CN110741941B - Excrement and urine discharge pipe connects discharging equipment for animal husbandry - Google Patents
Excrement and urine discharge pipe connects discharging equipment for animal husbandry Download PDFInfo
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- CN110741941B CN110741941B CN201911055218.6A CN201911055218A CN110741941B CN 110741941 B CN110741941 B CN 110741941B CN 201911055218 A CN201911055218 A CN 201911055218A CN 110741941 B CN110741941 B CN 110741941B
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- 241001465754 Metazoa Species 0.000 title claims abstract description 20
- 210000002700 urine Anatomy 0.000 title claims description 3
- 238000007599 discharging Methods 0.000 title abstract description 22
- 238000007789 sealing Methods 0.000 claims abstract description 7
- 239000007788 liquid Substances 0.000 claims description 140
- 238000003780 insertion Methods 0.000 claims description 14
- 230000037431 insertion Effects 0.000 claims description 14
- 238000009434 installation Methods 0.000 claims description 14
- 230000000149 penetrating effect Effects 0.000 claims description 2
- 241000894006 Bacteria Species 0.000 abstract description 3
- 230000000694 effects Effects 0.000 abstract description 3
- 210000003608 fece Anatomy 0.000 abstract description 3
- 238000009395 breeding Methods 0.000 abstract description 2
- 230000001488 breeding effect Effects 0.000 abstract description 2
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 abstract description 2
- 230000002550 fecal effect Effects 0.000 description 5
- GUIJLPKNGJMXKV-AZUAARDMSA-N rod-188 Chemical compound C1=CC(C)=CC=C1S(=O)(=O)N1[C@@H]([C@H]2OC(=O)CC2)C2=CC=CC=C2CC1 GUIJLPKNGJMXKV-AZUAARDMSA-N 0.000 description 4
- 238000003975 animal breeding Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 239000010865 sewage Substances 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 239000000758 substrate Substances 0.000 description 1
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Classifications
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01K—ANIMAL HUSBANDRY; AVICULTURE; APICULTURE; PISCICULTURE; FISHING; REARING OR BREEDING ANIMALS, NOT OTHERWISE PROVIDED FOR; NEW BREEDS OF ANIMALS
- A01K1/00—Housing animals; Equipment therefor
- A01K1/01—Removal of dung or urine, e.g. from stables
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- Life Sciences & Earth Sciences (AREA)
- Environmental Sciences (AREA)
- Zoology (AREA)
- Animal Husbandry (AREA)
- Biodiversity & Conservation Biology (AREA)
- Infusion, Injection, And Reservoir Apparatuses (AREA)
- Mechanically-Actuated Valves (AREA)
Abstract
The invention discloses a connecting and discharging device of a feces discharging pipeline for animal husbandry, which comprises a main body shell. The invention is installed between the excrement discharging port and the excrement discharging pool in the breeding place, can completely discharge excrement, can automatically inject clean water after discharging, thereby sealing a gap between two spaces, preventing series flow of bacteria and air, and reducing negative effects caused by air mixing.
Description
Technical Field
The invention relates to the technical field of animal husbandry, in particular to a device for connecting and discharging a feces discharge pipeline for animal husbandry.
Background
At present, in animal husbandry, the excrement of animals needs to be intensively discharged, and the existing discharge connection ports are communicated, so that bacteria and odor in the excrement can be diffused to animal breeding places, and the negative effect on the environment is large.
Disclosure of Invention
The invention aims to provide a fecal discharging pipeline connecting and discharging device for animal husbandry, which solves the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: a fecal discharge pipe connection discharging device for animal husbandry comprises a main body shell, wherein a bottom mounting base plate of an integrated structure is arranged at the bottom of the side face of the main body shell, fecal inlet holes and liquid inlet holes are respectively formed in two ends of the inner side of the top of the main body shell, a U-shaped pipeline hole is formed in the main body shell and located between the fecal inlet holes and the liquid inlet holes, a component mounting groove structure is arranged at the bottom of the U-shaped pipeline hole, the top of the component mounting groove structure is connected with a rotary touch panel through a movable hinge, a curved structure with the same shape is arranged on the upper surface of the rotary touch panel and the center of the bottom of the U-shaped pipeline hole, movable hinges are respectively arranged at the bottom of the rotary touch panel and the side face of the component mounting groove structure, a gas driving component is arranged between the two movable hinges and connected with a telescopic mechanism, and a main gas reserved space is arranged under the liquid inlet hole of the main body shell, a gas pipeline connecting port is arranged on the side surface of the main body shell, the gas pipeline connecting port is communicated with the side surface of the component mounting groove structure through a main gas inlet hole, the end part of the main gas inlet hole is communicated with a gas inlet part of a gas driving type component connecting and stretching mechanism through a main air pipeline, an auxiliary gas inlet hole communicated with the middle part of the main gas inlet hole and the bottom center of the main gas reserved space is arranged in the main body shell, an air one-way valve is arranged in the auxiliary gas inlet hole, the exhaust port of the air one-way valve faces the main gas reserved space, a main exhaust hole communicated with the side surface of the main gas shell and the bottom side surface of the main gas reserved space is arranged in the main body shell, an auxiliary component mounting space is arranged in the middle part of the main exhaust hole, and a thread structure rotary air flow speed control mechanism is arranged in the auxiliary component mounting space, the main body shell is provided with a main part installation space at the position of the liquid inlet hole, a telescopic movable liquid flow control mechanism is installed inside the main part installation space, a main piston is installed inside the main gas reserved space, a main push rod is installed at the center of the top of the main piston, a rod body of the main push rod penetrates through the inside of the main body shell, the top of the main push rod is fixedly connected with the connecting position of the telescopic movable liquid flow control mechanism, and a compressed main spiral spring is sleeved on the rod body of the main push rod.
