CN113041667A

CN113041667A - Livestock-raising water treatment integrated equipment

Info

Publication number: CN113041667A
Application number: CN202110464708.2A
Authority: CN
Inventors: 唐璐; 王姝霏
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-28
Filing date: 2021-04-28
Publication date: 2021-06-29
Anticipated expiration: 2041-04-28
Also published as: CN113041667B

Abstract

The invention discloses a livestock breeding water treatment integrated device, which comprises three water treatment devices and two intermediate conveying pipelines; the water treatment device mainly comprises a water injection port, a conveying cavity, a sedimentation cavity, a filtering cavity, a collecting cavity, a discharging cavity and a water discharging port, wherein the water injection port is positioned at the uppermost part of the water treatment device; the head and the tail of the middle conveying pipeline are respectively butted with a water filling port and a water outlet of two adjacent water treatment devices, and a water suction pump is arranged on the middle conveying pipeline. The invention is used for precipitating sediment such as sand and stone in the livestock-raising water and filtering floating objects such as straws and the like in the livestock-raising water, the whole treatment process adopts a physical mode, the energy consumption is low, the investment cost in the early stage is low, and the maintenance cost in the later stage is also low.

Description

Livestock-raising water treatment integrated equipment

Technical Field

The invention relates to the field of livestock breeding industry, in particular to livestock breeding water treatment integrated equipment.

Background

In the livestock breeding industry, a large amount of water is needed to be frequently used for washing the interior of a breeding farm, and a large amount of sediment such as sand and stone and floaters such as straws exist in the washed livestock breeding water and are directly discharged into a sewer, so that waste of water resources is easily caused; the adoption of water purification equipment requires higher investment cost and higher later maintenance cost. In order to solve the problems, the livestock breeding water treatment integrated equipment is provided.

Disclosure of Invention

The invention aims to solve the problems in the background technology, and provides an integrated livestock breeding water treatment device.

In order to achieve the purpose, the invention provides the following technical scheme:

a livestock breeding water treatment integrated device comprises three water treatment devices and two middle conveying pipelines.

The water treatment device mainly comprises a water injection port, a conveying cavity, a sedimentation cavity, a filtering cavity, a collecting cavity, a discharge cavity and a water discharge port; the water filling port is located water treatment facilities's the top, and wherein the water filling port is used for pouring into livestock-raising water, carry the below that the chamber is located the water filling port, wherein carry the transport that the chamber is used for livestock-raising water, the sedimentation chamber is located the below of carrying the chamber, and wherein the sedimentation chamber is used for the sediment such as gravel and sand in the livestock-raising aquatic to deposit, the filter chamber is located the below of sedimentation chamber, and wherein the filter chamber is used for the filtration of floaters such as livestock-raising aquatic straw, collect the left and right sides that the chamber is located the filter chamber, wherein collect the collection that the chamber is used for filtering floaters such as back straw, it is located the below of filter chamber to discharge the chamber, wherein discharges the chamber and is used for deposiing and filtering the gathering of back livestock-raising water, the outlet is located the one side of discharging the chamber, and wherein the outlet is used for deposiing and.

The bottom both ends of carrying the chamber are provided with first opening respectively, and wherein first opening is used for the circulation of poultry farming water.

The top of sedimentation chamber is evenly fixed with the fixed muscle in many places, and wherein fixed muscle is used for the location of buffering baffle, there is buffering baffle through the hub connection on the fixed muscle, and wherein buffering baffle when being used for the circulation of livestock breeding water to reduce its circulation speed, the sedimentation plate has been placed to the bottom of sedimentation chamber, and wherein the sedimentation plate is used for the sediment such as gravel and sand in the livestock breeding water to deposit, evenly spacing have many places sediment to store the groove on the sedimentation plate, and wherein the sediment stores the storage that the groove is used for sediment such as gravel and sand, the sealed sedimentation chamber lid that is fixed with in one side of sedimentation chamber, wherein the sedimentation chamber lid is used for taking out the clearance of sedimentation plate, one side that sedimentation chamber kept away from the sedimentation chamber lid is provided with the second opening, and wherein the second opening is used for the circulation of livestock breeding water.

