CN220308093U - Intelligent counting ecological chicken house - Google Patents

Abstract

The utility model discloses an intelligent counting ecological chicken house, wherein a partition plate is arranged on a first bottom plate, chicken nests are arranged between the partition plates, hollowed-out holes are formed in the first bottom plate and a second bottom plate, an inlet and an outlet are formed in a coaming, photoelectric counting sensors are arranged on two sides of the inlet and the outlet, and the photoelectric counting sensors are arranged on the coaming through a lifting adjusting device; the photoelectric counting sensor is electrically connected with the controller; the support frame is provided with a collection channel, both ends of the collection channel are provided with cleaning guide outlets, a sliding scraper is slidably arranged in the collection channel, and cleaning collection grooves are arranged at the cleaning guide outlets; the first bottom plate is provided with a rotating shaft which is rotatably arranged on the supporting frame, and an egg accommodating device is arranged below the supporting frame; the chicken manure accumulated in the chicken coop can be cleaned, the chicken coop is guaranteed to have a good environment, eggs in the chicken coop can be collected, the efficiency is improved, chickens in the chicken coop can be counted, and fine management is facilitated.

Description

Intelligent counting ecological chicken house

Technical Field

The utility model mainly relates to the technical field of cultivation appliances, in particular to an intelligent counting ecological chicken house.

Background

In broiler chicken raising, the under-forest raising is different from the traditional animal husbandry, and based on ecological bearing capacity, the under-forest raising utilizes woodland resource and woodland space fully to form natural planting and raising combined industrial development mode, and has changed traditional production and life modes of people and livestock living.

In the prior art, chicken manure is easily accumulated in the chicken house, the chicken manure is not cleaned timely, the risk of chicken infection is easily increased, but the chicken manure cleaning process is time-consuming and labor-consuming, so that the chicken manure is inconvenient to clean, the under-forest free-range chicken house is recorded in the publication of patent number 202120562760.7, and comprises a chicken house body, a ventilation mechanism is arranged in the chicken house body, a fixing shell is fixedly connected to the left side of the chicken house body, a connecting shell is fixedly connected to the right side of the chicken house body, a collecting mechanism penetrating through the chicken house body and extending to the inside of the connecting shell is arranged in the fixing shell, support rods which are distributed equidistantly and are positioned above the collecting mechanism are fixedly connected to the inside of the chicken house body, and a screen plate positioned at the top of the support rods is arranged in the inside of the chicken house body, and a cleaning mechanism extending to the top of the connecting shell is arranged in the inside of the connecting shell; the chicken manure in the chicken house falls into the collecting mechanism through the gaps of the screen plates, the collecting mechanism comprises a transmission belt, the cleaning mechanism comprises bristle bundles, and the bristle bundles brush the chicken manure falling onto the belt through belt transmission; the free range chicken house for the broiler chickens under the forest has the following disadvantages:

1. chicken manure can fall onto the belt from the screen plate, the belt can be cleaned through the brush hair bundles, although the screen plate is coated with the self-cleaning paint, chickens continuously walk on the screen plate, the claws can wear the self-cleaning paint, the self-cleaning paint also has certain timeliness, germs can be bred after the chicken manure is not cleaned for a long time, and the risk of chicken contamination is increased;

2. when the belt rotates, the brush hair bundles are contacted with the belt, so that chicken manure on the belt can be effectively cleaned, but friction between the brush hair bundles and the belt can cause abrasion of the belt, the belt is cleaned regularly, the chicken manure has certain corrosiveness, the belt is corroded and is uneven in corrosion, the transmission efficiency is affected, the belt also needs to be replaced regularly, the belt penetrates through the henhouse body, the volume of the belt is large, and the use cost is increased in an intangible way;

3. in the raising process, after the chicken lays eggs, the eggs are in the chicken house, the chicken is not timely collected and has the risks of being stepped on, polluted and the like, and the chicken enters the chicken house for collection by manpower, so that the efficiency is low;

4. in the raising process, the chickens leave the chicken house at fixed points and leave the chicken house at movable and fixed points, so that the number of the chickens which leave and return can not be effectively cleared, the situation of losing the chickens frequently occurs, and the chickens are difficult to find in time;

