CN115250931B - Livestock breeding water recycling and conveying system and working method thereof - Google Patents

Abstract

The invention belongs to the technical field of wastewater sampling, and particularly relates to a water recycling and conveying system for livestock breeding and a working method thereof, wherein a spraying device is adopted, and is suitable for spraying a livestock breeding area; the conveying device is arranged below the spraying device and is suitable for collecting and conveying liquid sprayed by the spraying device; the separating device is connected with the conveying device and suitable for receiving the liquid conveyed by the conveying device and separating and sampling the liquid, so that the liquid is collected and impurities in the liquid are separated, the impurities are conveniently collected, and the influence of the impurities on the subsequent use and detection of the liquid is avoided.

Description

Livestock breeding water recycling and conveying system and working method thereof

Technical Field

The invention belongs to the technical field of wastewater sampling, and particularly relates to a water recycling and conveying system for livestock breeding and a working method thereof.

Background

Can set up spraying system in the region of breed in animal husbandry is bred, spray the breed area, in order to play functions such as cooling dust removal, need collect the liquid that sprays after spraying, however, can have a large amount of cogongrass in the breed area, impurity such as stone, corresponding impurity also can collect simultaneously when collecting liquid, there is a large amount of impurity in the liquid that causes the collection, impurity can lead to the fact the influence to the reuse of liquid, and whether the livestock that can learn breed has abnormality such as disease through detecting the liquid of collecting, impurity in the liquid also can lead to the fact the influence to the testing result when detecting.

Therefore, a new water recycling and conveying system for livestock breeding and a working method thereof need to be designed based on the technical problems.

Disclosure of Invention

The invention aims to provide a water recycling and conveying system for livestock breeding and a working method thereof.

In order to solve the technical problem, the invention provides a water recycling and conveying system for livestock breeding, which comprises:

a spray device adapted to spray the livestock breeding area;

the conveying device is arranged below the spraying device and is suitable for collecting and conveying liquid sprayed by the spraying device;

and the separation device is connected with the conveying device and is suitable for receiving the liquid conveyed by the conveying device, separating and sampling the liquid.

Further, the separation device includes: the separation mechanism, the bearing mechanism and the sampling mechanism;

the separation mechanism is arranged below the conveying device;

the bearing mechanism is arranged in the separating mechanism;

the sampling mechanism is arranged in the separation mechanism, and the sampling mechanism is arranged below the bearing mechanism;

the liquid conveyed by the conveying device is contained by the bearing mechanism, impurities in the liquid are separated by the separating device, and the liquid in the bearing mechanism is sampled by the sampling mechanism.

Further, the separation mechanism includes: a sleeve;

the sleeve is arranged in an open manner;

a plurality of sliding grooves are formed in the inner wall of the sleeve along the length direction of the sleeve;

a first storage groove and a second storage groove are formed in the inner wall of the sleeve between the adjacent sliding grooves;

the first storage tank is disposed above the second storage tank;

the first storage groove is provided with a first strip-shaped opening, and the first strip-shaped opening is formed in the inner wall of the sleeve;

a second strip-shaped opening is formed in the second storage tank, and the second strip-shaped opening is formed in the inner wall of the sleeve;

the first storage groove and the corresponding second storage groove are isolated by a grid plate;

a partition plate is arranged in the sleeve and is arranged below the second strip-shaped opening;

a drainage plate is arranged above the partition plate and is arranged below the second strip-shaped opening;

a plurality of water outlets are circumferentially arranged on the inner wall of the sleeve, the water outlets are arranged between the drainage plate and the partition plate, and the water outlets are communicated with the second storage tank.

Further, the bearing mechanism includes: a flexible member and a water intake assembly;

the flexible member is arranged in the sleeve;

the outer wall of the flexible part is provided with a sliding block matched with the sliding groove, and the sliding block is suitable for sliding in the sliding groove;

the sampling mechanism is arranged on the partition plate and penetrates through the drainage plate;

the water intake assembly is disposed on the flexible member and extends through the flexible member toward the sampling mechanism.

