CN117695420A - Livestock and veterinary spraying and sterilizing device - Google Patents

Abstract

The invention belongs to the technical field of disinfection devices for livestock and veterinary use, and particularly relates to a livestock and veterinary use spraying disinfection device which comprises a plurality of housing and a rotary disinfection mechanism, wherein the rotary disinfection mechanism comprises driving equipment, an adaptive driving unit and a spraying disinfection unit, the adaptive driving unit comprises a rotating component and a guiding component, the spraying disinfection unit comprises an atomizing nozzle, the driving equipment provides power, the rotating component can adapt to the shape of the housing under the limit of the guiding component, rotate along the housing wall, avoid the existence of disinfection dead angles, and drive the spraying disinfection unit to rotate when rotating, so that the spraying disinfection unit can adjust the spraying range according to the shape of the housing, improve the disinfection uniformity, ensure the disinfection effect, guide pigs to move integrally when rotating, avoid the aggregation of the pigs, shelter the local wall of the housing, cause the disinfection dead angles, and simultaneously the nozzle moves along with the movement of the pigs, thereby improving the uniformity of disinfection liquid on the pigs.

Description

Livestock and veterinary spraying and sterilizing device

Technical Field

The invention belongs to the technical field of disinfection devices for livestock and veterinary medicine, and particularly relates to a spraying disinfection device for livestock and veterinary medicine.

Background

In the field of animal husbandry, sanitation and epidemic prevention are very important and critical, when the livestock and poultry housing is disinfected, the housing needs to be cleaned firstly and then disinfected, and part of housing, such as a pig farm, needs to be disinfected with pigs so as to inhibit the reproduction of pathogenic microorganisms in the pig house, reduce the quantity of pathogenic bacteria in the environment, reduce the content of harmful substances such as ammonia, carbon dioxide, hydrogen sulfide, suspended particles and the like in the pig house, and reduce the incidence of respiratory tract and other diseases of pigs.

When disinfecting the beasts and birds colony houses, often the manpower is carried and is spouted medicine utensil, press the handle afterwards, extrude the liquid medicine in the medical kit, atomize through the shower nozzle, disinfect the pig colony houses, however the manpower is carried the medical kit and is disinfected the colony houses, intensity of labour is great, consequently, have among the prior art to adopt pipeline type disinfectant spraying mode, make the medicament top-down spout to the colony houses inside, realize disinfecting, effectively improved the disinfection effect, intensity of labour has been reduced, also have to adopt the atomizing sterilizer to disinfect the colony houses, the staff only need hold the atomizer, directly need sterile position in the shower nozzle orientation colony houses, alright disinfect pig flocks and colony houses, effectively reduced intensity of labour.

However, when taking pig disinfection, when the shower nozzle sprays the antiseptic solution to the colony house, the pig crowd can receive the surprise, partial pig can avoid the shower nozzle, and can walk in the colony house, lead to the antiseptic solution on the pig on one's body in the same colony house to measure there is great error, cause the antiseptic solution on the part pig on one's body too much, the too little phenomenon of partial antiseptic solution, the antiseptic solution on the part pig on one's body too much can influence its health, make it take place diseases such as common cold easily, partial antiseptic solution is too little, can reduce the disinfection effect, and the pig crowd receives the surprise back, can gather in the local position of colony house, result in colony house part wall to receive the shelter from of pig crowd, make the difficult diffusion of antiseptic solution on the colony house wall, further influence the disinfection effect, and show in the patent of publication No. CN115226638B, drive the shower through setting up fan-shaped rotating frame and rotate in a circular mode, guide beasts and birds remove, however, most colony houses all are square at present, the disinfectant can exist the disinfection dead angle when spraying the antiseptic solution in square colony house in practical application.

In view of the above, the present invention provides a spraying and sterilizing device for livestock and veterinary use to improve the above technical problems.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: when taking pig disinfection, because the shower nozzle sprays the antiseptic solution in to the colony house, the swinery can receive the surprise, partial pig can avoid the shower nozzle, and can walk in the colony house, result in the antiseptic solution on the pig on one's body in the same colony house to measure there is great error, cause the antiseptic solution on the part pig on the body too much, the too little phenomenon of part antiseptic solution, the antiseptic solution on the part pig on the body is too much can influence its health, make it take place diseases such as common cold easily, the part antiseptic solution is too little, can reduce the disinfection effect, and the swinery receives the surprise after, can gather in the local position of colony house, result in colony house part wall to receive the shelter from of swinery, make the antiseptic solution be difficult for diffusing on the colony house wall, further influence the disinfection effect, and the disinfection dead angle can exist when the circumference sprays antiseptic solution in square colony house practical application.

The invention provides a livestock and veterinary spraying and sterilizing device, which comprises a plurality of houses and further comprises: the utility model provides a plurality of the middle part of colony house all is provided with rotation type disinfection mechanism, rotation type disinfection mechanism separates a colony house into two small-size colony houses, rotation type disinfection mechanism includes actuating device, self-adaptation drive unit and sprays disinfection unit, actuating device installs subaerial, self-adaptation drive unit includes rotating assembly and direction subassembly, spray disinfection unit including spraying subassembly and adjusting part, spray the subassembly and include main feed liquor part and reposition of redundant personnel part, actuating device is connected with the self-adaptation drive unit, spray disinfection unit and install on the self-adaptation drive unit.