5. after the chicken house is used for cultivation for a period of time, the chicken house can bring influence to the surrounding ecological environment and the like, the chicken house needs to be effectively transferred to a proper place, and the chicken house is inconvenient to disassemble, so that the chicken house is not convenient to transport and mount, and cultivation is influenced.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the intelligent counting ecological chicken house can effectively clean chicken manure accumulated in the chicken house, ensure good environment of the chicken house, collect eggs in the chicken house, improve efficiency, count chickens in the chicken house and facilitate fine management.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides an ecological chicken coop of intelligence count, includes the chicken coop body, the chicken coop body includes bottom plate and bounding wall, the bottom plate is installed on braced frame, the bounding wall is around the vertical installation of bottom plate on braced frame, the ceiling is installed to braced frame top, the bottom plate includes first bottom plate and second bottom plate, install a plurality of division boards of fixing on the bounding wall on the first bottom plate, be equipped with the chicken nest of installing on first bottom plate between the division board, be equipped with the hollow hole of interval arrangement on first bottom plate and the second bottom plate, be equipped with the access on the bounding wall, the access both sides are provided with the photoelectric counting sensor to the chicken quantity, photoelectric counting sensor pass through lifting adjusting device install in on the bounding wall; the photoelectric counting sensor is electrically connected with the controller;

the support frame is provided with a collecting channel positioned below the second bottom plate, both ends of the collecting channel are respectively provided with a cleaning guide outlet, a sliding scraper for cleaning the bottom of the collecting channel and the second bottom plate is slidably arranged in the collecting channel, the sliding scraper is controlled by a traction device to slide back and forth in the collecting channel, and a corresponding cleaning collecting groove is arranged at the cleaning guide outlet;

the first bottom plate is provided with a rotating shaft, the rotating shaft is rotatably arranged on the supporting frame, the first bottom plate deflects through the deflection device, and an egg accommodating device which corresponds to the first bottom plate in position and is used for conveying and accommodating eggs is further arranged below the supporting frame.

As a preferred embodiment, the photoelectric counting sensor comprises a photoelectric transmitter and a photoelectric receiver, which are lifted and lowered synchronously by the lifting and lowering adjusting device.

As a preferred scheme, the lifting adjusting device comprises first guide rails fixedly mounted on two sides of an inlet and an outlet, lifting connecting plates are slidably mounted on each first guide rail, a synchronizing rod is detachably mounted between the two lifting connecting plates, the photoelectric transmitter and the photoelectric receiver are respectively mounted on the corresponding lifting connecting plates, and a manual adjusting mechanism for adjusting the height of the lifting connecting plates is arranged on the lifting connecting plates and between the surrounding plates.

As a preferable scheme, the manual adjusting structure comprises a lifting fixing block fixed on a lifting connecting plate, a rotating gear is rotatably arranged on the lifting fixing block, a fixing base is fixed on the coaming, a rack meshed with the rotating gear is fixed on the fixing base, and a rocker is fixed on a rotating hand wheel.

As a preferred scheme, the synchronizing bar includes two dead levers and a synchronizing bar body, dead lever fixed mounting respectively is on two lift connecting plates and the level sets up, all overlaps on two dead levers and is equipped with the axle sleeve, and one of them axle sleeve is the open axle sleeve, is equipped with the radial open tube groove of seting up on this open axle sleeve, the both ends of synchronizing bar are inserted in two axle sleeves, can dismantle through the bolt between synchronizing bar and the open axle sleeve and be connected.

As a preferable scheme, the number of the photoelectric counting sensors is two, the number of the corresponding lifting adjusting devices is also two, and the two photoelectric counting sensors are arranged back and forth along the inlet and outlet directions.

As a preferred scheme, the chicken coop body below is equipped with the pulley structure of convenient removal, be equipped with solar panel and battery on the ceiling of chicken coop body, be equipped with ventilation structure on the bounding wall, the controller includes the singlechip, the singlechip passes through communication module and remote terminal wireless connection.

