CN114323139A - Intelligent production and breeding environment data monitoring system - Google Patents

Abstract

The invention belongs to the field of cultivation, in particular to an intelligent production and cultivation environment data monitoring system, aiming at the problem that the prior system can only passively monitor air quality and has fixed monitoring height, the invention provides a scheme which comprises a temperature and humidity sensor, an air quality sensor, a processor, a network module and a shell, wherein the output ends of the temperature and humidity sensor and the air quality sensor are both electrically connected with the input end of the processor in a one-way, the output end of the processor is electrically connected with the input end of the network module in a two-way, a hole at the rear side of the shell is fixedly provided with a speed reducing motor, the speed reducing motor drives a hinge block to rotate through a transmission disc, the hinge block drives a transmission mechanism to rotate through a connecting frame, the transmission mechanism drives air to be close to the air quality sensor through a fan-moving mechanism, the speed of monitoring the air quality sensor to the air is accelerated, and the fan-moving mechanism drives the temperature and humidity sensor to move up and down through a lifting mechanism, the air of different heights is conveniently monitored.

Description

Intelligent production and breeding environment data monitoring system

Technical Field

The invention relates to the technical field of cultivation, in particular to an intelligent production and cultivation environment data monitoring system.

Background

The environmental condition needs to be monitored in the culture process, and the patent with the application number of CN201811127356.6 discloses a fish culture environment intelligent monitoring system which can rapidly, accurately and real-timely monitor fish culture environment monitoring data, so that monitoring personnel can take corresponding measures according to the monitored fish culture environment monitoring data, scientific culture and management of fish culture are realized, the culture process is optimized, the survival rate of fish is improved, and the culture benefit is increased.

However, the intelligent monitoring system for the fish culture environment also has the problems that the intelligent monitoring system is only passively monitored when the air quality is monitored, only when the polluted air slowly floats to the position near the sensor, the monitoring reaction speed is low, and the temperature sensor and the humidity sensor are mostly fixed inside and are highly fixed, so that the air with corresponding height can only be monitored, and the monitoring effect of the environment is influenced.

Disclosure of Invention

Based on the technical problems that the air quality can only be passively monitored and the monitoring height is fixed in the background technology, the invention provides an intelligent production and breeding environment data monitoring system.

The invention provides an intelligent production and breeding environment data monitoring system which comprises a temperature and humidity sensor, an air quality sensor, a processor, a network module and a shell, wherein the output ends of the temperature and humidity sensor and the air quality sensor are electrically connected with the input end of the processor in a one-way mode, the output end of the processor is electrically connected with the input end of the network module in a two-way mode, a speed reducing motor is fixedly installed in a hole in the rear side of the shell, the output end of the speed reducing motor penetrates through the hole in the rear side of the shell and is fixedly sleeved with a transmission disc, a hinge block is hinged to the right end of the surface of the transmission disc, a connecting frame is connected with the hole in the side face of the hinge block in a sliding mode, a transmission mechanism is connected to the surface of the connecting frame in a bolted mode, a fanning mechanism is hinged to the top end of the transmission mechanism, a lifting mechanism is hinged to the bottom end of the rear side of the fanning mechanism, and the speed reducing motor can drive the hinge block to rotate through the transmission disc, the hinged block can drive the transmission mechanism to rotate through the connecting frame, the transmission mechanism can drive air to be close to the air quality sensor through the fan-moving mechanism, the speed of the air quality sensor for air monitoring is increased, the fan-moving mechanism can drive the temperature and humidity sensor to move up and down through the lifting mechanism, and air at different heights can be monitored conveniently.

Preferably, the transmission mechanism comprises a transmission belt, two auxiliary pulleys, a sliding block, a connecting rod, a chain, a transmission wheel and a transmission rod, the left side of the transmission belt is in bolted connection with the right side of the connecting frame, the transmission belt is arranged between the surfaces of the two auxiliary pulleys, the axis of each auxiliary pulley is rotatably connected with the inside of the shell, the left side of the sliding block is in bolted connection with the right end of the transmission belt, the front end of the sliding block is in sliding connection with a hole in the rear side of the connecting rod, the hole in the surface of the connecting rod is hinged with the inside of the shell, the two ends of the chain are both in bolted connection with the top end of the connecting rod, the inside of the chain is meshed with the outer side of the transmission wheel, the axis of the transmission wheel is rotatably connected with the inside of the shell, the rear side of the transmission wheel is welded with the bottom end of the transmission rod, and the top end of the transmission rod is hinged with the bottom of the fanning mechanism, the articulated piece can drive the drive belt through the link, and the drive belt can drive the slider through the auxiliary pulley and remove, and the slider can drive the chain through the connecting rod and rotate, and the chain can drive the transfer line through the drive wheel and rotate.