Preferably, the rotating assembly comprises a connecting frame fixedly connected with the output end of the driving device, the connecting frame is far away from the driving device, one end of the driving device is fixedly connected with a rotating ring, the driving ring is sleeved outside the rotating ring and fixedly connected with the rotating ring, fixing plates are arranged on two sides of the driving ring, the fixing plates are symmetrically arranged on two sides of the driving ring, the fixing plates are fixedly connected with the driving ring, through grooves are formed in the fixing plates in the height direction, and sliding plates are arranged in the through grooves and are in sliding connection with the fixing plates.

Preferably, the guide assembly comprises a guide rail arranged at the inner bottom of the colony house, the guide rail comprises a rail body and a guide groove formed in the rail body, the shape of the guide groove is the same as that of the colony house, the guide rail is attached to the wall surface of the colony house and is fixedly connected with the colony house, and the bottom of the sliding plate is fixedly connected with a sliding rod which is in sliding connection with the guide rail.

Preferably, the self-adaptation is driven disinfection unit still includes the subassembly that opens and shuts, be provided with multiunit subassembly that opens and shuts on the guide rail, the subassembly that opens and shuts is including seting up the spout on the guide rail and being located the both sides of guide way, be provided with a spring in the spout, a spring one end and guide rail fixed connection, other end fixedly connected with slider, fixedly connected with shrouding on the slider upper surface, shrouding lower surface and guide rail upper surface laminating, when initial state, be located two shrouding contacts each other between the spring, be located two sliders between the spring laminate each other, fixedly connected with toper piece on the side that the slide bar is close to the shrouding, the sharp end of toper piece is kept away from the slide bar setting and is located two shrouding symmetry axes.

Preferably, the main liquid inlet component is in including setting up the inside fixed axle of just rotating ring fixed connection with the rotating ring, be equipped with water conservancy diversion piece and inlet ring from last to being equipped with in proper order down on the fixed axle, the water conservancy diversion piece is located the top of fixed axle and with fixed axle fixed connection, inlet ring cover is established on the fixed axle and with fixed axle axial sliding connection, rotate on the water conservancy diversion piece upper surface and be connected with the feed liquor pipe, the feed liquor pipe other end is connected with the antiseptic solution bucket, fixedly connected with double-deck bellows between inlet ring and the water conservancy diversion piece, double-deck bellows cover is established on the fixed axle, double-deck bellows includes inlayer bellows and outer bellows, be provided with the feed liquor chamber between inlayer bellows and the outer bellows, set up a feed liquor hole on the water conservancy diversion piece, a feed liquor hole one end and feed liquor pipe intercommunication, the other end and feed liquor chamber intercommunication.

Preferably, the flow dividing component comprises two flow dividing holes arranged on the liquid inlet ring, the two flow dividing holes are respectively arranged on one side of the liquid inlet ring, which is close to the two fixing plates, the flow dividing holes are communicated with the liquid inlet cavity, a liquid discharge pipe is arranged at the flow dividing holes and is fixedly connected with the liquid inlet ring, the liquid discharge pipe is a hose, and a plurality of atomizing spray heads are uniformly arranged on the liquid discharge pipe.

Preferably, the adjusting part is including setting up the piece that draws on the slide, draw the piece to be located the slide and keep away from the one end of fixed plate and with slide fixed connection, the drain pipe is kept away from feed liquor ring one end and draws piece fixed connection, fixedly connected with presses the frame on the fixed plate, the drain pipe body passes the frame that presses, fixedly connected with No. two springs between feed liquor ring and the rotation ring, no. two spring housing is established on the fixed axle.

Preferably, the pressing frame is internally and fixedly connected with a rotating shaft, the axis of the rotating shaft is perpendicular to the axis of the rotating ring, the rotating shaft is rotationally connected with a pressing wheel, and the liquid discharge pipe is positioned between the pressing wheel and the fixed plate.

Preferably, the sliding plate is fixedly provided with a concave block, the groove of the concave block is an arc groove, the liquid discharge pipe is partially positioned in the arc groove, and the atomizing nozzle is contacted with the upper end surface of the concave block.

The beneficial effects of the invention are as follows:

1. according to the livestock and veterinary spraying and sterilizing device, the driving equipment, the self-adaptive driving unit and the spraying and sterilizing unit are arranged, the driving equipment provides power, so that the rotating assembly can self-adapt to the shape of a housing under the limit of the guide assembly and rotate along the wall of the housing, sterilizing dead angles are avoided, the spraying and sterilizing unit is driven to rotate during rotation, the spraying range is automatically adjusted, the sterilizing uniformity is improved, the sterilizing effect is ensured, the rotating assembly guides the whole pig group to walk during rotation, the atomizing spray heads are driven to rotate at the same time, the pig group is prevented from gathering, the sterilizing dead angles are prevented from being caused by shielding local walls of the housing, and meanwhile, the spray heads move along with the movement of the pig group, so that the sterilizing liquid uniformity on the pig body is improved.