After the technical scheme is adopted, the utility model has the following effects: because ecological chicken coop of intelligent count, including the chicken coop body, the chicken coop body includes bottom plate and bounding wall, the bottom plate is installed on braced frame, the bounding wall is around the vertical installation of bottom plate on braced frame, the ceiling is installed to braced frame top, the bottom plate includes first bottom plate and second bottom plate, install a plurality of division boards of fixing on the bounding wall on the first bottom plate, be equipped with the chicken nest of installing on first bottom plate between the division board, be equipped with the fretwork hole of interval arrangement on first bottom plate and the second bottom plate, be equipped with the access on the bounding wall, the access both sides are provided with the photoelectric counting sensor to the chicken quantity, photoelectric counting sensor is installed in on the bounding wall through lifting adjusting device; the photoelectric counting sensor is electrically connected with the controller;

the support frame is provided with a collecting channel positioned below the second bottom plate, both ends of the collecting channel are respectively provided with a cleaning guide outlet, a sliding scraper for cleaning the bottom of the collecting channel and the second bottom plate is slidably arranged in the collecting channel, the sliding scraper is controlled by a traction device to slide back and forth in the collecting channel, and a corresponding cleaning collecting groove is arranged at the cleaning guide outlet;

the first bottom plate is provided with a rotating shaft, the rotating shaft is rotatably arranged on the supporting frame, the first bottom plate deflects through the deflection device, and an egg accommodating device which corresponds to the first bottom plate in position and is used for conveying and accommodating eggs is also arranged below the supporting frame;

firstly, a sliding scraper is controlled by a traction device to clean a collecting channel and a second bottom plate, and dirt dropped in cleaning is discharged from a cleaning guide outlet and enters a cleaning collecting tank, and after the dirt is completely treated, the sliding scraper returns to the original position; when eggs need to be stored, the first bottom plate is deflected by the deflection device, and the first bottom plate corresponds to the egg storage device and is stored; the controller controls the photoelectric counting sensor to effectively count the chickens coming out of the chicken house; the chicken manure accumulated in the chicken coop can be effectively cleaned, the chicken coop is guaranteed to have a good environment, eggs in the chicken coop can be collected, the efficiency is improved, chickens in the chicken coop can be counted, and fine management is facilitated.

The photoelectric counting sensor comprises a photoelectric emitter and a photoelectric receiver, and the photoelectric emitter and the photoelectric receiver are synchronously lifted by the lifting adjusting device; the photoelectric transmitter and the photoelectric receiver can not be positioned at one position, so that the counting device can adapt to counting at different heights, flexibility is improved, meanwhile, light rays emitted by the photoelectric transmitter are ensured, the photoelectric receiver can be accurately received, and the counting accuracy is ensured.

The lifting adjusting device comprises first guide rails fixedly arranged at two sides of the inlet and the outlet, each first guide rail is provided with a lifting connecting plate in a sliding manner, a synchronizing rod is detachably arranged between the two lifting connecting plates, the photoelectric emitter and the photoelectric receiver are respectively arranged on the corresponding lifting connecting plates, and a manual adjusting mechanism for adjusting the height of the lifting connecting plates is arranged between the lifting connecting plates and the coaming; the height of the lifting connecting plate on the first guide rail can be adjusted through the manual adjusting mechanism, and the synchronous lifting is guaranteed by the synchronous rod, so that the structure is simple and reliable.

The manual adjusting structure comprises a lifting fixed block fixed on the lifting connecting plate, a rotating gear is rotatably arranged on the lifting fixed block, a fixed base is fixed on the coaming, a rack meshed with the rotating gear is fixed on the fixed base, and a rocker is fixed on the rotating hand wheel; the gear transmission is accurate, and the rocker drives the rotating gear to rotate, so that the rotating gear moves along the rack, and the lifting fixing block is driven to move, thereby being convenient to operate.

The synchronous rod comprises two fixed rods and a synchronous rod body, wherein the fixed rods are respectively and fixedly arranged on the two lifting connecting plates and are horizontally arranged, shaft sleeves are sleeved on the two fixed rods, one of the shaft sleeves is an open shaft sleeve, an open pipe groove which is radially formed in the open shaft sleeve is formed in the open shaft sleeve, two ends of the synchronous rod are inserted into the two shaft sleeves, and the synchronous rod is detachably connected with the open shaft sleeve through a bolt; therefore, the synchronous rod body can be quickly assembled and disassembled, the entrance and exit of the synchronous rod body are convenient, the photoelectric counting sensor can be guaranteed to accurately and synchronously lift, the synchronous rod body can be quickly installed, and the convenience is improved.

The number of the photoelectric counting sensors is two, and the number of the corresponding lifting adjusting devices is also two, so that the two photoelectric counting sensors are arranged back and forth along the inlet and outlet directions; therefore, the problems that some chickens are overlapped or wander between two sets of photoelectric counting sensors and the like can be avoided during counting, the counting is accurate, and the counting accuracy is effectively improved.