Preferably, the fan-moving mechanism comprises a movable rod, a fluted disc, a pinion, a rotating rod and fan blades, the bottom end of the movable rod is hinged with the bottom end of the transmission rod, the top end of the movable rod is hinged with the rear side of the fluted disc, the axle center of the right side of the fluted disc is hinged with the inside of the shell, the left side of the fluted disc is meshed with the right side of the pinion, the axle center of the pinion is fixedly sleeved with the bottom end of the rotating rod, the surface of the rotating rod is rotatably sleeved with the inside of the shell, the top end of the rotating rod is fixedly sleeved with the middle end of the fan blade, the top of flabellum corresponds with air mass sensor's bottom, the bottom of movable rod rear side is articulated with elevating system's right-hand member, and the transfer line can drive the fluted disc through the movable rod and rotate, and the fluted disc can drive the bull stick through the pinion and rotate, and the bull stick can drive the air through the flabellum and be close to air mass sensor, accelerates air mass sensor to the speed of air monitoring.

Preferably, the lifting mechanism comprises a connecting rod, a hinged rod, a connecting rope, a guide pulley, a lower pulley, an upper pulley, a winding wheel, a gear wheel and a rack, the right end of the connecting rod is hinged with the bottom end of the rear side of the movable rod, the left end of the connecting rod is hinged with the bottom end of the hinged rod, a hole in the surface of the hinged rod is hinged with the inside of the shell, the top end of the hinged rod is hinged with one end of the connecting rope, the axis of the guide pulley is rotatably connected with the right side of the inside of the shell, the axis of the lower pulley is rotatably connected with the left side of the inside of the shell, the axis of the upper pulley is rotatably connected with the inside of the shell and the top of the lower pulley, the connecting rope is arranged among the surfaces of the guide pulley, the upper pulley and the lower pulley, the other end of the connecting rope penetrates through the hole in the left side of the shell and is wound with the inside of the winding wheel, and the rear side of the winding wheel is welded with the front side of the gear wheel, the right side of rack and the left side sliding connection of shell, the axle center department of gear wheel rotates with the left side of shell and the rear side that is located the rack and is connected, the right side of gear wheel meshes with the left side of rack, and the movable rod can drive the hinge bar through the connecting rod and rotate, and the hinge bar can drive the rolling wheel through connecting the rope and rotate, and the rolling wheel can drive rack and temperature and humidity sensor through the gear wheel and reciprocate, conveniently monitors the air of co-altitude not.

Preferably, gear motor's the one-way electric connection of input and the output of treater, air quality sensor fixed mounting is at the opening at shell top, and gear motor's rotation can be controlled to the treater, makes things convenient for controlgear's operation, and the right side of shell also has the opening, and two openings communicate each other, make things convenient for the air to be close to air quality sensor fast.

Preferably, the rear side of link and the inside sliding connection of shell, the link is T type structure, and the link passes through the slide rail and slides the setting with the shell, lets the link can be steady reciprocate, avoids the link to be driven the skew by articulated piece.

Preferably, the rear side of slider and the inside sliding connection of shell, the front side of slider is the lug structure, and the slider passes through the slide rail and slides the setting with the shell, lets the slider can be steady reciprocate, makes things convenient for the drive belt to drive the slider and removes, also makes things convenient for the slider to drive the connecting rod and rotates.

Preferably, the hinged position of connecting rod and shell is located between the both ends of chain, the top of transfer line inclines to the left, and the structure setting of connecting rod and chain makes things convenient for the connecting rod to drive the chain and rotates, makes things convenient for the connecting rod to pass through the chain and drives the drive wheel rotation, and the slope of transfer line makes things convenient for the transmission of structure.

Preferably, the left tooth of fluted disc is the skewed tooth structure, the pinion is the skewed tooth gear, and the skewed tooth structure of fluted disc and pinion makes things convenient for the fluted disc to drive the pinion and rotates, conveniently turns into the rotation of bull stick with the rotation of fluted disc.