The bottom of filter chamber is fixed with first filter screen respectively, and wherein first filter screen is used for the filtration of floaters such as poultry farming aquatic straw, the bottom both ends of filter chamber are provided with the third opening respectively, and wherein the third opening is used for the circulation of poultry farming water.

Collect the inside in chamber and placed the filtration thing and collect the basket, wherein the filtration thing is collected the basket and is used for filtering the collection of floaters such as back straw, the bottom of collecting the chamber is provided with the fourth opening, and wherein the fourth opening is used for the circulation of livestock-raising water.

The head and the tail of the middle conveying pipeline are respectively butted with a water filling port and a water outlet which face the two water treatment devices, a water suction pump is arranged on the middle conveying pipeline, and the water suction pump is used for conveying livestock breeding water in the two water treatment devices.

Preferably, the water injection port is communicated with the top of the conveying cavity; the livestock breeding water can be conveyed into the conveying cavity from the water filling port;

the bottom surface of the conveying cavity is an inclined slope, and the inclined plane of the conveying cavity gradually decreases from the middle to the first through hole; wherein the bottom of the conveying cavity is communicated with the sedimentation cavity through a first through hole; after the livestock breeding water enters the conveying cavity, the livestock breeding water circulates to the first through hole under the action of gravity and is conveyed to the sedimentation cavity through the first through hole due to the fact that the bottom surface of the conveying cavity is an inclined slope;

the bottom surface of the sedimentation cavity is an inclined slope, and the inclined plane of the sedimentation cavity gradually decreases from the sedimentation cavity cover to the second through hole; the bottom of the sedimentation cavity is communicated with the filter cavity through a second port; after the livestock breeding water enters the sedimentation cavity, the livestock breeding water flows to the second through hole under the action of gravity and is conveyed to the filtering cavity through the second through hole due to the fact that the bottom surface of the sedimentation cavity is an inclined slope;

the bottom surface of the filter cavity is an inclined plane, and the inclined plane gradually decreases from the middle to the third port; wherein the filter cavity is communicated with the collection cavity through a third port; after the livestock breeding water enters the filter cavity, due to the fact that the bottom surface of the filter cavity is an inclined plane, under the action of gravity, a small part of livestock breeding water, straws and other floating objects slide to the third through hole and are conveyed into the collection cavity through the third through hole, and the livestock breeding water is directly filtered into the discharge cavity;

the bottom surface of the collecting cavity is an inclined slope, and the inclined plane of the collecting cavity gradually decreases from the middle to the fourth port; the bottom of the collecting cavity is communicated with the discharge cavity through a fourth port; after a small part of livestock breeding water enters the collecting cavity, because the bottom surface of the collecting cavity is an inclined plane, the livestock breeding water circulates to the fourth port under the action of gravity and is conveyed to the discharging cavity through the fourth port;

the top of the discharge cavity is communicated with the filter cavity through a first filter screen, and the bottom of the discharge cavity is communicated with a discharge port; the livestock-raising water after precipitation and filtration is gathered in the discharge cavity and is conveyed through the discharge port.

Preferably, the buffering baffle can move around taking the axle as the center, and the crash pad is fixed with to one side of buffering baffle, and wherein the crash pad is located the side that is close to the second through-hole. Many places buffer stop can slow down the impact force of poultry farming water circulation in the sedimentation chamber, reduces the impact of buffer stop to the sedimentation chamber top again through the crashproof pad.

Preferably, the position of the buffering baffle corresponds to the position of the sediment storage tank up and down. After the impact force of circulation of livestock-raising water in the sedimentation cavity is relieved by the aid of the buffer baffles at multiple positions, sediment such as sand and stones in the livestock-raising water can be conveniently and better precipitated in the sediment storage tank.

Preferably, the sedimentation chamber cover detachably fixes one side of the sedimentation chamber through a screw; wherein, the periphery of the sedimentation chamber cover is sealed by a sealing ring. When the sediment in the sediment storage tank is more, the sediment chamber cover can be opened, the sediment plate is taken out, and then the sediment in the sediment storage tank is cleaned.

