welding gun 601 can rotate to extend into a space between the hoist body 103 and the bottom pipe 102, the contact position of the hoist body 103 and the bottom pipe 102 is welded, then the welding gun 601 rotates out, the connection position of the connecting pipe 101 and the bottom pipe 102 can be welded, and the machining operation is completed.

Referring to fig. 5 and 7, an exemplary operation process for clamping the hoist body 103 is shown:

in the process of welding the hoist body 103 with the bottom tube 102, because high temperature is generated, the hoist body 103 cannot be placed inside the bottom tube 102 by manpower, so the device of the invention further comprises a truss 501, a sliding rod 502, rotating arms 503 and clasps 504, wherein both the clasps 504 slide on the truss 501, both the rotating arms 503 rotate on the truss 501, the sliding rod 502 slides on the truss 501, a spring is arranged between the sliding rod 502 and the truss 501, both the clasps 504 slide on both the rotating arms 503 respectively, both the rotating arms 503 slide on the sliding rod 502, the sliding rod 502 can be pushed to slide towards the middle on the truss 501 first, so that both the clasps 504 are far away from each other and open, then the middle part of the hoist body 103 is positioned between both the clasps 504, the sliding rod 502 is released, the sliding rod 502 is retracted to the original position under the action of the spring, and both the clasps 504 are close to clamp the hoist body 103, thereby replacing the manpower, the danger of scalding when the gourd body 103 is held manually is avoided, and meanwhile the situation that the gourd body 103 is inclined when the gourd body 103 is not supported and welded after being placed inside the bottom tube 102 is also avoided.

Referring to fig. 6 and 10, an exemplary working process of the hoist body 103 following the rotation of the bottom tube 102 is shown as follows:

the device also comprises an air cylinder 701, the truss 501 is fixed on the air cylinder rod of the air cylinder 701, the air cylinder 701 is fixed on the base 205, so after the two clasps 504 clamp the hoist body 103, the air cylinder 701 drives the truss 501 to descend, so that the two clasps 504 can place the hoist body 103 in the bottom pipe 102 for connection and positioning, when the bottom pipe 102 rotates, the hoist body 103 also needs to rotate together, so that the welding gun 601 can weld the connection part of the hoist body 103 and the bottom pipe 102 completely, therefore, the device also comprises rotating rollers 401, each clasp 504 rotates a plurality of rotating rollers 401, after the connection part of the hoist body 103 and the bottom pipe 102 is welded, the welded position is connected, so when the flat plate 202 drives the bottom pipe 102 to rotate, the bottom pipe 102 drives the hoist body 103 to rotate together, the hoist body 103 can rotate in the two clasps 504 by the plurality of rotating rollers 401, the hoist body 103 rotates along with the bottom tube 102, and smooth welding is guaranteed.

Referring to fig. 8 and 9, an exemplary operation of the automatic connection pipe 101 according to the present invention is:

after the welding of the hoist body 103 and the bottom tube 102 is finished, the connecting tube 101 needs to be welded on the bottom tube 102 again, and the drainage structure can be completely processed, so the device of the invention further comprises a cross beam 304, a hanging ring 305 and a pressing plate 306, the pressing plate 306 rotates on the cross beam 304, the rotating connection part of the pressing plate 306 and the cross beam 304 is provided with a rubber pad, the hanging ring 305 is fixed on the cross beam 304, the inner wall of the hanging ring 305 rotates with a plurality of rotating rollers 401, the device further comprises a vertical column 301 and a lead screw 302, the lead screw 302 rotates on the vertical column 301, the vertical column 301 is fixed on the base 205, the cross beam 304 is in threaded connection with the lead screw 302, the cross beam 304 slides on the vertical column 301, so that when the hoist body 103 and the bottom tube 102 are welded, the connecting tube 101 is placed in the hanging ring 305, then the pressing plate 306 rotates to press the connecting tube 101, and the existence of the rubber pad enables the connecting tube 101 not to slide upwards in the connecting tube 101, after the welding of the hoist body 103 and the bottom tube 102 is completed, the power is used to drive the screw 302 to rotate, so that the cross beam 304 can descend on the pressing plate 306, and the lifting ring 305 can place the connecting tube 101 on the bottom tube 102 for contact and preparation for welding without manual positioning and holding.

