CN114521512A

CN114521512A - Intelligent livestock and poultry waterline control system based on bus communication

Info

Publication number: CN114521512A
Application number: CN202210155828.9A
Authority: CN
Inventors: 吴玮; 温慧; 王喜云
Original assignee: Ganzhou Shanghang Technology Co ltd
Current assignee: Ganzhou Shanghang Technology Co ltd
Priority date: 2022-02-21
Filing date: 2022-02-21
Publication date: 2022-05-24
Anticipated expiration: 2042-02-21
Also published as: CN114521512B

Abstract

The invention relates to a waterline control system, in particular to an intelligent livestock waterline control system based on bus communication. The invention aims to provide an intelligent livestock and poultry waterline control system based on bus communication, which is convenient for people to use. The invention provides an intelligent livestock and poultry waterline control system based on bus communication, which comprises a water replenishing pipe, water inlet pipes, a control assembly and the like, wherein the bottom of the water replenishing pipe is provided with the water inlet pipes at intervals for transmitting water to a water tank and communicated with the water inlet pipes, and the left part of the water replenishing pipe is provided with the control assembly for sending signals. According to the invention, the carrier wave controller can send out the carrier wave signal, so that the corresponding electromagnetic valve can be controlled to be electrified and opened as required to complete water supply work, the power supply cable can supply power to the carrier wave controller and can also transmit the carrier wave signal, thus the bus control function can be achieved, the number of cables is reduced, and the installation and subsequent overhaul work are convenient.

Description

Intelligent livestock and poultry waterline control system based on bus communication

Technical Field

The invention relates to a waterline control system, in particular to an intelligent livestock waterline control system based on bus communication.

Background

At present, in-process is bred to beasts and birds, because beasts and birds all need to drink water every day, so all need artifically to add water to the basin every day, comparatively extravagant manpower.

Patent application CN206512786U, published day 20170922, a beasts and birds water supply system is disclosed, including the water supply line, the water supply line includes the water pump that connects gradually with the water pipe, the pressurization jar, the dosing tank, the relief pressure valve, waterline and cistern, the end of intaking of water pump is from the well water intaking, the drainage end of waterline extends to in the cistern, be provided with the flushometer between pressurization jar and the dosing tank, the flushometer is the three-way valve, its end of intaking is connected with the play water end of dosing tank, the end of intaking of dosing tank is connected to its play water end one end, the end of intaking of flushing pipe way is connected to the other end, the play water end of relief pressure valve is through tee bend and the play water end of flushing pipe way and the end intercommunication of intaking of waterline. The invention has reasonable design, simple structure and convenient use, can wash the waterline in two directions, namely positive and negative directions except for normal water supply, ensures the cleanness of the waterline and is beneficial to the healthy growth of poultry. Although the purpose of intelligence accuse water can be realized to above-mentioned patent, but the circuit is complicated and intricate, and master controller and solenoid valve all need use different cables to accomplish the power supply and transmit signal's function, inconvenient people's installation and subsequent maintenance work.

In summary, an intelligent livestock and poultry waterline control system based on bus communication, which is convenient for people to use, is urgently needed at present to solve the problems.

Disclosure of Invention

In order to overcome the defects that the conventional livestock and poultry water supply system generally needs a plurality of cables to finish the functions of power supply and signal transmission, and is inconvenient for people to install and carry out subsequent maintenance work, the invention aims to provide an intelligent livestock and poultry waterline control system based on bus communication, which is convenient for people to use.

The invention is realized by the following technical approaches:

intelligence beasts and birds waterline control system based on bus communication, including the moisturizing pipe, the inlet tube, control assembly, the signal reception subassembly, executive component and seal assembly, the bottom interval of moisturizing pipe is equipped with the inlet tube and the intercommunication that are used for transmitting water to the basin, the left part of moisturizing pipe is equipped with the control assembly who is used for the signals, be equipped with the signal reception subassembly that is used for receiving and decoding the signal on the moisturizing pipe, inlet tube upper portion is equipped with the executive component who is used for controlling the circulation of water, the inlet tube lower part is equipped with the seal assembly that is used for playing the guard action.

