CN215992124U - Solar electric film rolling device and intelligent greenhouse with same - Google Patents

Abstract

The utility model provides a solar electric film rolling device and an intelligent greenhouse provided with the same, wherein the solar electric film rolling device comprises a film rolling driving motor, a solar cell panel, a storage battery, a wireless data transmission module and a control unit, wherein the film rolling driving motor, the solar cell panel, the storage battery and the wireless data transmission module are all connected with the control unit; the output shaft of the film rolling driving motor is used for being in transmission connection with a film rolling shaft for rolling and releasing the film in the greenhouse; the solar panel is used for receiving solar energy, converting the solar energy into electric energy and storing the electric energy into the storage battery; the storage battery supplies power for the film winding driving motor and the system; the control unit is in data transmission with the upper computer through the wireless data transmission module and controls the action of the film rolling driving motor according to a control command sent by the upper computer. The automatic film rolling machine solves the problems that the automatic degree of the existing electric film rolling machine is low, the labor cost and the material cost of early construction are high, the potential safety hazard and the operation cost are high, and the like. Belongs to the field of intelligent regulation and control of greenhouses.

Description

Solar electric film rolling device and intelligent greenhouse with same

Technical Field

The utility model relates to a solar electric film rolling device and an intelligent greenhouse with the same, and belongs to the technical field of greenhouses.

Background

With the continuous progress of agricultural technology, facility agriculture represented by greenhouses is developed rapidly, and the area of the greenhouse mainly based on vegetable output in China jumps to the first place in the world. Crops grow in the greenhouse, and the greenhouse is required to be capable of adjusting the temperature and humidity in the greenhouse and ventilating by combining the climate conditions of the greenhouse and rolling and unfolding the film according to different growth stages of the crops.

At present, the automation degree of most of greenhouses is low, the rolling and the unfolding of films are mainly realized by manual film rolling devices, along with the continuous development of facility agriculture, the use proportion of electric film rolling devices is increased year by year, but the automation degree of the existing electric film rolling devices is low, a control box or a control cabinet is required to be equipped, the control box is connected with 380V strong electricity, the voltage is changed into AC220V through a transformer, a power supply of DC24V is changed into a power supply of DC24 through a switching power supply, the electric film rolling devices are provided for the electric film rolling devices, one greenhouse is matched with a plurality of electric film rolling devices, as the greenhouses are generally built in suburban fields which are far away from cities and towns, the distance from the power supply is far away, in the practical construction and use process, professional manual work is required, a plurality of work such as wire drawing, wiring, debugging and the like is required, the process is tedious, the early construction labor cost and the material cost are greatly invested, the big-arch shelter is steel skeleton, has electric conductivity, and the wiring is more, and the potential safety hazard is big more, in the use, still can consume electric power, produces the charges of electricity, has increased warmhouse booth's operation cost.

Disclosure of Invention

The utility model aims to: the utility model provides an electronic film reeling device of solar energy and equip this electronic intelligent big-arch shelter of film reeling device to it is lower to solve present electronic film reeling device degree of automation, and construction cost of labor and material cost put into higher earlier stage, and potential safety hazard and running cost great scheduling problem.

In order to solve the problems, the solar electric film rolling device comprises a film rolling driving motor, a solar cell panel, a storage battery, a wireless data transmission module and a control unit, wherein the film rolling driving motor, the solar cell panel, the storage battery and the wireless data transmission module are all connected with the control unit;

the output shaft of the film rolling driving motor is used for being in transmission connection with a film rolling shaft for rolling and releasing the film in the greenhouse;

the solar panel is used for receiving solar energy, converting the solar energy into electric energy and storing the electric energy into the storage battery;

the storage battery supplies power for the film winding driving motor and the system;

the control unit is in data transmission with the upper computer through the wireless data transmission module and controls the action of the film rolling driving motor according to a control command sent by the upper computer.

Among the aforementioned electronic film winder of solar energy, still including rolling up the membrane ware output shaft, it is 6-8V's small-size DC motor to roll up membrane driving motor, and it is connected with film winder output shaft transmission to roll up membrane driving motor's output shaft through compound train gear drive, rolls up the membrane ware output shaft and is used for rolling up the membrane axle transmission with the big-arch shelter receipts and releases the membrane and is connected, and compound train gear drive's drive ratio more than or equal to 500.