2. According to the livestock and veterinary spraying and sterilizing device, when the rotating assembly is adjusted to be in a telescopic state along with the shape change of the housing, the quantity of the transversely arranged atomizing spray heads is adjusted through the adjusting assembly, and meanwhile, the constant distance between the atomizing spray heads is ensured, so that the sterilizing uniformity is further improved, and when the rotating assembly is telescopic, the double-layer corrugated pipe is lengthened and folded in a reciprocating mode, so that sterilizing liquid in the liquid inlet cavity is oscillated, the sterilizing liquid is uniformly mixed, and on the other hand, the longitudinally arranged atomizing spray heads move up and down, and the spraying range is enlarged.

3. According to the livestock and veterinary spraying and sterilizing device, the rotating sterilizing mechanism is arranged to divide one colony house into two small colony houses, so that the two small colony houses use the rotating sterilizing mechanism, and when pigs are sterilized in the colony houses, a medicine box does not need to be carried on the hand, the labor intensity is effectively reduced, and workers do not need to enter the colony houses during sterilization, and the damage of sterilizing liquid to human bodies is avoided.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

FIG. 1 is a schematic view of the internal structure of a farm according to the present invention;

FIG. 2 is a schematic view of the internal structure of the housing of the present invention;

FIG. 3 is an enlarged view of FIG. 2A in accordance with the present invention;

FIG. 4 is a schematic view of the structure of the rotating and guiding assemblies of the present invention;

FIG. 5 is an enlarged view of FIG. 4B in accordance with the present invention;

FIG. 6 is a schematic view of the telescopic state of the rotating assembly according to the present invention;

FIG. 7 is a schematic view of the structure of the main liquid inlet part of the present invention;

FIG. 8 is an enlarged view of FIG. 7 at C in accordance with the present invention;

FIG. 9 is a schematic view of the spray assembly of the present invention;

in the figure: 1. a colony house; 2. a rotary sterilization mechanism; 21. a driving device; 22. an adaptive driving unit; 221. a rotating assembly; 2211. a connecting frame; 2212. a rotating ring; 2213. a drive ring; 2214. a fixing plate; 2215. a through groove; 2216. a slide plate; 222. a guide assembly; 2221. a guide rail; 3. a guide groove; 2222. a slide bar; 223. an opening and closing assembly; 2231. a chute; 2232. a first spring; 2233. a slide block; 2234. a sealing plate; 2235. a conical block; 23. a spray sterilization unit; 231. a spray assembly; 4. a main liquid inlet component; 41. a fixed shaft; 42. a flow guiding block; 43. a liquid inlet ring; 44. a liquid inlet pipe; 45. a double-layer corrugated pipe; 451. an inner corrugated pipe; 452. an outer corrugated tube; 46. a liquid inlet cavity; 47. a first liquid inlet hole; 5. a shunt member; 51. a diversion aperture; 52. a liquid discharge pipe; 53. an atomizing nozzle; 232. an adjustment assembly; 2321. pulling blocks; 2322. pressing a frame; 2323. a second spring; 6. a rotating shaft; 7. a pinch roller; 8. a concave block.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 9, the spraying and sterilizing device for livestock and veterinary use provided by the invention comprises a plurality of houses 1 and further comprises: the middle part of a plurality of colony houses 1 all is provided with rotation type disinfection mechanism 2, according to shown in fig. 1, rotation type disinfection mechanism 2 separates a colony house 1 into two small-size colony houses 1, rotation type disinfection mechanism 2 acts as the baffle between two small-size colony houses 1, rotation type disinfection mechanism 2 includes actuating device 21, self-adaptation is driven unit 22 and is sprayed disinfection unit 23, actuating device 21 installs subaerial, actuating device 21 can be the motor, actuating device 21 provides power for self-adaptation is driven unit 22, self-adaptation is driven unit 22 and includes rotating assembly 221 and direction subassembly 222, actuating device 21 drives rotating assembly 221 and rotates, rotating assembly 221 changes its flexible state according to the shape self-adaptation of colony house 1 under the spacing of direction subassembly 222, thereby make rotating assembly 221 all the time along the wall movement of colony house 1, thereby make rotating assembly 221 can drive the shape change of spraying disinfection unit 23 self-adaptation colony houses 1, guarantee the disinfection scope, and guide two small-size colony houses 1 in the pig crowd removes, avoid the pig crowd to gather at colony houses 1 and the power for self-adaptation is driven unit 22 and is driven unit 23 and is sprayed the local area of colony houses 1, thereby the local area is driven unit 23 is driven by the self-adaptation is connected with the rotating assembly 23, and is sprayed disinfection unit 23, thereby the local area is driven unit is connected with the self-adaptation is driven unit 23, and is sprayed unit is driven to the local area is driven to the moving unit is connected with the fan unit is driven unit 1, and is sprayed unit is driven by the local area is connected with the fan-down, and is connected with the local area is sprayed unit is the fan unit is convenient.