Preferably, a second filter screen is fixed at the bottom of the filtrate collecting basket; wherein, the mesh gap degree of the second filter screen is the same as the mesh gap degree of the first filter screen. The filter collecting basket is used for storing straw and other floaters which are filtered out from the first filter screen in a sliding mode, and the straw and other floaters are prevented from returning to the discharge cavity again through the second filter screen.

Preferably, a liquid level sensor is installed inside the middle conveying pipeline, and a water suction pump of the middle conveying pipeline pumps water from a water outlet of one water treatment device to a water filling port of the other water treatment device; the water suction pump is electrically connected with the electromagnetic valve, and the liquid level sensor is connected with the electromagnetic valve through the same single chip microcomputer. The liquid level sensor is used for monitoring the water level of the livestock-raising water, when the water level reaches a certain degree, the liquid level sensor feeds back to the single chip microcomputer, and the delivery of the livestock-raising water in the two adjacent water treatment devices is realized under the driving of the water suction pump through the control electromagnetic valve of the single chip microcomputer.

Preferably, the three depths of the internal sediment storage tanks of the water treatment device are different, and the depth values of the internal sediment storage tanks of the three water treatment devices are smaller and smaller according to the conveying direction of the livestock breeding water. Livestock-raising water is through multi-stage treatment back, and sediment such as its inside sand and stone can be more and more littleer, and the inside sediment of follow-up water treatment facilities stores the degree of depth value in groove and diminishes and can accomplish the sediment.

Preferably, the net clearance degrees of the first filter screens in the three water treatment devices are different, and according to the conveying direction of the livestock breeding water, the net clearance degrees of the first filter screens in the three water treatment devices are smaller and smaller. After the livestock-raising water is subjected to multi-stage treatment, floaters such as straws in the livestock-raising water are smaller and smaller, and the filtration can be finished only when the net gap degree of the first filter screen in the subsequent water treatment device is reduced.

Compared with the prior art, the invention has the beneficial effects that:

the invention relates to an integrated device for treating livestock breeding water, which is used for precipitating sediments such as sand and stone in the livestock breeding water and filtering floaters such as straws and the like in the livestock breeding water.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic view showing the internal structure of the water treatment apparatus according to the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an enlarged view of a portion of FIG. 2 at B;

FIG. 5 is an enlarged view of a portion of FIG. 2 at C;

fig. 6 is a partially enlarged view of fig. 2 at D.

In the figure: 1. a water treatment device; 11. a water injection port; 12. a delivery lumen; 121. a first port; 13. a sedimentation chamber; 131. fixing the ribs; 132. a shaft; 133. a buffer baffle; 134. an anti-collision pad; 135. a settling plate; 136. a precipitate storage tank; 137. a sedimentation chamber cover, 138, a second port; 14. a filter chamber; 141. a first filter screen; 142. a third port; 15. a collection chamber; 151. a filter screen collection basket; 152. a second filter screen; 153. a fourth port; 16. a discharge chamber; 17. a water outlet; 2. an intermediate delivery conduit; 21. a water pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution:

an integrated water treatment device for livestock breeding comprises three water treatment devices 1 and two middle conveying pipelines 2.

The water treatment device 1 mainly comprises a water injection port 11, a conveying cavity 12, a sedimentation cavity 13, a filtering cavity 14, a collecting cavity 15, a discharge cavity 16 and a water discharge port 17; the water filling port 11 is positioned at the uppermost part of the water treatment device 1, wherein the water filling port 11 is used for filling livestock breeding water, the conveying cavity 12 is positioned below the water filling port 11, wherein the conveying cavity 12 is used for conveying livestock breeding water, the sedimentation cavity 13 is positioned below the conveying cavity 12, wherein the sedimentation cavity 13 is used for sedimentation of sediment such as sand and stone in the livestock breeding water, the filter cavity 14 is positioned below the sedimentation cavity 13, wherein the filter cavity 14 is used for filtering floating objects such as straws and the like in the livestock breeding water, the collecting cavities 15 are positioned at the left side and the right side of the filter cavity 14, wherein the collecting cavity 15 is used for collecting floating objects such as filtered straws and the like, the discharging cavity 16 is positioned below the filtering cavity 14, wherein the discharge cavity 16 is used for the accumulation of the livestock breeding water after the precipitation and the filtration, the water outlet 17 is positioned at one side of the discharge cavity 16, and the water outlet 17 is used for the discharge of the livestock breeding water after the precipitation and the filtration.

