CN216973583U - A rainwater ration collection device for in scenery gardens - Google Patents

Abstract

The utility model provides a rainwater quantitative collecting device used in landscape gardens, which relates to the technical field of landscape gardens and comprises: a carrier assembly; the last collection subassembly that is provided with of carrier assembly, slidable mounting has the inner tube subassembly in the reposition of redundant personnel subassembly, reposition of redundant personnel subassembly outer end slidable mounting has lifting unit, be provided with lifting unit on the outer wall of reposition of redundant personnel subassembly, the carrier box is arranged in to lifting unit's bottom, water in the carrier box is after reaching corresponding height, the buoyant ball in the carrier box can be with lifting unit jack-up, the lifting unit that rises can drive the inner tube subassembly and go up and down, and inner tube subassembly slidable mounting is in the reposition of redundant personnel subassembly, thereby let the inner tube subassembly play the reposition of redundant personnel control effect to the reposition of redundant personnel subassembly, make the reposition of redundant personnel subassembly have the branch material control effect to collecting the rainwater, current gardens rainwater collection device has been solved, when the rainwater water yield is too big, be difficult to the ration collection of stable control to the rainwater, cause the excessive problem that appears overflowing the rainwater.

Description

A rainwater ration collection device for in scenery gardens

Technical Field

The utility model belongs to the technical field of landscape architecture, and particularly relates to a rainwater quantitative collecting device for landscape gardens.

Background

Along with the progress and development of society, people's standard of living also increases thereupon to let people's amusement and leisure activity increase, thereby let the gardens building in city increase, make things convenient for people to entertain and relax, landscape has the afforestation effect to the environment simultaneously usually.

Based on the aforesaid, landscape can install solitary rainwater collection device usually, and difficult meeting of exempting from when the rainwater is collected can be under heavy rain weather, and a large amount of rainwater are collected to short time, cause the collecting box water yield to spill over, let the difficult and timely exhaust problem of water that collects.

Therefore, in view of the above, research and improvement are made for the existing structure and defects, and a quantitative rainwater collecting device for use in landscapes and forests is provided, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a quantitative rainwater collecting device for landscape gardens, which aims to solve the problem that when the rainwater quantity is too large, the quantitative rainwater collecting device is difficult to stably control and overflow rainwater due to excessive rainwater.

The utility model relates to a purpose and an effect of a rainwater quantitative collecting device used in landscape gardens, which are achieved by the following specific technical means:

a rainwater quantitative collecting device for landscape gardens comprises a bearing component; the collecting assembly is arranged on the bearing assembly, the shunt assembly is arranged at the bottom of the collecting tank of the collecting assembly, the inner barrel assembly is arranged in the shunt assembly in a sliding mode, the auxiliary assembly is hinged in the shunt assembly and is in contact with the inner barrel assembly, the lifting assembly is arranged at the outer end of the shunt assembly in a sliding mode, and the lifting assembly and the bottom of the shunt assembly extend into the bearing assembly.

Further, the bearing assembly comprises: ground, subaerial bearing groove has been seted up, has placed the bearing box in the bearing groove, and the left side position that is close to the bearing box has seted up outer chute, and the inslot that outflows is provided with the horizontal gib block.

Further, the collection assembly comprises: the pavilion comprises a pavilion body, wherein a collecting groove is formed in the top edge of the pavilion body, the collecting groove is of an upward rolling structure, the bottom of the collecting groove is connected with a sewer pipe, the downward extending portion of the sewer pipe is of a bending structure, a filter cylinder is screwed to the bottom of the bending structure of the sewer pipe, and a net-shaped cylinder is arranged on the filter cylinder.

Further, the shunt assembly comprises: the connecting cylinder, the connecting cylinder top is put through with the downcomer end, and the appearance of connecting cylinder sets up to vertical rectangle section of thick bamboo structure, is provided with perpendicular groove spout on the front and back end outer wall of connecting cylinder, and the left side position of connecting cylinder is provided with external pipe, and external pipe end stretches to in the external groove.

Further, the lifting assembly comprises: the lifter, the lifter sets up to vertical rod structure, and lifter slidable mounting is on the mounting bracket, and the mounting bracket is fixed on the outer wall of reposition of redundant personnel subassembly, and the upper end of mounting bracket has the alignment jig through the bolt fastening, and the bottom of lifter is provided with the floater, and the lifter bottom all sets up in the bearing box with the floater.