Preferably, the bottom of temperature and humidity sensor and the top fixed mounting of rack, connect the rope and be the S structure and set up with lower pulley and upper pulley transmission respectively, make things convenient for the rack to drive temperature and humidity sensor and reciprocate, connect the structure between rope, upper pulley and the lower pulley and conveniently guide the connection rope and drive the rolling wheel and rotate.

The invention has the beneficial effects that: gear motor can drive articulated piece through the drive disc and rotate, articulated piece can drive the drive belt through the link, the drive belt can drive the slider removal through the auxiliary pulley, the slider can drive the chain through the connecting rod and rotate, the chain can drive the transfer line through the drive wheel and rotate, the transfer line can drive the fluted disc through the movable rod and rotate, the fluted disc can drive the bull stick through the pinion and rotate, the bull stick can drive the air through the flabellum and be close to air quality sensor, air quality sensor's speed to air monitoring with higher speed, the movable rod can drive the hinge bar through the connecting rod and rotate, the hinge bar can drive the rolling wheel through connecting the rope and rotate, the rolling wheel can drive rack and temperature and humidity sensor through the gear wheel and reciprocate, the convenience is monitored the air of co-altitude not.

Drawings

FIG. 1 is a schematic view of an elevation structure of an intelligent production and breeding environment data monitoring system according to the present invention;

FIG. 2 is a schematic structural diagram of a speed reduction motor of the intelligent production and cultivation environment data monitoring system provided by the invention;

FIG. 3 is a schematic diagram of a fluted disc structure of an intelligent production and cultivation environment data monitoring system provided by the invention;

FIG. 4 is a schematic perspective view of a transmission disc of the system for monitoring data of an intelligent production and breeding environment according to the present invention;

FIG. 5 is a schematic perspective view of a winding wheel of the data monitoring system for an intelligent production and breeding environment according to the present invention;

fig. 6 is a system block diagram of an intelligent production and breeding environment data monitoring system provided by the invention.

In the figure: the device comprises a shell 1, a transmission mechanism 2, a transmission belt 21, an auxiliary pulley 22, a sliding block 23, a connecting rod 24, a chain 25, a transmission wheel 26, a transmission rod 27, a fan-moving mechanism 3, a movable rod 31, a toothed disc 32, a pinion 33, a rotating rod 34, fan blades 35, a lifting mechanism 4, a connecting rod 41, a hinged rod 42, a connecting rope 43, a guide pulley 44, a lower pulley 45, an upper pulley 46, a winding wheel 47, a gearwheel 48, a rack 49, a speed reducing motor 5, a transmission disc 6, a hinged block 7, a connecting frame 8, a temperature and humidity sensor 9, an air quality sensor 10, a processor 11 and a network module 12.

Detailed Description

The present invention will be further illustrated with reference to the following specific examples.