As shown in fig. 2 and 4, the rotating assembly 221 includes a connecting frame 2211 fixedly connected with an output end of the driving device 21, a rotating ring 2212 is fixedly connected to one end of the connecting frame 2211 far away from the driving device 21, a driving ring 2213 is sleeved outside the rotating ring 2212, the driving ring 2213 is fixedly connected with the rotating ring 2212, fixing plates 2214 are respectively arranged at two sides of the driving ring 2213, two fixing plates 2214 are symmetrically arranged at two sides of the driving ring 2213, the two fixing plates 2214 are fixedly connected with the driving ring 2213, a through groove 2215 is formed on the fixing plates 2214 along the height direction of the fixing plates 2214, a sliding plate 2216 is arranged in the through groove 2215, protruding blocks are arranged at two sides of the sliding plate 2216, a sliding groove is formed on a groove surface of the through groove, the protruding blocks are positioned in the sliding groove and are matched with the sliding groove, so that the sliding plate 2216 is in sliding connection with the fixing plates 2212, the whole sliding plate 2214 forms a telescopic plate, the length a is set to be b, the length of the whole circle 1, the sliding plate 2216 and the length of the fixing plate 2214 is equal to the whole length a/2 in the maximum contracted state, and the length a is equal to the whole length of the sliding plate 2216 in the maximum state (the maximum length is equal to the length a is equal to the maximum) in the whole length and 4 and is equal to the maximum extension state) ² +b ² )/2。

When the colony house 1 and the pig flock are disinfected, a worker starts the driving device 21 according to the control of the controller, the output end of the driving device 21 rotates to drive the connecting frame 2211 to rotate, the rotating speed range of the output end of the driving device 21 can be set to be 0.1-0.3 r/min, the situation that the pig flock is frightened due to too high rotating speed is avoided, the connecting frame 2211 rotates to drive the rotating ring 2212 to rotate, the rotating ring 2212 drives the driving ring 2213 fixedly connected with the outside of the rotating ring 2213 to rotate, the driving ring 2213 rotates to drive the fixing plate 2214 and the sliding plate 2216 to rotate, and the driving ring 2213 and the sliding plate 2216 can drive and guide the pig flocks in the two small colony houses 1 to move when rotating, so that the local wall of the colony house 1 cannot be sprayed with disinfectant due to the local position of the pig flock in the colony house 1 during disinfection is avoided.

As shown in fig. 2, 4 and 5, the guide assembly 222 comprises a guide rail 2221 installed at the bottom in the housing 1, the bottom of the guide rail 2221 is in contact with the ground, the height of the guide rail 2221 is not more than 20cm, workers and beasts and birds can conveniently cross the guide rail 2221 when entering the housing 1, the guide rail 2221 comprises a rail body and a guide groove 3 formed in the rail body, the guide groove 3 is identical to the housing 1 in shape, as shown in fig. 1 and 2, the housing 1 is rectangular, the guide groove 3 is rectangular, the guide rail 2221 is attached to the wall of the housing 1 and fixedly connected with the housing 1 through bolts and the like, a slide bar 2222 is fixedly connected at the bottom of the slide plate 2216, the slide bar 2222 is inserted into the guide groove 3 on the guide rail 2221 and is in sliding connection with the guide rail 2221, the guide slot 3 is set to be of a T-shaped structure, the sliding rod 2222 is also of a T-shaped structure, sliding stability is improved, when the sliding plate 2216 is driven by the fixed plate 2214 to rotate with the circle center of the driving ring 2213, the sliding rod 2222 is pulled to move in the guide slot 3, as shown in fig. 6, as the guide slot 3 is rectangular, the distances between the circle center of the driving ring 2213 and different points on the guide slot 3 are different, so that the sliding plate 2216 periodically stretches out and withdraws in the through slot 2215 of the fixed plate 2214 under the limitation of the sliding rod 2222 and the guide rail 2221, the rotating plate always moves along the wall of the colony house 1, and accordingly the fixed plate 2214 and the rotating plate can drive the spray disinfection unit 23 to adapt to the shape change of the colony house 1, and disinfection dead angles exist during later disinfection are avoided.

In order to avoid the influence of more impurities entering the guide groove 3 before disinfection on the normal movement of the sliding rod 2222 during the disinfection of the housing 1, the self-adaptive driving disinfection unit also comprises an opening and closing component 223, a plurality of groups of opening and closing components 223 are arranged on the guide rail 2221, the opening and closing component 223 comprises a sliding groove 2231 which is arranged on the guide rail 2221 and positioned on two sides of the guide groove 3, a first spring 2232 is arranged in the sliding groove 2231, one end of the first spring 2232 is fixedly connected with the guide rail 2221, the other end is fixedly connected with a sliding block 2233, a sealing plate 2234 is fixedly connected on the upper surface of the sliding block 2233, the lower surface of the sealing plate 2234 is jointed with the upper surface of the guide rail 2221, in the initial state, two sealing plates 2234 positioned between the two first springs 2232 are mutually contacted, the guide groove 3 is blocked, two sliding blocks 2233 positioned between the two first springs 2232 are mutually jointed, a conical block 2235 is fixedly connected on one side surface of the sliding rod 2222 close to the sealing plate 2234, the sharp end of the tapered block 2235 is disposed away from the sliding rod 2222 and is located on the symmetry axis of the two sealing plates 2234, and during sterilization, the sliding plate 2216 drives the sliding rod 2222 to move on the guide rail 2221, and the sliding rod 2222 drives the tapered block 2235 disposed thereon to move, and because the sharp end of the tapered block 2235 is located on the symmetry axis of the two sealing plates 2234, during movement of the tapered block 2235, the sharp end of the tapered block 2235 is inserted between the two sealing plates 2234, pushes the two sealing plates 2234 to move to both sides of the guide groove 3, opens the guide groove 3, enables the sliding rod 2222 to normally move on the guide rail 2221, pushes the sliding rod 2233 to slide in the guide groove 2231 and presses the first spring 2232 when the two sealing plates 2234 move to both sides of the guide groove 3, and the first spring 2232 resumes elastic deformation to drive the sealing plate 2234 to recover to the original position when the sliding rod 2222 is away from the set of opening and closing components 223, so that the guide groove 3 is sealed again, meanwhile, the sliding rod 2222 enters between the two sealing plates 2234 of the next group of opening and closing components 223, the conical block 2235 pushes the two sealing plates 2234 of the next group to move towards the two sides of the guide groove 3, so that the sliding rod 2222 is guaranteed to move normally, excessive impurities are prevented from entering the guide groove 3 to affect the movement of the sliding rod 2222, and excessive impurities are prevented from entering the guide groove 3 to be difficult to clean.