Further, the telescopic mobile liquid flow control mechanism comprises a hollow shell for the telescopic mobile liquid flow control mechanism, a through hole structure for the telescopic mobile liquid flow control mechanism, an internal moving space for the telescopic mobile liquid flow control mechanism, a liquid through hole for the telescopic mobile liquid flow control mechanism, a mobile valve block for the telescopic mobile liquid flow control mechanism and a connecting rod for the telescopic mobile liquid flow control mechanism; the inner center of the hollow shell for the telescopic mobile liquid flow control mechanism is provided with an inner mobile space for the telescopic mobile liquid flow control mechanism, the center of the bottom of the hollow shell for the telescopic mobile liquid flow control mechanism is provided with a through hole structure for the telescopic mobile liquid flow control mechanism, the bottom parts of two opposite sides of the hollow shell for the telescopic mobile liquid flow control mechanism are provided with liquid through holes for the telescopic mobile liquid flow control mechanism which are communicated with the external space and the internal moving space for the telescopic mobile liquid flow control mechanism, a movable valve block for the telescopic movable liquid flow control mechanism is arranged in the inner movable space for the telescopic movable liquid flow control mechanism, and a connecting rod for the telescopic movable liquid flow control mechanism is arranged at the center of the bottom of the movable valve block for the telescopic movable liquid flow control mechanism.
Furthermore, the telescopic mobile liquid flow control mechanism is installed in the main component installation space by using a hollow shell, the telescopic mobile liquid flow control mechanism is communicated with the liquid inlet hole by using a liquid through hole, and the bottom end of the connecting rod for the telescopic mobile liquid flow control mechanism is fixedly connected with the top of the main telescopic rod.
Further, the distance between the bottom of the liquid through hole for the telescopic movable liquid flow control mechanism and the bottom of the internal moving space for the telescopic movable liquid flow control mechanism is smaller than the height of the moving valve block for the telescopic movable liquid flow control mechanism, and the distance between the top of the liquid through hole for the telescopic movable liquid flow control mechanism and the top of the internal moving space for the telescopic movable liquid flow control mechanism is larger than the height of the moving valve block for the telescopic movable liquid flow control mechanism.
Further, the screw-structured rotary air flow rate control mechanism includes a housing for the screw-structured rotary air flow rate control mechanism, a center hole for the screw-structured rotary air flow rate control mechanism, a valve rod insertion hole for the screw-structured rotary air flow rate control mechanism, a moving space for the screw-structured rotary air flow rate control mechanism, a moving plate for the screw-structured rotary air flow rate control mechanism, a valve rod for the screw-structured rotary air flow rate control mechanism, a bearing for the screw-structured rotary air flow rate control mechanism, a threaded rod for the screw-structured rotary air flow rate control mechanism, a screw-structured screw for the screw-structured rotary air flow rate control mechanism, and a rotating plate for the screw-structured rotary air flow rate control mechanism; a center hole for the screw structure rotary air flow rate control mechanism is provided at the center of the center hole for the screw structure rotary air flow rate control mechanism at the bottom of the case for the screw structure rotary air flow rate control mechanism, a valve rod insertion hole for the screw structure rotary air flow rate control mechanism is provided at the center of the center hole for the screw structure rotary air flow rate control mechanism at the top of the valve rod insertion hole for the screw structure rotary air flow rate control mechanism, a moving space for the screw structure rotary air flow rate control mechanism is provided at the top of the valve rod insertion hole for the screw structure rotary air flow rate control mechanism, a moving plate for the screw structure rotary air flow rate control mechanism is installed inside the moving space for the screw structure rotary air flow rate control mechanism, a valve rod for the screw structure rotary air flow rate control mechanism is installed inside the valve rod insertion hole for the screw structure rotary air flow rate control mechanism, the top of the valve rod for the thread structure rotary air flow speed control mechanism is arranged at the center of the bottom of the moving plate for the thread structure rotary air flow speed control mechanism, the center of the upper surface of the moving plate for the thread structure rotary air flow speed control mechanism is provided with a threaded rod for the thread structure rotary air flow speed control mechanism through a bearing for the thread structure rotary air flow speed control mechanism, the rod body of the threaded rod for the thread structure rotary air flow speed control mechanism is arranged at the center of the top of the shell for the thread structure rotary air flow speed control mechanism through the thread structure for the thread structure rotary air flow speed control mechanism, and a rotating plate for the thread structure rotary air flow speed control mechanism is arranged at the top end of the threaded rod for the thread structure rotary air flow speed control mechanism.
Furthermore, the thread structure for the thread structure rotary air flow speed control mechanism comprises an external thread structure arranged on a threaded rod body for the thread structure rotary air flow speed control mechanism and an internal thread structure arranged on the inner wall of a shell for the structure moving screwing type liquid flow control mechanism.
Further, the housing for the screw structure rotation type air flow velocity control mechanism is installed inside the sub-component installation space, and the center hole for the screw structure rotation type air flow velocity control mechanism is communicated with the main exhaust hole.
