CN107704000B

CN107704000B - Temperature and humidity control device for cultivation house

Info

Publication number: CN107704000B
Application number: CN201711237286.5A
Authority: CN
Inventors: 王钦美
Original assignee: Yulin Sannong Breeding Service Co ltd
Current assignee: Yulin Sannong Breeding Service Co ltd
Priority date: 2017-11-30
Filing date: 2017-11-30
Publication date: 2023-05-26
Anticipated expiration: 2037-11-30
Also published as: CN107704000A

Abstract

The invention relates to the technical field of cultivation equipment, in particular to a temperature and humidity control device for a cultivation house. The temperature and humidity control device of the cultivation house comprises a house body provided with a plurality of rows of automatic cultivation mechanisms, a solar energy collecting and power supply mechanism, a refrigerating and heating device, a temperature detector and a main controller, wherein the solar energy collecting and power supply mechanism, the refrigerating and heating device and the temperature detector are arranged in a matched mode with the house body; the solar energy collection power supply mechanism comprises a solar energy collection plate arranged at the top of the house body. According to the invention, the temperature of the cultivation house can be regulated through solar energy, the cultivation cost is reduced, and redundant solar energy can be provided for a cultivation mechanism of the cultivation house, so that the cultivation cost is further reduced.

Description

Temperature and humidity control device for cultivation house

Technical Field

The invention relates to the technical field of cultivation equipment, in particular to a temperature and humidity control device for a cultivation house.

Background

At present, the common breeding house has a relatively simple overall structure, is a simple shed body generally, does not have any temperature regulating equipment, and is unfavorable for the growth of livestock. For example, in cold winter, partial farms are easy to resist low temperature, feed consumption does not grow meat, the resistance is poor, some farms are even frozen, and the growth and survival of farms are seriously affected. In hot summer, the breeding body is easy to heat and sick, and the growth and survival of the breeding body are also affected. If the temperature is directly regulated by air conditioning and other equipment, the cultivation cost of the cultivation body can be greatly increased.

And breed the internal breed body of house and generally stay on ground, severely limited the breed quantity of breed body, greatly reduced breed the profit of house, and all be through artifical excrement and urine clearance and through the manual work to breed when breeding, can consume a large amount of time and manpower of manual work, greatly reduced breed efficiency.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides the temperature and humidity control device for the cultivation house, which can regulate the temperature of the cultivation house through solar energy, reduce the cultivation cost, and provide redundant solar energy for a cultivation mechanism of the cultivation house, further reduce the cultivation cost.

The technical scheme adopted for solving the technical problems is as follows: the temperature and humidity control device of the cultivation house comprises a house body provided with a plurality of rows of automatic cultivation mechanisms, a solar energy collecting and power supply mechanism, a refrigerating and heating device, a temperature detector and a main controller, wherein the solar energy collecting and power supply mechanism, the refrigerating and heating device and the temperature detector are arranged in a matched mode with the house body; the solar energy collection power supply mechanism comprises a solar energy collection plate arranged at the top of the house body, a storage battery and an inverter, wherein the storage battery and the inverter are arranged in the house body, the solar energy collection plate is electrically connected with the storage battery, the storage battery is electrically connected with the inverter, the inverter is electrically connected with the refrigerating and heating device, the temperature detectors are uniformly distributed in the house body, and the temperature detectors are electrically connected with the refrigerating and heating device; and the culture mechanism is respectively and electrically connected with the inverter and the main controller.

Preferably, the cultivation mechanism comprises a cultivation frame, cultivation boxes which are arranged on the cultivation frame and have the same structure size, and at least two movable spaces which are equal to the cultivation boxes in size are arranged on the cultivation mechanism; the cultivation mechanism further comprises a horizontal movement assembly for moving the cultivation box left and right and a vertical movement assembly for moving the cultivation box up and down; the horizontal moving assembly comprises a horizontal magnetic attraction piece embedded on a horizontal rod of the culture rack, a horizontal magnetic attraction butt joint piece embedded on the front surface and the rear surface of the culture box and used with the horizontal magnetic attraction piece in a matched mode, and a first controller for controlling the magnetic attraction of the horizontal magnetic attraction piece, and the first controller is electrically connected with the main controller; the vertical moving assembly comprises vertical magnetic attraction sheets embedded on the vertical rod of the culture rack, vertical magnetic attraction butt-joint sheets embedded on the front surface and the rear surface of the culture box and used in cooperation with the vertical magnetic attraction sheets, and a second controller for controlling the magnetic attraction of the vertical magnetic attraction sheets, wherein the second controller is electrically connected with the main controller.

