CN116808258B - Sterilizing device for livestock breeding - Google Patents

Abstract

The application relates to the field of disinfection devices, in particular to a disinfection device for livestock breeding, which comprises a liquid storage container, an ejector and a connecting component, wherein the liquid storage container is used for storing disinfection liquid, the ejector is used for ejecting the disinfection liquid outwards, and the connecting component is used for conveying the disinfection liquid in the liquid storage container into the ejector. The application is provided with the central material pipe, the outer sleeve, the rotating ring, the spray hole and the liquid delivery hole, when the liquid delivery hole communicated with the spray hole is blocked, the outer sleeve rotates a preset angle along a first direction to enable the spray hole to be communicated with the next liquid delivery hole, so that when the liquid delivery hole communicated with the spray hole is blocked, the outer sleeve is automatically rotated to enable the adjacent liquid delivery hole to be communicated with the spray hole, thereby ensuring that the spray hole normally sprays disinfectant without disassembling the outer sleeve.

Description

Sterilizing device for livestock breeding

Technical Field

The application relates to the field of disinfection devices, in particular to a disinfection device for livestock breeding.

Background

In livestock farms, in order to kill virus microorganisms, a disinfectant is generally sprayed uniformly into the livestock farms, so that the effect of disinfection is achieved by a chemical method.

However, the disinfectant is usually obtained by dissolving solid medicines in a liquid medicine, so that the disinfectant inevitably contains solid medicines which are not completely dissolved, and once the solid medicines which are not completely dissolved are blocked in a spray head, the spray head cannot be normally used.

Disclosure of Invention

Based on this, it is necessary to provide a disinfection device for livestock breeding to solve the problems of the current disinfection device, after the current liquid feeding hole is blocked, the injection hole can automatically rotate to be communicated with the adjacent liquid feeding hole, so that the disinfection liquid can be sprayed outwards through the next liquid feeding hole, the liquid feeding hole can be continuously sprayed outwards without disassembling the outer sleeve, the time consumption is shorter, and the disinfection liquid can not be sprayed onto the arms of staff.

The above purpose is achieved by the following technical scheme:

a disinfection device for livestock breeding comprising:

the liquid storage container is used for storing disinfectant;

an ejector for ejecting the disinfectant outwards;

a connection assembly for delivering the sterilizing fluid in the reservoir to the sprayer;

the sprayer includes central pipe and outer tube, the both ends of outer tube all have the end cover, the one end of central pipe inserts the outer tube and can with the one end butt of outer tube, the other end and the coupling assembling of central pipe are connected, the central pipe can rotate relatively with the outer tube, the one end of central pipe and outer tube butt its peripheral wall is provided with the fixed disk, a plurality of liquid feed holes have been seted up to the circumference equidistant of fixed disk, the jet orifice has been seted up to the one end of outer tube and central pipe butt, the jet orifice corresponds with sending liquid Kong Zeyi, be provided with drive assembly between central pipe and the outer tube, after being stopped up with the liquid feed hole that the jet orifice corresponds, drive assembly can make the outer tube rotate preset angle for the central pipe along first direction, and then make the jet orifice correspond with adjacent liquid feed hole.

In one embodiment, the transmission assembly comprises a rotating ring and an elastic torsion piece, the rotating ring is sleeved on the peripheral wall of the central material pipe, the elastic torsion piece is sleeved on the central material pipe, one end of the elastic torsion piece is arranged on the rotating ring, the other end of the elastic torsion piece is arranged on the central material pipe, a feeding hole is formed in the central material pipe and is positioned between the rotating ring and the outer sleeve, the transmission assembly further comprises a spiral groove and a spiral bulge, the spiral groove is formed in the peripheral wall of the rotating ring, the spiral bulge is arranged on the inner wall of the outer sleeve, and the spiral groove is in transmission fit with the spiral bulge.

In a further embodiment, an elastic compression member is provided on the peripheral wall of the central tube between the rotating ring and the outer sleeve.

In one embodiment, a locking disc is arranged on the peripheral wall of the central material pipe and below the rotating ring, wedge blocks are elastically arranged on the peripheral wall of the locking disc at equal intervals, the wedge blocks can slide along the radial direction of the locking disc, wedge grooves are correspondingly formed in the inner wall of the outer sleeve, after the outer sleeve rotates by a preset angle along a first direction, the wedge blocks can move from the current wedge grooves and rotate into the adjacent wedge grooves, the wedge blocks and the wedge grooves limit the outer sleeve to rotate along a second direction, and the second direction is opposite to the first direction.