Further, the gas-driven part connecting and telescoping mechanism comprises a cylindrical hollow shell for the gas-driven part connecting and telescoping mechanism, a hollow structure for the gas-driven part connecting and telescoping mechanism, a vent hole for the gas-driven part connecting and telescoping mechanism, a piston for the gas-driven part connecting and telescoping mechanism, a coil spring for the gas-driven part connecting and telescoping mechanism, a sealing ring for the gas-driven part connecting and telescoping mechanism, a telescopic rod for the gas-driven part connecting and telescoping mechanism, a first connecting bulge structure for the gas-driven part connecting and telescoping mechanism and a second connecting bulge structure for the gas-driven part connecting and telescoping mechanism; the gas drive type part connecting telescopic mechanism is characterized in that a hollow structure for a gas drive type part connecting telescopic mechanism is arranged in the center of the inside of a cylindrical hollow shell for the gas drive type part connecting telescopic mechanism, a vent hole for the gas drive type part connecting telescopic mechanism is arranged in one side of the cylindrical hollow shell for the gas drive type part connecting telescopic mechanism and communicated with the hollow structure for the gas drive type part connecting telescopic mechanism, a piston for the gas drive type part connecting telescopic mechanism is arranged in the vent hole for the gas drive type part connecting telescopic mechanism, a conical structure of an integrated structure is arranged on one end face of the piston for the gas drive type part connecting telescopic mechanism, and a compressed gas drive type part connecting telescopic mechanism spiral spring is arranged on the other end of the piston for the gas drive type part connecting telescopic mechanism, the piston for telescopic machanism is connected to gas-driven part installs a gas-driven part and connects telescopic machanism and use telescopic link at the center that lies in toper structure one end, the body of rod that telescopic machanism is connected to gas-driven part telescopic link runs through gas-driven part and connects telescopic machanism and use the center of cylindricality hollow shell one end, and both install gas-driven part at the position of running through and connect telescopic machanism and use the sealing washer, gas-driven part connection telescopic machanism is connected telescopic machanism with the cylindricality hollow shell other end and gas-driven part and is connected telescopic machanism and connect telescopic machanism with telescopic link one end and be provided with the gas-driven part of integral type structure respectively and connect protruding structure with the second of telescopic machanism and gas-driven part connection.
Furthermore, the first connecting bulge structure for the gas-driven part connecting telescopic mechanism and the second connecting bulge structure for the gas-driven part connecting telescopic mechanism are respectively arranged at the connecting parts of the two movable hinges.
Further, the gas-driven part is connected with the telescopic mechanism and communicated with the main connecting pipeline through a vent hole.
Compared with the prior art, the invention has the beneficial effects that: the invention is installed between the excrement discharging port and the excrement discharging pool in the breeding place, can completely discharge excrement, can automatically inject clean water after discharging, thereby sealing a gap between two spaces, preventing series flow of bacteria and air, and reducing negative effects caused by air mixing.
Drawings
FIG. 1 is a schematic view of a connecting and discharging device for excrement discharging pipeline in animal husbandry according to the present invention;
FIG. 2 is a schematic structural view of a telescopic mobile liquid flow control mechanism in a fecal sewage discharge pipe connecting discharge device for animal husbandry according to the present invention;
FIG. 3 is a schematic structural view of a rotary air flow speed control mechanism with a screw structure in the excrement discharge pipeline connecting and discharging device for animal husbandry according to the present invention;
FIG. 4 is a schematic structural view of a gas-driven type part connecting and telescoping mechanism in a excrement discharge pipeline connecting and discharging device for animal husbandry according to the present invention;
in the figure: 1, a main body housing, 2, a bottom mounting substrate, 3, a feces inlet hole, 4, a U-shaped pipe hole, 5, a component mounting groove structure, 6, a liquid inlet hole, 7, a main gas reserved space, 8, a curved structure, 9, a movable hinge, 10, a rotary touch panel, 11, a telescopic mobile liquid flow control mechanism, 111, a hollow housing for the telescopic mobile liquid flow control mechanism, 112, a through hole structure for the telescopic mobile liquid flow control mechanism, 113, an internal moving space for the telescopic mobile liquid flow control mechanism, 114, a liquid through hole for the telescopic mobile liquid flow control mechanism, 115, a moving valve block for the telescopic mobile liquid flow control mechanism, 116, a connecting rod for the telescopic mobile liquid flow control mechanism, 12, a gas pipe, 13, a main gas inlet hole, 14, an auxiliary gas inlet hole, 15, a main air pipe, 16, a main exhaust hole 17, an auxiliary member installation space 18, a screw structure rotary air flow rate control mechanism 181, a housing for a screw structure rotary air flow rate control mechanism 182, a center hole for a screw structure rotary air flow rate control mechanism 183, a stem insertion hole for a screw structure rotary air flow rate control mechanism 184, a moving space for a screw structure rotary air flow rate control mechanism 185, a moving plate for a screw structure rotary air flow rate control mechanism 186, a stem for a screw structure rotary air flow rate control mechanism 187, a bearing for a screw structure rotary air flow rate control mechanism 188, a threaded stem for a screw structure rotary air flow rate control mechanism 189, a screw structure for a screw structure rotary air flow rate control mechanism 1810, a rotating plate for a screw structure rotary air flow rate control mechanism, 19, a main piston, 20, a main push rod, 21, a main coil spring, 22, a main part mounting space, 23, a gas-driven part connecting telescopic mechanism, 231, a gas-driven part connecting telescopic mechanism cylindrical hollow shell, 232, a gas-driven part connecting telescopic mechanism hollow structure, 233, a gas-driven part connecting telescopic mechanism vent hole, 234, a gas-driven part connecting telescopic mechanism piston, 235, a gas-driven part connecting telescopic mechanism coil spring, 236, a gas-driven part connecting telescopic mechanism seal ring, 237, a gas-driven part connecting telescopic mechanism telescopic rod, 238, a gas-driven part connecting telescopic mechanism first connecting convex structure, 239, and a gas-driven part connecting telescopic mechanism second connecting convex structure.