Preferably, the cultivation box comprises a front plate, a rear plate, a left plate, a right plate, a top plate and a bottom plate; the upper end and the lower end of the outer surfaces of the front plate and the rear plate are respectively provided with a horizontal magnetic attraction butt joint sheet, the left end and the right end are respectively provided with a vertical magnetic attraction butt joint sheet, and the front plate is also provided with an inlet and an outlet; the left plate and the right plate are provided with vent holes; the top plate is provided with a feeding port, and a telescopic feeding barrel is arranged between the feeding port and the feeding basin; the bottom plate top is equipped with the rack, the bottom plate upper surface is equipped with the holding part the storage tank of rack, the bottom plate includes left bottom plate and right bottom plate, left side bottom plate with right bottom plate junction is equipped with the confession left bottom plate or right bottom plate upset pivot from top to bottom.

Preferably, the feeding barrel comprises an inner telescopic barrel, an outer telescopic barrel, a telescopic rod connected with the outer wall of the outer telescopic barrel and a telescopic rod driving motor connected with the telescopic rod, the telescopic rod driving motor is arranged at the bottom of the top plate, the top end of the inner wall of the outer telescopic barrel is slidably connected with an outer wall groove of the inner telescopic barrel through a sliding block, a connecting port connected with the feeding port is arranged at the top end of the inner telescopic barrel, a port opening and closing door is arranged at the connecting port, the feeding barrel further comprises a detachable elastic feeding pipe, and one end of the elastic feeding pipe is connected with the inner top of the inner telescopic barrel, and the other end of the elastic feeding pipe is connected with the inner bottom of the outer telescopic barrel.

Preferably, the cultivation mechanism further comprises a cleaning box, the cleaning box comprises a cleaning box front plate, a cleaning box rear plate, a cleaning box left plate, a cleaning box right plate and a cleaning box bottom plate, the cleaning box front plate and the upper end and the lower end of the outer surface of the cleaning box rear plate are respectively provided with a horizontal magnetic attraction butt joint sheet, the left end and the right end are respectively provided with a vertical magnetic attraction butt joint sheet, the cleaning box bottom plate is provided with a net-shaped moving groove, the moving groove comprises a transverse moving groove and a vertical moving groove, one port of the transverse moving groove and one port of the vertical moving groove are respectively provided with a moving driving piece, and the moving groove is connected with a cleaning piece.

Preferably, the cleaning member comprises a cleaning sponge head, a sponge head rotating shaft connected with the bottom of the cleaning sponge head, a sponge head rotating shaft driving motor connected with the other end of the sponge head rotating shaft, a sponge head telescopic shaft connected with the bottom of a shell of the sponge head rotating shaft driving motor, a sponge head telescopic shaft driving motor connected with the other end of the sponge head telescopic shaft, a shell cover used for accommodating the sponge head telescopic shaft, the sponge head telescopic shaft driving motor and the sponge head rotating shaft driving motor, and a base connected with the moving groove, wherein the shell cover is arranged at the bottom of the shell cover.

Preferably, the outer wall of the shell is provided with a circle of limiting groove, the cleaning piece further comprises an elastic cleaning cloth, an elastic sleeve opening is arranged in the center of the elastic cleaning cloth, the elastic sleeve opening is sleeved in the limiting groove, and the edges of the elastic cleaning cloth are respectively connected with the inner walls of the front cleaning box plate, the rear cleaning box plate, the left cleaning box plate and the right cleaning box plate.

Preferably, the movable driving piece comprises a movable driving motor, a movable rod connected with the movable driving motor, and a suction head connected with the other end of the movable rod, and the contact surface of the suction head and the shell cover is a magnetic suction surface.