Further, the inner tube subassembly includes: the inner skleeve, the inner skleeve is a rectangle section of thick bamboo structure, and inner skleeve slidable mounting all is provided with outer fluting in the inside of connecting cylinder, the outer fluting in inner skleeve right side and auxiliary assembly correspond each other, and the outer fluting in inner skleeve right side corresponds each other with outer takeover, and the front and back end of inner skleeve is provided with outer joint block.

Further, the auxiliary assembly comprises: the guide plate, the guide plate is the rectangular plate structure, and the guide plate is articulated to be installed in the inside of connecting cylinder, and the connecting cylinder end is arranged in and is taken over outward and lean on lower extreme position.

Compared with the prior art, the utility model has the following beneficial effects:

according to the rainwater collection device, rainwater is collected through a collection assembly of a garden landscape, two groups of shunt assemblies with different structures and directions are arranged at the bottom of the collection assembly, the shunt assemblies are communicated with a bearing box and are directly connected externally, a lifting assembly is arranged on the outer wall of the shunt assembly, the bottom of the lifting assembly is arranged in the bearing box, after water in the bearing box reaches a corresponding height, a floating ball in the bearing box can jack the lifting assembly, the lifted lifting assembly can drive an inner barrel assembly to lift, and the inner barrel assembly is slidably mounted in the shunt assembly, so that the inner barrel assembly has a shunt control effect on the shunt assembly, and the shunt assembly has a distribution control effect on the collected rainwater.

According to the utility model, the collecting tank is arranged to be of an upward rolling structure, so that a better collecting effect of the collecting tank on rainwater is realized, and the problem of rainwater loss is avoided.

According to the rainwater collecting device, the lifting rod is arranged on the mounting frame in a sliding mode, the mounting frame limits the lifting rod at the outer end of the flow dividing assembly, the lifting rod is close to the flow dividing assembly as far as possible, the lifting transmission process of the lifting rod is more stable, the adjusting frame is arranged in a bolt fastening mode and can be controlled in position through the adjusting bolt, the quantitative rainwater collecting effect of the rainwater collecting device is adjustable, the lifting rod bottom floating ball is arranged in the bearing box, after the bearing box is filled with the specified water amount, the lifting rod is floated through buoyancy, and therefore the rainwater is collected quantitatively.

According to the utility model, the outer slot is arranged on the right side of the inner sleeve, so that the inner sleeve controls the auxiliary assembly during lifting, wherein when the inner sleeve is lifted, the outer slot on the left side has the function of opening and closing the outer connecting pipe, so that the rainwater is guided, the outer blocks arranged at the front and rear positions of the inner sleeve mainly play a role of connecting with the lifting assembly, so that the lifting assembly for lifting realizes the control function of the inner sleeve assembly, firstly, after the inner sleeve is lifted, the bottom of the outer slot can directly abut against the root position of the guide plate, so that the tail end of the guide plate abuts against the lower side of the outer connecting pipe after swinging, and therefore, after the outer connecting pipe is opened on the left side of the inner sleeve, the guide plate lifted by swinging plays an auxiliary role of guiding the rainwater to the outer connecting pipe.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic sectional structure of the carrying case of the present invention.

FIG. 3 is a schematic structural diagram of the inner barrel assembly and the lifting assembly of the present invention.

Fig. 4 is a schematic view of the internal structure of the flow divider assembly of the present invention.

Fig. 5 is a schematic structural diagram of the auxiliary assembly of the present invention.

Fig. 6 is a schematic view of the present invention at a part enlarged in fig. 2.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a load bearing assembly; 101. a ground surface; 102. a carrying case; 103. an outer launder; 2. a collection assembly; 201. a pavilion; 202. collecting tank; 203. a sewer pipe; 204. a filter cartridge; 3. a flow diversion assembly; 301. a connecting cylinder; 302. an external connection pipe; 4. a lifting assembly; 401. a lifting rod; 402. an adjusting bracket; 403. a mounting frame; 5. an inner barrel assembly; 501. an inner sleeve; 502. an external connection block; 503. an external groove is formed; 6. an auxiliary component; 601. a baffle.