Optionally, the control assembly includes a fixing base, a carrier controller and a power supply cable, the fixing base is arranged at the left part of the water replenishing pipe, the carrier controller is arranged at the top of the fixing base, and the power supply cable is arranged at the lower part of the right side of the carrier controller.

Optionally, the signal receiving assembly comprises a three-way pipe, a signal converter and an actuator, the three-way pipe is arranged on the water replenishing pipe at intervals, the lower portion of the three-way pipe is connected with the upper portion of the outer side of the adjacent water inlet pipe, the signal converter is arranged at the top of the three-way pipe, the upper portion of the signal converter is connected with the power supply cable, and the actuator is arranged on the front side of the signal converter.

Optionally, the executing assembly comprises a control line and an electromagnetic valve, the electromagnetic valve is arranged on the upper portion of the water inlet pipe, and the control line is arranged between the upper portion of the front side of the electromagnetic valve and the adjacent actuator.

Optionally, the seal assembly is including solid fixed ring, the protecting tube, the slip pipe, spring and sealing ring, the outside middle part of inlet tube all is equipped with solid fixed ring, gu the fixed ring outside all is equipped with the protecting tube, the outside lower part of inlet tube all slidingtype is equipped with the slip pipe, the slip pipe all is located inside adjacent protecting tube, all be equipped with the spring between slip pipe top and the adjacent solid fixed ring, the spring all overlaps in the adjacent inlet tube outside, the inlet tube bottom all is equipped with the sealing ring, the sealing ring all with adjacent slip intraductal bottom contact, the apopore has all been opened to the left side lower part of slip pipe.

Optionally, the water level detection device also comprises a water level detection assembly for automatically controlling the opening and closing of the electromagnetic valve, the water level detection assembly comprises a connecting plate, a sealing pipe, a first contact switch, a second contact switch, signal lines, iron columns, magnet rings, sliding rings, floating blocks and a limiting plate, the connecting plate is arranged on the right side of the protecting pipe, the sealing pipe is arranged on the right side of the connecting plate, the first contact switch is arranged on the upper portion of the inner side of the sealing pipe, the second contact switch is arranged on the lower portion of the inner side of the sealing pipe, the signal lines are arranged between the top of the sealing pipe and the adjacent signal converter, the iron columns are arranged on the lower portion of the inner side of the sealing pipe in a sliding mode and are in contact with the second contact switch, the magnet rings are arranged on the lower portion of the outer sides of the sealing pipe in a sliding mode, the magnet rings attract the iron columns, the sliding rings are arranged on the bottoms of the magnet rings and are connected with the adjacent sealing pipes in a sliding mode, and the floating blocks are arranged on the outer sides of the sealing rings, limiting plates are symmetrically arranged on the outer side of the sealing pipe up and down, and the bottoms of the sliding rings are all in contact with the adjacent limiting plates.

Optionally, still including being used for avoiding the guide subassembly that rivers splashed, the guide subassembly is including connecting rod, outlet pipe and filter screen, and the left side lower part of slip pipe all is equipped with the connecting rod, and the top of connecting rod all is equipped with the outlet pipe, and the left side of outlet pipe all is equipped with the filter screen.

Optionally, still including the isolation subassembly that is used for protecting the outlet pipe, the isolation subassembly is including articulated frame, the hinge ring, the gag lever post, the closed frame, the shell fragment, counter weight ball and contact plate, the left side middle part of protective tube all is equipped with articulated frame, the equal rotary type in left side lower part of articulated frame is equipped with the hinge ring, the left side lower part of articulated frame all is equipped with the gag lever post, the gag lever post is located the hinge ring left side, the hinge ring bottom all is equipped with the closed frame, the right side lower part of hinge ring all is equipped with the shell fragment, the shell fragment all contacts with adjacent outlet pipe, the top right side of shell fragment all is equipped with the counter weight ball, the right side of closed frame all is equipped with the contact plate, the contact plate all contacts with adjacent outlet pipe left side.