Preferably, the cultivation mechanism further comprises a food feeding box, the food feeding box comprises a food feeding box front plate, a food feeding box rear plate, a food feeding box left plate, a food feeding box right plate and a food feeding box bottom plate, the upper end and the lower end of the outer surface of the food feeding box front plate and the outer surface of the food feeding box rear plate are respectively provided with a horizontal magnetic attraction butt joint sheet, the left end and the right end are respectively provided with a vertical magnetic attraction butt joint sheet, the food feeding box bottom plate is provided with a food feeding hole, a food feeding hopper is arranged right above the food feeding hole, the food feeding hopper is sleeved on a height adjusting frame connected with the food feeding box bottom plate, the food feeding box bottom plate is further provided with a food storage box, the food storage box is provided with a food feeding pipe, an outlet of the food feeding pipe is arranged above the food feeding hopper, and the food feeding pipe is provided with a food suction pump; the height adjusting frame comprises a ferrule for supporting the food conveying hopper and a height adjusting rod for connecting the ferrule with the bottom plate of the food conveying box.

Preferably, the side of the bottom plate of the food feeding box, which is in contact with the food storage box, is provided with a gravity detection sheet, and the gravity detection sheet is electrically connected with the main controller.

The solar energy type cultivation house provided by the invention has the beneficial effects that the temperature of the cultivation house can be regulated through solar energy, the cultivation cost is reduced, and redundant solar energy can be provided for a cultivation mechanism of the cultivation house, so that the cultivation cost is further reduced.

Drawings

FIG. 1 is a schematic diagram of a temperature and humidity control device for a cultivation house;

FIG. 2 is a schematic view of the structure of the interior of the cultivation house;

FIG. 3 is a schematic view of the cultivation mechanism in FIG. 2;

FIG. 4 is a schematic view of the structure of the incubator of FIG. 3;

FIG. 5 is a schematic view of the cartridge of FIG. 4;

FIG. 6 is a schematic view of the structure of the cleaning tank;

FIG. 7 is a schematic view of a structure of a cleaning member;

FIG. 8 is a schematic view of a structure of a moving driving member;

FIG. 9 is a schematic view of the structure of the feeding box;

wherein 1, house 11, solar energy collection plate, 12, refrigeration and heating device, 13, storage battery, 14, inverter, 2, cultivation mechanism, 21, cultivation frame, 22, cultivation box, 221, front plate, 222, right plate, 223, top plate, 224, bottom plate, 225, feeding mouth, 226, feeding basin, 227, feeding barrel, 228, rack, 23, horizontal magnetic attraction piece, 24, horizontal magnetic attraction butt piece, 25, vertical magnetic attraction piece, 26, vertical magnetic attraction butt piece, 271, inner telescopic barrel, 272, outer telescopic barrel, 273, telescopic rod, 274, telescopic rod driving motor, 275, connecting port, 276, elastic feeding pipe, 31, cleaning box front plate, 32, cleaning box bottom plate, 33, moving groove, 34, moving driving member, 341, moving driving motor, 342, moving rod, 343, suction head, 35, cleaning member, 351, sponge head, 352, sponge head, 353, sponge head rotating shaft driving motor, 354, sponge head telescopic shaft, 355, sponge head driving motor, 356, shell cover, base, housing, groove, 358, groove, 43, 47, feeding box, 43, feeding height, 47, feeding box front plate, 45, feeding box, 47, feeding box, feeding height adjusting, feeding box, 47, feeding box front plate, feeding box.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

As shown in fig. 1, a temperature and humidity control device for a cultivation house comprises a house body 1 provided with a plurality of rows of automatic cultivation mechanisms 2, a solar energy collection power supply mechanism, a refrigeration heater 12 and a temperature detector, and a main controller respectively electrically connected with the solar energy collection power supply mechanism and the refrigeration heater 12, wherein the solar energy collection power supply mechanism is matched with the house body 1. The solar energy collection power supply mechanism comprises a solar energy collection plate 11 arranged at the top of the house body 1, a storage battery 13 and an inverter 14 which are arranged in the house body 1, wherein the solar energy collection plate 11 is electrically connected with the storage battery 13, the storage battery 13 is electrically connected with the inverter 14, and the inverter 14 is electrically connected with the refrigerating and heating device 12. The temperature detectors are uniformly distributed in the house body 1 and are electrically connected with the refrigerating and heating device 12. The solar energy collection plate 11 converts solar energy into direct current and stores the direct current in the storage battery 13, the storage battery 13 converts the direct current into alternating current through the inverter 14 for the refrigerating and heating device 12 to use, and the temperature detector can detect the temperature inside the house body 1 and send the detected temperature value to the refrigerating and heating device 12 so as to regulate the temperature inside the house body 1 through the refrigerating and heating device 12.