In one embodiment, a unidirectional locking assembly is arranged between the central tube and the outer sleeve, when the current torsion value of the elastic torsion piece is smaller than a preset value, the unidirectional locking assembly limits the outer sleeve to rotate along a first direction relative to the central tube, the unidirectional locking assembly always limits the outer sleeve to rotate along a second direction relative to the central tube, and the second direction is opposite to the first direction.

In one embodiment, a locking disc is arranged on the peripheral wall of the central material pipe and between the rotating ring and the fixed disc, wedge blocks are elastically arranged on the peripheral wall of the locking disc at equal intervals, the wedge blocks can slide along the radial direction of the locking disc, wedge grooves are correspondingly formed in the inner wall of the outer sleeve, after the outer sleeve rotates by a preset angle along the first direction, the wedge blocks can be moved out of the current wedge grooves and rotate into the adjacent wedge grooves, and the wedge blocks and the wedge grooves limit the outer sleeve to rotate along the second direction.

In one embodiment, the liquid delivery hole is a conical hole, and the cross-sectional diameter of the conical hole gradually decreases along the flowing direction of the sterilizing liquid in the central material pipe.

In one embodiment, a drain hole is formed in the peripheral wall of the outer sleeve, a plugging ring is arranged on the inner wall of the outer sleeve, a through hole is formed in the plugging ring, the inner peripheral wall of the plugging ring is in sliding sealing with the central material pipe, the outer sleeve can move along the axis of the central material pipe by a preset distance so that the plugging ring plugs the feeding hole, and meanwhile, a preset distance is reserved between the fixing disc and the bottom of the outer sleeve, so that disinfectant flowing out of the central material pipe can be discharged from the drain hole after passing through the liquid feeding hole.

In one embodiment, the central tube is provided with a first limiting ring, the outer sleeve is provided with a second limiting ring, and after the outer sleeve moves along the axis of the central tube for a preset distance, the first limiting ring is contacted with the second limiting ring.

In one embodiment, the connecting assembly comprises a rigid connecting pipe, a connecting hose and a connecting bracket, one end of the connecting hose is communicated with the liquid storage container, the other end of the connecting hose is communicated with the rigid connecting pipe, the central pipe is arranged on the rigid connecting pipe and is communicated with the rigid connecting pipe, and the connecting bracket is arranged at the lower part of the rigid connecting pipe.

In one embodiment, the disinfection device for livestock breeding further comprises a base, the rollers are rotatably arranged on two sides of the base, the liquid storage container is arranged on the base, and one end, away from the rigid connecting pipe, of the connecting support is arranged on the base.

The beneficial effects of the application are as follows:

the application is provided with a central material pipe, an outer sleeve, a rotating ring, an injection hole and a liquid feeding hole, when the liquid feeding hole communicated with the injection hole is blocked, the pressure of the sterilizing liquid in the outer sleeve to the rotating ring is increased, so that the rotating ring rotates and moves upwards, the elastic potential energy of an elastic torsion piece is increased, when the torsion of the elastic torsion piece is increased to enough to overcome the rotating resistance of the outer sleeve, the outer sleeve rotates a preset angle along a first direction to enable the injection hole to be communicated with the next liquid feeding hole, after the liquid feeding hole communicated with the injection hole is blocked, the outer sleeve can be automatically rotated, so that the adjacent liquid feeding hole is communicated with the injection hole, and the sterilizing liquid can be normally sprayed by the injection hole without disassembling the outer sleeve.

Drawings

FIG. 1 is a schematic diagram showing the overall structure of a sterilizing apparatus for livestock breeding according to the present application;

FIG. 2 is a schematic diagram showing the connection structure of an outer sleeve in the disinfection device for livestock breeding according to the present application;

FIG. 3 is a schematic view of the cross-sectional view A-A of FIG. 2;

FIG. 4 is an enlarged schematic view of the structure at B in FIG. 3;

FIG. 5 is an enlarged schematic view of the structure of FIG. 3 at C;

FIG. 6 is an enlarged schematic view of the structure of FIG. 3 at D;

FIG. 7 is a schematic view showing a connection structure of a rotating ring in a sterilizing apparatus for livestock breeding according to the present application;

FIG. 8 is a schematic view showing a connection structure of a locking plate in a sterilizing apparatus for livestock breeding according to the present application;

fig. 9 is a schematic view showing a backflushing use state of the sterilizing apparatus for livestock breeding according to the present application.