Examples

Referring to fig. 1-6, the embodiment provides an intelligent production and cultivation environment data monitoring system, which includes a temperature and humidity sensor 9, an air quality sensor 10, a processor 11, a network module 12 and a housing 1, where the temperature and humidity sensor 9 is a commercially mature product, the air quality sensor 10 is a commercially mature air detection sensor for detecting harmful gases in air, the output ends of the temperature and humidity sensor 9 and the air quality sensor 10 are both unidirectionally and electrically connected with the input end of the processor 11, the output end of the processor 11 is bidirectionally and electrically connected with the input end of the network module 12, a speed reduction motor 5 is fixedly installed in a hole at the rear side of the housing 1, the speed reduction motor 5 can provide power for the device, the input end of the speed reduction motor 5 is unidirectionally and electrically connected with the output end of the processor 11, the air quality sensor 10 is fixedly installed in an opening at the top of the housing 1, the processor 11 can control the rotation of the speed reducing motor 5, which is convenient for controlling the operation of the equipment, the right side of the shell 1 is also provided with an opening, the two openings are communicated with each other, which is convenient for air to quickly approach the air quality sensor 10, the output end of the speed reducing motor 5 penetrates through the hole at the rear side of the shell 1 and is fixedly sleeved with the transmission disc 6, the speed reducing motor 5 can drive the transmission disc 6 to rotate, the right end of the surface of the transmission disc 6 is hinged with the hinged block 7, the transmission disc 6 can drive the hinged block 7 to move up and down, the hole at the side of the hinged block 7 is connected with the connecting frame 8 in a sliding way, the transmission disc 6 can drive the connecting frame 8 to move up and down through the hinged block 7, the surface of the connecting frame 8 is bolted with the transmission mechanism 2, the connecting frame 8 can drive the transmission mechanism 2 to rotate, the rear side of the connecting frame 8 is connected with the inner part of the shell 1 in a sliding way, the connecting frame 8 is of a T-shaped structure, the connecting frame 8 is arranged with the shell 1 in a sliding way of a sliding way through a sliding way of a sliding way, the connecting frame 8 can move up and down stably, the connecting frame 8 is prevented from being driven to deviate by the hinge block 7, the top end of the transmission mechanism 2 is hinged with the fan-driven mechanism 3, the transmission mechanism 2 can drive the fan-driven mechanism 3 to rotate, the bottom end of the rear side of the fan-driven mechanism 3 is hinged with the lifting mechanism 4, the fan-driven mechanism 3 can drive the lifting mechanism 4 to rotate, the transmission mechanism 2 comprises a transmission belt 21, auxiliary pulleys 22, a sliding block 23, a connecting rod 24, a chain 25, a transmission wheel 26 and a transmission rod 27, the left side of the transmission belt 21 is bolted with the right side of the connecting frame 8, the connecting frame 8 can drive the transmission belt 21 to rotate, the number of the auxiliary pulleys 22 is two, the transmission belt 21 is arranged between the surfaces of the two auxiliary pulleys 22, the auxiliary pulleys 22 can guide the transmission belt 21, the axis of the auxiliary pulleys 22 is rotatably connected with the inside of the shell 1, the left side of the sliding block 23 is bolted with the right end of the transmission belt 21, the transmission belt 21 can drive the sliding block 23 to move up and down, the rear side of the sliding block 23 is connected with the inside of the shell 1 in a sliding manner, the front side of the sliding block 23 is of a convex block structure, the sliding block 23 is arranged with the shell 1 in a sliding manner through a sliding rail, the sliding block 23 can stably move up and down, the transmission belt 21 is convenient for driving the sliding block 23 to move, the sliding block 23 is also convenient for driving the connecting rod 24 to rotate, the front end of the sliding block 23 is connected with a hole at the rear side of the connecting rod 24 in a sliding manner, the sliding block 23 can drive the connecting rod 24 to rotate up and down, the hole on the surface of the connecting rod 24 is hinged with the inside of the shell 1, two ends of the chain 25 are both bolted with the top end of the connecting rod 24, the connecting rod 24 can drive the chain 25 to rotate, the inside of the chain 25 is meshed with the outer side of the transmission wheel 26, the chain 25 can drive the transmission wheel 26 to rotate, the axis of the transmission wheel 26 is rotatably connected with the inside of the shell 1, and the rear side of the transmission rod 27 is welded with the bottom end of the transmission rod, the transmission wheel 26 can drive the transmission rod 27 to rotate, the hinged position of the connecting rod 24 and the shell 1 is positioned between two ends of the chain 25, the top end of the transmission rod 27 inclines leftwards, the structure of the connecting rod 24 and the chain 25 is convenient for the connecting rod 24 to drive the chain 25 to rotate, the connecting rod 24 can drive the transmission wheel 26 to rotate through the chain 25, the inclination of the transmission rod 27 facilitates the transmission of the structure, the top end of the transmission rod 27 is hinged with the bottom of the fanning mechanism 3, the hinged block 7 can drive the transmission