The inside of the house body 1 is also provided with a plurality of rows of cultivation mechanisms 2, and the cultivation mechanisms 2 are respectively and electrically connected with the inverter 14 and the main controller. When the storage battery 13 has redundant electric energy, the main controller can control the inverter 14 to supply power to the breeding mechanism 2 so as to reduce the breeding cost.

As shown in fig. 2 and 3, two adjacent rows of cultivation mechanisms 2 may overlap each other or may have a certain gap. The cultivation mechanism 2 comprises a cultivation frame 21, cultivation boxes 22 which are arranged on the cultivation frame 21 and have the same structure and size, and the main controller can control the cultivation boxes to move up and down or left and right on the cultivation frame 21. The cultivation mechanism 2 is provided with at least two moving spaces with the same size as the cultivation box 22, one moving space is used for the cultivation box 22 to shift, and the other moving space is used for placing a cleaning box or a feeding box to clean or feed the cultivation box 22 with excrement.

The cultivation mechanism 2 further comprises a horizontal moving component for moving the cultivation box 22 or the cleaning box or the feeding box left and right, and a vertical moving component for moving the cultivation box 22 or the cleaning box or the feeding box up and down. The horizontal movement assembly comprises a horizontal magnetic attraction piece 23 embedded on a horizontal rod of the culture rack 21, a horizontal magnetic attraction butt piece 24 embedded on the front and rear surfaces of the culture box 22 or the cleaning box or the feeding box and used in cooperation with the horizontal magnetic attraction piece 23, and a first controller for controlling the magnetic attraction of the horizontal magnetic attraction piece 23, wherein the first controller is electrically connected with the main controller. The vertical moving component comprises a vertical magnetic attraction piece 25 embedded on a vertical rod of the culture rack 21, a vertical magnetic attraction butt piece 26 embedded on the front and rear surfaces of the culture box 22 or the cleaning box or the feeding box and used in cooperation with the vertical magnetic attraction piece 25, and a second controller for controlling the magnetic attraction of the vertical magnetic attraction piece 25, wherein the second controller is electrically connected with the main controller.

When the cleaning box, the feeding box or a certain cultivating box 22 needs to be moved to a moving space adjacent to the left side of the cleaning box, the main controller controls the second controller to enable the magnetic attraction force of the vertical magnetic attraction piece 25 contacted with the box to be moved to disappear, then controls the first controller to enable the magnetic attraction force of the horizontal magnetic attraction piece 23 on the frame body of the moving space at the left side of the box to be moved to be strongest, then controls the first controller to enable the magnetic attraction force of the horizontal magnetic attraction piece 23 contacted with the box to be moved to be gradually reduced, so that the box to be moved is moved to the left side from the right side, and finally controls the second controller to enable the magnetic attraction force of the vertical magnetic attraction piece 25 contacted with the box to be intensified to be maximized so as to firmly fix the box. The same applies when the cleaning or feeding or some cultivating tank 22 is moved to the space adjacent to the right or above or below.

As shown in fig. 4, the cultivation box 22 includes a front plate 221, a rear plate, a left plate, a right plate 222, a top plate 223, and a bottom plate 224. The front plate 221 and the upper and lower ends of the outer surface of the rear plate are respectively provided with a horizontal magnetic attraction butt joint piece 24, the left and right ends are respectively provided with a vertical magnetic attraction butt joint piece 26, the front plate 221 is also provided with an inlet and an outlet, the inlet and the outlet can be used for enabling a breeding object to enter and exit the breeding box, and the inlet and the outlet are closed under the normal breeding condition. The left plate and the right plate 222 are provided with ventilation holes, so that air inside the cultivation box 22 is circulated with air outside.

The top plate 223 is provided with a feeding port 225, a telescopic feeding barrel 227 is arranged between the feeding port 225 and the feeding basin 226, when food is served, the feeding barrel 227 is extended, the food enters the feeding barrel 227 from the feeding port 225 and then enters the feeding basin 226, after the food is served, the feeding barrel 227 is shortened, and a cultivated object can eat normally.