Further, the water intaking assembly includes: a barrel;

the side wall of the cylinder body is provided with a one-way valve which is communicated with the inner wall of the cylinder body;

a sampling port is arranged on the bottom surface of the cylinder body;

the side wall of the cylinder body is provided with an elastic ring, and the elastic ring is arranged above the connecting position of the cylinder body and the flexible part;

a moving plate is arranged on the side wall of the cylinder body, and two ends of the moving plate extend into grooves formed in the side wall of the cylinder body;

the moving plate is suitable for sliding in the groove so as to move along the length direction of the cylinder;

the movable plate is provided with a limiting ring, and the limiting ring is arranged in the cylinder body;

and a flushing hole is formed in the side wall of the cylinder body and communicated with a groove positioned below the flushing hole in the two grooves.

Further, the sampling mechanism includes: a limiting post;

the limiting column is arranged on the partition plate and penetrates through the drainage plate to be arranged in the direction of the opening;

a positioning groove is formed in the upper end face of the partition plate, and a chamfer is arranged at the edge of the positioning groove;

the positioning groove is matched with the cylinder body;

a sampling column is arranged in the limiting column along the length direction of the limiting column, and a sampling hole is arranged in the sampling column along the length direction of the sampling column.

Further, be provided with the mounting groove on the division board, the sample post with the bottom surface fixed connection of mounting groove, spacing post with the bottom surface of mounting groove passes through spring coupling.

Further, the sampling mechanism further comprises: a sampling tube;

the sampling tube is in communication with the sampling aperture and the sampling tube extends out of the sleeve.

Further, the conveying device includes: a delivery pipe and a water pump;

the conveying pipe is arranged on the support, and a water outlet pipe of the conveying pipe is arranged above the sleeve;

the water pump is connected to the delivery tube, the water pump being adapted to pump collected liquid into the delivery tube to deliver the liquid into the sleeve.

On the other hand, the invention also provides a working method of the livestock breeding water recycling and conveying system, which comprises the following steps:

and collecting and separating the sprayed liquid.

The livestock breeding device has the advantages that through the spraying device, the spraying device is suitable for spraying the livestock breeding area; the conveying device is arranged below the spraying device and is suitable for collecting and conveying liquid sprayed by the spraying device; the separating device is connected with the conveying device and suitable for receiving the liquid conveyed by the conveying device and separating and sampling the liquid, so that the liquid is collected and impurities in the liquid are separated, the impurities are conveniently collected, and the influence of the impurities on the subsequent use and detection of the liquid is avoided.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic diagram of a water reclamation and delivery system for livestock breeding according to the present invention;

FIG. 2 is a schematic view of the structure of the separation apparatus of the present invention;

FIG. 3 is a cross-sectional view of the separation device of the present invention;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3 of the present invention;

FIG. 5 is a schematic view of the construction of the flexure of the present invention;

fig. 6 is a schematic view of the construction of the sleeve of the present invention.

In the figure:

1, a conveying device, 11 conveying pipes, 12 water pumps and 13 water outlet pipes;

2, a separation device, 21 sleeves, 211 water outlet holes, 212 sliding grooves, 213 first storage grooves, 214 first strip-shaped openings, 215 second storage grooves, 216 second strip-shaped openings, 217 grid plates, 218 drainage plates, 219 separation plates, 22 mounting grooves, 23 flexible parts, 231 sliding blocks, 24 cylinders, 241 one-way valves, 242 sampling openings, 243 elastic rings, 244 moving plates, 245 limiting rings, 246 flushing holes, 25 limiting columns, 251 positioning grooves, 252 chamfers, 253 springs, 26 sampling columns, 261 sampling holes and 262 sampling tubes;

and 3, supporting.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

As shown in fig. 1 to fig. 6, embodiment 1 provides a water recycling and conveying system for livestock breeding, which includes: a spray device (the spray device can directly adopt a traditional spray header and the like for spraying), and the spray device is suitable for spraying the livestock breeding area; the conveying device 1 is arranged below the spraying device, and the conveying device 1 is suitable for collecting and conveying liquid sprayed by the spraying device; separator 2, separator 2 with conveyor 1 is connected, separator 2 is suitable for the liquid that receives conveyor 1 and carry to separate and sample liquid, realized collecting and separating the impurity in the liquid to liquid, be convenient for to the collection of impurity, and avoid impurity to cause the influence to subsequent use of liquid and detection.