belt 21 through the connecting frame 8, the transmission belt 21 can drive the sliding block 23 to move through the auxiliary pulley 22, the sliding block 23 can drive the chain 25 to rotate through the connecting rod 24, the chain 25 can drive the transmission rod 27 to rotate through the transmission wheel 26, the fanning mechanism 3 comprises a movable rod 31, a fluted disc 32, a pinion 33, a rotating rod 34 and fan blades 35, the bottom end of the movable rod 31 is hinged with the bottom end of the transmission rod 27, the transmission rod 27 can drive the movable rod 31 to rotate, the top end of the movable rod 31 is hinged with the rear side of the fluted disc 32, the movable rod 31 can drive the fluted disc 32 to rotate, the axle center of the right side of the fluted disc 32 is hinged with the inside of the shell 1, the left side of the fluted disc 32 is meshed with the right side of the pinion 33, the fluted disc 32 can drive the pinion 33 to rotate, teeth of the left side of the fluted disc 32 are in a helical tooth structure, the pinion 33 is a helical gear, the helical tooth structure of the fluted disc 32 and the pinion 33 facilitates the fluted disc 32 to drive the pinion 33 to rotate, so that the rotation of the fluted disc 32 is converted into the rotation of the rotating rod 34, the axle center of the pinion 33 is fixedly sleeved with the bottom end of the rotating rod 34, the pinion 33 can drive the rotating rod 34 to rotate, the surface of the rotating rod 34 is sleeved with the inside of the shell 1, the top end of the rotating rod 34 is fixedly sleeved with the middle end of the fan blade 35, the rotating rod 34 can drive the fan blade 35 to rotate, and the top of the fan blade 35 corresponds to the bottom of the air quality sensor 10, the bottom end of the rear side of the movable rod 31 is hinged with the right end of the lifting mechanism 4, the transmission rod 27 can drive the fluted disc 32 to rotate through the movable rod 31, the fluted disc 32 can drive the rotating rod 34 to rotate through the pinion 33, the rotating rod 34 can drive air to approach the air quality sensor 10 through the fan blades 35, and the speed of the air quality sensor 10 for monitoring the air is accelerated, the lifting mechanism 4 comprises a connecting rod 41, a hinged rod 42, a connecting rope 43, a guide pulley 44, a lower pulley 45, an upper pulley 46, a winding wheel 47, a large gear 48 and a rack 49, the right end of the connecting rod 41 is hinged with the bottom end of the rear side of the movable rod 31, the movable rod 31 can drive the connecting rod 41 to rotate, the left end of the connecting rod 41 is hinged with the bottom end of the hinged rod 42, the connecting rod 41 can drive the hinged rod 42 to rotate, the surface of the hinged rod 42 is hinged with the inside of the shell 1, the top end of the hinged rod 42 is hinged with one end of the connecting rope 43, the rod 42 can drive the connecting rope 43 to rotate, the axis of the guide pulley 44 is rotatably connected with the right side inside the housing 1, the axis of the lower pulley 45 is rotatably connected with the left side inside the housing 1, the axis of the upper pulley 46 is rotatably connected with the inside of the housing 1 and positioned at the top of the lower pulley 45, the connecting rope 43 is arranged among the surfaces of the guide pulley 44, the upper pulley 46 and the lower pulley 45, the guide pulley 44, the lower pulley 45 and the upper pulley 46 can guide the connecting rope 43, the hinge rod 42 can drive the winding wheel 47 to rotate through the connecting rope 43, the other end of the connecting rope 43 penetrates through a hole at the left side of the housing 1 and is wound with the inside of the winding wheel 47, the connecting rope 43 can drive the winding wheel 47 to rotate, the rear side of the winding wheel 47 is welded with the front side of the large gear 48, the winding wheel 47 can drive the large gear 48 to rotate, the right side of the rack 49 is slidably connected with the left side of the housing 1, the axis of the large gear 48 is rotatably connected with the left side of the housing 1 and positioned at the rear side of the rack 49, the right side of the large gear 48 is meshed with the left side of the rack 49, the movable rod 31 can drive the hinge rod 42 to rotate through the connecting rod 41, the hinge rod 42 can drive the winding wheel 47 to rotate through the connecting rope 43, the winding wheel 47 can drive the rack 49 and the temperature and humidity sensor 9 to move up and down through the large gear 48, air with different heights can be conveniently monitored, the bottom of the temperature and humidity sensor 9 and the top of the rack 49 are fixedly installed, the connecting rope 43 is in an S structure and is respectively arranged in a transmission mode with the lower pulley 45 and the upper pulley 46, the rack 49 can drive the temperature and humidity sensor 9 to move up and down conveniently, the connecting rope 43, the structure between the upper pulley 46 and the lower pulley 45 can guide the connecting rope 43 to drive the winding wheel 47 to rotate conveniently, the speed reduction motor 5 can drive the hinge block 7 to rotate through the transmission disc 6, the hinge block 7 can drive the transmission mechanism 2 to rotate through the connecting frame 8, the transmission mechanism 2 can drive air to be close to the air quality sensor 10 through the fan sliding mechanism 3, accelerate the speed of air quality sensor 10 to air monitoring, fan actuating mechanism 3 can drive temperature and humidity sensor 9 through elevating system 4 and reciprocate, conveniently monitors the air of co-altitude not.