Wherein:

100. a liquid storage container; 210. a center tube; 211. a feed hole; 220. an outer sleeve; 221. an injection hole; 222. wedge grooves; 223. a blow-down hole; 224. a clasp; 230. a fixed plate; 231. a liquid feeding hole; 240. a rotating ring; 251. a spiral groove; 252. spiral bulges; 261. a locking disk; 2611. a mounting groove; 262. wedge blocks; 263. a connecting spring; 264. a through hole; 270. a plugging ring; 271. a through hole; 281. a first stop collar; 282. a second limiting ring; 290. a torsion spring; 291. a telescopic rod; 300. an elastic compression member; 410. a rigid connection tube; 420. a connecting hose; 430. a connecting bracket; 510. a base; 520. and a roller.

Detailed Description

The present application will be further described in detail below with reference to examples, which are provided to illustrate the objects, technical solutions and advantages of the present application. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

The numbering of components herein, such as "first," "second," etc., is used merely to distinguish between the described objects and does not have any sequential or technical meaning. The term "coupled" as used herein includes both direct and indirect coupling (coupling), unless otherwise indicated. In the description of the present application, it should be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the device or element in question must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present application.

In the present application, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

As shown in fig. 1-9, a disinfection device for livestock breeding includes a liquid storage container 100, an ejector and a connection assembly, wherein the liquid storage container 100 is used for storing disinfection liquid, the ejector is used for ejecting the disinfection liquid outwards, the connection assembly is used for delivering the disinfection liquid in the liquid storage container 100 into the ejector, the ejector includes a central tube 210 and an outer tube 220, both ends of the outer tube 220 are respectively provided with an end cover, one end of the central tube 210 is inserted into the outer tube 220 and can be connected with the connection assembly by abutting one end of the outer tube 220, the central tube 210 and the outer tube 220 can also rotate relatively, a fixing disc 230 is arranged on the outer peripheral wall of one end of the central tube 210 abutting against the outer tube 220, a plurality of liquid delivering holes 231 are formed in the periphery of the fixing disc 230 at equal intervals, one end of the outer tube 220 abutting against the central tube 210 is provided with injection holes 221, a transmission assembly is arranged between the injection holes 221 and the outer tube 220, and after the liquid delivering holes 231 corresponding to the injection holes 221 are blocked, the transmission assembly can enable the outer tube 220 to rotate along a first direction by a preset angle relative to the central tube 210, and then enable adjacent liquid delivering holes 221 to correspond to the injection holes 231.

In use, the sterilizing fluid in the fluid storage container 100 is delivered into the central tube 210 by the connection assembly, the sterilizing fluid in the central tube 210 flows out between the outer sleeve 220 and the central tube 210, and then flows from the fluid delivery hole 231 to the injection hole 221, and finally the sterilizing fluid is injected outward from the injection hole 221.

Along with the continuous outward blowout of antiseptic solution, if the solid-state medicine that does not dissolve completely in the antiseptic solution blocks up in present liquid feed hole 231, then antiseptic solution can't get into jet hole 221 through liquid feed hole 231 this moment, drive assembly makes outer tube 220 rotate preset angle along first direction for central material pipe 210 this moment, thereby make jet hole 221 and adjacent liquid feed hole 231 correspond the intercommunication, antiseptic solution between outer tube 220 and the central material pipe 210 can just can enter into jet hole 221 through liquid feed hole 231 this moment, and outwards spout through jet hole 221, consequently, can guarantee that jet hole 221 normally sprays the antiseptic solution without dismantling outer tube 220, compare with clear up liquid feed hole 231 after dismantling outer tube 220, this device switches liquid feed hole 231 that is linked together with jet hole 221 through rotating outer tube 220, not only can realize automatic switch, still consuming time is shorter, also can not make antiseptic solution splash on staff's the arm.