As shown in fig. 5, the feeding barrel 227 includes an inner telescopic barrel 271 and an outer telescopic barrel 272, a telescopic rod 273 connected to an outer wall of the outer telescopic barrel 272, and a telescopic rod driving motor 274 connected to the telescopic rod 273, wherein the telescopic rod driving motor 274 is disposed at the bottom of the top plate 223, an inner wall top end of the outer telescopic barrel 272 is slidably connected to an outer wall groove of the inner telescopic barrel 271 through a slider, a connection port 275 connected to the feeding port 225 is disposed at a top end of the inner telescopic barrel 271, a port opening and closing door is disposed at the connection port 275, the feeding barrel 227 further includes a detachable elastic feeding pipe 276, and one end of the elastic feeding pipe 276 is connected to an inner top of the inner telescopic barrel 271, and the other end of the elastic feeding pipe 276 is connected to an inner bottom of the outer telescopic barrel 272.

The connection port 275 may be threadably connected to the mouthpiece 225 and the port opening and closing door may be signaled to open by the main controller when serving food. Simultaneously, the main controller sends a signal to the telescopic rod driving motor 274 to extend the telescopic rod 273, and when the telescopic rod 273 is extended, the outer telescopic tube 272 is driven to descend so as to extend the elastic feeding tube 276 to throw food into the feeding basin 226 from the feeding port 225. After the food is dispensed, the port opening and closing door sends a signal to close the port opening and closing door through the main controller. Meanwhile, the main controller sends a signal to the telescopic rod driving motor 274 to enable the telescopic rod 273 to shrink, and when the telescopic rod 273 shrinks, the outer telescopic tube 272 is driven to ascend along the outer wall of the inner telescopic tube 271 so as to compress the elastic feeding tube 276 to facilitate feeding of a feeding object.

The top of the bottom plate 224 is provided with a net rack 228, the upper surface of the bottom plate 224 is provided with a containing part of the net rack 228, the bottom plate 224 comprises a left bottom plate and a right bottom plate, and a rotating shaft for the left bottom plate or the right bottom plate to turn up and down is arranged at the joint of the left bottom plate and the right bottom plate. The farming objects directly arrange the excrement and urine on the net frame 228 and the bottom plate 224, when the excrement and urine needs to be cleaned, the left bottom plate can be overturned to clean the excrement and urine, then the right bottom plate is overturned to clean the excrement and urine, and the net frame 228 can be used for supporting the farming objects when the bottom plate is overturned to prevent the farming objects from falling out of the farming boxes 22.

As shown in fig. 6, the cultivation mechanism 2 further includes a cleaning box, the cleaning box includes a cleaning box front plate 31, a cleaning box rear plate, a cleaning box left plate, a cleaning box right plate, and a cleaning box bottom plate 32, the cleaning box front plate 31 and the upper and lower ends of the outer surface of the cleaning box rear plate are respectively provided with a horizontal magnetic attraction butt joint piece 24, and the left and right ends are respectively provided with a vertical magnetic attraction butt joint piece 26. The cleaning box bottom plate 32 is provided with a net-shaped moving groove 33, the moving groove 33 comprises transverse moving grooves and vertical moving grooves, one port of each transverse moving groove and one port of each vertical moving groove are respectively provided with a moving driving piece 34, and the moving groove 33 is connected with a cleaning piece 35. As shown in fig. 8, the moving driving member 34 includes a moving driving motor 341, a moving rod 342 connected to the moving driving motor 341, and a suction head 343 connected to the other end of the moving rod 342, wherein a contact surface of the suction head 343 and the housing 356 is a magnetic attraction surface.

As shown in fig. 7, the cleaning member 35 includes a cleaning sponge head 351, a sponge head rotating shaft 352 connected to the bottom of the cleaning sponge head 351, a sponge head rotating shaft driving motor 353 connected to the other end of the sponge head rotating shaft 352, a sponge head telescopic shaft 354 connected to the bottom of the casing of the sponge head rotating shaft driving motor 353, a sponge head telescopic shaft driving motor 355 connected to the other end of the sponge head telescopic shaft 354, a casing 356 for accommodating the sponge head telescopic shaft 354 and the sponge head telescopic shaft driving motor 355 and slidingly connected to the casing of the sponge head rotating shaft driving motor 353, and a base 357 provided at the bottom of the casing 356 and connected to the moving groove 33. The shell 356 outer wall is equipped with round spacing recess 358, cleaning piece 35 still includes an elasticity cleaning cloth, the center of elasticity cleaning cloth is equipped with an elasticity cuff, elasticity cuff cup joints in spacing recess 358, the edge of elasticity cleaning cloth respectively with the inner wall connection of cleaning case front bezel 31, cleaning case back plate, cleaning case left side board and cleaning case right side board.