Detailed Description

Example (b):

as shown in figures 1 to 6:

the utility model provides a rainwater quantitative collecting device for scenic gardens, which comprises a bearing component 1; be provided with collection subassembly 2 on the carrier assembly 1, the collecting vat 202 bottom of collection subassembly 2 is provided with reposition of redundant personnel subassembly 3, slidable mounting has inner tube subassembly 5 in the reposition of redundant personnel subassembly 3, the articulated auxiliary assembly 6 of installing in the reposition of redundant personnel subassembly 3, auxiliary assembly 6 and inner tube subassembly 5 contact each other, the slidable mounting of reposition of redundant personnel subassembly 3 outer end has lifting unit 4, lifting unit 4 all stretches into in carrier assembly 1 with the bottom of reposition of redundant personnel subassembly 3.

Wherein, bearing component 1 includes: ground 101, the bearing groove has been seted up on ground 101, bearing box 102 has been placed in the bearing groove, outer chute 103 has been seted up to the left side position that is close to bearing box 102, be provided with horizontal guide strip in the outer chute 103, because outer chute 103 sets up the structure of direct and outside switch-on, in order to play quantitative rainwater collection effect, can discharge unnecessary rainwater through outer chute 103, because outer chute 103 is open-air structure, thereby the horizontal guide strip in outer chute 103 sets up, it is more stable to have and let rivers, the problem of the outer chute 103 jam of persistence of debris has been prevented.

Wherein, collect subassembly 2 including: pavilion 201, the top border of pavilion 201 is provided with collecting vat 202, collecting vat 202 adopts the structure of the rolling that makes progress, set up collecting vat 202 into ascending rolling structure, the better collection effect of collecting vat 202 to the rainwater has been realized, the loss problem of rainwater has been avoided, the bottom and the downcomer 203 of collecting vat 202 are connected, the downwardly extending part of downcomer 203 sets up to the bending structure, the bending structure bottom of downcomer 203 has twisted and has connect cartridge filter 204, be provided with netted section of thick bamboo on the cartridge filter 204, at first, set up downcomer 203 to the bending structure, the effect of cartridge filter 204 has more easy to assemble, the netted section of thick bamboo that sets up on the cartridge filter 204, have and let cartridge filter 204 twist and connect the back and realize the filter effect to the interior debris of downcomer 203 through netted section of thick bamboo, install the cartridge filter 204 that the downcomer 203 buckled the position simultaneously and have the effect that makes things convenient for dismouting clearance.

Wherein, reposition of redundant personnel subassembly 3 includes: the top of the connecting cylinder 301 is communicated with the tail end of the downcomer 203, the appearance of the connecting cylinder 301 is set to be a vertical rectangular cylinder structure, the connecting cylinder 301 is set to be a rectangular cylinder structure, the installation of the inner cylinder component 5 and the auxiliary component 6 is facilitated, meanwhile, the outer wall of the connecting cylinder 301 with a rectangular structure enables other components at the outer end of the connecting cylinder 301 to be more conveniently installed, the outer walls of the front end and the rear end of the connecting cylinder 301 are provided with vertical groove sliding grooves, the outer wall of the connecting cylinder 301 is provided with a sliding groove with a vertical structure, which is beneficial to realizing the mutual connection of the inner cylinder component 5 and the lifting component 4, the left side position of the connecting cylinder 301 is provided with an external connecting pipe 302, the tail end of the external connecting pipe 302 extends into the external groove 103, the external connecting pipe 302 arranged at the left side position of the connecting cylinder 301 realizes the quantitative collection, rainwater can flow to other devices from the external connection pipe 302, so that the problem of overflow of the bearing box 102 is avoided.

Wherein, lifting unit 4 is including: the lifting rod 401 is arranged to be of a vertical rod structure, the lifting rod 401 is slidably mounted on a mounting frame 403, the mounting frame 403 is fixed on the outer wall of the flow dividing assembly 3, the lifting rod 401 is arranged to be slidably mounted on the mounting frame 403, the mounting frame 403 realizes that the lifting rod 401 is limited at the outer end of the flow dividing assembly 3, the lifting rod 401 is close to the flow dividing assembly 3 as much as possible, so that the lifting transmission process of the lifting rod 401 is more stable, the adjusting frame 402 is fixed at the upper end of the mounting frame 403 through bolts, the adjusting frame 402 is arranged to be fastened and mounted through bolts, so that the adjusting frame 402 can realize position control through adjusting bolts, the quantitative rainwater collection of the device can realize an adjustable effect, a floating ball is arranged at the bottom of the lifting rod 401, the bottom of the lifting rod 401 and the floating ball are both arranged in the bearing box 102, the floating ball at the bottom of the lifting rod 401 arranged in the bearing box 102 is filled with a specified amount of water, the lifting rod 401 is floated by buoyancy, so that the rainwater is collected quantitatively.