Optionally, still including the clean subassembly that is used for clearing up the filter screen, clean subassembly is including violently managing, a screw thread section of thick bamboo, bevel block, scraper blade and clockwork spring, and the sealing frame lower part all is equipped with violently the pipe, violently manages the equal screw thread formula in left side and is equipped with a screw thread section of thick bamboo, and the inboard lower part of violently managing all is equipped with the bevel block, and the equal rotary type in lower part right side of sealing frame is equipped with the scraper blade, and the scraper blade all contacts with adjacent filter screen, all is equipped with the clockwork spring between scraper blade front side and the adjacent sealing frame.

Compared with the prior art, the invention has the following advantages:

1. according to the invention, the carrier wave controller can send out the carrier wave signal, so that the corresponding electromagnetic valve can be controlled to be electrified and opened as required to complete water supply work, the power supply cable can supply power to the carrier wave controller and can also transmit the carrier wave signal, thus the bus control function can be achieved, the number of cables is reduced, and the installation and subsequent maintenance work are convenient.

2. According to the intelligent water control device, the iron column can be driven to move up and down through the up-and-down movement of the floating block, so that the iron column can be respectively contacted with the first contact switch and the second contact switch, the electromagnetic valve can be controlled to be opened and closed, the purpose of intelligent water control is achieved, and people do not need to stay beside the water tank all the time.

3. The water outlet pipe can guide water flowing into the water tank, and the ground is prevented from being wet due to splashing of water flow.

Drawings

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

Fig. 2 is a schematic perspective view of the control assembly, the receiving assembly and the executing assembly according to the present invention.

Fig. 3 is a schematic view, partially in section, of a closure assembly of the present invention.

Fig. 4 is a partial sectional structural view of the water level detecting assembly according to the present invention.

Fig. 5 is a partial cross-sectional structural schematic view of the guide assembly of the present invention.

Fig. 6 is a schematic perspective view of the isolation assembly of the present invention.

Fig. 7 is a schematic view, partly in section, of a cleaning assembly according to the invention.

Fig. 8 is a schematic perspective view of a portion of a cleaning assembly of the present invention.

Description of reference numerals: 1_ water tank, 2_ water replenishing pipe, 3_ water inlet pipe, 4_ control component, 41_ fixing seat, 42_ carrier controller, 43_ power supply cable, 5_ signal receiving component, 51_ three-way pipe, 52_ signal converter, 53_ actuator, 6_ actuator component, 61_ control line, 62_ solenoid valve, 7_ closing component, 71_ fixing ring, 72_ protective pipe, 73_ sliding pipe, 74_ spring, 75_ sealing ring, 76_ water outlet hole, 8_ water level detection component, 81_ connecting plate, 82_ sealing pipe, 83_ first contact switch, 84_ second contact switch, 85_ signal line, 86_ iron column, 87_ magnet ring, 88_ sliding ring, 89_ floating block, 810_ limit plate, 9_ guide component, 91_ connecting rod, 92_ water outlet pipe, 93_ filter screen, 10_ isolation component, 101_ hinge frame, 102_ hinge ring, 103_ limit rod, 104_ closed frame, 105_ shrapnel, 106_ counterweight ball, 107_ contact plate, 11_ cleaning component, 111_ horizontal tube, 112_ thread cylinder, 113_ inclined plane block, 114_ scraper and 115_ clockwork spring.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

Example 1

Intelligence beasts and birds waterline control system based on bus communication, refer to fig. 1-3, including moisturizing pipe 2, inlet tube 3, control assembly 4, signal reception subassembly 5, execute subassembly 6 and seal assembly 7, the bottom interval of moisturizing pipe 2 is equipped with inlet tube 3 and intercommunication, after moisturizing pipe 2 external water source, water can transmit to basin 1 in through inlet tube 3, the left part of moisturizing pipe 2 is equipped with control assembly 4, be equipped with signal reception subassembly 5 on moisturizing

pipe

2, 3 upper portions of inlet tube are equipped with execute subassembly 6, 3 lower parts of inlet tube are equipped with seal assembly 7.