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, an embodiment of the present invention: the device comprises a main body shell 1, a bottom mounting base plate 2 of an integrated structure is arranged at the bottom of the side surface of the main body shell 1, an excrement inlet hole 3 and a liquid inlet hole 6 are respectively arranged at two ends of the inner side of the top of the main body shell 1, a U-shaped pipeline hole 4 is arranged between the excrement inlet hole 3 and the liquid inlet hole 6 of the main body shell 1, a component mounting groove structure 5 is arranged at the bottom of the U-shaped pipeline hole 4, the top of the component mounting groove structure 5 is connected with a rotary touch panel 10 through a movable hinge 9, a curved structure 8 with the same shape is arranged on the upper surface of the rotary touch panel 10 and the center of the bottom of the U-shaped pipeline hole 4, the movable hinges 9 are respectively arranged at the bottom of the rotary touch panel 10 and the side surface of the component mounting groove structure 5, a gas driving component connecting telescopic mechanism 23 is arranged between the two movable hinges 9, a main gas reserved space 7 is arranged under the liquid inlet hole 6 of the main body shell 1, a gas pipeline connecting port 12 is arranged on the side surface of the main body shell 1, the gas pipeline connecting port 12 is communicated with the side surface of the component mounting groove structure 5 through a main gas inlet hole 13, the end part of the main gas inlet hole 13 is communicated with the gas inlet part of a gas drive type component connection telescopic mechanism 23 through a main air pipeline 15, an auxiliary gas inlet hole 14 which is communicated with the middle part of the main gas inlet hole 13 and the bottom center of the main gas reserved space 7 is arranged in the main body shell 1, an air one-way valve is arranged in the auxiliary gas inlet hole 14, the exhaust port of the air one-way valve faces the main gas reserved space 7, a main exhaust hole 16 which is communicated with the side surface of the main gas reserved space 7 and the bottom side surface of the main gas reserved space 7 is arranged in the main body shell 1, an auxiliary component mounting space 17 is arranged in the middle part of the main exhaust hole 16, a thread structure rotary air flow speed control mechanism 18 is arranged in the auxiliary component mounting space 17, the main body shell 1 is provided with a main part installation space 22 at the position of the liquid inlet hole 6, a telescopic movable liquid flow control mechanism 11 is installed inside the main part installation space 22, a main piston 19 is installed inside the main gas reserved space 7, a main push rod 20 is installed at the center of the top of the main piston 19, the rod body of the main push rod 20 penetrates through the inside of the main body shell 1, the top of the main push rod 20 is fixedly connected with the connecting part of the telescopic movable liquid flow control mechanism 11, and a compressed main spiral spring 21 is sleeved on the rod body of the main push rod 20.
Referring to fig. 2, the telescopic mobile liquid flow control mechanism 11 includes a hollow housing 111 for the telescopic mobile liquid flow control mechanism, a through hole structure 112 for the telescopic mobile liquid flow control mechanism, an internal moving space 113 for the telescopic mobile liquid flow control mechanism, a liquid through hole 114 for the telescopic mobile liquid flow control mechanism, a moving valve block 115 for the telescopic mobile liquid flow control mechanism, and a connecting rod 116 for the telescopic mobile liquid flow control mechanism; an inner moving space 113 for the telescopic mobile liquid flow control mechanism is provided at the center of the inside of the hollow housing 111 for the telescopic mobile liquid flow control mechanism, the center of the bottom of the hollow shell 111 for the telescopic mobile liquid flow control mechanism is provided with a through hole structure 112 for the telescopic mobile liquid flow control mechanism, the bottom of the opposite sides of the hollow housing 111 for a telescopic mobile liquid flow control mechanism is provided with liquid passing holes 114 for the telescopic mobile liquid flow control mechanism communicating the external space and the internal moving space 113 for the telescopic mobile liquid flow control mechanism, a movement valve block 115 for a telescopic movement type liquid flow control mechanism is installed inside the inner movement space 113 for a telescopic movement type liquid flow control mechanism, a connecting rod 116 for a telescopic mobile liquid flow control mechanism is arranged at the center of the bottom of the mobile valve block 115 for the telescopic mobile liquid flow control mechanism; the telescopic mobile liquid flow control mechanism hollow shell 111 is installed inside the main component installation space 22, the telescopic mobile liquid flow control mechanism liquid through hole 114 is communicated with the liquid inlet hole 6, and the bottom end of the telescopic mobile liquid flow control mechanism connecting rod 116 is fixedly connected with the top of the main telescopic rod 20; the distance between the bottom of the liquid through hole 114 for the telescopic mobile liquid flow control mechanism and the bottom of the internal moving space 113 for the telescopic mobile liquid flow control mechanism is smaller than the height of the moving valve block 115 for the telescopic mobile liquid flow control mechanism, the distance between the top of the liquid through hole 114 for the telescopic mobile liquid flow control mechanism and the top of the internal moving space 113 for the telescopic mobile liquid flow control mechanism is larger than the height of the moving valve block 115 for the telescopic mobile liquid flow control mechanism, and the main functions of the device are as follows: the flow of liquid can be controlled during the up and down movement.