Wherein, inner tube subassembly 5 is including: inner sleeve 501, inner sleeve 501 is a rectangular cylinder structure, inner sleeve 501 is slidably mounted in connecting cylinder 301, outer slots 503 are formed in the left side and the right side of inner sleeve 501, outer slots 503 in the right side of inner sleeve 501 correspond to auxiliary assembly 6, outer slots 503 in the right side of inner sleeve 501 are mainly formed in the right side of inner sleeve 501, inner sleeve 501 controls auxiliary assembly 6 during lifting, outer slots 503 in the right side of inner sleeve 501 correspond to outer pipe 302, when inner sleeve 501 lifts, outer slots 503 in the left side position have the opening and closing effect on outer pipe 302, the diversion effect on rainwater is achieved, outer connecting blocks 502 are arranged at the front end and the rear end of inner sleeve 501, outer connecting blocks 502 arranged at the front position and the rear position of inner sleeve 501 mainly play a role in connecting with lifting assembly 4, and lifting assembly 4 can control inner cylinder assembly 5.

Wherein, auxiliary component 6 includes: guide plate 601, guide plate 601 is the rectangular plate structure, guide plate 601 articulates the inside of installing at connecting cylinder 301, connecting cylinder 301 end is arranged in and is taken over 302 and lean on lower extreme position, at first inner sleeve 501 is after rising, the root position at guide plate 601 is in the top that outer fluting 503 bottom can be direct, make its terminal top take over 302's downside outside guide plate 601 after guide plate 601 swings, thereby let inner sleeve 501 left side open and take over 302 backs outside, let the guide plate 601 that the swing rises play and take over the additional act that 302 positions were taken over outward to the rainwater and carry out the direction.

The specific use mode and function of the embodiment are as follows:

in the utility model, firstly, a groove body is dug on the ground 101, the position close to a pavilion 201 is placed into a bearing box 102, an outer chute 103 is arranged at the outer side position close to the bearing box 102, a guide strip is arranged in the outer chute 103, the outer chute 103 is of an open structure, so that sundries can fall into the outer chute 103 inevitably, the outer chute 103 with the guide strip has the function of assisting in guiding and discharging the sundries, wherein an even collecting groove 202 is arranged at the edge position of the top of the pavilion 201, the bottom of the collecting groove 202 is communicated with a sewer pipe 203, a bend angle is arranged at the lower end of the sewer pipe 203, a filter cylinder 204 is arranged at the bottom of the bend angle, a mesh cylinder is arranged on the filter cylinder 204, so that when the filter cylinder 204 is screwed at the bend angle position of the sewer pipe 203, the mesh cylinder of the filter cylinder 204 has the effect on the collected rainwater, the tail end of the sewer pipe 203 is connected with a connecting cylinder 301, the whole connecting cylinder 301 is of a rectangular cylinder structure, the outer wall of the connecting cylinder 301 is provided with a vertical sliding groove, the outer side of the connecting cylinder 301 is provided with an outer connecting pipe 302, the tail end of the outer connecting pipe 302 is communicated with the outer sliding groove 103, so that the outer connecting pipe 302 of the flow dividing assembly 3 can directly discharge rainwater, an inner sleeve 501 is slidably mounted in the connecting cylinder 301, an outer connecting block 502 on the outer wall of the inner sleeve 501 is slidably mounted in the vertical sliding groove, the extended outer connecting block 502 is connected with an adjusting frame 402 which slides outside the connecting cylinder 301, an outer opening groove 503 is formed in the inner sleeve 501 close to the outer connecting pipe 302, so that the inner sleeve 501 can perform opening and closing movements on the outer connecting pipe 302 through the outer opening groove 503 during lifting movement, a guide plate 601 is hinged to the position close to the lower end of the outer connecting pipe 302 in the connecting cylinder 301, because the inner sleeve 501 performs lifting movement, the inner sleeve 501 is lifted to a designated height, and the outer opening groove 503 of the inner sleeve 501 corresponds to the outer connecting pipe 302, the inner sleeve 501 can jack up the guide plate 601 from the root, so that the lower end of the connecting cylinder 301 is plugged by the guide plate 601, rainwater can only flow away from the position of the outer connecting pipe 302, the adjusting frame 402 is fixed on the lifting rod 401, the bottom of the lifting rod 401 is arranged in the bearing box 102, and the bottom of the lifting rod 401 is provided with a floating ball, so that after the moisture in the bearing box 102 reaches a certain height, the lifting rod 401 floats through the bottom floating ball, thereby achieving the effect of quantitatively collecting rainwater by playing a role in subsequent flow distribution control.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. A rainwater ration collection device for in scenery gardens which characterized in that: comprises a bearing component (1); be provided with collection subassembly (2) on carrier assembly (1), collecting vat (202) bottom of collection subassembly (2) is provided with reposition of redundant personnel subassembly (3), slidable mounting has inner tube subassembly (5) in reposition of redundant personnel subassembly (3), articulated in reposition of redundant personnel subassembly (3) installs auxiliary assembly (6), auxiliary assembly (6) and inner tube subassembly (5) contact each other, reposition of redundant personnel subassembly (3) outer end slidable mounting has lifting unit (4), lifting unit (4) and the bottom of reposition of redundant personnel subassembly (3) all stretch into in carrier assembly (1).

