CN218218531U - Take filtering capability's big-arch shelter pipe in water - Google Patents

Abstract

The application relates to a take filtering capability's big-arch shelter pipe in water, including the vertical pipe in water of installing in lian dong big-arch shelter ditch department, the pipe in water is provided with water inlet and delivery port, the water inlet is linked together with the ditch in water, the delivery port is linked together with the escape canal of burying in soil, the pipe in water is located water inlet department and is provided with first filter screen. This application helps preventing the escape canal jam, makes the drainage effect better.

Description

Take filtering capability's big-arch shelter pipe in water

Technical Field

The application relates to the field of drainage of multi-span greenhouses, in particular to a greenhouse downpipe with a filtering function.

Background

The greenhouse is special equipment for vegetable production and fruit cultivation, and the multi-span greenhouse is formed by combining a plurality of greenhouses and is used for planting a large amount of vegetables and fruits.

At present, a multi-span greenhouse is provided, wherein a gutter is formed on a roof of the multi-span greenhouse, a downpipe is vertically arranged beside the multi-span greenhouse and is communicated with the gutter, when raining, rainwater can accumulate in the gutter, then the rainwater flows into the downpipe from the gutter, and then flows into a drainage ditch beside the multi-span greenhouse from the downpipe.

In the prior art, as the downpipe is exposed outside, impurities such as fallen leaves often fall into the downpipe, then flow into the downpipe along with rainwater, and flow into the drainage ditch along with the downpipe, the blockage of the drainage ditch can be caused, the poor drainage effect is influenced, and the improvement is achieved.

SUMMERY OF THE UTILITY MODEL

In order to prevent the escape canal jam, make the drainage effect better, this application provides a take filtering capability's big-arch shelter pipe in water.

The application provides a take filtering capability's big-arch shelter pipe in water adopts following technical scheme:

the utility model provides a take filtering capability's big-arch shelter pipe in water, includes the vertical pipe in water of installing in lian dong big-arch shelter ditch in water department, the pipe in water is provided with water inlet and delivery port, the water inlet is linked together with the ditch in water, the delivery port is linked together with the escape canal of burying in soil, the pipe in water is located water inlet department and is provided with first filter screen.

Through adopting above-mentioned technical scheme, when raining, debris such as rainwater and fallen leaves can flow into the pipe in the water from the ditch in the water, utilize first filter screen can avoid fallen leaves and some bulky debris to get into the pipe in the water, and then make fallen leaves debris can not get into the escape canal, help avoiding the escape canal to appear blockking up and improve the drainage effect in escape canal.

Preferably, a funnel is arranged at the water inlet of the downpipe.

Through adopting above-mentioned technical scheme, utilize the funnel to make the water inlet grow, help making the water in the gutter fully flow into in the pipe in the water, help improving the water-collecting effect of pipe in the water, and then help the drainage effect of escape canal.

Preferably, the downpipe includes vertical pipe and slope pipe, the water inlet is located the upper end of vertical pipe, the other end of vertical pipe is and seals the setting, the one end of slope pipe is linked together with the middle part of vertical pipe, the delivery port is located the other end of slope pipe and is linked together with the escape canal.

Through adopting above-mentioned technical scheme, the dip pipe is located the middle part of vertical pipe, flow into vertical pipe from the gutter into when the rainwater, then flow into the lower extreme of vertical pipe because of gravity, along with the water that flows into in the vertical pipe is more and more, the rainwater slowly risees at the water level of the lower extreme of vertical pipe, flow into the dip pipe again when reacing the intercommunication department with the dip pipe, flow into the escape canal in the follow dip pipe, at the lower extreme of vertical pipe, can make the rainwater preliminary deposit, it is that debris in the rainwater precipitate to the lower extreme of vertical pipe, help preventing during debris from flowing into the escape canal from the dip pipe, in the past, help preventing in the escape canal debris too much the jam appears, and then help improving the drainage effect of escape canal.

Preferably, the lower end of the vertical pipe is detachably connected with a first sealing cover.

Through adopting above-mentioned technical scheme, deposit debris in the rainwater for a long time when the lower extreme of vertical pipe, dismantle first closing cap, can clear up the debris of the lower extreme of vertical pipe, help guaranteeing the cleanness of vertical pipe, help preventing that debris are too much, along with during the rainwater gets into the pipe that inclines, then get into the escape canal, help preventing the escape canal because of debris are too much the appearance jam.