Referring to fig. 3, the screw-structured rotary air flow rate control mechanism 18 includes a screw-structured rotary air flow rate control mechanism housing 181, a screw-structured rotary air flow rate control mechanism center hole 182, a screw-structured rotary air flow rate control mechanism stem insertion hole 183, a screw-structured rotary air flow rate control mechanism movement space 184, a screw-structured rotary air flow rate control mechanism movement plate 185, a valve stem 186 for a screw-structured rotary air flow rate control mechanism, a bearing 187 for a screw-structured rotary air flow rate control mechanism, a threaded rod 188 for a screw-structured rotary air flow rate control mechanism, a screw 189 for a screw-structured rotary air flow rate control mechanism, and a rotating plate 1810 for a screw-structured rotary air flow rate control mechanism; a center hole 182 for the screw structure rotary air flow rate control mechanism is formed at the center of the center hole 182 for the screw structure rotary air flow rate control mechanism at the bottom of the housing 181 for the screw structure rotary air flow rate control mechanism, a valve rod insertion hole 183 for the screw structure rotary air flow rate control mechanism is formed at the center of the center hole 182 for the screw structure rotary air flow rate control mechanism at the housing 181 for the screw structure rotary air flow rate control mechanism, a moving space 184 for the screw structure rotary air flow rate control mechanism is formed at the top of the valve rod insertion hole 183 for the screw structure rotary air flow rate control mechanism, a moving plate 185 for the screw structure rotary air flow rate control mechanism is installed inside the moving space 184 for the screw structure rotary air flow rate control mechanism, and a screw structure rotary air flow rate control mechanism is installed inside the valve rod insertion hole 183 for the screw structure rotary air flow rate control mechanism With the valve stem 186, the top of the screw-structured rotary air flow rate control mechanism-use valve stem 186 is installed at the center of the bottom of the screw-structured rotary air flow rate control mechanism-use moving plate 185, a screw shaft 188 for screw structure rotary air flow rate control mechanism is installed on the center of the upper surface of the moving plate 185 for screw structure rotary air flow rate control mechanism through a bearing 187 for screw structure rotary air flow rate control mechanism, the rod body of the screw-structured rotary air flow rate control mechanism-use threaded rod 188 is attached to the center of the top of the screw-structured rotary air flow rate control mechanism-use housing 181 via a screw-structured rotary air flow rate control mechanism-use screw structure 189, a rotating plate 1810 for the screw-structured rotary air flow rate control mechanism is mounted on the top end of the screw rod 188 for the screw-structured rotary air flow rate control mechanism; the thread structure 189 for the thread structure rotary air flow rate control mechanism includes an external thread structure provided on the rod body of the thread structure rotary air flow rate control mechanism threaded rod 188 and an internal thread structure provided on the inner wall of the structure moving screw-on type liquid flow control mechanism housing 181; the housing 181 for the screw-structured rotary air flow rate control mechanism is installed inside the sub-component installation space 17, and the center hole 182 for the screw-structured rotary air flow rate control mechanism is communicated with the main exhaust hole 16, and mainly functions as: through rotating, the speed of the gas in the air reserved space 7 when being discharged outside can be controlled, and the component resetting of time difference can be realized by controlling the flowing time of the gas, so that the time for resetting the component in the air reserved space 7 is longer than that for connecting the telescopic mechanism 23 with the gas-driven component, and then the liquid injection can be realized.
Referring to fig. 4, the gas-driven part connecting and telescoping mechanism 23 includes a cylindrical hollow housing 231 for a gas-driven part connecting and telescoping mechanism, a hollow structure 232 for a gas-driven part connecting and telescoping mechanism, a vent hole 233 for a gas-driven part connecting and telescoping mechanism, a piston 234 for a gas-driven part connecting and telescoping mechanism, a coil spring 235 for a gas-driven part connecting and telescoping mechanism, a seal ring 236 for a gas-driven part connecting and telescoping mechanism, a telescoping rod 237 for a gas-driven part connecting and telescoping mechanism, a first connecting protrusion 238 for a gas-driven part connecting and telescoping mechanism, and a second connecting protrusion 239 for a gas-driven part connecting and telescoping mechanism; a gas-driven part connecting and telescoping mechanism hollow structure 232 is arranged in the center of the interior of the cylindrical hollow shell 231 for the gas-driven part connecting and telescoping mechanism, a gas-driven part connecting and telescoping mechanism vent hole 233 communicated with the side of the gas-driven part connecting and telescoping mechanism hollow structure 232 is arranged in the interior of the side of the cylindrical hollow shell 231 for the gas-driven part connecting and telescoping mechanism vent hole 233, a gas-driven part connecting and telescoping mechanism piston 234 is arranged in the interior of the gas-driven part connecting and telescoping mechanism vent hole 233, the gas-driven part connecting and telescoping mechanism piston 234 is provided with an integrated conical structure on one end face of the gas-driven part connecting and telescoping mechanism vent hole 233, and a compressed gas-driven part connecting and telescoping mechanism coil spring 235 is arranged at the other end of the gas-driven part connecting and telescoping mechanism piston 234, a gas-driven part connecting telescopic mechanism telescopic rod 237 is arranged at the center of one end of the conical structure of the piston 234 for the gas-driven part connecting telescopic mechanism, the rod body of the gas-driven part connecting telescopic rod 237 penetrates through the center of one end of the cylindrical hollow shell 231 for the gas-driven part connecting telescopic mechanism, a gas-driven part connecting telescopic mechanism sealing ring 236 is arranged at the penetrating part of the gas-driven part connecting telescopic mechanism telescopic rod 237 and the cylindrical hollow shell 231 for the gas-driven part connecting telescopic mechanism, and a first connecting bulge structure 238 for the gas-driven part connecting telescopic mechanism and a second connecting bulge structure 239 for the gas-driven part connecting telescopic mechanism which are of an integrated structure are respectively arranged at the other end of the cylindrical hollow shell 231 for the gas-driven part connecting telescopic mechanism and one end of the gas-driven part connecting telescopic mechanism telescopic rod 237; the first connecting convex structure 238 for the gas-driven part connecting telescopic mechanism and the second connecting convex structure 239 for the gas-driven part connecting telescopic mechanism are respectively arranged at the connecting parts of the two movable hinges 9; the gas-driven part is connected with telescopic machanism and is communicated with main connecting pipeline 15 with air vent 233, and its main function is: the air intake is shortened, and when the component is reset, the reset time is limited due to the function of the air hole 233 for the gas-driven component connecting the telescopic mechanism.