Because the pulley structure convenient to move is arranged below the henhouse body, a solar panel and a storage battery are arranged on the ceiling of the henhouse body, a ventilation structure is arranged on the coaming, and the controller comprises a singlechip which is in wireless connection with a remote terminal through a communication module; make things convenient for the global motion of chicken coop, ensure to be in suitable breed environment, supply power for the inside battery of chicken coop through solar panel to enable battery power supply and carry out effective count for the monolithic, the result after will counting again passes through communication module and effectively transmits, saves the energy consumption, also can effectively keep the interior circulation of air of chicken coop through ventilation structure, ensure good indoor environment.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a perspective view of an embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of the inside of the coaming according to the embodiment of the present utility model;

FIG. 3 is a schematic view of the structure of the lifting adjusting device and the photoelectric counting sensor according to the embodiment of the utility model;

FIG. 4 is a schematic view of the structure under the first and second base plates according to the embodiment of the present utility model;

in the accompanying drawings: 1. a chicken house body; 2. a photoelectric counting sensor; 3. coaming plate; 4. a support frame; 5. a ceiling; 6. a first base plate; 7. a second base plate; 8. a partition plate; 9. chicken nest; 10. a collection channel; 11. cleaning a guide outlet; 12. a second guide rail; 13. a second slider; 14. a sliding support plate; 15. a sliding scraper; 16. a lower spray pipe; 161. a lower water outlet hole; 162. a water inlet; 17. a support base; 18. a brush; 19. a traction plate; 20. traction through holes; 21. a spraying pipeline is arranged on the upper part; 22. an upper water outlet hole; 23. a water inlet; 24. a rotating shaft; 25. fixing the connecting plate; 26. a rotating plate; 27. a threaded rod; 28. a rotating head; 29. conveying a supporting frame; 30. a conveying platform; 31. a buffer baffle; 32. a driving pulley; 33. a driven pulley; 34. an egg conveyor belt; 35. a rotating disc; 36. rotating the handle; 37. counting a lower bottom plate; 38. counting peripheral plates; 39. a fixed base; 40. a first guide rail; 41. a first slider; 42. lifting the connecting plate; 43. a fixed rod; 44. a shaft sleeve; 441. an open pipe groove; 45. a plug pin; 46. lifting the fixed block; 47. a synchronizing lever; 48. rotating the gear; 49. a bearing; 50. a rack; 51. a rocker; 52. a pulley structure; 53. and a ventilation board.

Detailed Description

The present utility model will be described in further detail with reference to the following examples.

As shown in fig. 1 to 4, an intelligent counting ecological chicken house comprises a chicken house body 1, wherein the chicken house body 1 comprises a bottom plate and a surrounding plate 3, the bottom plate is arranged on a supporting frame 4, the surrounding plate 3 is vertically arranged on the supporting frame 4 around the bottom plate, a ceiling 5 is arranged above the supporting frame 4, the bottom plate comprises a first bottom plate 6 and a second bottom plate 7, a plurality of partition plates 8 fixed on the surrounding plate 3 are arranged on the first bottom plate 6, a chicken nest 9 arranged on the first bottom plate 6 is arranged between the partition plates 8, hollow holes which are arranged at intervals are formed in the first bottom plate 6 and the second bottom plate 7, an inlet and an outlet are formed in the surrounding plate 3, and a counting device for counting the number of chickens is arranged at the inlet and the outlet;

the collecting channel 10 positioned below the second bottom plate 7 is arranged on the supporting frame 4, cleaning guide outlets 11 are arranged at two ends of the collecting channel 10, a sliding scraper 15 for cleaning the bottom of the collecting channel 10 and the second bottom plate 7 is slidably arranged in the collecting channel 10, the sliding scraper 15 is controlled by a traction device to slide back and forth in the collecting channel 10, and a corresponding cleaning collecting groove is arranged at the cleaning guide outlet 11;

the first bottom plate 6 is provided with a rotating shaft 24, the rotating shaft 24 is rotatably arranged on the supporting frame 4, the first bottom plate 6 deflects through a deflection device, and an egg accommodating device which corresponds to the position of the first bottom plate 6 and is used for conveying and accommodating eggs is further arranged below the supporting frame 4.

