CN218166207U - Filter is driped irrigation in orchard - Google Patents

Abstract

The utility model provides an orchard drip irrigation filter, which comprises a filtering module and a liquid inlet pipeline, wherein the liquid inlet end of the filtering module is communicated with the liquid inlet pipeline, and the liquid outlet end of the filtering module is communicated with an orchard drip irrigation nozzle; the filtration module is erected on orchard soil, the orchard drip irrigation nozzle is arranged at the top end of the filtration module, the bottom end of the filtration module is inserted into orchard soil, and the liquid inlet pipeline is in contact with the orchard soil; a filtering channel is arranged in the filtering module, and a filtering device is arranged in the filtering channel. The utility model discloses an orchard drip irrigation filter installs and drips irrigation between shower nozzle and orchard drip irrigation branch pipe in the orchard, and orchard drip irrigation filter can filter fast the orchard drip irrigation and carry the interior flowing liquid impurity of branch pipe, can act as the orchard again and drip irrigation the mount pad of shower nozzle and drip irrigation the shower nozzle with the orchard and fix in the orchard soil, has the convenient advantage of filtration.

Description

Filter is driped irrigation in orchard

Technical Field

The utility model relates to a drip irrigation equipment technical field especially relates to a filter is driped irrigation in orchard.

Background

The key of the orchard drip irrigation is anti-clogging filtration, which is to remove various impurities in the drip irrigation water flow and ensure the normal work of the orchard drip irrigation system. Since the drip emitter flow channels of an orchard drip irrigation system are small and easily blocked, a filter needs to be installed in the orchard drip irrigation system.

The filter of the existing orchard drip irrigation system comprises a sand filter and a centrifugal filter, wherein the sand filter is used as a primary filter and is arranged at the head part of the orchard drip irrigation system, and the centrifugal filter is used as a secondary filter and is arranged in front of a water collecting tank of the orchard drip irrigation system.

The sand filter and the centrifugal filter are arranged on the orchard drip irrigation conveying main pipe or the orchard drip irrigation conveying branch pipe, and liquid in the flow channel of the drip irrigation emitter flows through the sand filter and/or the centrifugal filter and then enters the orchard drip irrigation spray head. Because the setting of filter can slow down hydraulic pressure, and if directly improve hydraulic pressure and can increase the filter burden, so do not influence orchard in order to guarantee adding of filter and drip irrigation shower nozzle pressure, need badly to study out a orchard drip irrigation filter of being close to the installation of orchard drip irrigation shower nozzle.

SUMMERY OF THE UTILITY MODEL

The utility model provides a filter is driped irrigation in orchard, the filter is driped irrigation in orchard is installed and is driped irrigation shower nozzle and orchard and drip irrigation between the branch pipe, and the filter is driped irrigation in orchard can filter fast and flow liquid impurity in the branch pipe is driped irrigation in orchard, can act as the mount pad that the shower nozzle was driped irrigation in orchard again and drip irrigation the shower nozzle with orchard and fix in the orchard soil, has the convenient advantage of filtration.

Realize the utility model discloses the technical scheme of purpose as follows:

an orchard drip irrigation filter comprises a filtering module and a liquid inlet pipeline, wherein the liquid inlet end of the filtering module is communicated with the liquid inlet pipeline, and the liquid outlet end of the filtering module is communicated with an orchard drip irrigation spray head;

the filtration module is erected on orchard soil, the orchard drip irrigation nozzle is arranged at the top end of the filtration module, the bottom end of the filtration module is inserted into orchard soil, and the liquid inlet pipeline is in contact with the orchard soil;

a filtering channel is arranged in the filtering module, and a filtering device is arranged in the filtering channel.

In one possible implementation manner, the filtration module is detachably connected with the orchard drip irrigation nozzle, and the filtration module is detachably connected with the liquid inlet pipeline;

and an impurity storage cavity is arranged in the filtering module and close to the liquid inlet pipeline.

In one possible implementation mode, a blocking piece is arranged between the impurity storage cavity and the liquid inlet pipeline, and the blocking piece is arranged in the middle of the thickness direction of the filtering module;

along some of thickness direction filter module with the liquid inlet pipeline intercommunication, along another part of thickness direction filter module and impurity storage chamber intercommunication.

In practical application, the impurity that filter module crossed is saved in preferred impurity storage chamber, and impurity storage chamber sets up the side rear at filter module to be provided with the interval barrier plate between impurity storage chamber and the inlet channel, the interval barrier plate prevents that rivers directly get into impurity storage chamber in the inlet channel, effectively avoids impurity storage intracavity impurity to get into filter module once more along with rivers and filters, improves filtration efficiency.