Referring to fig. 1 and 2, the control assembly 4 includes a fixing base 41, a carrier controller 42 and a power supply cable 43, the fixing base 41 is disposed at the left portion of the water replenishing pipe 2, the carrier controller 42 is bolted to the top of the fixing base 41, the power supply cable 43 is disposed at the lower portion of the right side of the carrier controller 42, the carrier controller 42 can send out a carrier signal, and the power supply cable 43 can both supply power and transmit the carrier signal.

Referring to fig. 1 and 2, the signal receiving assembly 5 includes a tee 51, a signal converter 52 and an actuator 53, the tee 51 is arranged on the water replenishing pipe 2 at intervals, the lower part of each tee 51 is connected with the upper part of the outer side of the adjacent water inlet pipe 3, the signal converter 52 is bolted to the top of each tee 51, the upper part of each signal converter 52 is connected with the power supply cable 43, the signal converter 52 can receive and decode carrier signals, and the actuator 53 is arranged on the front side of each signal converter 52.

Referring to fig. 1 and 2, the actuating assembly 6 includes a control line 61 and a solenoid valve 62, the solenoid valves 62 are disposed on the upper portions of the water inlet pipes 3, the control line 61 is disposed between the upper front side of each solenoid valve 62 and the adjacent actuator 53, and the actuator 53 can control the opening and closing of each solenoid valve 62 through the control line 61.

Referring to fig. 2 and 3, the seal assembly 7 includes solid fixed ring 71, the protecting tube 72, the sliding tube 73, spring 74 and sealing ring 75, gu fixed ring 71 has all been welded at the outside middle part of inlet tube 3, gu fixed ring 71 all is equipped with the protecting tube 72 in the outside, the outside lower part of inlet tube 3 all slidingly is equipped with the sliding tube 73, the sliding tube 73 all is located inside adjacent protecting tube 72, all be equipped with spring 74 between sliding tube 73 top and the adjacent solid fixed ring 71, spring 74 all overlaps in the adjacent inlet tube 3 outside, inlet tube 3 bottom all is equipped with sealing ring 75, sealing ring 75 all contacts with the bottom in the adjacent sliding tube 73, sealing ring 75 can protect inlet tube 3, avoid debris to get into in the inlet tube 3, the left side lower part of sliding tube 73 all opens there is apopore 76.

When people need to use the device, firstly, the device is installed at a designated position, so that the whole device is positioned above the water tank 1, then the water replenishing pipe 2 is externally connected with a water source, the power supply cable 43 supplies power to the carrier wave controller 42 and the signal converter 52, when people need to supply water to the water tank 1, the carrier wave controller 42 can send a carrier wave signal, the carrier wave signal can be transmitted to the signal converter 52 through the power supply cable 43, the signal converter 52 can decode the carrier wave signal, then the control signal is transmitted to the actuator 53, the actuator 53 can control the corresponding electromagnetic valve 62 to be electrified and opened through the corresponding control line 61, at the moment, the water in the water replenishing pipe 2 can flow downwards through the corresponding water inlet pipe 3, the water flow can impact the sliding pipe 73, so that the sliding pipe 73 can move downwards, the spring 74 is stretched, so that the protective pipe 72 does not block the water outlet 76, at the moment, the water flow can be introduced into the water tank 1 through the water outlet 76, thereby can supply water to basin 1, make the beasts and birds that people bred can drink the water in the basin 1, when being equipped with a certain amount of water in the basin 1, people can send carrier wave signal through carrier wave controller 42, thereby make executor 53 receive corresponding control signal, executor 53 can control corresponding solenoid valve 62 outage through corresponding control line 61 and close, make water no longer down drop through inlet tube 3, spring 74 can the reconversion this moment, it resets to drive slide tube 73 up motion, sealing ring 75 plays sealed effect, avoid the water in the basin 1 to get into in the inlet tube 3, protective tube 72 blocks apopore 76 again this moment, so, can be according to people's needs, control different solenoid valve 62 and open or close, reach the purpose of intelligent accuse water.