In this embodiment, a lower spraying pipe 16 is installed above the sliding scraper 15, a plurality of lower water outlet holes 161 spraying the lower part of the second bottom plate 7 are provided on the lower spraying pipe 16, a lower water inlet 162 is provided on the lower spraying pipe 16, a brush 18 cleaning the bottom of the second bottom plate 7 is also provided above the sliding scraper 15, and the brush 18 is higher than the horizontal plane of the second bottom plate 7; second guide rails 12 are fixedly arranged on two sides in the collecting channel 10, second sliding blocks 13 are slidably arranged on the second guide rails 12, a sliding supporting plate 14 is arranged between the two second sliding blocks 13, a sliding scraper 15 is fixedly arranged on the sliding supporting plate 14, a supporting seat 17 is arranged on the sliding supporting plate 14, the lower spraying pipeline 16 is arranged on the supporting seat 17, and a hairbrush 18 is arranged on one side of the supporting seat 17; thus, the lower surface of the second bottom plate 7 and the lower surfaces of the wet collecting channels 10 and the second bottom plate 7 are effectively flushed through the lower water outlet 161, the sliding scraping plate 15 is convenient to clean, the hairbrush 18 is higher than the horizontal plane of the second bottom plate 7, the cleaning capacity of the hairbrush 18 can be effectively improved, and the cleaning is guaranteed.

Further, the traction device comprises a traction plate 19 arranged above the sliding scraper 15, a traction through hole 20 is formed in the traction plate 19, and a traction rope is connected to the through hole; the traction plate 19 is fixedly arranged on the sliding support plate 14, so that a traction rope is connected to the traction through hole 20, then the traction rope is manually pulled to drive the sliding scraper 15 and the hairbrush 18 to slide reciprocally along the second guide rail 12, two ends of the collecting channel 10 are opened, namely, the cleaning guide outlet 11, and dirt cleaned by the sliding scraper 15 falls into the cleaning collecting tank when the sliding scraper 15 slides to the cleaning guide outlet 11 on one side, so that the follow-up treatment is facilitated.

As shown in fig. 2, an upper spraying pipeline 21 for spraying the upper surface of the second bottom plate 7 across the henhouse body 1 is arranged above the second bottom plate 7, a plurality of upper water outlet holes 22 are arranged on the upper spraying pipeline 21, and an upper water inlet 23 is arranged on the upper spraying pipeline 21; the upper spraying pipeline 21 is fixedly arranged on the supporting frame 4 through a pipe clamp, and the upper water outlet holes 22 can effectively spray the second bottom plate 7, and the second bottom plate 7 can be cleaned by being matched with the lower water outlet holes 161, so that the cleanliness of the henhouse is improved.

The lower water inlet 162 and the upper water inlet 23 are respectively provided with a quick connector convenient to connect, so that external water is conveniently connected, and the efficiency is improved.

As shown in fig. 1 and 3, the counting device comprises photoelectric counting sensors 2 arranged at two sides of an inlet and an outlet, wherein the photoelectric counting sensors 2 synchronously lift through lifting adjusting devices correspondingly and fixedly arranged on the coaming 3; the lifting adjusting device comprises first guide rails 40 fixedly arranged at two sides of an inlet and an outlet, fixing bases 39 are arranged on coamings 3 at two sides of the inlet and the outlet, the first guide rails 40 are fixedly arranged on the fixing bases 39, corresponding first sliding blocks 41 are slidably arranged on the first guide rails 40, corresponding lifting connecting plates 42 are arranged on the first sliding blocks 41, corresponding photoelectric counting sensors 2 are arranged on the two lifting connecting plates 42, corresponding synchronizing rods 47 are detachably arranged between the two lifting connecting plates 42, the two first sliding blocks 41 can synchronously lift and are guaranteed to be at the same height, a fixing rod 43 is fixedly arranged on the lifting connecting plates 42, one end of each fixing rod 43 is sleeved with one end of each shaft sleeve 44, the other end of each shaft sleeve 44 is sleeved with each synchronizing rod 47, an open pipe slot 441 radially arranged on one shaft sleeve 44 is an open shaft sleeve, so that the synchronizing rods 47 are conveniently embedded, and after the synchronizing rods 47 are embedded, a bolt 45 is installed in a penetrating manner, so that the fixing rods 43 can be effectively installed, and the lifting adjusting device is convenient to detach and does not influence the chicken in and out; a lifting fixed block 46 is further arranged on one lifting connecting plate 42, a rotating gear 48 is rotatably arranged on the lifting fixed block 46, a bearing 49 convenient to rotate is arranged in the lifting fixed block 46, the rotating gear 48 is meshed with a rack 50, the rack 50 is fixedly arranged on a fixed base 39 at the corresponding side, and a rocker 51 is arranged on the gear, so that manual rotation, adjustment and lifting are convenient; when the chicken moves at the entrance and the exit, the photoelectric counting sensor 2 can shade the light source emitted by the photoelectric counting sensor 2, the light source can be counted as one at a time, and the like, and the height of the photoelectric counting sensor 2 is preferably arranged near the neck of the chicken, so that the shading area is reduced, and the counting is more accurate; the photoelectric counting sensor 2 mainly comprises a photoelectric emitter and a photoelectric receiver, wherein the photoelectric emitter is used for emitting light, the photoelectric receiver is used for receiving the light, and when an object passes through the photoelectric counting sensor 2, the emitted light is shielded, so that the light intensity received by the photoelectric receiver is changed, and the object can be counted; the photoelectric counting sensor 2 is an existing device and is therefore not described in detail herein.