In one possible implementation, the filter device comprises a laminated filter unit and a centrifugal cyclone unit, wherein the laminated filter unit is communicated with the centrifugal cyclone unit, the laminated filter unit is communicated with the liquid inlet pipeline, and the centrifugal cyclone unit is communicated with the orchard drip irrigation nozzle;

just get into behind the lamination filter unit in the inlet channel rivers get into centrifugation whirl unit, the tip of lamination filter unit is impurity storage chamber, and impurity storage chamber is kept away from centrifugation whirl unit sets up.

The utility model discloses set up the purpose of lamination filter unit and centrifugal whirl unit, can realize the secondary filter of rivers in the feed liquor pipeline, can adopt centrifugal whirl unit area to be less than the mode replenishment flowing liquid pressure of lamination filter unit area again, effectively reduce the orchard and drip irrigation filter burden.

In a possible implementation manner, the lamination filter unit comprises a plurality of lamination groups, adjacent lamination groups are connected through a closed cylinder, and a trumpet-shaped water inlet is arranged on the lamination group close to the liquid inlet pipeline and is communicated with the liquid inlet pipeline;

the end face of the lamination group close to the centrifugal cyclone unit is provided with a plurality of water passing holes, the peripheral wall of each lamination group is provided with a plurality of water passing holes, and each water passing hole is communicated with the centrifugal cyclone unit.

The utility model discloses set up the water conservancy diversion after the water hole filters the lamination group and arrive the drainage passageway, the drainage passageway is located lamination filter unit and orchard and drips irrigation between the filter housing, drainage passageway and centrifugal whirl unit intercommunication, and the drainage gets into centrifugal whirl unit secondary treatment in the drainage passageway. In practical application, rivers get into lamination filter unit in the feed liquor pipeline, and the water that lamination filter unit filtered gets into the drainage passageway from crossing the water hole, and the drainage passageway water assembles the back and flows into centrifugal whirl unit.

In one possible implementation manner, the centrifugal cyclone unit comprises a cyclone cavity, touch walls and touch ears, wherein the touch ears are positioned at two ends of the cyclone cavity along the width direction of the laminated filter unit, and the touch walls are positioned at one end of the cyclone cavity far away from the laminated filter unit;

the touch wall and the touch ear are higher than the cavity opening of the cyclone cavity, and the cavity opening of the cyclone cavity is communicated with the water filtering channel of the laminated filtering unit.

Water flow in one part of the water filtering channel contacts the touch wall and the touch ear and then enters the vortex chamber, and water flow in the other part of the water filtering channel directly enters the vortex chamber. The water flow in the cyclone cavity flows out of the centrifugal cyclone unit after swirling.

In a possible implementation manner, the filtering module further comprises a liquid outlet channel, and the liquid outlet channel is arranged between the filtering module and the orchard drip irrigation nozzle;

the liquid outlet channel is communicated with the rotational flow cavity of the filtering module;

and a pressurizing piece is arranged in the liquid outlet channel.

The utility model discloses set up the rotational flow speed that the pressure member can effectively improve the whirl chamber at liquid outlet channel. The utility model discloses a drainage passageway is a part of filtration module. In practical application, the utility model discloses filtering channel and inlet channel intercommunication, filtering channel's central line and inlet channel's central line are perpendicular.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a filter is driped irrigation in orchard installs and drips irrigation between shower nozzle and the orchard drip irrigation delivery branch pipe in the orchard, and the filter is driped irrigation in orchard can filter the orchard fast and drip irrigation and flow liquid impurity in the delivery branch pipe, and the mount pad that can act as the orchard again and drip irrigation the shower nozzle is driped irrigation the orchard and is fixed the orchard soil with the orchard shower nozzle, has the convenient advantage of filtration.

Drawings

Fig. 1 is a schematic view of the usage state of the orchard drip irrigation filter provided by the utility model;

fig. 2 is a schematic view of a first orchard drip irrigation filter provided by the present invention;

fig. 3 is a schematic view of a second orchard drip irrigation filter provided by the present invention;

fig. 4 is a third schematic view of the orchard drip irrigation filter provided by the present invention;

fig. 5 is a fourth schematic view of the orchard drip irrigation filter provided by the present invention;

in the figure, 100-filtration module; 110-a filtration channel; 120-a filter device; 121-a laminated filter unit; 1211-lamination stack; 1212-a closed cartridge; 1213-trumpet-shaped water inlet; 122-a centrifugal cyclone unit; 1221-a vortex chamber; 1222-a touch wall; 1223-touching the ear; 130-a impurity storage chamber; 140-a liquid outlet channel; 200-a liquid inlet pipeline; 300-orchard drip irrigation nozzle.

Detailed Description

The present invention will be described in detail with reference to the embodiments shown in the drawings, but it should be understood that these embodiments are not intended to limit the present invention, and that the functional equivalents, methods, or structural equivalents thereof, or substitutions thereof by those skilled in the art are all within the scope of the present invention.