In the aforementioned electronic film winder of solar energy, compound train gear drive includes action wheel, multistage ordinary wheel train and planetary gear train, and on the action wheel was fixed in the output shaft of rolling up membrane driving motor, the action wheel was connected with the transmission of multistage ordinary wheel train, and the output shaft of multistage ordinary wheel train was the center pin of planetary gear train, film winder output shaft 7 was fixed in on the planet carrier of planetary gear train, and rolled up the coaxial setting of film winder output shaft and center pin.

Among the aforementioned electronic film winder of solar energy, still including trouble detecting system, trouble detecting system includes upper detection part, next detection part and two cam mechanism that adjusts the position, cam mechanism that adjusts the position is connected with the output shaft transmission of rolling up membrane driving motor, upper detection part and next detection part correspond the setting with the rotation cam of two cam mechanism that adjusts the position respectively, so that roll up the membrane ware drive and roll up membrane axle and receive the membrane and put the membrane and trigger upper detection part and next detection part respectively when reaching the settlement position, upper detection part and next detection part all link to each other with the control unit, the control unit or host computer still are connected with timing module, the host computer still is connected with alarm module.

In the solar electric film rolling device, the upper detection part and the lower detection part are both contact or proximity sensors;

in the solar electric film rolling device, the upper detection part and the lower detection part are both limit switches, the positioning cam mechanism comprises a rotating cam and a cam positioning fluted disc coaxially fixed with the rotating cam, the cam positioning fluted disc is in transmission connection with an output shaft of a film rolling driving motor, the upper detection part and the lower detection part respectively comprise a state detection switch and a motor power-off switch, each rotating cam is provided with two protruding profiles, and the two protruding profiles respectively correspond to the trigger state detection switch and the motor power-off switch;

among the aforementioned electronic film rolling device of solar energy, the cam positioning fluted disc all is connected through the transmission of multistage dead axle train with the output shaft of rolling up membrane driving motor, positioning cam mechanism is still including knob and pivot, is fixed with parallel arrangement's upper fixed plate and bottom plate in rolling up the membrane ware, and positioning cam mechanism sets up between upper fixed plate and bottom plate, knob and cam positioning fluted disc are fixed in the both ends that rotate the cam respectively, and cam positioning fluted disc and rotation cam rotate to set up in the pivot and can follow pivot endwise slip, and on the one end of pivot was fixed in the bottom plate, the knob hole on the upper fixed plate was stretched out to the outer end of knob, and the cover was equipped with the spring in the pivot, and spring pressure was located between cam positioning fluted disc and the bottom plate.

The utility model also provides the intelligent greenhouse provided with the solar automatic film rolling device, films on two sides and/or the top of the greenhouse are driven to rotate forwards or backwards through the electric film rolling device to realize film rolling and film releasing, and the electric film rolling device is the solar electric film rolling device.

Compared with the prior art, the solar film winder is designed in a solar power supply integrated mode, a solar power supply module is designed and integrated on the film winder, a power supply mode of a solar panel and a storage battery is adopted, the power supply voltage is only 6-8V, the solar panel can supplement the electric quantity loss of the storage battery, long standby time can be realized under the condition of no illumination, solar energy is clean energy, energy is saved, the environment is protected, complicated wiring operation is not needed in the installation process, time and labor are saved, and material cost and labor cost are saved; the electric power cost does not need to be generated in the using process, the operation and use cost is saved, and meanwhile, the utility model also has the following advantages:

1) the technology of the Internet of things is applied to the electric film rolling device, remote wireless control and the film rolling device are integrated without stay wires and wiring, and a control cabinet or a control box is not required, so that the film rolling device has the remote wireless control function and becomes a greenhouse Internet of things terminal product which can work independently;

2) by utilizing the design of a composite gear train gear mechanism, a small motor is used for outputting large torque, the space of an actuator is reduced, a larger transmission ratio is obtained, the output torque is increased, the power consumption of a battery is reduced, the load capacity of the solar film winder is increased, and the film winding is more stable and reliable;