The bottom both ends of transport chamber 12 are provided with first opening 121 respectively, and wherein first opening 121 is used for the circulation of poultry farming water.

The top of sedimentation chamber 13 evenly is fixed with fixed muscle 131 in many places, and wherein fixed muscle 131 is used for the location of buffer stop plate 133, be connected with buffer stop plate 133 through axle 132 on the fixed muscle 131, wherein buffer stop plate 133 is used for the buffering when poultry farming hydrologic cycle, in order to reduce its circulation speed, sedimentation plate 135 has been placed to the bottom of sedimentation chamber 13, and wherein sedimentation plate 135 is used for the sediment such as gravel and sand in the poultry farming water to deposit, evenly be spacing on the sedimentation plate 135 to have many places sediment to store groove 136, and wherein sediment stores the storage that groove 136 is used for sediment such as gravel and sand, one side of sedimentation chamber 13 is sealed to be fixed with sedimentation chamber lid 137, and wherein sedimentation chamber lid 137 is used for taking out the clearance of sedimentation plate 135, one side that sedimentation chamber lid 137 was kept away from to sedimentation chamber 13 is provided with second through-hole 138, wherein second through-hole 138 is used for the circulation of poultry farming water.

The bottom of filter chamber 14 is fixed with first filter screen 141 respectively, and wherein first filter screen 141 is used for the filtration of floater such as poultry farming aquatic straw, the bottom both ends of filter chamber 14 are provided with third port 142 respectively, and wherein the third port 142 is used for the circulation of poultry farming water.

Collect the inside of chamber 15 and place filth and collect basket 151, wherein filth is collected basket 151 and is used for filtering the collection of floater such as back straw, the bottom of collecting chamber 15 is provided with fourth mouth 153, and wherein fourth mouth 153 is used for the circulation of poultry farming water.

The head and the tail of the middle conveying pipeline 2 are respectively butted with a water filling port 11 and a water outlet 17 which face the two water treatment devices 1, a water suction pump 21 is arranged on the middle conveying pipeline 2, and the water suction pump 21 is used for conveying livestock breeding water in the two water treatment devices 1.

The water injection port 11 is communicated with the top of the conveying cavity 12; livestock breeding water can be conveyed into the conveying cavity 12 from the water filling port 11.

The bottom surface of the conveying cavity 12 is an inclined slope, and the inclined plane of the conveying cavity gradually decreases from the middle to the first through opening 121; wherein, the bottom of the conveying cavity 12 is communicated with the sedimentation cavity 13 through a first port 121; after the livestock breeding water enters the conveying cavity 12, because the bottom surface of the conveying cavity 12 is an inclined slope, the livestock breeding water flows to the first through hole 121 under the action of gravity and is conveyed into the sedimentation cavity 13 through the first through hole 121;

the bottom surface of the settling chamber 13 is an inclined slope, and the inclined slope gradually decreases from the settling chamber cover 137 to the second opening 138; wherein, the sedimentation chamber 13 can be communicated with the outside through a sedimentation chamber cover 137, and the bottom of the sedimentation chamber 13 is communicated with the filter chamber 14 through a second port 138; after the livestock breeding water enters the sedimentation cavity 13, because the bottom surface of the sedimentation cavity 13 is an inclined slope, under the action of gravity, the livestock breeding water flows to the second port 138 and is conveyed into the filter cavity 14 through the second port 138;