As shown in fig. 2, fig. 3, fig. 7 to fig. 9, the main liquid inlet component 4 includes a fixed shaft 41 disposed inside a rotating ring 2212 and fixedly connected with the rotating ring 2212, a guide block 42 and a liquid inlet ring 43 are sequentially disposed on the fixed shaft 41 from top to bottom, the guide block 42 is disposed at the top of the fixed shaft 41 and fixedly connected with the fixed shaft 41, the liquid inlet ring 43 is sleeved on the fixed shaft 41 and axially slidably connected with the fixed shaft 41, a liquid inlet pipe 44 is rotatably connected to the upper surface of the guide block 42, the other end of the liquid inlet pipe 44 is connected with a disinfectant barrel, a connecting rod is fixedly connected to the liquid inlet pipe 44, the other end of the connecting rod is fixedly connected with a wall of the housing 1, the liquid inlet pipe 44 is prevented from following the rotation of the guide block 42, a double-layer corrugated pipe 45 is fixedly connected between the liquid inlet ring 43 and the guide block 42, the double-layer corrugated pipe 45 is sleeved on the fixed shaft 41, the double-layer corrugated pipe 45 can be stretched and contracted, a liquid inlet cavity 46 is disposed between the inner-layer corrugated pipe 451 and the outer-layer corrugated pipe 452, a liquid inlet hole 47 is formed in the guide block 42, one end 47 is rotatably connected to the liquid inlet pipe 47, and the other end of the liquid inlet pipe 44 is communicated with the liquid inlet cavity 46 when the liquid inlet pipe 44 passes through the inner-layer corrugated pipe 44, and the inner-layer corrugated pipe 44 is communicated with the liquid inlet cavity 46.

As shown in fig. 2, 3, 8 and 9, the disinfectant in the liquid inlet chamber 46 flows to two sides of the fixed shaft 41 through the splitting component 5, the splitting component 5 includes splitting holes 51 formed on the liquid inlet ring 43, two splitting holes 51 are respectively located at one side of the liquid inlet ring 43 close to the two fixing plates 2214, the splitting holes 51 are communicated with the liquid inlet chamber 46, a liquid discharge pipe 52 is arranged at the splitting holes 51, the liquid discharge pipe 52 is fixedly connected with the liquid inlet ring 43, the liquid discharge pipe 52 is a hose, a plurality of atomizing nozzles 53 are uniformly arranged on the liquid discharge pipe 52, the disinfectant in the liquid inlet chamber 46 enters the liquid discharge pipes 52 at two sides of the liquid inlet ring 43 through the splitting holes 51 on the liquid inlet ring 43, and then the disinfectant is sprayed out through the atomizing nozzles 53 on the liquid discharge pipe 52 to disinfect the colony house 1 and the pig group.