The lifting adjusting device can also adopt a screw-nut mechanism for transmission, two sides of an inlet and an outlet of the coaming 3 are provided with rotating screws, the screws are rotatably arranged on screw bases, nuts are arranged on the screws, the lifting connecting plates 42 are arranged on the nuts, and then a manual turntable for driving the screws to rotate is arranged on the screw bases, so that the nuts can drive the lifting connecting plates 42 to lift.

Further, the number of the photoelectric counting sensors 2 is two, the number of the corresponding lifting adjusting devices is also two, and the two photoelectric counting sensors 2 are arranged back and forth along the inlet and outlet directions; a counting interval is arranged at the inlet and outlet, a counting lower bottom plate 37 and a counting peripheral plate 38 are arranged on the counting interval, one set of photoelectric counting sensors 2 are arranged on the peripheral plate 3, the other set of photoelectric counting sensors 2 are arranged on the counting peripheral plate 38 to form a front-back structure, output signals of the photoelectric sensors are cleared firstly and then counted in the time period of chicken cage-out and cage-in, when chickens pass through the first set of photoelectric counting sensors 2 but do not pass through the second set of photoelectric counting sensors 2, the counted number is deviated, and breeding personnel can know the number, so that corresponding operations can be carried out; meanwhile, when the first set of photoelectric counting sensors 2 count, chickens overlap when passing through the inlet and the outlet, the second set of photoelectric counting sensors 2 can also effectively help to confirm, the two sets of photoelectric counting sensors 2 are arranged at different heights and are all close to the neck of the chickens, so that the fault tolerance rate during counting can be improved, the accuracy of counting is ensured, and fine management is performed.

As shown in fig. 4, the egg accommodating device comprises a conveying support frame 29 corresponding to the deflected first bottom plate 6, a corresponding conveying platform 30 is arranged on the conveying support frame 29, a buffer baffle 31 is arranged on the conveying platform 30, a buffer material is arranged on the conveying platform 30 and the buffer baffle 31, an egg conveying belt 34 is rotatably mounted on the conveying platform 30, a driving belt pulley 32 and a driven belt pulley 33 are respectively mounted on two sides of the egg conveying belt 34, and the driving belt pulley 32 is controlled by a rotating device; the rotating device comprises a rotating disc 35 arranged on the driving belt pulley 32, the rotating disc 35 is provided with a rotating handle 36, the rotating disc 35 is driven by the rotating handle 36 to rotate the driving belt pulley 32 manually, so that the egg conveyer belt 34 can drive eggs above the egg conveyer belt to be effectively conveyed, and after the eggs are conveyed to one side in a concentrated manner, the eggs are convenient to collect, the collecting efficiency is improved, buffer materials can be sponge or air bags and other materials, and therefore the eggs can be effectively protected when falling from the first bottom plate 6; and the use cost can be greatly reduced by manual rotation, and the economic benefit is improved.