In a further embodiment, as shown in fig. 3, the transmission assembly includes a rotating ring 240 and an elastic torsion member, the rotating ring 240 is sleeved on the peripheral wall of the central tube 210, the elastic torsion member is also sleeved on the central tube 210, one end of the elastic torsion member is disposed on the rotating ring 240, the other end of the elastic torsion member is disposed on the central tube 210, a feeding hole 211 is formed in the central tube 210 and the feeding hole 211 is located between the rotating ring 240 and the outer sleeve 220, the transmission assembly further includes a spiral groove 251 and a spiral protrusion 252, the spiral groove 251 is formed on the peripheral wall of the rotating ring 240, the spiral protrusion 252 is disposed on the inner wall of the outer sleeve 220, and the spiral groove 251 is in transmission fit with the spiral protrusion 252.

It is also added that the elastic torsion member is a torsion spring 290, specifically, one end of the torsion spring 290 is fixedly connected to the lower end of the rotating ring 240, the other end of the torsion spring 290 is connected to the telescopic end of the telescopic rod 291, and the fixed end of the telescopic rod 291 is connected to the central tube 210, so that the torsion spring 290 can tighten the storage force when the central tube 210 and the rotating ring 240 rotate relatively. It should be further added that an elastic compression member 300 is disposed on the central tube 210 and located between the outer tube 220 and the rotating ring 240, where the elastic compression member 300 is specifically a compression spring, and the compression spring is used to restore the rotating ring 240, and when the injection hole 221 is communicated with the unblocked liquid feeding hole 231, the pressure of the sterilizing liquid in the outer tube 220 is reduced, and the rotating ring 240 can be pushed downward to the position before moving under the elastic force of the elastic compression member 300.

After the current liquid feeding hole 231 is blocked, the pressure of the sterilizing liquid entering the outer sleeve 220 to the rotating ring 240 is increased, so that the sterilizing liquid pushes the rotating ring 240 to move upwards along the axis of the central tube 210, after the rotating ring 240 moves to the contact of the spiral groove 251 and the spiral protrusion 252, the rotating ring 240 starts to move around the axis of the central tube 210 and rotate, at this time, the torsion spring 290 starts to tighten up the storage force, and since the outer sleeve 220 is rotatably arranged on the central tube 210, after the torsion force of the torsion spring 290 is increased to be equal to the rotation resistance of the outer sleeve 220, the torsion force value of the torsion spring 290 cannot be continuously increased, and then the outer sleeve 220 is stressed to rotate in the first direction (the first direction is opposite to the tightening rotation direction of the torsion spring 290) along with the continued rotation of the rotating ring 240 along the axis of the central tube 210). It can be understood that, equivalently, after the torque value of the torsion spring 290 is equal to the rotation resistance of the outer sleeve 220, the contact force point between the spiral groove 251 and the spiral protrusion 252 is unchanged, the rotating ring 240 drives one end of the torsion spring 290 to rotate to store force (the rotation direction is the second direction), and the outer sleeve 220 drives the other end of the torsion spring 290 to rotate to discharge force along the first direction, so that the torque value of the torsion spring 290 is kept unchanged, the injection hole 221 is rotated to be communicated with the adjacent liquid feeding hole 231 by driving the outer sleeve 220 to rotate, after the injection hole 221 is communicated with the adjacent liquid feeding hole 231 (the unblocked liquid feeding hole 231), at this time, the pressure value of the sterilizing liquid on the rotating ring 240 is reduced, the rotating ring 240 begins to reset under the action of the elastic compression member 300, the rotating ring 240 moves downwards along the axis of the central material pipe 210, and meanwhile, under the guiding action of the spiral groove 251 and the spiral protrusion 252, the elastic force of the torsion spring 290 is reduced, and the elastic force of the torsion spring 290 is smaller than the rotation resistance of the outer sleeve 220 at this time, so that the outer sleeve 220 does not rotate in the process of moving downwards along the axis of the central material pipe 210; in other embodiments, the spiral protrusion 252 may be provided on the circumferential wall of the rotating ring 240 and the spiral groove 251 may be provided on the inner wall of the outer sleeve 220.