As shown in fig. 2, 3 and 6 to 9, in order to ensure that when the slide plate 2216 stretches in the through groove 2215 of the fixed plate 2214 during sterilization, the number of the atomizing nozzles 53 on the liquid discharge pipe 52 can be adjusted according to the stretching state of the slide plate 2216, so that the swinery on two sides of the fixed plate 2214 can be uniformly sterilized, and the space between the atomizing nozzles 53 is ensured to be constant, thereby further improving the uniformity of sterilization, the adjusting component 232 is arranged, the adjusting component 232 comprises a pull block 2321 arranged on the slide plate 2216, the pull block 2321 is positioned at one end of the slide plate 2216 far away from the fixed plate 2214, the pull block 2321 is fixedly connected with the slide plate 2216, one end of the liquid discharge pipe 52 far away from the liquid inlet ring 43 is fixedly connected with the pull block 2321, the fixed plate 2214 is fixedly connected with a pressing frame 2322, the pipe body of the liquid discharge pipe 52 passes through the pressing frame 2322, the liquid discharge pipe 52 is arranged in an L shape, so that the part of the atomizing nozzle 53 between the pressing frame 2322 and the fixed shaft 41 is longitudinally arranged, the atomizing nozzle 53 between the pressing frame 2322 and the pull block 2321 is transversely arranged, a second spring 2323 is fixedly connected between the liquid inlet ring 43 and the rotating ring 2212, the second spring 2323 is sleeved on the fixed shaft 41, when the driving device 21 is started, the connecting frame 2211, the rotating ring 2212 and the driving ring 2213 drive the fixed plate 2214, the sliding plate 2216 and the fixed shaft 41 to rotate, the fixed plate 2214 and the sliding plate 2216 are limited by the guide rail 2221 during rotation to automatically adjust the telescopic state, so that the sliding plate 2216 always moves along the inner wall of the housing 1, and when the sliding plate 2216 slides out and stretches along the fixed plate 2214, the pull block 2321 is driven to move away from the fixed shaft 41, when the sliding plate 2216 slides into the fixed plate 2214 along the fixed plate 2214 to shrink, the pull block 2321 on the two sides of the fixed shaft 41 moves away from the fixed shaft 41, the liquid discharge pipe 52 positioned between the pressing frame 2322 and the fixed shaft 41 is pulled out, the liquid inlet ring 43 is pulled by the liquid discharge pipe 52 to move downwards, the liquid inlet ring 43 moves downwards to squeeze the second spring 2323, more atomizing nozzles 53 are driven by the pulled liquid discharge pipe 52 to fall on the sliding plate 2216, namely, more atomizing nozzles 53 are uniformly distributed on the telescopic plate formed by the fixing plate 2214 and the sliding plate 2216 in an extending state, the disinfection range is expanded, when the pulling blocks 2321 at two sides of the fixed shaft 41 move towards the side close to the fixed shaft 41, the second spring 2323 recovers elastic deformation, the liquid inlet ring 43 is pushed to move upwards, the liquid discharge pipe 52 originally positioned between the pressing frame 2322 and the fixed shaft 41 is pulled back, the number of the atomizing nozzles 53 on the telescopic plate formed by the fixing plate 2214 and the sliding plate 2216 in a shrinking state is reduced, and therefore, when the fixing plate 2214 and the sliding plate 2216 move along the guide rail 2221, the telescopic state can be automatically changed according to the shape of the housing 1, the number of the atomizing nozzles 53 can be automatically changed, the number of the atomizing nozzles 53 falling on the telescopic plate can also be ensured, and the constant disinfection effect of the atomizing nozzles 53 can be further improved.

And, when the driving device 21 drives the slide plate 2216 to rotate, the fixed shaft 41 is also driven to rotate, so that the fixed plate 2214 and the slide plate 2216 rotate to guide the swinery to move, and the atomizing nozzle 53 falling on the telescopic plate formed by the slide plate 2216 and the fixed plate 2214 also follows the slide plate 2216 to rotate while changing the quantity according to the telescopic state of the slide plate 2216, so that the atomizing nozzle 53 falling on the telescopic plate always faces the swinery, and the uniformity of the disinfectant on the swinery is improved.

In addition, since the fixing plate 2214 and the slide plate 2216 are periodically telescopic, the liquid inlet ring 43 reciprocally moves up and down on the fixing shaft 41, that is, the double-layer corrugated pipe 45 is reciprocally elongated and folded, and simultaneously, the longitudinally arranged atomizing nozzle 53 positioned between the pressing frame 2322 and the fixing shaft 41 reciprocally moves up and down, so that the spraying range of the longitudinally arranged atomizing nozzle 53 is further improved, the disinfection effect is improved, and in the process that the double-layer corrugated pipe 45 is reciprocally elongated and folded, the disinfection liquid in the liquid inlet cavity 46 is oscillated, and the disinfection liquid is prevented from precipitating, so that the disinfection liquid is uniformly mixed.

As shown in fig. 8, in order to avoid the distortion of the atomizing nozzle 53 caused by the shaking dislocation during the movement of the liquid discharge tube 52, the disinfection effect is affected, so that a rotating shaft 6 is fixedly connected in the pressing frame 2322, the axis of the rotating shaft 6 is perpendicular to the axis of the rotating ring 2212, a pressing wheel 7 is rotatably connected on the rotating shaft 6, the liquid discharge tube 52 is located between the pressing wheel 7 and the fixing plate 2214, the pressing wheel 7 clamps the liquid discharge tube 52 and ensures the normal movement of the liquid discharge tube 52, and the stability of the liquid discharge tube 52 is ensured.

As shown in fig. 7 and 8, in order to further ensure the stable positions of the liquid discharge tube 52 and the atomizer 53 and ensure the disinfection effect, the slide plate 2216 is fixedly provided with the concave block 8, the concave groove of the concave block 8 is an arc groove, the liquid discharge tube 52 is partially positioned in the arc groove, the atomizer 53 contacts with the upper end surface of the concave block 8, the liquid discharge tube 52 is limited by the concave block 8, and meanwhile, when the liquid discharge tube 52 is filled with disinfectant, the liquid discharge tube 52 is expanded, so that the atomizer 53 is better attached to the arc groove of the concave block 8, the stability is further improved, and the atomizer 53 is supported by the upper end surface of the concave block 8 to be more stable.