the bottom surface of the filter chamber 14 is an inclined slope, and the inclined plane gradually decreases from the middle to the third port 142; wherein the filter chamber 14 is communicated with the collection chamber 15 through the third port 142; after the livestock breeding water enters the filter cavity 14, due to the fact that the bottom surface of the filter cavity 14 is an inclined plane, under the action of gravity, a small part of livestock breeding water, straws and other floating objects slide down to the third through hole 142 and are conveyed into the collection cavity 15 through the third through hole 142, and the livestock breeding water is directly filtered into the discharge cavity 16;

the bottom surface of the collection cavity 15 is an inclined slope, and the inclined plane gradually decreases from the middle to the fourth port 153; wherein, the bottom of the collection chamber 15 is communicated with the discharge chamber 16 through the fourth port 153; after a small part of livestock breeding water enters the collecting cavity 15, because the bottom surface of the collecting cavity 15 is an inclined slope, the livestock breeding water circulates to the fourth port 153 under the action of gravity and is conveyed into the discharge cavity 16 through the fourth port 153;

the top of the discharge cavity 16 is communicated with the filter cavity 14 through a first filter screen 141, and the bottom of the discharge cavity 16 is communicated with the discharge port 17; the livestock breeding water after precipitation and filtration is gathered in the discharge cavity 16 and is conveyed through the discharge port 17.

The bumper 133 is movable about the shaft 132, and a crash pad 134 is fixed to one side of the bumper 133, wherein the crash pad 134 is located at a side close to the second opening 138. The impact force of circulation of livestock-raising water in sedimentation chamber 13 can be slowed down to many places buffer baffle 133, reduces the impact of buffer baffle 133 to sedimentation chamber 13 top again through crashproof pad 134.

The position of the buffering baffle 133 corresponds to the position of the settling storage tank 136 up and down. After the impact force of the circulation of the livestock breeding water in the sedimentation cavity 13 is relieved by the plurality of buffer baffles 133, sediment such as sand and stone in the livestock breeding water can be conveniently and better settled in the sediment storage tank 136.

The settling chamber cover 137 detachably fixes one side of the settling chamber 13 by a screw; wherein, the periphery of the settling chamber cover 137 is sealed by a sealing ring. When the sediment in the sediment storage tank 136 is large, the sediment chamber cover 137 may be opened, the sediment plate 135 may be taken out, and then the sediment in the sediment storage tank 136 may be cleaned.

A second filter screen 152 is fixed at the bottom of the filtrate collecting basket 151; wherein, the mesh gap degree of the second filter 152 is the same as the mesh gap degree of the first filter 141. The filtering material collecting basket 151 is used to store floating materials such as straws and the like which are slid and filtered from the first filtering net 141, and prevent the floating materials such as straws and the like from returning to the discharging chamber 16 again through the second filtering net 152.

A liquid level sensor is arranged in the middle conveying pipeline 2, and a water suction pump 21 of the middle conveying pipeline pumps water from a water outlet 17 of one water treatment device 1 to a water filling port 11 of the other water treatment device 1; the water suction pump 21 is electrically connected with the electromagnetic valve, and the liquid level sensor and the electromagnetic valve are controlled and connected by the same single chip microcomputer. The liquid level sensor is used for monitoring the water level of the livestock-raising water, when the water level reaches a certain degree, the liquid level sensor feeds back to the single chip microcomputer, and the delivery of the livestock-raising water in the two adjacent water treatment devices 1 is realized under the driving of the water suction pump 21 through the control of the electromagnetic valve of the single chip microcomputer.

The depth of the three internal sediment storage tanks 136 of the water treatment device 1 is different, and the depth of the three internal sediment storage tanks 136 of the water treatment device 1 is smaller and smaller according to the conveying direction of the livestock breeding water. Livestock-raising water is through multi-stage treatment back, and sediment such as its inside sand and stone can be more and more littleer, and the degree of depth value that follow-up water treatment facilities 1 inside sediment stored groove 136 diminishes and can accomplish the sediment.