In the description of the present embodiment, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of describing the invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the invention.

Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to a number of indicated technical features. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the invention, the meaning of "a plurality" is two or more unless otherwise specified.

The terms "mounted," "connected," and "coupled" are to be construed broadly and may, for example, be fixedly coupled, detachably coupled, or integrally coupled; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the creation of the present invention can be understood by those of ordinary skill in the art through specific situations.

Referring to fig. 1 to 5, an embodiment of the present invention provides an orchard drip irrigation filter, which includes a filtering module 100 and a liquid inlet pipe 200, wherein a liquid inlet end of the filtering module 100 is communicated with the liquid inlet pipe 200, and a liquid outlet end of the filtering module 100 is communicated with an orchard drip irrigation nozzle 300; the filtration module 100 is erected on orchard soil, the top end of the filtration module 100 is provided with an orchard drip irrigation nozzle 300, the bottom end of the filtration module 100 is inserted into orchard soil, and the liquid inlet pipeline 200 is in contact with orchard soil; a filter passage 110 is provided in the filter module 100, and a filter device 120 is provided in the filter passage 110.

With continued reference to fig. 1-5, preferably, filtration module 100 is removably connected to orchard drip emitter 300, and filtration module 100 is removably connected to liquid inlet conduit 200; a foreign matter storage chamber 130 is provided in the filter module 100 at a position adjacent to the liquid inlet pipe 200.

With continued reference to fig. 1 to 5, it is preferable that a blocking member is provided between the impurity storage chamber 130 and the liquid inlet pipe 200, the blocking member being provided at a middle portion in a thickness direction of the filter module 100; a part of the filter modules 100 in the thickness direction communicates with the liquid inlet pipe 200, and the other part of the filter modules 100 in the thickness direction communicates with the foreign material storage chamber 130.

In practical application, preferably impurity storage chamber 130 stores the impurity that filter module 100 filtered out, and impurity storage chamber 130 sets up the side rear at filter module 100 to be provided with the interval barrier plate between impurity storage chamber 130 and the inlet pipe 200, the interval barrier plate prevents that inlet pipe 200 internal water flow from directly getting into impurity storage chamber 130, effectively avoids impurity storage chamber 130 internal impurity to get into filter module 100 once more along with rivers and filters, improves filtration efficiency.

With continued reference to fig. 1-5, the preferred filter device 120 includes a laminated filter unit 121 and a centrifugal cyclone unit 122, the laminated filter unit 121 and the centrifugal cyclone unit 122 are in communication, the laminated filter unit 121 is in communication with the liquid inlet pipe 200, and the centrifugal cyclone unit 122 is in communication with the orchard drip irrigation nozzle 300; the water flow in the liquid inlet pipeline 200 enters the lamination filter unit 121 and then enters the centrifugal cyclone unit 122, the end part of the lamination filter unit 121 is provided with an impurity storage cavity 130, and the impurity storage cavity 130 is arranged far away from the centrifugal cyclone unit 122.

The utility model discloses set up lamination filter unit 121 and centrifugal cyclone unit 122's purpose, can realize the secondary filtration of rivers in the feed liquor pipeline 200, can adopt the mode that centrifugal cyclone unit 122 area is less than lamination filter unit 121 area to supply mobile liquid pressure again, effectively reduce the orchard and drip irrigation the filter burden.

With continued reference to fig. 1 to 5, the preferred lamination filter unit 121 includes a plurality of lamination groups 1211, adjacent lamination groups 1211 are connected by a sealing cylinder 1212, the lamination group 1211 adjacent to the liquid inlet pipe 200 is provided with a trumpet-shaped water inlet 1213, and the trumpet-shaped water inlet 1213 is communicated with the liquid inlet pipe 200; a plurality of water passing holes are formed in the end face of the lamination group 1211 close to the centrifugal cyclone unit 122, a plurality of water passing holes are formed in the peripheral wall of each lamination group 1211, and each water passing hole is communicated with the centrifugal cyclone unit 122.

The utility model discloses set up the water conservancy diversion after the water hole filters lamination group 1211 and arrive the drainage passageway, the drainage passageway is located lamination filter unit 121 and orchard and drips irrigation between the filter housing, and drainage passageway and centrifugal whirl unit 122 intercommunication, drainage entering centrifugal whirl unit 122 secondary treatment in the drainage passageway. In practical application, water in the liquid inlet pipeline 200 flows into the laminated filtering unit 121, water filtered by the laminated filtering unit 121 flows into the water filtering channel from the water passing hole, and the water in the water filtering channel flows into the centrifugal cyclone unit 122 after being gathered.