Working principle:

when the housing 1 and the pig flock are sterilized, the worker starts the driving device 21 according to the control of the controller, the output end of the driving device 21 rotates to drive the connecting frame 2211 to rotate, the connecting frame 2211 rotates to drive the rotating ring 2212 to rotate, the rotating ring 2212 drives the driving ring 2213 fixedly connected with the outside of the driving ring 2213 to rotate, the driving ring 2213 rotates to drive the fixing plate 2214 and the sliding plate 2216 to rotate, the driving ring 2213 and the sliding plate 2216 can drive and guide the pig flock in the two small housing 1 to move when rotating, the local position of the pig flock in the housing 1 is avoided when sterilizing, the sliding plate 2216 pulls the sliding rod 2222 to move in the guide groove 3 when rotating with the circle center of the driving ring 2213 under the drive of the fixing plate 2214, as shown in figure 6, because the guide groove 3 is rectangular, the distances between the circle center of the driving ring 2213 and different points on the guide groove 3 are different, so that the sliding plate 2216 is limited by the sliding rod 2222 and the guide rail 2221, periodically extending and retracting in the through groove 2215 of the fixed plate 2214, so that the rotating plate always moves along the wall of the housing 1, meanwhile, a worker controls the pressurizing device in the disinfectant tank to convey the disinfectant into the liquid inlet pipe 44 according to the controller, then enters the liquid inlet cavity 46 between the inner corrugated pipe 451 and the outer corrugated pipe 452 through the liquid inlet pipe 44 and the first liquid inlet hole 47 of the guide block 42, then enters the liquid outlet pipe 52 through the flow distribution hole 51 on the liquid inlet ring 43, and then is sprayed out from the atomizing nozzle 53, meanwhile, the slide plate 2216 drives the pull block 2211 to reciprocate in the process of periodically extending and retracting in the through groove 2215 of the fixed plate 2214, namely, drives the pull block 2321 to move away from the fixed shaft 41 when the slide plate 2216 slides out and extends along the fixed plate 2214, drives the pull block 2321 to move towards the side close to the fixed shaft 41 when the slide plate 2214 slides into the fixed plate 2214, when the pull blocks 2321 on two sides of the fixed shaft 41 move to the side far away from the fixed shaft 41, the liquid drain pipe 52 between the press frame 2322 and the fixed shaft 41 is pulled out, and then the liquid drain pipe 52 pulls the liquid inlet ring 43 to move downwards, the second spring 2323 is extruded, more atomizer 53 are uniformly distributed on the expansion plate formed by the fixed plate 2214 and the slide plate 2216 in an extension state, the disinfection range is expanded, when the pull blocks 2321 on two sides of the fixed shaft 41 move to the side close to the fixed shaft 41, the second spring 2323 recovers elastic deformation, the liquid inlet ring 43 is pushed to move upwards, the liquid drain pipe 52 originally positioned between the press frame 2322 and the fixed shaft 41 is pulled back, the quantity of atomizer 53 on the expansion plate formed by the fixed plate 2214 and the slide plate 2216 in a contraction state is reduced, and thus the disinfection range is reduced, therefore, when the fixed plate 2214 and the slide plate 2216 move along the guide rail 2221, the quantity of the atomizer 53 on the slide plate 2216 is automatically changed according to the shape of the housing 1, the improved uniformity, and when the quantity of the atomizer 53 is adjusted, the atomizer 53 is always guaranteed to be constantly, the constant, the atomizer 53 is also driven to move towards the fixed plate 21 and the fixed plate 2216, the fixed plate is driven to move towards the fixed plate 41, and the uniform plate is driven to move along the expansion plate, and the expansion plate is further, and the expansion plate is driven to move along the expansion plate 53, and the expansion plate 53 is fixed plate and the expansion plate and can be kept along the expansion plate and is kept by the constant and the expansion plate and the expansion plate. That is, the double-layer corrugated pipe 45 is reciprocally elongated and folded, and simultaneously, the vertically arranged atomizing nozzle 53 positioned between the pressing frame 2322 and the fixed shaft 41 is reciprocally moved up and down, so that the spraying range of the vertically arranged atomizing nozzle 53 is further improved, the disinfection effect is improved, and in the reciprocally elongated and folded process of the double-layer corrugated pipe 45, the disinfection liquid in the liquid inlet cavity 46 is oscillated, and the disinfection liquid is prevented from depositing, thereby enabling the disinfection liquid to be evenly mixed.

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 characteristics 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 (9)

1. Livestock and veterinary is with spraying degassing unit, including a plurality of colony houses (1), its characterized in that still includes: a plurality of the middle part of colony house (1) all is provided with rotation type disinfection mechanism (2), rotation type disinfection mechanism (2) separate an colony house (1) into two small-size colony houses (1), rotation type disinfection mechanism (2) are including actuating device (21), self-adaptation are driven unit (22) and are sprayed disinfection unit (23), actuating device (21) are installed subaerial, self-adaptation is driven unit (22) including rotating assembly (221) and direction subassembly (222), spray disinfection unit (23) including spraying subassembly (231) and adjusting part (232), spray subassembly (231) include main feed liquor part (4) and reposition of redundant personnel part (5), actuating device (21) are connected with self-adaptation are driven unit (22), spray disinfection unit (23) and install on self-adaptation are driven unit (22).

2. A spraying and disinfecting device for livestock animals according to claim 1, wherein: the rotating assembly (221) comprises a connecting frame (2211) fixedly connected with the output end of the driving device (21), one end of the connecting frame (2211) away from the driving device (21) is fixedly connected with a rotating ring (2212), a driving ring (2213) is sleeved outside the rotating ring (2212), the driving ring (2213) is fixedly connected with the rotating ring (2212), fixing plates (2214) are arranged on two sides of the driving ring (2213), the fixing plates (2214) are symmetrically arranged on two sides of the driving ring (2213), two fixing plates (2214) are fixedly connected with the driving ring (2213), through grooves (2215) are formed in the fixing plates (2214) along the height direction of the fixing plates, and sliding plates (2216) are arranged in the through grooves (2215) and are in sliding connection with the fixing plates (2214).