The base 357 of the cleaning member 35 is disposed in the movement groove 33 and serves as a limit guide, and the cleaning member 35 can only move along the channel of the movement groove 33. When the cleaning member 35 needs to move along one of the lateral movement slots, the movement driving motor 341 corresponding to the lateral movement slot drives the movement rod 342 to extend to enable the suction head 343 to be in contact with the housing 356, then the main controller controls the suction head 343 to generate magnetic attraction force to fix the suction head 343 and the housing 356, then the movement driving motor 341 drives the movement rod 342 to stretch to a position needed to reach, and finally the main controller controls the magnetic attraction force of the suction head 343 to disappear and enables the movement rod 342 to reset. The same applies when the cleaning member 35 needs to be moved along one of the vertically moving grooves.

When the cleaning box needs to clean the excrement of one cultivation box 22, the cleaning box can firstly move to the bottom of the cultivation box 22 through the horizontal moving component and the vertical moving component, then the left bottom plate or the right bottom plate of the cultivation box 22 is folded through the main controller, the cleaning piece 35 moves to a proper position through the moving driving piece 34, then the sponge head telescopic shaft 354 is driven to stretch to lift the position of the cleaning sponge head 351 through the sponge head telescopic shaft driving motor 355, then the sponge head rotating shaft 352 is driven to rotate through the sponge head rotating shaft driving motor 353 so that the cleaning sponge head 351 rotates to achieve the purpose of cleaning the bottom plate 224 and the net frame 228, the cleaning piece 35 can clean half of the bottom plate 224 while moving, and after half of the bottom plate 224 is cleaned, the cleaning piece 35 can be firstly lowered to a proper position to repeat the same bottom plate cleaning operation. The feces cleaned by the cleaning member 35 from the base 224 and the net frame 228 may be directly dropped onto the elastic cleaning cloth, i.e., the collection of the feces is performed by the elastic cleaning cloth.

As shown in fig. 9, the cultivation mechanism 2 further includes a feeding box, the feeding box includes a feeding box front plate 41, a feeding box rear plate, a feeding box left plate, a feeding box right plate, and a feeding box bottom plate 42, the feeding box front plate 41 and the feeding box rear plate are respectively provided with a horizontal magnetic attraction butt joint sheet 24 at the upper end and the lower end of the outer surface, and vertical magnetic attraction butt joint sheets 26 at the left end and the right end.

The feeding box bottom plate 42 is provided with a feeding hole, a feeding bucket 43 is arranged right above the feeding hole, the feeding bucket 43 is sleeved on a height adjusting frame 44 connected with the feeding box bottom plate 42, and the height adjusting frame 44 comprises a ferrule for supporting the feeding bucket 43 and a height adjusting rod for connecting the ferrule with the feeding box bottom plate 42. When it is desired to serve food, the height adjustment lever is lowered so that the bottom of the feeding funnel 43 enters the feeding aperture to interface with the feeding aperture 225 of the incubator 22. When the feeding is completed, the height adjusting rod is lifted to reset, so that the bottom of the feeding hopper 43 is higher than the feeding hole.

The food feeding box bottom plate 42 is also provided with a food storage box 45, the food storage box 45 is provided with a food feeding pipe 46, an outlet of the food feeding pipe 46 is arranged above the food feeding hopper 43, and the food feeding pipe 46 is provided with a food sucking pump 47. When it is desired to serve food, the main controller sends a signal to the pump 47 to draw a quantity of food through the feeding tube 46 into the hopper 43. The side of the bottom plate 42 of the feeding box, which is in contact with the food storage box 45, is provided with a gravity detection piece, and the gravity detection piece is electrically connected with the main controller. When the gravity value detected by the gravity detecting piece is smaller than a certain threshold value, the gravity detecting piece can send a signal to the main controller to indicate that food in the food storage box 45 is insufficient, and the food needs to be supplemented to the food storage box 45.