3) the solar electric film rolling device can be in a sleep mode when not working by combining a dormancy algorithm technology, so that the standby electric quantity loss is greatly saved, and the low-power-consumption standby of the solar electric film rolling device is realized;

4) the solar electric film rolling device is provided with the operation panel, so that manual up-and-down rolling operation can be performed at the end of the film rolling device, and the installation, up-and-down limiting setting and debugging work of the solar film rolling device can be completed at one time by matching with the knob type cam and limiting detection, so that secondary high-altitude operation is avoided, the installation and debugging efficiency and the engineering progress are improved, and time and labor are saved;

5) the solar electric film rolling device has an equipment state detection reporting function, and when a fault occurs, the control terminal (a mobile phone end or a computer end) can receive alarm information in time, so that fault troubleshooting and processing can be performed at the first time.

By adopting the scheme, the workload of pipe penetrating and wiring, frequent and repeated overtaking operation and the like of the electric film rolling device is saved in the process of building greenhouse facilities, the installation and debugging are convenient, the time and the labor are saved, and the material cost and the labor cost are saved; in the use, wireless remote control can be realized to the electronic film rolling ware of solar energy, adopts the solar energy power supply, does not produce the charges of electricity, practices thrift operation use cost. In addition, the solar electric film rolling device can carry out wireless networking and share the data of other greenhouse Internet of things together with the cloud, so that the solar electric film rolling device has positive influence on promoting the development of facility agriculture and realizing agricultural big data and agricultural modernization.

Drawings

FIG. 1 is an exploded view of the present invention;

FIG. 2 is a control schematic of the present invention;

FIG. 3 is a schematic structural diagram of a compound gear train gear transmission mechanism;

FIG. 4 is a schematic diagram of a fault detection system;

FIG. 5 is a right side view of FIG. 4;

fig. 6 is a schematic diagram of a circuit for limit switch fault detection (the numbers in the figure are pins, and not reference numbers referring to components).

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the present invention will be further described in detail with reference to the accompanying drawings, and it should be understood that the specific embodiments described herein are only for explaining the present invention and are not intended to limit the present invention.

Example 1

Referring to fig. 1 and fig. 2, this embodiment provides an electronic film rolling up ware of solar energy, including rolling up membrane driving motor 1, solar cell panel 2, battery 3, wireless data transmission module 4 and the control unit 5, roll up membrane driving motor 1, solar cell panel 2, battery 3 and wireless data transmission module 4 all link to each other with the control unit 5, solar cell panel 2 is used for receiving solar energy and converts the electric energy storage to battery 3, battery 3 is for rolling up membrane driving motor 1 and the system power supply, control unit 5 passes through wireless data transmission module 4 and the 6 data transmission of host computer, and roll up the action of membrane driving motor 1 according to the control command control that host computer 6 issued.

Referring to the attached figure 3, the film winding driving motor 1 is a 6-8V small-sized direct current motor, an output shaft of the film winding driving motor 1 is in transmission connection with an output shaft 7 of a film winding device through a composite gear train gear transmission mechanism 8, the output shaft 7 of the film winding device is in transmission connection with a film winding shaft for winding and unwinding films of the greenhouse, the transmission ratio of the composite gear train gear transmission mechanism 8 is 1408, and high-rotation-speed and low-torque transmission force output by the film winding driving motor 1 is converted into low-rotation-speed and high-torque transmission force through the composite gear train gear transmission mechanism 8.

In order to realize the large torque output by a small motor, reduce the space of an actuator, obtain a larger transmission ratio, reduce the power consumption of a battery while increasing the output torque, and increase the load capacity of the solar film rolling device, so that the film rolling is more stable and reliable, the composite gear train gear transmission mechanism 8 is designed to comprise a driving wheel 81, a multi-stage fixed shaft gear train 82 and a planetary gear train 83, the driving wheel 81 is fixed on an output shaft of the film rolling driving motor 1, the driving wheel 81 is in transmission connection with the multi-stage fixed shaft gear train 82, an output shaft of the multi-stage fixed shaft gear train 82 is a central shaft 84 of the planetary gear train 83, an output shaft 7 of the film rolling device is fixed on a planet carrier 85 of the planetary gear train 83, and the output shaft 7 of the film rolling device and the central shaft 84 are coaxially arranged.