The specific use mode is as follows: in the work of the invention, the bottom connecting plate 2 is arranged between the excrement discharging port and the excrement discharging pool of a culture place, the excrement inlet hole 3 is communicated with the excrement discharging port, the component mounting groove structure 5 is communicated with the upper part of the excrement pool, the liquid inlet hole 6 is communicated with the liquid discharging hole of a liquid storage pool, meanwhile, the air outlet of an air pump is communicated with the air pipeline connecting port 12, when the excrement needs to be discharged, the air pump is opened, so that air enters the main air reserved space 7 and the air driving type component connecting telescopic mechanism 23, at the moment, the air driving type component connecting telescopic mechanism 23 is shortened, the rotary touch panel 10 rotates, at the moment, the excrement is discharged, after the excrement is discharged, under the action of the spiral spring, the telescopic movable liquid flow control mechanism 11 and the air driving type component connecting telescopic mechanism 23 are reset, in the resetting process, because of the different speed of air discharge, the time required for the telescopic mobile liquid flow control mechanism 11 to reset is longer than the reset time of the gas-driven component connection telescopic mechanism 23 by controlling the gas-driven component connection telescopic mechanism 18, at this time, the liquid flows into the U-shaped pipeline hole 4 and is stored, and the stored liquid has sealing property.
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 (7)
1. The utility model provides a discharge means is connected with excrement and urine discharge tube for animal husbandry, includes main body cover (1), its characterized in that: the bottom mounting base plate (2) of an integrated structure is arranged at the bottom of the side face of the main body shell (1), an excrement inlet hole (3) and a liquid inlet hole (6) are respectively arranged at two ends of the inner side of the top of the main body shell (1), a U-shaped pipeline hole (4) is arranged between the excrement inlet hole (3) and the liquid inlet hole (6) of the main body shell (1), a component mounting groove structure (5) is arranged at the bottom of the U-shaped pipeline hole (4), the top of the component mounting groove structure (5) is connected with a rotary touch plate (10) through a movable hinge (9), a curved structure (8) with the same appearance is arranged on the upper surface of the rotary touch plate (10) and the center of the bottom of the U-shaped pipeline hole (4), the movable hinge (9) is respectively arranged at the bottom of the rotary touch plate (10) and the side face of the component mounting groove structure (5), a gas driving type part connecting telescopic mechanism (23) is arranged between the two movable hinges (9), a main gas reserved space (7) is arranged under the liquid inlet hole (6) of the main body shell (1), a gas pipeline connecting port (12) is arranged on the side surface of the main body shell (1), the gas pipeline connecting port (12) is communicated with the side surface of the part mounting groove structure (5) through a main gas inlet hole (13), the end part of the main gas inlet hole (13) is communicated with the gas inlet part of the gas driving type part connecting telescopic mechanism (23) through a main air pipeline (15), an auxiliary gas inlet hole (14) communicated with the middle part of the main gas inlet hole (13) and the center of the bottom of the main gas reserved space (7) is arranged in the main body shell (1), and an air one-way valve is arranged in the auxiliary gas inlet hole (14), and the air outlet of the air one-way valve faces the main gas reserved space (7), a main exhaust hole (16) communicating the side surface of the main body shell (1) with the side surface of the bottom of the main gas reserved space (7) is arranged in the main body shell (1), an auxiliary part installation space (17) is arranged at the middle section of the main exhaust hole (16), a thread structure rotary air flow speed control mechanism (18) is installed in the auxiliary part installation space (17), a main part installation space (22) is arranged at the position of the liquid inlet hole (6) of the main body shell (1), a telescopic movable liquid flow control mechanism (11) is installed in the main part installation space (22), a main piston (19) is installed in the main gas reserved space (7), and a main push rod (20) is installed at the top center of the main piston (19), the rod body of the main push rod (20) penetrates through the inside of the main body shell (1), the top of the main push rod (20) is fixedly connected with the connecting part of the telescopic movable liquid flow control mechanism (11), and the rod body of the main push rod (20) is sleeved with a compressed main spiral spring (21); the telescopic mobile liquid flow control mechanism (11) comprises a hollow shell (111) for the telescopic mobile liquid flow control mechanism, a through hole structure (112) for the telescopic mobile liquid flow control mechanism, an internal moving space (113) for the telescopic mobile liquid flow control mechanism, a liquid through hole (114) for the telescopic mobile liquid flow control mechanism, a moving valve block (115) for the telescopic mobile liquid flow control mechanism and a connecting rod (116) for the telescopic mobile liquid flow control mechanism; the telescopic mobile liquid flow control mechanism is provided with telescopic mobile liquid flow control mechanism internal moving space (113) at the center of hollow shell (111) for telescopic mobile liquid flow control mechanism, telescopic mobile liquid flow control mechanism is provided with through hole structure (112) for telescopic mobile liquid flow control mechanism at the center of hollow shell (111) bottom, telescopic mobile liquid flow control mechanism is provided with liquid through hole (114) for telescopic mobile liquid flow control mechanism communicating external space and telescopic mobile liquid flow control mechanism internal moving space (113) at the bottom of opposite sides of hollow shell (111), telescopic mobile liquid flow control mechanism is provided with moving valve block (115) for telescopic mobile liquid flow control mechanism at the internal installation of internal moving