3. A spraying and disinfecting device for livestock animals according to claim 2, wherein: the guide assembly (222) comprises a guide rail (2221) arranged at the inner bottom of the housing (1), the guide rail (2221) comprises a rail body and a guide groove (3) formed in the rail body, the guide groove (3) is identical to the housing (1) in shape, the guide rail (2221) is attached to the wall surface of the housing (1) and is fixedly connected with the housing (1), a slide bar (2222) is fixedly connected to the bottom of the slide plate (2216), and the slide bar (2222) is slidably connected with the guide rail (2221).

4. A spraying and disinfecting device for livestock animals according to claim 3, wherein: the self-adaptation is driven disinfection unit still includes and opens and shuts subassembly (223), be provided with multiunit on guide rail (2221) and open and shut subassembly (223), open and shut subassembly (223) including seting up spout (2231) on guide rail (2221) and being located the both sides of guide way (3), be provided with spring (2232) in spout (2231), spring (2232) one end and guide rail (2221) fixed connection, other end fixedly connected with slider (2233), fixedly connected with shrouding (2234) on slider (2233) upper surface, shrouding (2234) lower surface and guide rail (2221) upper surface laminating, in initial state, be located two between spring (2232) two sliders (2233) between spring (2232) laminate each other, slider (2232) are close to one side of shrouding (2234) and are fixedly connected with conical block (5), conical block (2235) are located two sharp-pointed seal plates (2234) setting up and are located two slide bars (2224) symmetry axis.

5. A spraying and disinfecting device for livestock animals according to claim 2, wherein: the utility model provides a liquid feed device, including main feed liquid part (4), including setting up inside and fixed axle (41) with rotation ring (2212) fixed connection of rotation ring (2212), fixed axle (41) are gone up from last to being equipped with water conservancy diversion piece (42) and feed liquid ring (43) down in proper order, water conservancy diversion piece (42) are located the top of fixed axle (41) and with fixed axle (41) fixed connection, feed liquid ring (43) cover is established on fixed axle (41) and with fixed axle (41) axial sliding connection, rotate on water conservancy diversion piece (42) upper surface and be connected with feed liquid pipe (44), feed liquid pipe (44) other end and disinfection liquid bucket are connected, fixedly connected with bilayer bellows (45) between water conservancy diversion piece (43) and the water conservancy diversion piece (42), bilayer bellows (45) cover is established on fixed axle (41), bilayer bellows (45) are including inlayer bellows (451) and outer bellows (452), be provided with feed liquid chamber (46) between inlayer bellows (451) and outer bellows (452), feed liquid chamber (46) have one end feed liquid (47) and feed liquid hole (47).

6. A spraying and disinfecting device for livestock animals according to claim 5, wherein: the utility model provides a liquid feeding ring (43) is characterized in that a flow distribution part (5) is including seting up flow distribution hole (51) on the liquid feeding ring (43), flow distribution hole (51) are equipped with two, two flow distribution hole (51) are located one side that liquid feeding ring (43) are close to two fixed plates (2214) respectively, flow distribution hole (51) and feed liquor chamber (46) intercommunication, flow distribution hole (51) department is provided with fluid-discharge tube (52), fluid-discharge tube (52) and liquid feeding ring (43) fixed connection, fluid-discharge tube (52) are the hose, evenly be provided with a plurality of atomizer (53) on fluid-discharge tube (52).

7. A spraying and disinfecting device for livestock animals according to claim 6, wherein: the adjusting component (232) comprises a pull block (2321) arranged on a sliding plate (2216), the pull block (2321) is located at one end of the sliding plate (2216) away from a fixed plate (2214) and is fixedly connected with the sliding plate (2216), a liquid discharge pipe (52) is located at one end of a liquid inlet ring (43) and is fixedly connected with the pull block (2321), a pressing frame (2322) is fixedly connected to the fixed plate (2214), a pipe body of the liquid discharge pipe (52) penetrates through the pressing frame (2322), a second spring (2323) is fixedly connected between the liquid inlet ring (43) and the rotating ring (2212), and the second spring (2323) is sleeved on the fixed shaft (41).

8. A spraying and disinfecting device for livestock animals according to claim 7, wherein: the novel liquid discharge device is characterized in that a rotating shaft (6) is fixedly connected in the pressing frame (2322), the axis of the rotating shaft (6) is perpendicular to the axis of the rotating ring (2212), a pressing wheel (7) is rotationally connected to the rotating shaft (6), and the liquid discharge tube (52) is located between the pressing wheel (7) and the fixing plate (2214).

9. A spraying and disinfecting device for livestock animals according to claim 6, wherein: the novel spray nozzle is characterized in that a concave block (8) is fixedly arranged on the slide plate (2216), a groove of the concave block (8) is an arc groove, a liquid discharge pipe (52) is partially positioned in the arc groove, and the spray nozzle (53) is in contact with the upper end face of the concave block (8).