Example 2

On the basis of embodiment 1, referring to fig. 2 and 4, the electromagnetic valve device further comprises a water level detection assembly 8, wherein the water level detection assembly 8 comprises a connecting plate 81, a sealing pipe 82, a first contact switch 83, a second contact switch 84, a signal line 85, an iron column 86, a magnet ring 87, a sliding ring 88, a floating block 89 and a limiting plate 810, the connecting plate 81 is welded on the right side of the protective pipe 72, the sealing pipe 82 is arranged on the right side of the connecting plate 81, the first contact switch 83 is arranged on the upper portion of the inner side of the sealing pipe 82, the second contact switch 84 is arranged on the lower portion of the inner side of the sealing pipe 82, the signal line 85 is arranged between the top of the sealing pipe 82 and the adjacent signal converter 52, the first contact switch 83 and the second contact switch 84 can transmit signals to the signal converter 52 through the signal line 85, so that the purpose of controlling the electromagnetic valve 62 to open or close is achieved, and manual work is not required to be kept aside, iron column 86 is equipped with to the inboard lower part of sealed tube 82 all slidingtype, iron column 86 and the contact of second contact switch 84, the outside lower part of sealed tube 82 all slidingtype is equipped with magnet ring 87, magnet ring 87 holds iron column 86, magnet ring 87's bottom all is equipped with slip ring 88, slip ring 88 all is connected with adjacent sealed tube 82 slidingtype, magnet ring 87's the outside all is equipped with floating block 89, the outside longitudinal symmetry welding of sealed tube 82 has limiting plate 810, slip ring 88 bottom all contacts with adjacent limiting plate 810.

When water in the water replenishing pipe 2 falls down into the water tank 1 through the water inlet pipe 3, more and more water in the water tank 1 can be generated, at the moment, the floating block 89 moves upwards along with the rise of the water level to drive the sliding ring 88 and the magnet ring 87 to move upwards, the magnet ring 87 can drive the iron column 86 to move upwards under the action of magnetic force, so that the iron column 86 is separated from the second contact switch 84, when the iron column 86 is contacted with the first contact switch 83, the first contact switch 83 sends out a signal, the signal can be transmitted to the signal converter 52 through the signal wire 85, the signal converter 52 can decode the signal and then transmit a control signal to the actuator 53, the actuator 53 can control the corresponding electromagnetic valve 62 to be powered off and closed, so that the water in the water replenishing pipe 2 does not fall down through the water inlet pipe 3, as the water in the water tank 1 is less and less, under the action of gravity, the floating block 89, the sliding ring 88 and the magnet ring 87 can move downwards and reset, under the effect of magnetic force, magnet ring 87 can drive iron prop 86 and move down and reset, make iron prop 86 and first contact switch 83 separate, when iron prop 86 and second contact switch 84 contact, second contact switch 84 signals, the signal can transmit to signal converter 52 through signal line 85, signal converter 52 can decode the signal, then control signal transmission to executor 53, executor 53 can control corresponding solenoid valve 62 circular telegram and open, water in moisturizing pipe 2 can pass through inlet tube 3 and drop down to in the basin 1, so reciprocal, can reach the purpose of intelligence accuse water, do not need people to keep on all the time beside basin 1, limiting plate 810 can play limiting displacement, avoid slip ring 88 to slide the end.

Referring to fig. 2 and 5, still including guide assembly 9, guide assembly 9 is including connecting rod 91, outlet pipe 92 and filter screen 93, and connecting rod 91 has all been welded to the left side lower part of sliding tube 73, and the top of connecting rod 91 all is equipped with outlet pipe 92, and outlet pipe 92 and protective tube 72 sliding type connection, outlet pipe 92 can lead water, avoid water to splash, and the left side of outlet pipe 92 all is equipped with filter screen 93.