The net gap degrees of the first filter nets 141 in the three water treatment devices 1 are different, and the net gap degrees of the first filter nets 141 in the three water treatment devices 1 are smaller and smaller according to the conveying direction of the livestock breeding water. After the livestock-raising water is subjected to multi-stage treatment, floating objects such as straws and the like in the livestock-raising water become smaller and smaller, and the filtration can be finished only when the net gap degree of the first filter screen 141 in the subsequent water treatment device 1 becomes smaller.

The working principle of the invention is as follows:

after the livestock breeding water is injected from the water injection port 11 of the first water treatment device 1, the livestock breeding water is conveyed into the conveying cavity 12 from the water injection port 11;

after the livestock breeding water enters the conveying cavity 12, because the bottom surface of the conveying cavity 12 is an inclined plane, the livestock breeding water flows to the first through hole 121 under the action of gravity and is conveyed to the sedimentation cavity 13 through the first through hole 121;

after the livestock breeding water enters the sedimentation cavity 13, because the bottom surface of the sedimentation cavity 13 is an inclined slope, under the action of gravity, the livestock breeding water flows to the second through hole 138, and after the impact force of the circulation of the livestock breeding water in the sedimentation cavity 13 is relieved by the plurality of buffer baffles 133, sediment such as sand and stone in the livestock breeding water is better precipitated in the sediment storage groove 136 on the sedimentation plate 135 and is conveyed into the filter cavity 14 through the second through hole 138;

after the livestock breeding water enters the filter cavity 14, due to the fact that the bottom surface of the filter cavity 14 is an inclined plane, under the action of gravity, a small part of floating objects such as the livestock breeding water and straws slide down to the third through hole 142 through the first filter screen 141, and are conveyed into the collection cavity 15 through the third through hole 142, and the livestock breeding water is directly filtered into the discharge cavity 16;

after a small part of livestock breeding water enters the collecting cavity 15, because the bottom surface of the collecting cavity 15 is an inclined plane, under the action of gravity, after floaters such as straws and the like are intercepted by the filter collecting basket 151, the livestock breeding water flows to the fourth through hole 153 and is conveyed into the discharge cavity 16 through the fourth through hole 153;

the livestock breeding water after precipitation and filtration is gathered in the discharge cavity 16 and is conveyed through the discharge port 17;

after the liquid level sensor inside the middle conveying pipeline 2 monitors that the water level of the livestock-raising water precipitated and filtered in the first water treatment device 1 reaches a certain degree, the liquid level sensor feeds back to the single chip microcomputer, and the livestock-raising water precipitated and filtered in the first water treatment device 1 is conveyed to the second water treatment device 1 through the single chip microcomputer control electromagnetic valve under the driving of the water suction pump 21, and is sequentially circulated and treated step by step.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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.

Claims

1. The livestock breeding water treatment integrated equipment is characterized by comprising three water treatment devices (1) and two intermediate conveying pipelines (2);

the water treatment device (1) mainly comprises a water injection port (11), a conveying cavity (12), a settling cavity (13), a filtering cavity (14), a collecting cavity (15), a discharging cavity (16) and a water discharging port (17), wherein the water injection port (11) is positioned at the uppermost part of the water treatment device (1), the conveying cavity (12) is positioned below the water injection port (11), the settling cavity (13) is positioned below the conveying cavity (12), the filtering cavity (14) is positioned below the settling cavity (13), the collecting cavity (15) is positioned at the left side and the right side of the filtering cavity (14), the discharging cavity (16) is positioned below the filtering cavity (14), and the water discharging port (17) is positioned at one side of the discharging cavity (16);

two ends of the bottom of the conveying cavity (12) are respectively provided with a first through hole (121);

a plurality of fixing ribs (131) are uniformly fixed at the top of the settling chamber (13), the fixing ribs (131) are connected with a buffer baffle (133) through a shaft (132), a settling plate (135) is placed at the bottom of the settling chamber (13), a plurality of sediment storage grooves (136) are uniformly limited on the settling plate (135), a settling chamber cover (137) is fixed at one side of the settling chamber (13) in a sealing manner, and a second through hole (138) is formed in one side, far away from the settling chamber cover (137), of the settling chamber (13);

a first filter screen (141) is fixed at the bottom of the filter cavity (14) respectively, and third through holes (142) are formed in two ends of the bottom of the filter cavity (14) respectively;

a filtered material collecting basket (151) is arranged in the collecting cavity (15), and a fourth port (153) is arranged at the bottom of the collecting cavity (15);

the head and the tail of the middle conveying pipeline (2) are respectively butted with a water filling port (11) and a water outlet (17) of two adjacent water treatment devices (1), and a water suction pump (21) is arranged on the middle conveying pipeline (2).