Referring to fig. 9 and 10, an exemplary operation process for automatically releasing the hoist body 103 is shown as follows:

the device also comprises an arc plate 303, the arc plate 303 is fixed on the cross beam 304, the arc plate 303 can be in sliding contact with the sliding rod 502, so that after the welding of the gourd body 103 and the bottom tube 102 is finished, the hanging ring 305 descends, meanwhile, the sliding rod 502 is pushed by the arc plate 303, the sliding rod 502 drives the two clasps 504 to release the gourd body 103, the connecting tube 101 smoothly descends to be in contact with the bottom tube 102, the two clasps 504 are prevented from hindering the descending of the connecting tube 101, after the welding of the connecting tube 101 and the bottom tube 102 is finished, the lead screw 302 reversely rotates, meanwhile, the air cylinder 701 drives the truss 501 and the cross beam 304 to synchronously ascend to return to the initial position, and therefore an operator can take away the machined drainage structure.

Claims

1. The utility model provides a gardens drainage structures processing equipment which characterized in that: drainage structures includes connecting pipe (101), bottom tube (102) and the calabash body (103), and connecting pipe (101) are connected on bottom tube (102), and the calabash body (103) are arranged in connecting pipe (101) and bottom tube (102), equipment includes arc arm (201), flat board (202) and lead screw (203), and two arc arms (201) slide on flat board (202), and lead screw (203) are all connected in two arc arms (201), and lead screw (203) are connected on flat board (202).

2. The garden drainage structure processing apparatus of claim 1, wherein: the middle of the arc-shaped arm (201) is provided with a heat insulating material.

3. The garden drainage structure processing apparatus of claim 1, wherein: the equipment further comprises a rotating shaft (204), a base (205) and a welding gun (601), wherein the welding gun (601) rotates on the base (205), the rotating shaft (204) rotates on the base (205), and the rotating shaft (204) is fixed on the flat plate (202).

4. The landscape drainage structure processing apparatus according to claim 2 or 3, wherein: the device further comprises a truss (501), a sliding rod (502), rotating arms (503) and holding clamps (504), wherein the two holding clamps (504) slide on the truss (501), the two rotating arms (503) rotate on the truss (501), the sliding rod (502) slides on the truss (501), the two holding clamps (504) slide on the two rotating arms (503) respectively, and the two rotating arms (503) slide on the sliding rod (502).

5. The landscape drainage structure processing apparatus of claim 4, wherein: the equipment also comprises a plurality of rotating rollers (401), and each holding clamp (504) is provided with a plurality of rotating rollers (401).

6. The landscape drainage structure processing apparatus of claim 5, wherein: the device further comprises an air cylinder (701), the truss (501) is fixed on an air cylinder rod of the air cylinder (701), and the air cylinder (701) is fixed on the base (205).

7. The garden drainage structure processing apparatus of claim 6, wherein: the equipment further comprises a cross beam (304), a lifting ring (305) and a pressure plate (306), wherein the pressure plate (306) rotates on the cross beam (304), and the lifting ring (305) is fixed on the cross beam (304).

8. The garden drainage structure processing apparatus of claim 7, wherein: a plurality of rotating rollers (401) are rotated on the inner wall of the hanging ring (305).

9. The garden drainage structure processing apparatus of claim 8, wherein: the equipment further comprises an upright post (301) and a lead screw (302), wherein the lead screw (302) rotates on the upright post (301), the upright post (301) is fixed on the base (205), the cross beam (304) is in threaded connection with the lead screw (302), and the cross beam (304) slides on the upright post (301).

10. The garden drainage structure processing apparatus of claim 9, wherein: the equipment further comprises an arc plate (303), wherein the arc plate (303) is fixed on the cross beam (304), and the arc plate (303) can be in sliding contact with the sliding rod (502).