In the present embodiment, the separation device 2 includes: the separation mechanism, the bearing mechanism and the sampling mechanism; the separation mechanism is arranged below the conveying device 1; the bearing mechanism is arranged in the separating mechanism; the sampling mechanism is arranged in the separation mechanism, and the sampling mechanism is arranged below the bearing mechanism; the liquid conveyed by the conveying device 1 is contained by the bearing mechanism, impurities in the liquid are separated by the separating device 2, and the liquid in the bearing mechanism is sampled by the sampling mechanism; floating impurities and sinking impurities in the liquid can be separated through the separation mechanism; can sample to liquid through sampling mechanism, do not contain impurity in this liquid, can ensure not containing impurity in the liquid of sample, ensure the precision of subsequent detection.

In this embodiment, the separation mechanism includes: a sleeve 21; the sleeve 21 is arranged in an open manner; a plurality of sliding grooves 212 are formed in the inner wall of the sleeve 21 along the length direction of the sleeve 21; a first storage groove 213 and a second storage groove 215 are arranged between the adjacent sliding grooves 212 in the inner wall of the sleeve 21; the first storage tank 213 is disposed above the second storage tank 215; a first strip-shaped opening 214 is formed in the first storage groove 213, and the first strip-shaped opening 214 is formed in the inner wall of the sleeve 21; a second strip-shaped opening 216 is formed in the second storage groove 215, and the second strip-shaped opening 216 is formed in the inner wall of the sleeve 21; the first storage groove 213 and the corresponding second storage groove 215 are blocked by a grid plate 217; a separation plate 219 is arranged in the sleeve 21, and the separation plate 219 is arranged below the second strip-shaped opening 216; a flow guide plate 218 is arranged above the partition plate 219, and the flow guide plate 218 is arranged below the second strip-shaped opening 216; a plurality of water outlet holes 211 are circumferentially formed in the inner wall of the sleeve 21, the water outlet holes 211 are formed in a space between the drainage plate 218 and the partition plate 219, and the water outlet holes 211 are communicated with the second storage tank 215; the bearing mechanism can move up and down in the sleeve 21, the liquid can be supported in an area limited by the bearing mechanism and the sleeve 21 through the inner walls of the bearing mechanism and the sleeve 21, along with the movement of the bearing mechanism from top to bottom, impurities floating on the liquid surface can flow into the first storage tank 213 when the liquid passes through the first strip-shaped opening 214 of the first storage tank 213, the rest liquid can flow into the second storage tank 215 through the grid plate 217, the floating impurities can be blocked by the grid plate 217 and remain on the grid plate 217 to separate the floating impurities, when the liquid passes through the second strip-shaped opening 216 of the second storage tank 215, the liquid flows into the second storage tank 215, and meanwhile, the impurities sinking on the flexible piece 23 are brought into the second storage tank 215 to separate the impurities sinking; the separation plate 219 can be drawn out of the sleeve 21 so as to remove impurities on the separation plate 219; a water flow port can be formed on the bottom surface of the sleeve 21 (the bottom surface is the surface opposite to the opening of the sleeve 21) to facilitate the outflow of the liquid entering the second storage tank 215, and the bottom surface can be separated from the sleeve 21 (for example, the bottom surface is connected with the sleeve 21 by means of plugging, screwing and the like to facilitate the detachment) to facilitate the removal of the impurities at the bottom.