2. The livestock breeding water treatment integrated equipment of claim 1, wherein:

the water injection port (11) is communicated with the top of the conveying cavity (12);

the bottom surface of the conveying cavity (12) is an inclined slope, and the slope of the slope gradually decreases from the middle to the first through hole (121); wherein, the bottom of the conveying cavity (12) is communicated with the sedimentation cavity (13) through a first port (121);

the bottom surface of the settling chamber (13) is an inclined slope, and the inclined slope is gradually reduced from a settling chamber cover (137) to the second through hole (138); wherein, the sedimentation cavity (13) can be communicated with the outside through a sedimentation cavity cover (137), and the bottom of the sedimentation cavity (13) is communicated with the filter cavity (14) through a second port (138);

the bottom surface of the filter cavity (14) is an inclined plane, and the inclined plane of the filter cavity is gradually reduced from the middle to the third port (142); wherein the filter cavity (14) is communicated with the collection cavity (15) through a third port (142);

the bottom surface of the collecting cavity (15) is an inclined slope, and the slope of the slope gradually decreases from the middle to the fourth port (153); wherein, the bottom of the collecting cavity (15) is communicated with the discharging cavity (16) through a fourth port (153);

the top of the discharge cavity (16) is communicated with the filter cavity (14) through a first filter screen (141), and the bottom of the discharge cavity (16) is communicated with the discharge port (17).

3. The livestock breeding water treatment integrated equipment of claim 1, wherein: the buffer baffle (133) can move around the shaft (132), and a crash pad (134) is fixed on one side of the buffer baffle (133), wherein the crash pad (134) is positioned on the side close to the second opening (138).

4. The livestock breeding water treatment integrated equipment of claim 1, wherein: the position of the buffer baffle (133) corresponds to the position of the sediment storage tank (136) up and down.

5. The livestock breeding water treatment integrated equipment of claim 1, wherein: the sedimentation chamber cover (137) detachably fixes one side of the sedimentation chamber (13) through a screw; wherein, the periphery of the sedimentation cavity cover (137) is sealed by a sealing ring.

6. The livestock breeding water treatment integrated equipment of claim 1, wherein: a second filter screen (152) is fixed at the bottom of the filtrate collecting basket (151); wherein the mesh gap degree of the second filter (152) is the same as the mesh gap degree of the first filter (141).

7. The livestock breeding water treatment integrated equipment of claim 1, wherein: a liquid level sensor is arranged in the middle conveying pipeline (2), and a water suction pump (21) of the middle conveying pipeline pumps water from a water outlet (17) of one water treatment device (1) to a water filling port (11) of the other water treatment device (1); wherein, the water pump (21) is electrically connected with the electromagnetic valve.

8. The livestock breeding water treatment integrated equipment of claim 7, wherein: the liquid level sensor and the electromagnetic valve are controlled and connected by the same single chip microcomputer.

9. The livestock breeding water treatment integrated equipment of claim 1, wherein: the depths of the sediment storage tanks (136) in the three water treatment devices (1) are different, and the depth values of the sediment storage tanks (136) in the three water treatment devices (1) are smaller and smaller according to the conveying direction of the livestock breeding water.

10. The livestock breeding water treatment integrated equipment of claim 1, wherein: the net gap degrees of the first filter net (141) in the water treatment device (1) at the three positions are different, and according to the conveying direction of the livestock breeding water, the net gap degrees of the first filter net (141) in the water treatment device (1) at the three positions are smaller and smaller.