In a further embodiment, a unidirectional locking assembly is disposed between the central tube 210 and the outer sleeve 220, and when the current torque value of the elastic torsion member is smaller than a preset value, the unidirectional locking assembly limits the outer sleeve 220 to rotate along a first direction relative to the central tube 210, and the unidirectional locking assembly always limits the outer sleeve 220 to rotate along a second direction relative to the central tube 210, and the second direction is opposite to the first direction. It should be noted that, the preset value is the rotation resistance of the outer sleeve 220, and when the torsion value of the torsion spring 290 is equal to the rotation resistance of the outer sleeve 220, the one-way locking assembly no longer limits the outer sleeve 220, and the outer sleeve 220 can rotate along the first direction relative to the central tube 210, and the one-way limiting assembly always limits the outer sleeve 220 to rotate along the second direction, so as to prevent the outer sleeve 220 from rotating reversely due to the user touching the outer sleeve 220 by mistake.

In a further embodiment, as shown in fig. 4 and 7, a locking disc 261 is disposed on a peripheral wall of the central tube 210 and located between the rotating ring 240 and the outer sleeve 220, wedge blocks 262 are elastically disposed at equal intervals on the peripheral wall of the locking disc 261, the wedge blocks 262 can slide along the radial direction of the locking disc 261, specifically, a mounting groove 2611 is formed on an outer peripheral wall of the locking disc 261, a connecting spring 263 is disposed at the bottom of the mounting groove 2611, one end of the connecting spring 263 far from the bottom of the mounting groove 2611 is connected with the wedge blocks 262, one side of the wedge blocks 262 is a slope, the opposite side is a plane, and the inner wall of the outer sleeve 220 is correspondingly provided with wedge grooves 222.

It should be added that, in order to enable the disinfectant to flow through the locking disc 261 to act on the rotating ring 240, the locking disc 261 is further provided with a through hole 264, so that the disinfectant can flow under the rotating ring 240 through the through hole 264.

It is noted that, when the rotating ring 240 rotates in the first direction, the inclined surface of the wedge 262 is engaged with the wedge groove 222, and the connecting spring 263 is compressed under the guiding action of the inclined surface of the wedge 262 to gradually move the wedge 262 out of the wedge groove 222, and when the rotating ring 240 rotates in the second direction, the plane of the wedge 262 limits the wedge 262 to move out of the wedge groove 222, so that the outer sleeve 220 can only rotate in the first direction but cannot rotate in the second direction.

As the torsion value of the rotating ring 240 transmitted to the outer sleeve 220 through the spiral groove 251 and the spiral protrusion 252 is gradually increased, the compression of the connection spring 263 is correspondingly increased, and when the torsion value of the torsion spring 290 is equal to the rotation resistance of the outer sleeve 220, the wedge 262 is moved out of the wedge groove 222 against the pressure of the connection spring 263, and as the rotating ring 240 continues to rotate, after the rotating ring 240 synchronously rotates in the first direction by a preset angle, the pressure of the sterilizing fluid in the outer sleeve 220 is reduced after the injection hole 221 rotates to communicate with the adjacent fluid feed hole 231, and the rotating ring 240 moves downward along the axis of the center tube 210 while rotating in the second direction under the elastic action of the torsion spring 290 and the elastic compression member 300.

It is also added that, in this example, the fixed end of the telescopic rod 291 may be fixedly provided on the locking plate 261 for convenience of connection.

It is also preferable that a seal piston is fixedly connected to the upper end of the locking plate 261 in order to prevent the disinfectant from flowing over the locking plate 261.

In a further embodiment, as shown in fig. 3, the liquid delivery hole 231 is a tapered hole, and the cross-sectional diameter of the tapered hole gradually decreases along the flow direction of the sterilizing liquid in the central tube 210, and the liquid delivery hole 231 is a tapered hole, so that the flow rate of the sterilizing liquid ejected from the liquid delivery hole 231 is faster and the ejection distance is longer.

In a further embodiment, as shown in fig. 9, a drain hole 223 is formed in the peripheral wall of the outer sleeve 220, a plugging ring 270 is provided on the inner wall of the outer sleeve 220, a through hole 271 is formed in the plugging ring 270, the inner peripheral wall of the plugging ring 270 is slidably sealed with the central tube 210, the outer sleeve 220 can move along the axis of the central tube 210 by a preset distance to enable the plugging ring 270 to plug the feed hole 211, and meanwhile, a preset distance is reserved between the fixing disc 230 and the bottom of the outer sleeve 220, so that the disinfectant flowing out of the central tube 210 can be discharged from the drain hole 223 through the liquid delivery hole 231.