The above examples are only illustrative of the preferred embodiments of the present invention and do not limit the spirit and scope of the present invention. Various modifications and improvements of the technical scheme of the present invention will fall within the protection scope of the present invention without departing from the design concept of the present invention, and the technical content of the present invention is fully described in the claims.

Claims

1. Breed house temperature and humidity control device, its characterized in that: the solar energy automatic cultivation system comprises a house body (1) provided with a plurality of rows of automatic cultivation mechanisms (2), a solar energy collection power supply mechanism, a refrigerating and heating device (12) and a temperature detector, and a main controller respectively electrically connected with the solar energy collection power supply mechanism and the refrigerating and heating device (12), wherein the solar energy collection power supply mechanism is matched with the house body (1); the solar energy collection power supply mechanism comprises a solar energy collection plate (11) arranged at the top of the house body (1), a storage battery (13) and an inverter (14) which are arranged in the house body (1), wherein the solar energy collection plate (11) is electrically connected with the storage battery (13), the storage battery (13) is electrically connected with the inverter (14), the inverter (14) is electrically connected with the refrigerating and heating device (12), the temperature detectors are uniformly distributed in the house body (1), and the temperature detectors are electrically connected with the refrigerating and heating device (12); the culture mechanism (2) is respectively and electrically connected with the inverter (14) and the main controller;

the cultivation mechanism (2) comprises a cultivation frame (21), cultivation boxes (22) which are arranged on the cultivation frame (21) and have the same structure and size, and the cultivation mechanism (2) is provided with at least two movable spaces which are equal to the cultivation boxes (22) in size; the culture mechanism (2) further comprises a horizontal movement assembly for moving the culture box (22) left and right and a vertical movement assembly for moving the culture box (22) up and down; the horizontal moving assembly comprises a horizontal magnetic attraction piece (23) embedded on a horizontal rod of the cultivation frame (21), a horizontal magnetic attraction butt piece (24) embedded on the front surface and the rear surface of the cultivation box (22) and used in cooperation with the horizontal magnetic attraction piece (23), and a first controller for controlling the magnetic attraction of the horizontal magnetic attraction piece (23), wherein the first controller is electrically connected with the main controller; the vertical moving assembly comprises a vertical magnetic attraction piece (25) embedded on a vertical rod of the culture rack (21), a vertical magnetic attraction butt piece (26) embedded on the front surface and the rear surface of the culture box (22) and matched with the vertical magnetic attraction piece (25), and a second controller for controlling the magnetic attraction of the vertical magnetic attraction piece (25), wherein the second controller is electrically connected with the main controller.

2. The temperature and humidity control device for a cultivation house according to claim 1, wherein: the cultivation box (22) comprises a front plate (221), a rear plate, a left plate, a right plate (222), a top plate (223) and a bottom plate (224); the upper end and the lower end of the outer surface of the front plate (221) are respectively provided with a horizontal magnetic attraction butt joint sheet (24), the left end and the right end are respectively provided with a vertical magnetic attraction butt joint sheet (26), and the front plate (221) is also provided with an inlet and an outlet; the left plate and the right plate (222) are provided with ventilation holes; the top plate (223) is provided with a feeding port (225), and a telescopic feeding barrel (227) is arranged between the feeding port (225) and the feeding basin (226); the utility model discloses a floor, including bottom plate (224), bottom plate (224) top is equipped with rack (228), bottom plate (224) upper surface is equipped with holding part the storage tank of rack (228), bottom plate (224) include left bottom plate and right bottom plate, left side bottom plate with right bottom plate junction is equipped with the confession left bottom plate or right bottom plate upset pivot from top to bottom.

3. The temperature and humidity control device for a cultivation house according to claim 2, wherein: the feeding barrel (227) comprises an inner telescopic barrel (271) and an outer telescopic barrel (272), and is connected with an outer wall of the outer telescopic barrel (272) through a telescopic rod driving motor (274) connected with the telescopic rod (273), the telescopic rod driving motor (274) is arranged at the bottom of the top plate (223), the top end of the inner wall of the outer telescopic barrel (272) is slidably connected with an outer wall groove of the inner telescopic barrel (271) through a sliding block, the top end of the inner telescopic barrel (271) is provided with a connecting port (275) connected with the feeding port (225), the connecting port (275) is provided with a port opening and closing door, the feeding barrel (227) further comprises a detachable elastic feeding pipe (276), and one end of the elastic feeding pipe (276) is connected with the inner top of the inner telescopic barrel (271) while the other end of the elastic feeding pipe is connected with the inner bottom of the outer telescopic barrel (272).