In this embodiment, the bearing mechanism includes: a flexible member 23 and a water intake assembly; the flexible member 23 is disposed within the sleeve 21; the outer wall of the flexible part 23 is provided with a sliding block 231 matched with the sliding groove 212, the sliding block 231 is suitable for sliding in the sliding groove 212, and the sliding block 231 can be driven by a driving device such as a motor to move up and down in the sliding groove 212; the sampling mechanism is disposed on the separation plate 219 and passes through the drainage plate 218; the water intake assembly is arranged on the flexible member 23 and extends to the sampling mechanism through the flexible member 23; the flexible member 23 is depressed toward the bottom surface of the sleeve 21 by the self-weight of the water intake assembly so that the flexible member 23 and the inner wall of the sleeve 21 form a liquid containing area, and the liquid flows over the edge of the flexible member 23 when initially containing the liquid, facilitating the liquid to enter the first storage tank 213 when passing through the first strip-shaped port 214 of the first storage tank 213.

In this embodiment, the water intaking assembly includes: a barrel 24; a one-way valve 241 is arranged on the side wall of the cylinder 24, and the one-way valve 241 is communicated with the inner wall of the cylinder 24; a sampling port 242 is arranged on the bottom surface of the cylinder body 24; an elastic ring 243 is arranged on the side wall of the cylinder 24, and the elastic ring 243 is arranged above the connecting position of the cylinder 24 and the flexible part 23; a moving plate 244 is arranged on the side wall of the cylinder 24, and both ends of the moving plate 244 extend into grooves formed in the side wall of the cylinder 24; the moving plate 244 is adapted to slide in the groove to move the moving plate 244 along the length of the cylinder 24; a limiting ring 245 is arranged on the moving plate 244, and the limiting ring 245 is arranged in an area enclosed by the cylinder 24; the side wall of the cylinder 24 is provided with a flushing hole 246, the flushing hole 246 is communicated with the groove positioned below the two grooves and is communicated with the inside of the cylinder 24, when the moving plate 244 is in contact with the bottom surface of the groove below at the initial position, the flushing hole 246 is blocked, the liquid in the cylinder 24 cannot flow out, after the sampling column 26 extends into the cylinder 24, the moving plate 244 is driven to move upwards by the limiting ring 245 when the sampling column 26 continues to extend upwards, and the flushing hole 246 is exposed; can make inside liquid gets into barrel 24 through check valve 241, can set up the filter screen on check valve 241 and prevent that impurity from getting into in the barrel 24, make sampling mechanism can obtain the liquid that does not have impurity in barrel 24 and carry out follow-up detection, because the urine of livestock can exist on the bottom surface in the stockbreeding region, can contain the urine of livestock in the liquid when retrieving the liquid that sprays, carry out the sample detection to liquid and can realize detecting the urine of livestock, can realize the judgement to livestock health situation through the detection of urine, need not traditional independent collection to the livestock urine, the difficult degree that the urine was collected has been reduced.

In this embodiment, the sampling mechanism includes: a stopper post 25; the limiting column 25 is arranged on the partition plate 219 and passes through the drainage plate 218 to be arranged towards the opening direction; a positioning groove 251 is formed in the upper end surface of the partition plate 219, and a chamfer 252 is formed at the edge of the positioning groove 251; the positioning groove 251 is matched with the barrel 24, and is sealed with the side wall of the positioning groove 251 after the barrel 24 extends into the positioning groove 251, so that liquid in the barrel 24 is prevented from flowing into the positioning groove 251 from the sampling port 242 when the sampling column 26 extends into the barrel 24; a sampling column 26 is arranged in the limiting column 25 along the length direction of the limiting column 25, and a sampling hole 261 is arranged in the sampling column 26 along the length direction of the sampling column 26; because the barrel 24 is connected with the flexible part 23, the barrel 24 can shake, therefore, the chamfer 252 is arranged when the barrel 24 moves towards the direction of the limit column 25, the barrel 24 can smoothly enter the positioning groove 251 through the chamfer 252, the sliding block 231 continues to move downwards after the barrel 24 enters the positioning groove 251, the flexible part 23 is driven to turn downwards, in the process that the flexible part 23 turns downwards, the edge of the positioning groove 251 can be in contact with the connection part of the flexible part 23 and the barrel 24 and jacks up the connection part, impurities deposited at the connection part are jacked up and vibrated, the impurities are separated from the flexible part 23, and the impurities can conveniently enter the second storage tank 215.