space (113), telescopic mobile liquid flow control mechanism is provided with moving valve block (115) for telescopic mobile liquid flow control mechanism at the center of bottom of moving valve block (115) A connecting rod (116); the screw-structured rotary air flow rate control mechanism (18) comprises a screw-structured rotary air flow rate control mechanism housing (181), a screw-structured rotary air flow rate control mechanism center hole (182), a screw-structured rotary air flow rate control mechanism stem insertion hole (183), a screw-structured rotary air flow rate control mechanism movement space (184), a screw-structured rotary air flow rate control mechanism movement plate (185), a valve stem (186) for a screw-structured rotary air flow rate control mechanism, a bearing (187) for a screw-structured rotary air flow rate control mechanism, a threaded rod (188) for a screw-structured rotary air flow rate control mechanism, a screw structure (189) for a screw-structured rotary air flow rate control mechanism, and a rotating plate (1810) for a screw-structured rotary air flow rate control mechanism; a center hole (182) for the screw structure rotary air flow rate control mechanism is arranged at the center of the center hole (182) for the screw structure rotary air flow rate control mechanism at the bottom of the housing (181) for the screw structure rotary air flow rate control mechanism, a valve rod insertion hole (183) for the screw structure rotary air flow rate control mechanism is arranged at the center of the center hole (182) for the screw structure rotary air flow rate control mechanism, a moving space (184) for the screw structure rotary air flow rate control mechanism is arranged at the top of the valve rod insertion hole (183) for the screw structure rotary air flow rate control mechanism, a moving plate (185) for the screw structure rotary air flow rate control mechanism is arranged in the moving space (184) for the screw structure rotary air flow rate control mechanism, a valve rod (186) for a screw structure rotary air flow velocity control mechanism is installed inside a valve rod insertion hole (183) for the screw structure rotary air flow velocity control mechanism, the top of the valve rod (186) for the screw structure rotary air flow velocity control mechanism is installed at the bottom center of a moving plate (185) for the screw structure rotary air flow velocity control mechanism, a screw rod (188) for the screw structure rotary air flow velocity control mechanism is installed at the center of the upper surface of the moving plate (185) for the screw structure rotary air flow velocity control mechanism through a bearing (187) for the screw structure rotary air flow velocity control mechanism, the rod body of the screw rod (188) for the screw structure rotary air flow velocity control mechanism is installed at the top center of a housing (181) for the screw structure rotary air flow velocity control mechanism through a screw structure (189) for the screw structure rotary air flow velocity control mechanism A rotating plate (1810) for the screw structure rotary air flow speed control mechanism is arranged at the top end of the screw rod (188) for the screw structure rotary air flow speed control mechanism; the gas-driven part connecting and telescoping mechanism (23) comprises a cylindrical hollow shell (231) for a gas-driven part connecting and telescoping mechanism, a hollow structure (232) for a gas-driven part connecting and telescoping mechanism, a vent hole (233) for a gas-driven part connecting and telescoping mechanism, a piston (234) for the gas-driven part connecting and telescoping mechanism, a coil spring (235) for the gas-driven part connecting and telescoping mechanism, a sealing ring (236) for the gas-driven part connecting and telescoping mechanism, a telescoping rod (237) for the gas-driven part connecting and telescoping mechanism, a first connecting bulge structure (238) for the gas-driven part connecting and telescoping mechanism and a second connecting bulge structure (239) for the gas-driven part connecting and telescoping mechanism; the gas drive type part connecting telescopic mechanism is characterized in that a hollow structure (232) for a gas drive type part connecting telescopic mechanism is arranged in the center inside a cylindrical hollow shell (231) for the gas drive type part connecting telescopic mechanism, a gas drive type part connecting telescopic mechanism vent hole (233) communicated with one side of the hollow structure (232) for the gas drive type part connecting telescopic mechanism is arranged inside one side of the cylindrical hollow shell (231) for the gas drive type part connecting telescopic mechanism, a piston (234) for the gas drive type part connecting telescopic mechanism is arranged inside one side of the gas drive type part connecting telescopic mechanism vent hole (233), a conical structure of an integrated structure is arranged on one end face of the piston (234) for the gas drive type part connecting telescopic mechanism, and a compressed gas drive type part connecting telescopic mechanism is arranged on the other end of the piston (234) for the gas drive type part connecting telescopic mechanism A coil spring (235) for mechanism, a piston (234) for gas-driven part connecting telescopic mechanism is arranged at the center of one end of the conical structure, a telescopic rod (237) for gas-driven part connecting telescopic mechanism is arranged, the rod body of the telescopic rod (237) for connecting the gas-driven part with the telescopic mechanism penetrates through the center of one end of a cylindrical hollow shell (231) for connecting the gas-driven part with the telescopic mechanism, and a seal ring (236) for connecting the gas-driven part with the telescopic mechanism is arranged at the penetrating position of the two, the other end of the cylindrical hollow shell (231) for the gas-driven part connecting telescopic mechanism and one end of the telescopic rod (237) for the gas-driven part connecting telescopic mechanism are respectively provided with a first connecting convex structure (238) for the gas-driven part connecting telescopic mechanism and a second connecting convex structure (239) for the gas-driven part connecting telescopic mechanism, wherein the first connecting convex structure and the second connecting convex structure are of an integrated structure.