Referring to fig. 4 and 5, in order to realize automatic and rapid detection and reporting of faults, a fault detection system 9 is further designed, the fault detection system 9 includes an upper detection component 91, a lower detection component 92 and two positioning cam mechanisms 93, the upper detection component 91 and the lower detection component 92 are both contact or proximity sensors, the positioning cam mechanisms 93 are in transmission connection with output shafts of the film winding driving motor 1, the upper detection component 91 and the lower detection component 92 are respectively arranged corresponding to rotating cams 931 of the two positioning cam mechanisms 93, so that the film rolling device drives the film rolling shaft to roll and release the film to reach the set position, the upper detection part 91 and the lower detection part 92 are triggered respectively, the upper detection part 91 and the lower detection part 92 are connected with the control unit 5, the control unit 5 or the upper computer 6 is further connected with a timing module 94, and the upper computer 6 is further connected with an alarm module 95.

When the film winding device needs to be started, the upper computer 6 sends a control signal to the control unit 5 through the wireless transmission module 4, the control unit 5 starts the film winding driving motor 1 to drive the film winding shaft to perform film winding or film unwinding operation, meanwhile, the timing module 94 counts time, when the film winding or film unwinding reaches a limit position within a set time, the convex profiles 9311 of the two rotating cams 931 respectively contact or approach the upper detection part 91 or the lower detection part 92 to trigger the detection parts to send signals to the control unit 5, the control unit 5 uploads the signals to the upper computer 6 through the wireless transmission module 4, if the film winding or film unwinding does not reach the limit position within the set time, the film winding device or related equipment is in fault, at the moment, the upper computer 6 cannot receive the detection signals uploaded by the control unit 5 within the set time, the upper computer 6 controls the alarm module 95 to send an alarm, and the alarm can be a short message, a warning message or a warning message, Voice early warning suggestion etc. indicate operating personnel to break down, host computer 6 can be cell-phone or computer terminal, and the cell-phone can reach the controlling personnel more fast, and efficiency is higher.

Example 2

Referring to fig. 1 and 2, the present embodiment provides an intelligent greenhouse equipped with a solar automatic film rolling machine, the film at the two sides and/or the top of the greenhouse is driven by the electric film rolling device to rotate the film rolling shaft forwards or backwards so as to realize film rolling and film releasing, electronic film reeling device is electronic film reeling device of solar energy, including rolling up membrane driving motor 1, solar cell panel 2, battery 3, wireless data transmission module 4 and the control unit 5, roll up membrane driving motor 1, solar cell panel 2, battery 3 and wireless data transmission module 4 all link to each other with the control unit 5, solar cell panel 2 is used for receiving solar energy and converts the electric energy storage to battery 3, battery 3 is for rolling up membrane driving motor 1 and the system power supply, control unit 5 passes through wireless data transmission module 4 and 6 data transmission of host computer, and the action of rolling up membrane driving motor 1 is controlled according to the control command that host computer 6 issued.

The film rolling driving motor 1 is a 6-8V small-sized direct current motor, an output shaft of the film rolling driving motor 1 is in transmission connection with an output shaft 7 of a film rolling device through a composite gear train gear transmission mechanism 8, the output shaft 7 of the film rolling device is used for being in transmission connection with a film rolling shaft of a greenhouse film rolling and releasing, the transmission ratio of the composite gear train gear transmission mechanism 8 is 1408, and high rotating speed and low torque transmission force output by the film rolling driving motor 1 is converted into low rotating speed and high torque transmission force through the composite gear train gear transmission mechanism 8.