With continued reference to fig. 1-5, the preferred centrifugal cyclone unit 122 includes a cyclone chamber 1221, a touch wall 1222, and a touch tab 1223, the touch tab 1223 is located at the two ends of the cyclone chamber 1221 along the width direction of the laminated filter unit 121, and the touch wall 1222 is located at the end of the cyclone chamber 1221 away from the laminated filter unit 121; the touch wall 1222 and the touch ears 1223 are higher than the orifices of the cyclone chamber 1221, and the orifices of the cyclone chamber 1221 are communicated with the water filtering channels of the laminated filtering unit 121. After contacting the touch wall 1222 and the touch lug 1223, a part of the water filtering channel flows into the swirling chamber 1221, and the other part of the water filtering channel flows directly into the swirling chamber 1221. The water flow in the swirling chamber 1221 swirls and then flows out of the centrifugal swirling unit 122.

With continued reference to fig. 1-5, preferably, the filtration module 100 further comprises a liquid outlet channel 140, the liquid outlet channel 140 is disposed between the filtration module 100 and the orchard drip irrigation nozzle 300; the liquid outlet channel 140 is communicated with the cyclone cavity 1221 of the filtering module 100; a pressurizing piece is arranged in the liquid outlet channel 140.

The utility model discloses set up the pressurization piece at liquid outlet 140 and can effectively improve whirl chamber 1221's whirl speed. The water filtration channel of the present invention is part of the filtration module 100. In practical application, the utility model discloses filtration passageway 110 and inlet channel intercommunication, filtration passageway 110's central line and inlet channel's central line are perpendicular.

The above list of detailed descriptions is only for the specific description of the feasible embodiments of the present invention, and they are not intended to limit the scope of the present invention, and all equivalent embodiments or modifications that do not depart from the technical spirit of the present invention should be included within the scope of the present invention.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The orchard drip irrigation filter is characterized by comprising a filtering module and a liquid inlet pipeline, wherein the liquid inlet end of the filtering module is communicated with the liquid inlet pipeline, and the liquid outlet end of the filtering module is communicated with an orchard drip irrigation nozzle;

the filtration module is erected on orchard soil, the top end of the filtration module is provided with the orchard drip irrigation nozzle, the bottom end of the filtration module is inserted into orchard soil, and the liquid inlet pipeline is in contact with the orchard soil;

a filtering channel is arranged in the filtering module, and a filtering device is arranged in the filtering channel.

2. The orchard drip irrigation filter according to claim 1 wherein the filtration module is detachably connected with the orchard drip irrigation nozzle and the filtration module is detachably connected with the liquid inlet pipeline;

and an impurity storage cavity is arranged in the filtering module and close to the liquid inlet pipeline.

3. The orchard drip irrigation filter according to claim 2, wherein a blocking member is arranged between the impurity storage chamber and the liquid inlet pipeline, and the blocking member is arranged in the middle of the filter module in the thickness direction;

along the partly of thickness direction filter module with the liquid inlet pipe intercommunication, along the another part of thickness direction filter module and impurity storage chamber intercommunication.

4. The orchard drip irrigation filter according to claim 1 wherein said filter means comprises a laminated filter unit and a centrifugal cyclone unit, said laminated filter unit and said centrifugal cyclone unit being in communication, said laminated filter unit being in communication with said liquid inlet pipe and said centrifugal cyclone unit being in communication with said orchard drip irrigation nozzle;

just get into behind the lamination filter unit in the inlet channel rivers get into centrifugation whirl unit, the tip of lamination filter unit is impurity storage chamber, and impurity storage chamber is kept away from centrifugation whirl unit sets up.

5. The orchard drip irrigation filter according to claim 4, wherein the laminated filter unit comprises a plurality of laminated stacks, adjacent laminated stacks are connected through a closed cylinder, a trumpet-shaped water inlet is formed in the laminated stack close to the liquid inlet pipeline, and the trumpet-shaped water inlet is communicated with the liquid inlet pipeline;

the end face of the lamination group close to the centrifugal cyclone unit is provided with a plurality of water passing holes, the peripheral wall of each lamination group is provided with a plurality of water passing holes, and each water passing hole is communicated with the centrifugal cyclone unit.

6. The orchard drip irrigation filter according to claim 4, wherein the centrifugal cyclone unit comprises a cyclone chamber, touch walls and touch ears, the touch ears are located at two ends of the cyclone chamber in the width direction of the laminated filter unit, and the touch walls are located at one end of the cyclone chamber far away from the laminated filter unit;

the touch wall and the touch ears are higher than the orifices of the cyclone chambers, and the orifices of the cyclone chambers are communicated with the water filtering channels of the laminated filtering units.

7. The orchard drip irrigation filter according to claim 1 further comprising a drain channel disposed between the filter module and the orchard drip irrigation nozzle;

the liquid outlet channel is communicated with the rotational flow cavity of the filtering module;

and a pressurizing piece is arranged in the liquid outlet channel.

Images