When sliding tube 73 moves down, can drive connecting rod 91, outlet pipe 92 and filter screen 93 move down, the rivers can let in basin 1 through apopore 76 this moment, outlet pipe 92 can play the guide effect to rivers, play the cushioning effect, avoid because rivers take place to splash too urgently, outlet pipe 92 can be protected to filter screen 93, avoid debris in the basin 1 to get into in outlet pipe 92, when sliding tube 73 moves up and resets, can drive connecting rod 91, outlet pipe 92 and filter screen 93 move up and reset.

Referring to fig. 2, 6 and 7, the water-saving water tank further comprises an isolation assembly 10, the isolation assembly 10 comprises a hinge frame 101, hinge rings 102, a limiting rod 103, a closed frame 104, elastic sheets 105, counterweight balls 106 and contact plates 107, the hinge frame 101 is welded in the middle of the left side of the protection pipe 72, the hinge rings 102 are arranged in the lower portion of the left side of the hinge frame 101 in a rotating mode, the limiting rod 103 is arranged on the lower portion of the left side of the hinge frame 101, the limiting rod 103 is located on the left side of the hinge ring 102, the closed frame 104 is arranged at the bottom of the hinge ring 102, the elastic sheets 105 are arranged on the lower portion of the right side of the hinge ring 102, the elastic sheets 105 are in contact with the adjacent water outlet pipe 92, the counterweight balls 106 are arranged on the right side of the top of the elastic sheets 105, the contact plates 107 are arranged on the right side of the closed frame 104, the contact plates 107 are in contact with the left side of the adjacent water outlet pipe 92, and therefore water in the water tank 1 can be prevented from entering the water outlet pipe 92.

Referring to fig. 2, 6, 7 and 8, the cleaning device 11 is further included, the cleaning device 11 includes a horizontal tube 111, a thread cylinder 112, a slope block 113, scrapers 114 and a clockwork spring 115, the lower portion of the closed frame 104 is provided with the horizontal tube 111, the left side of the horizontal tube 111 is provided with the thread cylinder 112 in a threaded manner, the lower portion of the inner side of the horizontal tube 111 is welded with the slope block 113, the scrapers 114 are arranged on the right side of the lower portion of the closed frame 104 in a rotating manner, the scrapers 114 are all in contact with the adjacent filter screen 93, the scrapers 114 can scrape off sundries stained on the filter screen 93, and the clockwork spring 115 is arranged between the front side of each scraper 114 and the adjacent closed frame 104.

Initially, the spring 115 and the elastic piece 105 are both in a deformed state, the scraper 114 is always in contact with the filter screen 93 under the elastic force of the spring 115, when the water outlet pipe 92 and the filter screen 93 move downwards, the water outlet pipe 92 is separated from the elastic piece 105, the elastic piece 105 is restored to the original state, the counterweight ball 106 is driven to rotate downwards, at this time, the scraper 114 scrapes off impurities stained on the filter screen 93, so that the impurities fall onto the inclined plane block 113, after the water outlet pipe 92 is completely separated from the elastic piece 105, the counterweight ball 106 moves downwards under the action of gravity, the elastic piece 105, the hinged ring 102, the sealing frame 104 and the contact plate 107 are driven to rotate, the limiting rod 103 can limit the hinged ring 102, the sealing frame 104 drives the scraper 114 to rotate leftwards, the scraper 114 is separated from the filter screen 93, the elastic piece 115 is restored to the original state, the scraper 114 is driven to rotate downwards, when the water outlet pipe 92 and the filter screen 93 move upwards to reset, the water outlet pipe 92 is in contact with the elastic piece 105, the pressing spring 105 rotates upwards to reset, so as to drive the counterweight ball 106 to move upwards to reset, meanwhile, the spring 105 drives the hinged ring 102, the closed frame 104 and the contact plate 107 to reset in a reverse rotation mode, the closed frame 104 drives the scraper 114 to reset in a right rotation mode, when the scraper 114 is in contact with the filter screen 93, the filter screen 93 can press the scraper 114 to rotate upwards to reset, the clockwork spring 115 deforms, so that the contact plate 107 blocks the left side of the water outlet pipe 92 again to play a protection role, at the moment, the hinged ring 102, the closed frame 104 and the contact plate 107 stop reversing, the water outlet pipe 92 presses the spring 105 to continue to rotate upwards, the spring 105 deforms, the spring 105 drives the counterweight ball 106 to rotate upwards to reset, the reciprocating mode is carried out, sundries can be accumulated inside the transverse pipe 111 and the threaded cylinder 112, when a certain amount of sundries are filled inside the transverse pipe 111 and the threaded cylinder 112, people can rotate the threaded cylinder 112 to open the threaded cylinder 112 and then clean the sundries, the threaded barrel 112 is then reversed back into place.