Preferably, a second filter screen is arranged at the communication position of the inclined pipe and the vertical pipe.

Through adopting above-mentioned technical scheme, utilize the second filter screen to prevent that debris in the rainwater from flowing into the pipe that inclines from vertical pipe, help preventing to block up because of debris are too much appearing in the escape canal, and then help improving the drainage effect in escape canal.

Preferably, a branch water pipe is vertically and downwards arranged on the inclined pipe.

Through adopting above-mentioned technical scheme, when the rainwater flowed into during the slope pipe from vertical pipe, the rainwater can flow into earlier in the branch road water pipe, carried out the secondary sedimentation, then when the rainwater water level in the branch road water pipe was higher than the intercommunication department of slope pipe and branch road water pipe, during the rainwater flowed into the escape canal from the slope pipe again, further helped preventing during debris inflow escape canal, help preventing the escape canal because of debris are too much the jam appears, improved the drainage effect of escape canal.

Preferably, the lower end of the branch water pipe is detachably provided with a second sealing cover.

Through adopting above-mentioned technical scheme, deposit the debris in the rainwater when the branch road water pipe for a long time, dismantle the second closing cap and clear up debris, guarantee the cleanness of branch road water pipe, prevent that the debris in the branch road water pipe is too much, along with the rainwater flows into the escape canal from the slope pipe, helps preventing the escape canal because of debris appear blockking up, and then helps improving the drainage effect in escape canal.

Preferably, the first sealing cover is connected to the vertical pipe through threads, and the second sealing cover is connected to the branch water pipe through threads.

Through adopting above-mentioned technical scheme, first closing cap and vertical pipe lower extreme threaded connection realize dismantling of first closing cap and vertical pipe and be connected, and second closing cap and branch road water pipe threaded connection realize dismantling of branch road water pipe and second closing cap and be connected.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the first filter screen is utilized to filter rainwater in the water falling ditch, so that large sundries such as fallen leaves are prevented from flowing into the water falling pipe, and the large sundries such as the fallen leaves are further prevented from flowing into the drainage ditch, the drainage ditch is prevented from being blocked by the sundries, and the drainage effect of the drainage ditch is improved;

2. the inclined pipe is positioned at the upper part of the lower end of the vertical pipe, so that the lower end of the vertical pipe performs primary precipitation on rainwater, and the branch water pipe performs secondary precipitation on the rainwater, thereby being beneficial to preventing sundries from flowing into the drainage ditch and further being beneficial to preventing the drainage ditch from being blocked;

3. with the help of first closing cap and second closing cap, clear up vertical pipe lower extreme and branch road water pipe, it is too much to prevent that debris from piling up in vertical pipe lower extreme and the branch road water pipe, along with during the rainwater gets into the escape canal, helps preventing the escape canal because of debris are too much the jam appears, and then helps improving the drainage effect in escape canal.

Drawings

Fig. 1 is a schematic view of an overall structure of a greenhouse downpipe with a filtering function according to an embodiment of the present disclosure;

fig. 2 is a partial structural sectional view of an embodiment of the present application.

Reference numerals: 1. a downpipe; 11. a vertical tube; 111. a water inlet; 112. a settling section; 12. an inclined tube; 121. a water outlet; 2. a funnel; 3. a first filter screen; 4. a first cover; 5. a second filter screen; 6. a branch water pipe; 7. and a second cover.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses take filtering capability's big-arch shelter pipe in water.