In this embodiment, after the barrel 24 enters the positioning groove 251, the sliding block 231 continues to move downwards along the sliding groove 212, so that the edge of the flexible member 23 is flush with the lower edge of the second strip-shaped opening 216, so that the liquid can enter the second storage groove 215, and at this time, the sampling column 26 extends into the barrel 24 and drives the limiting ring 245 to move upwards, so that the flushing hole 246 is exposed.

In this embodiment, can set up flexible shutoff piece in sample connection 242, and sample connection 242 is stopped up completely to the flexible shutoff piece of a plurality of, jack-up flexible shutoff piece when the appearance column 26 stretches into barrel 24 for appearance column 26 can stretch into in the barrel 24, and flexible shutoff piece realizes sealedly with the outer wall in close contact with of appearance column 26 this moment, avoids liquid to flow out along appearance column 26.

In this embodiment, the partition plate 219 is provided with a mounting groove 22, the sampling column 26 is fixedly connected with the bottom surface of the mounting groove 22, and the limiting column 25 is connected with the bottom surface of the mounting groove 22 through a spring 253; after the cylinder 24 enters the positioning groove 251, the flexible member 23 is turned over to drive the cylinder 24 to press the limiting column 25 downwards, so that the limiting column 25 presses the spring 253 downwards, at this time, the sampling column 26 enters the cylinder 24 upwards from the sampling port 242, when the sampling column 26 enters the cylinder 24, the liquid in the cylinder 24 is pressed to cause the liquid to press the elastic ring 243, the elastic ring 243 expands outwards of the cylinder 24 to contact with the surface of the flexible member 23, so that deposited impurities are pushed towards the edge of the flexible member 23 (and the impurities are prevented from adhering to the flexible member 23), and as the sampling column 26 continues to extend inwards of the cylinder 24, the sampling column 26 contacts the moving plate 244, after the sampling column 26 contacts the moving plate 244, the sampling column 26 continues to approach towards the upper end face of the cylinder 24, so that the moving plate 244 moves towards the upper end face of the cylinder 24, the moving plate 244 is driven to move upwards, so that the flushing hole 246 blocked by the moving plate 244 is exposed, at this time, the liquid in the cylinder 24 washes the surface of the flexible member 23 out of the flushing hole 246, so that the impurities on the surface of the flexible member 23 enter the second storage groove 215, and when the sampling column 26 extends into the cylinder 24, the sampling hole 261 can pass through the sampling column 24.

In this embodiment, the sampling mechanism further includes: a sampling tube 262; the sampling tube 262 is communicated with the sampling hole 261, the sampling tube 262 extends out of the sleeve 21, when the sampling tube 262 (the sampling tube 262 is communicated with the sampling hole 261) extends into the cylinder 24, the liquid in the cylinder 24 can be taken out through the sampling hole 261, the sampling hole 261 of the sampling tube 262 is thin, the sampling speed is slow, and the sampling column 26 can extrude the liquid to expand the elastic ring 243.

In this embodiment, the drainage plate 218 can be middle arch and lower all around, make liquid can flow to all around, the drainage plate 218 can set up on spacing post 25, drive the downward movement of drainage plate 218 when spacing post 25 moves down, make apopore 211 expose, when first holding tank 213 collects liquid, make liquid rush into second holding tank 215 through net board 217, can wash the impurity that the last separation remained at second holding tank 215 lateral wall, liquid probably gets into on the drainage plate 218 through second bar mouth 216 this moment, drive the drainage plate 218 and move when spacing post 25 moves down and make apopore 211 expose, discharge ponding on the drainage plate 218 into in the second holding tank 215.