2. The excrement discharge pipe connection and discharge device for animal husbandry according to claim 1, wherein: the telescopic mobile liquid flow control mechanism is characterized in that the hollow shell (111) is arranged in the main component mounting space (22), the liquid through hole (114) for the telescopic mobile liquid flow control mechanism is communicated with the liquid inlet hole (6), and the bottom end of the connecting rod (116) for the telescopic mobile liquid flow control mechanism is fixedly connected with the top of the main telescopic rod (20).
3. The excrement discharge pipe connection and discharge device for animal husbandry according to claim 1, wherein: the distance between the bottom of the liquid through hole (114) for the telescopic movable liquid flow control mechanism and the bottom of the internal moving space (113) for the telescopic movable liquid flow control mechanism is smaller than the height of the moving valve block (115) for the telescopic movable liquid flow control mechanism, and the distance between the top of the liquid through hole (114) for the telescopic movable liquid flow control mechanism and the top of the internal moving space (113) for the telescopic movable liquid flow control mechanism is larger than the height of the moving valve block (115) for the telescopic movable liquid flow control mechanism.
4. The excrement discharge pipe connection and discharge device for animal husbandry according to claim 1, wherein: the thread structure (189) for the thread structure rotary air flow speed control mechanism comprises an external thread structure arranged on a threaded rod (188) body for the thread structure rotary air flow speed control mechanism and an internal thread structure arranged on the inner wall of a shell (181) for the structure moving screwing type liquid flow control mechanism.
5. The excrement discharge pipe connection and discharge device for animal husbandry according to claim 1, wherein: the housing (181) for the screw-structured rotary air flow rate control mechanism is mounted inside the sub-component mounting space (17), and the center hole (182) for the screw-structured rotary air flow rate control mechanism communicates with the main exhaust hole (16).
6. The excrement discharge pipe connection and discharge device for animal husbandry according to claim 1, wherein: the first connecting convex structure (238) for the gas driving type part connecting telescopic mechanism and the second connecting convex structure (239) for the gas driving type part connecting telescopic mechanism are respectively arranged at the connecting parts of the two movable hinges (9).
7. The excrement discharge pipe connection and discharge device for animal husbandry according to claim 1, wherein: the gas-driven part is connected with the main connecting pipeline (15) through a vent hole (233) for the telescopic mechanism.
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201911055218.6A CN110741941B (en) | 2019-10-31 | 2019-10-31 | Excrement and urine discharge pipe connects discharging equipment for animal husbandry |
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|---|---|---|---|
| CN201911055218.6A CN110741941B (en) | 2019-10-31 | 2019-10-31 | Excrement and urine discharge pipe connects discharging equipment for animal husbandry |
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| CN110741941A CN110741941A (en) | 2020-02-04 |
| CN110741941B true CN110741941B (en) | 2021-09-24 |
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Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN111109139A (en) * | 2020-02-18 | 2020-05-08 | 泉州佰特产品设计服务有限公司 | Livestock husbandry is with room cleaning device of raising in captivity |
| CN112167097B (en) * | 2020-10-09 | 2022-05-10 | 华琳琳 | Chicken coop is with dirty excrement cleaning device |
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| CN110741941A (en) | 2020-02-04 |
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Effective date of registration: 20210909 Address after: 225300 factory building 6, Xuzhuang Street science and technology entrepreneurship center, Gaogang District, Taizhou City, Jiangsu Province Applicant after: Taizhou Dingheng Environmental Protection Technology Co.,Ltd. Address before: 225300 Dasi Town Industrial Park No. 1, Gaogang District, Taizhou City, Jiangsu Province Applicant before: Hua Linlin |
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Effective date of registration: 20240620 Address after: No. 9, 5th Floor, Unit 3, Building 2, No. 251 Changbai Road, Longquanyi District, Chengdu City, Sichuan Province, 610000 Patentee after: Wang Shanfang Country or region after: China Address before: 225300 factory building 6, Xuzhuang Street science and technology entrepreneurship center, Gaogang District, Taizhou City, Jiangsu Province Patentee before: Taizhou Dingheng Environmental Protection Technology Co.,Ltd. Country or region before: China |