Although embodiments of the present invention have been shown and described, it would be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the claims and their equivalents.

Claims

1. Intelligence beasts and birds waterline control system based on bus communication, including moisturizing pipe (2) and inlet tube (3), the bottom interval of moisturizing pipe (2) is equipped with inlet tube (3) and the intercommunication that is used for transmitting water to basin (1), a serial communication port, still including control assembly (4), signal reception subassembly (5), executive component (6) and seal assembly (7), the left part of moisturizing pipe (2) is equipped with control assembly (4) that are used for signals, be equipped with signal reception subassembly (5) that are used for receiving and decoding the signal on moisturizing pipe (2), inlet tube (3) upper portion is equipped with executive component (6) that are used for controlling the circulation of water, inlet tube (3) lower part is equipped with seal assembly (7) that are used for playing the guard action.

2. The intelligent livestock and poultry waterline control system based on bus communication according to claim 1, characterized in that the control component (4) comprises a fixed seat (41), a carrier controller (42) and a power supply cable (43), the fixed seat (41) is arranged at the left part of the water replenishing pipe (2), the carrier controller (42) is arranged at the top of the fixed seat (41), and the power supply cable (43) is arranged at the lower part of the right side of the carrier controller (42).

3. The intelligent livestock and poultry waterline control system based on bus communication as claimed in claim 2, wherein the signal receiving assembly (5) comprises a three-way pipe (51), a signal converter (52) and an actuator (53), the three-way pipe (51) is arranged on the water replenishing pipe (2) at intervals, the lower part of the three-way pipe (51) is connected with the upper part of the outer side of the adjacent water inlet pipe (3), the signal converter (52) is arranged at the top of the three-way pipe (51), the upper part of the signal converter (52) is connected with the power supply cable (43), and the actuator (53) is arranged at the front side of the signal converter (52).

4. The intelligent livestock and poultry waterline control system based on bus communication according to claim 3, characterized in that the execution assembly (6) comprises a control line (61) and an electromagnetic valve (62), the electromagnetic valves (62) are arranged on the upper parts of the water inlet pipes (3), and the control line (61) is arranged between the upper part of the front side of each electromagnetic valve (62) and the adjacent actuator (53).

5. The intelligent livestock and poultry waterline control system based on bus communication according to claim 4, wherein the closing component (7) comprises a fixed ring (71) and a protective tube (72), slide tube (73), spring (74) and sealing ring (75), the outside middle part of inlet tube (3) all is equipped with solid fixed ring (71), gu fixed ring (71) outside all is equipped with protecting tube (72), the outside lower part of inlet tube (3) all slidingly is equipped with slide tube (73), slide tube (73) all are located adjacent protecting tube (72) inside, all be equipped with spring (74) between slide tube (73) top and adjacent solid fixed ring (71), spring (74) all overlap in adjacent inlet tube (3) outside, inlet tube (3) bottom all is equipped with sealing ring (75), bottom contact in sealing ring (75) all with adjacent slide tube (73), apopore (76) have all been opened to the left side lower part of slide tube (73).