In the present embodiment, the conveying device 1 includes: a delivery pipe 11 and a water pump 12; the conveying pipe 11 is arranged on the bracket 3, and the water outlet pipe 13 of the conveying pipe 11 is arranged above the sleeve 21; the water pump 12 is connected to the delivery pipe 11, the water pump 12 being adapted to pump the collected liquid into the delivery pipe 11 to deliver the liquid into the sleeve 21; a collecting box can be arranged to collect the sprayed liquid, and the liquid in the collecting box is conveyed to the sleeve 21 through the conveying pipe 11 by the water pump 12 for separation and sampling.

In this embodiment, when the liquid enters the sleeve 21, the flexible part 23 is filled and connected with the side wall of the sleeve 21, after the liquid is filled and connected (the liquid overflows the edge of the flexible part 23), the sliding block 231 is driven to move downwards along the sliding chute 212, when the edge of the flexible part 23 descends to the lower part of the first strip-shaped opening 214, the impurities floating at the top can flow into the first strip-shaped opening 213 through the liquid and remain on the grid plate storage tank 217, and the separation of the floating impurities is realized; as the slider 231 continues to move downwards, the barrel 24 enters the positioning groove 251 of the limiting column 25 and is clamped in the positioning groove 251, at this time, the slider 231 continues to move downwards, so that the flexible member 23 is turned downwards, the edge of the flexible member 23 is turned over to the lower side of the second strip-shaped port 216, the limiting column 25 is driven to move downwards in the turning process, so that the sampling column 26 extends out of the limiting column 25 and extends into the barrel 24 from the sampling port 242, when the sampling column 26 extends into the barrel 24, the liquid part in the barrel 24 is sampled through the sampling hole 261, and as the sampling column 26 extends into the barrel 24 and presses the liquid in the barrel 24, the liquid presses the elastic ring 243, so that the elastic ring 243 expands, the expanded elastic ring 243 contacts the flexible member 23, so that the impurities deposited on the flexible member 23 are not adhered to the flexible member 23 (when the flexible member 23 is turned over, the edge of the positioning groove 251 contacts the flexible member 23, so that the connecting part of the flexible member 23 and the barrel 24 is pushed up, so that the impurities deposited on the flexible member 23 do not adhere to the flexible member 23), and when the flexible member 26 extends into the flexible member 24, the second strip-shaped port 246 moves upwards, so that the impurities on the second strip-shaped port 246 is washed by the flushing plate 246 and then passes through the flushing tank 23.

Example 2

On the basis of embodiment 1, this embodiment 2 further provides an operating method of the water recycling and conveying system for livestock breeding in embodiment 1, including: and collecting the sprayed liquid, separating and detecting.

In conclusion, the invention uses the spraying device which is suitable for spraying the livestock breeding area; the conveying device 1 is arranged below the spraying device, and the conveying device 1 is suitable for collecting and conveying liquid sprayed by the spraying device; separator 2, separator 2 with conveyor 1 is connected, separator 2 is suitable for the liquid that receives conveyor 1 and carry to separate and sample liquid, realized collecting and separating the impurity in the liquid to liquid, be convenient for to the collection of impurity, and avoid impurity to cause the influence to subsequent use of liquid and detection.

The components selected for use in the present application (components not illustrated for specific structures) are all common standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experimentation. Moreover, the software programs referred to in the present application are all prior art, and the present application does not relate to any improvement of the software programs.

In the description of the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions when actually implemented, and for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or units through some communication interfaces, and may be in an electrical, mechanical or other form.

The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (7)

1. The utility model provides a livestock-raising water recovery conveying system which characterized in that includes:

a spray device adapted to spray the livestock breeding area;

the conveying device is arranged below the spraying device and is suitable for collecting and conveying liquid sprayed by the spraying device;

the separation device is connected with the conveying device and is suitable for receiving the liquid conveyed by the conveying device, separating and sampling the liquid;

the separation device includes: the separation mechanism, the bearing mechanism and the sampling mechanism;

the separation mechanism is arranged below the conveying device;

the bearing mechanism is arranged in the separating mechanism;

the sampling mechanism is arranged in the separation mechanism, and the sampling mechanism is arranged below the bearing mechanism;

the liquid conveyed by the conveying device is contained by the bearing mechanism, impurities in the liquid are separated by the separating device, and the liquid in the bearing mechanism is sampled by the sampling mechanism;