Referring to fig. 1 and 2, a greenhouse downspout 1 with a filtering function includes a downspout 1 vertically installed at a gutter-connected greenhouse downspout, the downspout 1 includes a vertical pipe 11 and an inclined pipe 12, the vertical pipe 11 is vertically disposed, an upper end of the vertical pipe 11 is communicated with the gutter and is formed with a water inlet 111, the vertical pipe 11 is fixedly connected with a funnel 2 at the water inlet 111, the vertical pipe 11 is fixedly embedded at a bottom of the funnel 2 and is provided with a first filter screen 3, a lower end of the vertical pipe 11 is connected with a first sealing cover 4 through a screw thread, even if the port is sealed, one end of the inclined pipe 12 is communicated with the vertical pipe 11 by a lower end portion thereof, and the inclined pipe 12 is fixedly embedded at a communication portion of the vertical pipe 11 and is provided with a second filter screen 5, a settling portion 112 is formed below the communication portion of the vertical pipe 11 and the inclined pipe 12, the other end of the inclined pipe 12 is communicated with a drainage ditch buried in soil and is formed with a water outlet 121, the inclined pipe 12 is obliquely disposed downward, the inclined pipe 12 is fixedly connected with a branch water pipe 6 at a side below a side close to the vertical pipe 11 and is connected with a branch water pipe 6, and is connected with a lower end of the water pipe 6 through a second sealing cover 7, and is connected with a branch water pipe 6.

The implementation principle of the portable automatic tool clamp in the embodiment of the application is as follows: when raining, rainwater of the multi-span greenhouse flows into the vertical pipe 11 through the downpipe, the funnel 2 enlarges a water inlet space of the water inlet 111, which helps to improve a rainwater collection effect, the first filter screen 3 filters large sundries such as fallen leaves in the rainwater, and prevents the sundries from flowing into the vertical pipe 11, the vertical pipe 11 is provided with the precipitation part 112, when the rainwater flows into the vertical pipe 11, the rainwater is primarily precipitated in the precipitation part 112, and then flows into the inclined pipe 12 as the water level in the precipitation part 112 rises, and the impurities in the rainwater can be secondarily filtered by the second filter screen 5, so that the impurities in the rainwater are prevented from excessively flowing into the inclined pipe 12 along with the rainwater, and further from flowing into the drainage ditch, thereby improving a drainage effect of the drainage ditch, after the rainwater enters the inclined pipe 12, the rainwater flows into the branch water pipe 6 first, secondary precipitation is performed in the branch water pipe 6, then flows into the inclined pipe 12 from the branch water pipe 6, and then flows into the drainage ditch, which helps to improve a drainage effect of the drainage ditch and further improves a drainage effect of the drainage ditch, and a drainage effect of the vertical pipe cover 7, and the vertical pipe 11 can further prevent the rainwater from blocking of the rainwater from flowing into the drainage ditch, and the rainwater from blocking.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a take filtering capability's big-arch shelter pipe in water (1), its characterized in that: the multi-span greenhouse water-falling pipe comprises a water falling pipe (1) vertically installed at a water falling ditch of a multi-span greenhouse, wherein the water falling pipe (1) is provided with a water inlet (111) and a water outlet (121), the water inlet (111) is communicated with the water falling ditch, the water outlet (121) is communicated with a drainage ditch buried in soil, and a first filter screen (3) is arranged at the position, located at the water inlet (111), of the water falling pipe (1).

2. The greenhouse downpipe (1) with the filtering function as claimed in claim 1, wherein: the downpipe (1) is provided with a funnel (2) at the water inlet (111).

3. The greenhouse downpipe (1) with the filtering function as claimed in claim 2, wherein: the downpipe (1) comprises a vertical pipe (11) and an inclined pipe (12), the water inlet (111) is located at the upper end of the vertical pipe (11), the other end of the vertical pipe (11) is sealed and arranged, one end of the inclined pipe (12) is communicated with the middle of the vertical pipe (11), and the water outlet (121) is located at the other end of the inclined pipe (12) and communicated with a drainage ditch.

4. The greenhouse downpipe (1) with the filtering function as claimed in claim 3, wherein: the lower end of the vertical pipe (11) is detachably connected with a first sealing cover (4).

5. The greenhouse downpipe (1) with the filtering function according to claim 4, wherein: and a second filter screen (5) is arranged at the communication position of the inclined pipe (12) and the vertical pipe (11).

6. The greenhouse downpipe (1) with the filtering function as claimed in claim 3, wherein: and a branch water pipe (6) is vertically and downwards arranged on the inclined pipe (12).

7. The greenhouse downpipe (1) with the filtering function as claimed in claim 6, wherein: the lower end of the branch water pipe (6) is detachably provided with a second sealing cover (7).

8. The greenhouse downpipe (1) with the filtering function as claimed in claim 4, wherein: the first sealing cover (4) is connected to the vertical pipe (11) through threads.

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