2. A rainwater quantitative collecting apparatus for use in landscape gardens as claimed in claim 1, wherein: the bearing component (1) comprises: the ground (101), seted up bearing box on ground (101), placed bearing box (102) in the bearing box, outer chute (103) have been seted up to the left side position that is close to bearing box (102), are provided with horizontal guide strip in outer chute (103).

3. A rainwater quantitative collecting apparatus for use in landscape gardens as claimed in claim 1, wherein: the collecting assembly (2) comprises: the novel pavilion comprises a pavilion (201), wherein a collecting groove (202) is arranged on the top edge of the pavilion (201), the collecting groove (202) adopts an upward rolling structure, the bottom of the collecting groove (202) is connected with a sewer pipe (203), the downward extending part of the sewer pipe (203) is arranged to be a bending structure, a filter cartridge (204) is screwed at the bottom of the bending structure of the sewer pipe (203), and a net-shaped cartridge is arranged on the filter cartridge (204).

4. A rainwater quantitative collecting apparatus for use in landscape gardens as claimed in claim 1, wherein: the shunt assembly (3) comprises: a connecting cylinder (301), connecting cylinder (301) top and the terminal switch-on of downcomer (203), the appearance of connecting cylinder (301) sets up to vertical rectangular cylinder structure, is provided with on the front and back end outer wall of connecting cylinder (301) and erects the groove spout, and the left side position of connecting cylinder (301) is provided with external pipe (302), and external pipe (302) end stretches to in outer chute (103).

5. A rainwater quantitative collecting apparatus for use in landscape gardens as claimed in claim 1, wherein: the lifting component (4) comprises: lifter (401), lifter (401) sets up to vertical rod structure, and lifter (401) slidable mounting is on mounting bracket (403), and mounting bracket (403) are fixed on the outer wall of reposition of redundant personnel subassembly (3), and the upper end of mounting bracket (403) is fixed with alignment jig (402) through the bolt, and the bottom of lifter (401) is provided with the floater, and lifter (401) bottom and floater all set up in bearing box (102).

6. A rainwater quantitative collecting apparatus for use in landscape gardens as claimed in claim 1, wherein: the inner barrel assembly (5) comprises: inner sleeve (501), inner sleeve (501) are a rectangular cylinder structure, inner sleeve (501) slidable mounting is in the inside of connecting cylinder (301), the left and right sides of inner sleeve (501) all is provided with outer fluting (503), outer fluting (503) and auxiliary assembly (6) on inner sleeve (501) right side correspond each other, outer fluting (503) and outer pipe (302) of inner sleeve (501) right side correspond each other, the front and back end of inner sleeve (501) is provided with outer joint block (502).

7. A rainwater quantitative collecting apparatus for use in landscape gardens as claimed in claim 1, wherein: the auxiliary assembly (6) comprises: guide plate (601), guide plate (601) are the rectangular plate structure, and guide plate (601) articulated the installing in the inside of connecting cylinder (301), and connecting cylinder (301) end is arranged in and is taken over (302) and lean on lower extreme position outward.

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