It should be added that, as shown in fig. 6, in order to install the blocking ring 270, two clamping rings 224 are further disposed on the inner wall of the outer sleeve 220 at intervals, so that the blocking ring 270 is clamped between the two clamping rings 224, and when the outer sleeve 220 moves along the axis thereof, the outer sleeve 220 can drive the blocking ring 270 to move.

When all the liquid delivery holes 231 on the fixed disk 230 are blocked by undissolved solid medicine, at this time, a worker can plug the injection hole 221 by using a plug, then pull the outer sleeve 220 downwards along the axis of the central pipe 210 for a preset distance so as to leave the preset distance between the outer sleeve 220 and the bottom of the fixed disk 230, at this time, the blocking disk 261 blocks the feeding hole 211, the blocking disk 261 slides until the blow-off hole 223 is no longer blocked, at this time, the disinfectant in the central pipe 210 is sprayed outwards from the lower port of the central pipe 210, and backflushes the liquid delivery holes 231, the plugs in the liquid delivery holes 231 are promoted to be discharged outwards from the blow-off hole 223 together with the disinfectant, after the plugs in the liquid delivery holes 231 are discharged, the worker firstly takes out the plug from the injection hole 221, then resets the outer sleeve 220 until the lower end face of the fixed disk 230 is contacted with the bottom of the outer sleeve 220, at this time, and the injection hole 221 can be used normally.

It should be noted that the liquid feed hole 231 is a tapered hole, and it is easier to discharge the plug in the liquid feed hole 231.

It will be appreciated that the worker may operate by allowing the sanitizing liquid to recoil the liquid feed aperture 231 for a specified period of time (e.g., 2 minutes) to allow the plugs within the liquid feed aperture 231 to drain from the drain aperture 223.

In a further embodiment, as shown in fig. 9, a first limiting ring 281 is disposed on the central tube 210, a second limiting ring 282 is disposed on the outer tube 220, when the outer tube 220 moves downward along the axis of the central tube 210 for a preset distance, the first limiting ring 281 and the second limiting ring 282 contact, it is understood that the first limiting ring 281 and the second limiting ring 282 are disposed for facilitating the operation of the staff, when the outer tube 220 is pulled downward until the second limiting ring 282 and the first limiting ring 281 contact, the distance that the outer tube 220 moves at this time is exactly the preset distance, at this time, the feeding hole 211 is just plugged by the plugging ring 270, and the drain hole 223 is no longer plugged by the plugging disc 261.

In a further embodiment, as shown in fig. 1, the connection assembly includes a rigid connection pipe 410, a connection hose 420, and a connection bracket 430, one end of the connection hose 420 is in communication with the liquid storage container 100, the other end of the connection hose 420 is in communication with the rigid connection pipe 410, the center pipe 210 is disposed on the rigid connection pipe 410 and the center pipe 210 is in communication with the rigid connection pipe 410, and the connection bracket 430 is disposed at a lower portion of the rigid connection pipe 410.

It will be appreciated that the connection bracket 430 is used to support the rigid connection pipe 410, the connection hose 420 is used to convey the sterilizing fluid in the reservoir 100 into the rigid connection pipe 410, and a flow pump is provided to communicate with the connection hose 420, and the sterilizing fluid in the reservoir 100 is pumped into the connection hose 420 by the flow pump and conveyed into the rigid connection pipe 410.

In a further embodiment, as shown in fig. 1, the sterilizing apparatus for livestock breeding further comprises a base 510, rollers 520 are rotatably provided at both sides of the base 510, the liquid storage container 100 is provided on the base 510, and one end of the connecting bracket 430, which is far from the rigid connecting pipe 410, is provided on the base 510.

It will be appreciated that the base 510 and rollers 520 are provided to facilitate movement of the device within the livestock breeding by personnel.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the application and are described in detail herein without thereby limiting the scope of the application. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the application, which are all within the scope of the application. Accordingly, the scope of protection of the present application is to be determined by the appended claims.