In this embodiment, the deflection device includes a fixed connection plate 25 fixedly installed on the first bottom plate 6, a rotating plate 26 is rotatably installed on the support frame 4, a threaded rod 27 is installed on the rotating plate 26 in a penetrating and rotating manner, one end of the threaded rod 27 is connected with the fixed connection plate 25, and a rotating head 28 which is convenient for driving the threaded rod 27 to rotate is arranged at the other end of the threaded rod 27; because the first bottom plate 6 deflects around the rotating shaft 24 and needs to slowly descend in the deflection process, the eggs are prevented from falling too fast to affect the storage of the eggs, the first bottom plate 6 can be driven to deflect by manually rotating and rotating, the threaded rod 27 can spirally lift along the rotating plate 26, the threaded rod 27 is connected with the first bottom plate 6, the rotating plate 26 can rotate by three hundred sixty degrees on the supporting frame 4, and therefore the first bottom plate 6 rotates synchronously during deflection, the speed of the manual rotating head 28 enables the deflection speed of the first bottom plate 6 not to be too fast, the rolling safety of the eggs is guaranteed, meanwhile, the use cost is reduced through manual driving, the economic benefit is improved, the length of the threaded rod 27 is fixed, and the deflection range is conveniently limited.

Furthermore, a pulley structure 52 which is convenient to move is arranged below the henhouse body 1, so that when the henhouse needs to be changed in a breeding environment, the henhouse can be moved conveniently, and the flexibility of the henhouse is improved; the solar panel and the storage battery are arranged on the ceiling 5 of the henhouse body 1, and the controller comprises a singlechip which is in wireless connection with a remote terminal through a communication module; the solar panel supplies power to the storage battery through absorbing sunlight, the storage battery can enable the photoelectric sensor to count, signals are transmitted to the single chip microcomputer, the single chip microcomputer receives the signals and then transmits the counting result to the remote terminal through the communication module, meanwhile, the chicken house is also provided with a temperature sensor which is convenient for observing the temperature inside the chicken house, the storage battery can also supply power to the temperature sensor to perform temperature measurement, the signal is transmitted to the single chip microcomputer through the analog-to-digital converter, and the single chip microcomputer receives the signals and then transmits the temperature result to the remote terminal through the communication module, so that the chicken house is helpful for a breeder to know environmental conditions; a ventilation structure is arranged on the coaming plate 3; the ventilation structure comprises a ventilation plate 53 arranged on the support frame 4, a plurality of ventilation holes are formed in ventilation, ventilation is facilitated, the ventilation plate 53 is located above the coaming 3 and is located at the upper half part of the henhouse;

the working principle of the embodiment is as follows: firstly, eggs in a chicken house are collected, a rotating head 28 is manually rotated to enable a threaded rod 27 to rotate, the threaded rod 27 is enabled to spirally descend, a first bottom plate 6 descends around a rotating shaft 24 until the rotating head 28 is in contact with a rotating plate 26, the first bottom plate 6 stops deflecting, the eggs roll down on a conveying platform 30 due to inclination, then a rotating handle 36 is manually rotated to drive a rotating disc 35 to rotate, a driving belt wheel 32 rotates, and therefore an egg conveying belt 34 conveys the eggs, the egg conveying belt 34 conveys the eggs to one side of the egg conveying belt 34, and manual collection is facilitated; the chicken house is cleaned, the lower water inlet 162 and the upper water inlet 23 are connected with external water through quick connectors, water flows into the lower spraying pipeline 16 and the upper spraying pipeline 21, the upper water outlet 22 and the lower water outlet 161 start to spray the second bottom plate 7, the traction rope is pulled manually to enable the sliding scraper 15 and the hairbrush 18 to slide along the second guide rail 12, the lower water outlet 161 also slides synchronously, the second bottom plate 7 and the collecting channel 10 are cleaned while spraying, the sliding scraper 15 is pulled to reciprocate for several times through the traction rope, the collecting channel 10 and the second bottom plate 7 are cleaned thoroughly, chickens entering and exiting the chicken house are counted, when the chickens enter the chicken house or return to the chicken house, the height of the photoelectric counting sensor 2 is adjusted, the rotary gear 48 is rotated and lifted on the spur gear through the rocker 51, the sliding block is driven to be lifted to a proper position along the first guide rail 40, the photoelectric counting sensor 2 is aligned with the chicken neck part, then the photoelectric emitter can sequentially emit light rays, the light rays which are blocked by the photoelectric emitter are influenced, and then the counting data can be sent to the personnel after the counting is completed.