The working principle is as follows: the user controls the processor 11 through the network module 12, the processor 11 can control the gear motor 5 to rotate clockwise, the gear motor 5 can drive the transmission disc 6 to rotate clockwise, the transmission disc 6 drives the hinge block 7 to move downwards first and then move upwards, when the hinge block 7 moves downwards, the hinge block 7 drives the connecting frame 8 to move downwards, the connecting frame 8 drives the transmission belt 21 to rotate anticlockwise, the transmission belt 21 can drive the sliding block 23 to move upwards under the guidance of the two auxiliary pulleys 22, the sliding block 23 can drive the connecting rod 24 to rotate upwards and clockwise, the connecting rod 24 can drive the chain 25 to rotate clockwise, the chain 25 can drive the transmission wheel 26 to rotate clockwise, the transmission wheel 26 drives the transmission rod 27 to rotate clockwise to the right, the transmission rod 27 drives the movable rod 31 to rotate clockwise, the movable rod 31 drives the fluted disc 32 to rotate upwards, the fluted disc 32 drives the pinion 33 to rotate, the pinion 33 drives the rotating rod 34 to rotate, the rotating rod 34 drives the fan blades 35 to rotate, the fan blades 35 drive air to rapidly approach the air quality sensor 10, rapid air monitoring of the air quality sensor 10 is increased, the movable rod 31 can drive the connecting rod 41 to move rightwards in the process of rotating rightwards, the connecting rod 41 can drive the hinge rod 42 to rotate anticlockwise, the hinge rod 42 drives the connecting rope 43 to move leftwards, the connecting rope 43 moves rightwards under the guidance of the guide pulley 44, the connecting rope 43 moves downwards under the guidance of the lower pulley 45, the connecting rope 43 moves rightwards under the guidance of the upper pulley 46, the connecting rope 43 drives the winding wheel 47 to rotate anticlockwise, the winding wheel 47 drives the large gear 48 to rotate anticlockwise, the large gear 48 drives the rack 49 to move upwards, the rack 49 drives the temperature and humidity sensor 9 to move upwards, and the temperature and humidity sensor 9 can monitor air with different heights, the data obtained by the temperature and humidity sensor 9 and the air quality sensor 10 are processed by the processor 11 and then transmitted to the user through the network module 12.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides an intelligent production and breeding environment data monitoring system, includes temperature and humidity sensor (9), air mass sensor (10), treater (11), network module (12) and shell (1), its characterized in that, temperature and humidity sensor (9) and air mass sensor (10)'s output all with the one-way electric connection of the input of treater (11), the two-way electric connection of the output of treater (11) and the input of network module (12), the hole fixed mounting of shell (1) rear side has gear motor (5), the output of gear motor (5) runs through the hole of shell (1) rear side and the fixed cover is connected with driving disc (6), the right-hand member on driving disc (6) surface articulates there is articulated piece (7), the hole sliding connection of articulated piece (7) side has link (8), the surface of the connecting frame (8) is bolted with a transmission mechanism (2), the top end of the transmission mechanism (2) is hinged with a fan-moving mechanism (3), and the bottom end of the rear side of the fan-moving mechanism (3) is hinged with a lifting mechanism (4).