6. The intelligent livestock and poultry waterline control system based on bus communication according to claim 5, characterized by further comprising a water level detection assembly (8) for automatically controlling the opening and closing of the electromagnetic valve (62), wherein the water level detection assembly (8) comprises a connecting plate (81), a sealing tube (82), a first contact switch (83), a second contact switch (84), a signal line (85), an iron column (86), a magnet ring (87), a sliding ring (88), a floating block (89) and a limiting plate (810), the right side of the protecting tube (72) is provided with the connecting plate (81), the right side of the connecting plate (81) is provided with the sealing tube (82), the upper part of the inner side of the sealing tube (82) is provided with the first contact switch (83), the lower part of the inner side of the sealing tube (82) is provided with the second contact switch (84), the signal line (85) is arranged between the top of the sealing tube (82) and the adjacent signal converter (52), the inboard lower part of sealed tube (82) all slidingtype is equipped with iron prop (86), iron prop (86) and second contact switch (84) contact, the outside lower part of sealed tube (82) all is equipped with slidingtype magnet ring (87), iron prop (86) are inhaled in magnet ring (87), the bottom of magnet ring (87) all is equipped with slip ring (88), slip ring (88) all with adjacent sealed tube (82) sliding connection, the outside of magnet ring (87) all is equipped with floating block (89), the outside longitudinal symmetry of sealed tube (82) is equipped with limiting plate (810), slip ring (88) bottom all contacts with adjacent limiting plate (810).

7. The intelligent livestock and poultry waterline control system based on bus communication according to claim 6, characterized by further comprising a guide component (9) for avoiding splashing of water flow, wherein the guide component (9) comprises a connecting rod (91), a water outlet pipe (92) and a filter screen (93), the lower part of the left side of the sliding pipe (73) is provided with the connecting rod (91), the top of the connecting rod (91) is provided with the water outlet pipe (92), and the left side of the water outlet pipe (92) is provided with the filter screen (93).

8. The intelligent livestock and poultry waterline control system based on bus communication according to claim 7, characterized by further comprising an isolation component (10) for protecting the water outlet pipe (92), wherein the isolation component (10) comprises a hinged frame (101), hinged rings (102), a limiting rod (103), a closed frame (104), an elastic sheet (105), a counterweight ball (106) and a contact plate (107), the hinged frame (101) is arranged in the middle of the left side of the protective pipe (72), the hinged rings (102) are rotatably arranged on the lower portion of the left side of the hinged frame (101), the limiting rod (103) is positioned on the left side of the hinged rings (102), the closed frame (104) is arranged at the bottom of the hinged rings (102), the elastic sheet (105) is arranged on the lower portion of the right side of the hinged rings (102), and the elastic sheet (105) is in contact with the adjacent water outlet pipe (92), the top right side of shell fragment (105) all is equipped with counter weight ball (106), and the right side of sealing frame (104) all is equipped with contact plate (107), and contact plate (107) all contacts with adjacent outlet pipe (92) left side.

9. The intelligent livestock and poultry waterline control system based on bus communication according to claim 8, characterized by further comprising a cleaning assembly (11) for cleaning the filter screen (93), wherein the cleaning assembly (11) comprises a transverse pipe (111), a threaded cylinder (112), a bevel block (113), a scraper (114) and a spiral spring (115), the transverse pipe (111) is arranged on the lower portion of the closed frame (104), the threaded cylinder (112) is arranged on the left side of the transverse pipe (111) in a threaded manner, the bevel block (113) is arranged on the lower portion of the inner side of the transverse pipe (111), the scraper (114) is arranged on the right side of the lower portion of the closed frame (104) in a rotating manner, the scrapers (114) are in contact with the adjacent filter screen (93), and the spiral spring (115) is arranged between the front side of the scraper (114) and the adjacent closed frame (104).