The above examples are merely illustrative of the preferred embodiments of the present utility model, and are not intended to limit the scope of the present utility model, and various modifications and adaptations of the technical solution of the present utility model should and are intended to fall within the scope of the present utility model as defined in the claims.

Claims (7)

1. The utility model provides an ecological chicken coop of intelligence count, includes the chicken coop body, the chicken coop body includes bottom plate and bounding wall, the bottom plate is installed on braced frame, the bounding wall is around the vertical installation of bottom plate on braced frame, the ceiling, its characterized in that are installed to braced frame top: the bottom plate comprises a first bottom plate and a second bottom plate, a plurality of partition plates fixed on the coaming are arranged on the first bottom plate, chicken nests arranged on the first bottom plate are arranged between the partition plates, hollow holes which are arranged at intervals are formed in the first bottom plate and the second bottom plate, an inlet and an outlet are formed in the coaming, photoelectric counting sensors for counting the number of chickens are arranged on two sides of the inlet and the outlet, and the photoelectric counting sensors are arranged on the coaming through a lifting adjusting device; the photoelectric counting sensor is electrically connected with the controller;

the support frame is provided with a collecting channel positioned below the second bottom plate, both ends of the collecting channel are respectively provided with a cleaning guide outlet, a sliding scraper for cleaning the bottom of the collecting channel and the second bottom plate is slidably arranged in the collecting channel, the sliding scraper is controlled by a traction device to slide back and forth in the collecting channel, and a corresponding cleaning collecting groove is arranged at the cleaning guide outlet;

the first bottom plate is provided with a rotating shaft, the rotating shaft is rotatably arranged on the supporting frame, the first bottom plate deflects through the deflection device, and an egg accommodating device which corresponds to the first bottom plate in position and is used for conveying and accommodating eggs is further arranged below the supporting frame.

2. An intelligent counting ecological chicken house as claimed in claim 1, wherein: the photoelectric counting sensor comprises a photoelectric transmitter and a photoelectric receiver, and the photoelectric transmitter and the photoelectric receiver are synchronously lifted by the lifting adjusting device.

3. An intelligent counting ecological chicken house as claimed in claim 2, characterized in that: the lifting adjusting device comprises first guide rails fixedly mounted on two sides of the inlet and the outlet, lifting connecting plates are mounted on each first guide rail in a sliding manner, a synchronizing rod is detachably mounted between the two lifting connecting plates, the photoelectric transmitter and the photoelectric receiver are respectively mounted on the corresponding lifting connecting plates, and a manual adjusting mechanism for adjusting the heights of the lifting connecting plates is arranged on the lifting connecting plates and between the lifting connecting plates and the coaming.

4. An intelligent counting ecological chicken house as claimed in claim 3, wherein: the manual adjusting mechanism comprises a lifting fixed block fixed on a lifting connecting plate, a rotating gear is rotatably arranged on the lifting fixed block, a fixed base is fixed on the coaming, a rack meshed with the rotating gear is fixed on the fixed base, and a rocker is fixed on the rotating gear.

5. An intelligent counting ecological chicken house as claimed in claim 4, wherein: the synchronous rod comprises two fixing rods and a synchronous rod body, wherein the fixing rods are respectively and fixedly arranged on the two lifting connecting plates and horizontally arranged, shaft sleeves are sleeved on the two fixing rods, one of the shaft sleeves is an open shaft sleeve, an open pipe groove which is radially formed in the open shaft sleeve is formed in the open shaft sleeve, two ends of the synchronous rod are inserted into the two shaft sleeves, and the synchronous rod is detachably connected with the open shaft sleeve through a bolt.

6. An intelligent counting ecological chicken house as claimed in claim 5, wherein: the number of the photoelectric counting sensors is two, the number of the corresponding lifting adjusting devices is also two, and the two photoelectric counting sensors are arranged back and forth along the inlet and outlet directions.

7. An intelligent counting ecological chicken house as claimed in claim 1, wherein: the chicken coop comprises a chicken coop body and is characterized in that a pulley structure convenient to move is arranged below the chicken coop body, a solar panel and a storage battery are arranged on a ceiling of the chicken coop body, a ventilation structure is arranged on a coaming, and the controller comprises a single chip microcomputer which is in wireless connection with a remote terminal through a communication module.