2. The system for monitoring the data of the intelligent production and breeding environment as claimed in claim 1, wherein the transmission mechanism (2) comprises a transmission belt (21), two auxiliary pulleys (22), a sliding block (23), a connecting rod (24), a chain (25), a transmission wheel (26) and a transmission rod (27), the left side of the transmission belt (21) is bolted with the right side of the connecting frame (8), the transmission belt (21) is arranged between the surfaces of the two auxiliary pulleys (22), the axial center of the auxiliary pulley (22) is rotatably connected with the inside of the housing (1), the left side of the sliding block (23) is bolted with the right end of the transmission belt (21), the front end of the sliding block (23) is slidably connected with a hole at the rear side of the connecting rod (24), and the hole at the surface of the connecting rod (24) is hinged with the inside of the housing (1), both ends of the chain (25) are bolted with the top end of the connecting rod (24), the inside of the chain (25) is meshed with the outer side of the driving wheel (26), the axis of the driving wheel (26) is rotatably connected with the inside of the shell (1), the rear side of the driving wheel (26) is welded with the bottom end of the transmission rod (27), and the top end of the transmission rod (27) is hinged with the bottom of the fanning mechanism (3).

3. The system for monitoring the data of the intelligent production and breeding environment as claimed in claim 2, wherein the fan-moving mechanism (3) comprises a moving rod (31), a fluted disc (32), a pinion (33), a rotating rod (34) and fan blades (35), the bottom end of the moving rod (31) is hinged with the bottom end of a transmission rod (27), the top end of the moving rod (31) is hinged with the rear side of the fluted disc (32), the axle center of the right side of the fluted disc (32) is hinged with the inside of the housing (1), the left side of the fluted disc (32) is meshed with the right side of the pinion (33), the axle center of the pinion (33) is fixedly connected with the bottom end of the rotating rod (34), the surface of the rotating rod (34) is rotatably connected with the inside of the housing (1), the top end of the rotating rod (34) is fixedly connected with the middle end of the fan blades (35), and the tops of the fan blades (35) correspond to the bottom of the air quality sensor (10), the bottom end of the rear side of the movable rod (31) is hinged with the right end of the lifting mechanism (4).

4. The system for monitoring the data of the intelligent production and breeding environment as claimed in claim 3, wherein the lifting mechanism (4) comprises a connecting rod (41), a hinged rod (42), a connecting rope (43), a guiding pulley (44), a lower pulley (45), an upper pulley (46), a winding wheel (47), a gear wheel (48) and a rack (49), the right end of the connecting rod (41) is hinged with the bottom end of the rear side of the movable rod (31), the left end of the connecting rod (41) is hinged with the bottom end of the hinged rod (42), a hole on the surface of the hinged rod (42) is hinged with the inside of the shell (1), the top end of the hinged rod (42) is hinged with one end of the connecting rope (43), the axis of the guiding pulley (44) is rotationally connected with the right side inside the shell (1), the axis of the lower pulley (45) is rotationally connected with the left side inside the shell (1), the axle center department of going up pulley (46) rotates with the inside of shell (1) and the top that is located lower pulley (45) and is connected, connect rope (43) and set up between the surface of guide pulley (44), upper pulley (46) and lower pulley (45), the other end of connecting rope (43) runs through the left hole of shell (1) and twines with the inside of rolling wheel (47), the rear side of rolling wheel (47) and the front side welding of gear wheel (48), the right side of rack (49) and the left side sliding connection of shell (1), the axle center department of gear wheel (48) rotates with the left side of shell (1) and is located the rear side of rack (49) and is connected, the right side of gear wheel (48) and the left side meshing of rack (49).

5. The system for monitoring the data of the intelligent production and breeding environment as claimed in claim 1, wherein the input end of the speed reduction motor (5) is electrically connected with the output end of the processor (11) in a unidirectional mode, and the air quality sensor (10) is fixedly installed at an opening in the top of the shell (1).

6. The system for intelligently monitoring the data of the production and breeding environment is characterized in that the rear side of the connecting frame (8) is connected with the inside of the shell (1) in a sliding mode, and the connecting frame (8) is of a T-shaped structure.

7. The system for intelligently monitoring the data of the production and breeding environment is characterized in that the rear side of the sliding block (23) is connected with the inside of the shell (1) in a sliding mode, and the front side of the sliding block (23) is of a bump structure.

8. The system for intelligently monitoring the data of the production and breeding environment is characterized in that the hinged joint of the connecting rod (24) and the shell (1) is positioned between two ends of a chain (25), and the top end of the transmission rod (27) inclines to the left.

9. The system for monitoring the data of the intelligent production and breeding environment as claimed in claim 3, wherein the teeth on the left side of the fluted disc (32) are of a helical structure, and the pinion (33) is a helical gear.

10. The system for monitoring the data of the intelligent production and breeding environment according to claim 4, wherein the bottom of the temperature and humidity sensor (9) is fixedly mounted with the top of the rack (49), and the connecting rope (43) is in an S-shaped structure and is respectively arranged in a transmission manner with the lower pulley (45) and the upper pulley (46).

Images