Claims (5)

1. A disinfection device for livestock-raising, characterized by comprising:

the liquid storage container is used for storing disinfectant;

an ejector for ejecting the disinfectant outwards;

a connection assembly for delivering the sterilizing fluid in the reservoir to the sprayer;

the ejector comprises a central material pipe and an outer sleeve, wherein end covers are arranged at two ends of the outer sleeve, one end of the central material pipe is inserted into the outer sleeve and can be abutted against one end of the outer sleeve, the other end of the central material pipe is connected with a connecting component, the central material pipe and the outer sleeve can rotate relatively, a fixed disc is arranged on the peripheral wall of one end of the central material pipe, which is abutted against the outer sleeve, a plurality of liquid feeding holes are formed in the circumferential direction of the fixed disc at equal intervals, an injection hole is formed in one end, which is abutted against the central material pipe, of the outer sleeve, the injection hole corresponds to liquid feeding Kong Zeyi, a transmission component is arranged between the central material pipe and the outer sleeve, and after the liquid feeding holes corresponding to the injection hole are blocked, the transmission component can enable the outer sleeve to rotate for a preset angle along a first direction relative to the central material pipe, and further enable the injection holes to correspond to the adjacent liquid feeding holes; the transmission assembly comprises a rotating ring and an elastic torsion part, wherein the rotating ring is sleeved on the peripheral wall of the central material pipe, the elastic torsion part is sleeved on the central material pipe, one end of the elastic torsion part is arranged on the rotating ring, the other end of the elastic torsion part is arranged on the central material pipe, a feeding hole is formed in the central material pipe, the feeding hole is positioned between the rotating ring and the outer sleeve, the transmission assembly further comprises a spiral groove and a spiral bulge, the spiral groove is formed in the peripheral wall of the rotating ring, the spiral bulge is arranged on the inner wall of the outer sleeve, and the spiral groove is in transmission fit with the spiral bulge; an elastic compression piece is arranged on the peripheral wall of the central material pipe and positioned between the rotating ring and the outer sleeve; a unidirectional locking component is arranged between the central tube and the outer sleeve, when the current torsion value of the elastic torsion piece is smaller than a preset value, the unidirectional locking component limits the outer sleeve to rotate along a first direction relative to the central tube, the unidirectional locking component always limits the outer sleeve to rotate along a second direction relative to the central tube, and the second direction is opposite to the first direction; a clamping disc is arranged on the peripheral wall of the central material pipe and positioned between the rotating ring and the fixed disc, wedge blocks are elastically arranged on the peripheral wall of the clamping disc at equal intervals, the wedge blocks can slide along the radial direction of the clamping disc, wedge grooves are correspondingly formed in the inner wall of the outer sleeve, when the outer sleeve rotates for a preset angle along a first direction, the wedge blocks can move from the current wedge grooves and rotate into the adjacent wedge grooves, and the wedge blocks and the wedge grooves limit the outer sleeve to rotate along a second direction; the utility model discloses a disinfection device, including outer tube, sealing ring and sealing ring, the blowdown hole has been seted up on the perisporium of outer tube, be provided with the shutoff ring on the inner wall of outer tube, the inner perisporium of shutoff ring and central material tube sliding seal, the outer tube can be followed the axis of central material tube and remove the default distance in order to make the shutoff ring with the feeding hole shutoff, simultaneously make to leave the default distance between fixed disk and the outer tube bottom, and then make the antiseptic solution that flows in from central material tube can be discharged from the blowdown hole after passing through the liquid feed hole.

2. A disinfection apparatus for livestock-raising according to claim 1, wherein said liquid feed aperture is a conical aperture, the cross-sectional diameter of which gradually decreases in the direction of flow of the disinfection liquid in the central tube.

3. The sterilizing device for livestock breeding according to claim 1, wherein the central tube is provided with a first limit ring, the outer sleeve is provided with a second limit ring, and the first limit ring is contacted with the second limit ring after the outer sleeve moves along the axis of the central tube by a preset distance.

4. The sterilizing apparatus for livestock-raising according to claim 1, wherein the connection assembly comprises a rigid connection pipe, a connection hose and a connection bracket, one end of the connection hose is communicated with the liquid storage container, the other end of the connection hose is communicated with the rigid connection pipe, the central pipe is arranged on the rigid connection pipe and is communicated with the rigid connection pipe, and the connection bracket is arranged at the lower part of the rigid connection pipe.

5. A disinfection device for livestock-raising as claimed in claim 4, further comprising a base, wherein rollers are rotatably provided on both sides of the base, the reservoir is provided on the base, and the end of the connecting bracket remote from the rigid connecting pipe is provided on the base.