the separation mechanism includes: a sleeve;

the sleeve is arranged in an open manner;

a plurality of sliding grooves are formed in the inner wall of the sleeve along the length direction of the sleeve;

a first storage groove and a second storage groove are formed in the inner wall of the sleeve between the adjacent sliding grooves;

the first storage tank is disposed above the second storage tank;

the first storage groove is provided with a first strip-shaped opening, and the first strip-shaped opening is formed in the inner wall of the sleeve;

a second strip-shaped opening is formed in the second storage tank, and the second strip-shaped opening is formed in the inner wall of the sleeve;

the first storage groove and the corresponding second storage groove are isolated by a grid plate;

a partition plate is arranged in the sleeve and is arranged below the second strip-shaped opening;

a drainage plate is arranged above the partition plate and is arranged below the second strip-shaped opening;

a plurality of water outlet holes are circumferentially formed in the inner wall of the sleeve, the water outlet holes are formed between the drainage plate and the partition plate, and the water outlet holes are communicated with the second storage tank;

the bearing mechanism comprises: a flexible member and a water intake assembly;

the flexible member is arranged in the sleeve;

the outer wall of the flexible part is provided with a sliding block matched with the sliding groove, and the sliding block is suitable for sliding in the sliding groove;

the sampling mechanism is arranged on the partition plate and penetrates through the drainage plate;

the water intake assembly is disposed on the flexible member and extends through the flexible member toward the sampling mechanism.

2. The water recovery and delivery system for animal husbandry as claimed in claim 1,

the water intaking subassembly includes: a barrel;

the side wall of the cylinder body is provided with a one-way valve which is communicated with the inner wall of the cylinder body;

a sampling port is arranged on the bottom surface of the cylinder body;

the side wall of the cylinder body is provided with an elastic ring, and the elastic ring is arranged above the connection position of the cylinder body and the flexible part;

a moving plate is arranged on the side wall of the cylinder body, and two ends of the moving plate extend into grooves formed in the side wall of the cylinder body;

the moving plate is suitable for sliding in the groove, so that the moving plate moves along the length direction of the cylinder;

the movable plate is provided with a limiting ring, and the limiting ring is arranged in the cylinder body;

and a flushing hole is formed in the side wall of the cylinder body and communicated with a groove positioned below the flushing hole in the two grooves.

3. The water recovery and delivery system for animal husbandry as claimed in claim 2,

the sampling mechanism includes: a limiting column;

the limiting column is arranged on the partition plate and penetrates through the drainage plate to be arranged in the direction of the opening;

a positioning groove is formed in the upper end face of the partition plate, and a chamfer is arranged at the edge of the positioning groove;

the positioning groove is matched with the cylinder body;

the limiting column is internally provided with a sampling column along the length direction of the limiting column, and the sampling column is internally provided with sampling holes along the length direction of the sampling column.

4. The water recovery and delivery system for animal husbandry as claimed in claim 3,

the partition plate is provided with a mounting groove, the sampling column is fixedly connected with the bottom surface of the mounting groove, and the limiting column is connected with the bottom surface of the mounting groove through a spring.

5. The water reclamation delivery system as recited in claim 4,

the sampling mechanism further comprises: a sampling tube;

the sampling tube is in communication with the sampling aperture and the sampling tube extends out of the sleeve.

6. The water reclamation delivery system as recited in claim 5,

the conveying device comprises: a delivery pipe and a water pump;

the conveying pipe is arranged on the support, and a water outlet pipe of the conveying pipe is arranged above the sleeve;

the water pump is connected to the delivery tube, the water pump being adapted to pump collected liquid into the delivery tube to deliver the liquid into the sleeve.

7. A method of operating the water reclamation and delivery system as recited in claim 1, comprising:

spraying the livestock breeding area through a spraying device;

collecting and conveying the liquid sprayed by the spraying device through the conveying device; and

and receiving the liquid conveyed by the conveying device through the separation device, and separating and sampling the liquid.

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