4. The temperature and humidity control device for a cultivation house according to claim 1, wherein: the cultivation mechanism (2) further comprises a cleaning box, the cleaning box comprises a cleaning box front plate (31), a cleaning box rear plate, a cleaning box left plate, a cleaning box right plate and a cleaning box bottom plate (32), the cleaning box front plate (31) and the upper end and the lower end of the outer surface of the cleaning box rear plate are respectively provided with a horizontal magnetic attraction butt joint piece (24), the left end and the right end of the cleaning box rear plate are respectively provided with a vertical magnetic attraction butt joint piece (26), the cleaning box bottom plate (32) is provided with a net-shaped moving groove (33), the moving groove (33) comprises a transverse moving groove and a vertical moving groove, one port of each transverse moving groove and one port of each vertical moving groove are respectively provided with a moving driving piece (34), and the moving groove (33) is connected with a cleaning piece (35).

5. The temperature and humidity control device for a cultivation house according to claim 4, wherein: the cleaning piece (35) comprises a cleaning sponge head (351), a sponge head rotating shaft (352) connected with the bottom of the cleaning sponge head (351), a sponge head rotating shaft driving motor (353) connected with the other end of the sponge head rotating shaft (352), a sponge head telescopic shaft (354) connected with the bottom of a shell of the sponge head rotating shaft driving motor (353), a sponge head telescopic shaft driving motor (355) connected with the other end of the sponge head telescopic shaft (354) and used for accommodating the sponge head telescopic shaft (354) and a shell cover (356) connected with the shell of the sponge head rotating shaft driving motor (353) in a sliding mode, and a base (357) connected with the bottom of the shell cover (356) and the moving groove (33).

6. The temperature and humidity control device for a cultivation house according to claim 5, wherein: the shell cover (356) outer wall is equipped with round spacing recess (358), cleaning piece (35) still include an elasticity cleaning cloth, the center of elasticity cleaning cloth is equipped with an elasticity cuff, elasticity cuff cup joints in spacing recess (358), the edge of elasticity cleaning cloth respectively with inner wall connection of cleaning case front bezel (31), cleaning case back plate, cleaning case left side board and cleaning case right side board.

7. The temperature and humidity control device for a cultivation house according to claim 5, wherein: the movable driving piece (34) comprises a movable driving motor (341), a movable rod (342) connected with the movable driving motor (341) and a suction head (343) connected with the other end of the movable rod (342), and the contact surface of the suction head (343) and the shell cover (356) is a magnetic suction surface.

8. The temperature and humidity control device for a cultivation house according to claim 1, wherein: the cultivation mechanism (2) further comprises a food conveying box, the food conveying box comprises a food conveying box front plate (41), a food conveying box rear plate, a food conveying box left plate, a food conveying box right plate and a food conveying box bottom plate (42), the upper end and the lower end of the outer surface of the food conveying box front plate (41) and the outer surface of the food conveying box rear plate are respectively provided with a horizontal magnetic attraction butt joint piece (24) and a vertical magnetic attraction butt joint piece (26), the left end and the right end of the outer surface of the food conveying box rear plate are respectively provided with a vertical magnetic attraction butt joint piece (26), the food conveying box bottom plate (42) is provided with a food conveying hole, a food conveying hopper (43) is arranged right above the food conveying hole, the food conveying hopper (43) is sleeved on a height adjusting frame (44) connected with the food conveying box bottom plate (42), a food storage box (45) is further arranged on the food storage box bottom plate (42), the food storage box (45) is provided with a food conveying pipe (46), and an outlet of the food conveying pipe (46) is arranged above the food conveying hopper (43), and the food conveying box (46) is provided with a food sucking pump (47); the height adjusting frame (44) comprises a ferrule for supporting the food conveying hopper (43) and a height adjusting rod for connecting the ferrule and the bottom plate (42) of the food conveying box.

9. The culture house temperature and humidity control device according to claim 8, wherein: the side of the bottom plate (42) of the food conveying box, which is in contact with the food storage box (45), is provided with a gravity detection sheet, and the gravity detection sheet is electrically connected with the main controller.