Referring to the attached drawing 3, in order to realize the large torque output by the small motor, reduce the space of the actuator, obtain a larger transmission ratio, reduce the power consumption of the battery while increasing the output torque, and increase the load capacity of the solar film winder, so that the film winding is more stable and reliable, the compound gear train gear transmission mechanism 8 is designed to include a driving wheel 81, a multi-stage fixed-axis gear train 82 and a planetary gear train 83, the driving wheel 81 is fixed on the output shaft of the film winding driving motor 1, the driving wheel 81 is in transmission connection with the multi-stage fixed-axis gear train 82, the output shaft of the multi-stage fixed-axis gear train 82 is the central shaft 84 of the planetary gear train 83, the film winder output shaft 7 is fixed on the planet carrier 85 of the planetary gear train 83, and the film winder output shaft 7 and the central shaft 84 are coaxially arranged.

Referring to fig. 4 and 5, in order to realize automatic and rapid detection and reporting of faults, a fault detection system 9 is further designed, the fault detection system 9 includes an upper detection component 91, a lower detection component 92 and two positioning cam mechanisms 93, the upper detection component 91 and the lower detection component 92 are both contact or proximity sensors, the positioning cam mechanisms 93 are in transmission connection with output shafts of the film winding driving motor 1, the upper detection component 91 and the lower detection component 92 are respectively arranged corresponding to rotating cams 931 of the two positioning cam mechanisms 93, so that the film rolling device drives the film rolling shaft to roll and release the film to reach the set position, the upper detection part 91 and the lower detection part 92 are triggered respectively, the upper detection part 91 and the lower detection part 92 are connected with the control unit 5, the control unit 5 or the upper computer 6 is further connected with a timing module 94, and the upper computer 6 is further connected with an alarm module 95.

When the film winding device needs to be started, the upper computer 6 sends a control signal to the control unit 5 through the wireless transmission module 4, the control unit 5 starts the film winding driving motor 1 to drive the film winding shaft to perform film winding or film unwinding operation, meanwhile, the timing module 94 counts time, when the film winding or film unwinding reaches a limit position within a set time, the convex profiles 9311 of the two rotating cams 931 respectively contact or approach the upper detection part 91 or the lower detection part 92 to trigger the detection parts to send signals to the control unit 5, the control unit 5 uploads the signals to the upper computer 6 through the wireless transmission module 4, if the film winding or film unwinding does not reach the limit position within the set time, the film winding device or related equipment is in fault, at the moment, the upper computer 6 cannot receive the detection signals uploaded by the control unit 5 within the set time, the upper computer 6 controls the alarm module 95 to send an alarm, and the alarm can be a short message, a warning message or a warning message, Voice early warning suggestion etc. indicate operating personnel to break down, host computer 6 can be cell-phone or computer terminal, and the cell-phone can reach the controlling personnel more fast, and efficiency is higher.

Example 3

Referring to fig. 1 and fig. 2, this embodiment provides an electronic film rolling up ware of solar energy, including rolling up membrane driving motor 1, solar cell panel 2, battery 3, wireless data transmission module 4 and the control unit 5, roll up membrane driving motor 1, solar cell panel 2, battery 3 and wireless data transmission module 4 all link to each other with the control unit 5, solar cell panel 2 is used for receiving solar energy and converts the electric energy storage to battery 3, battery 3 is for rolling up membrane driving motor 1 and the system power supply, control unit 5 passes through wireless data transmission module 4 and the 6 data transmission of host computer, and roll up the action of membrane driving motor 1 according to the control command control that host computer 6 issued.

Referring to the attached figure 3, the film winding driving motor 1 is a 6-8V small-sized direct current motor, an output shaft of the film winding driving motor 1 is in transmission connection with an output shaft 7 of a film winding device through a composite gear train gear transmission mechanism 8, the output shaft 7 of the film winding device is in transmission connection with a film winding shaft for winding and unwinding films of the greenhouse, the transmission ratio of the composite gear train gear transmission mechanism 8 is 1408, and high-rotation-speed and low-torque transmission force output by the film winding driving motor 1 is converted into low-rotation-speed and high-torque transmission force through the composite gear train gear transmission mechanism 8.

In order to realize the large torque output by a small motor, reduce the space of an actuator, obtain a larger transmission ratio, reduce the power consumption of a battery while increasing the output torque, and increase the load capacity of the solar film rolling device, so that the film rolling is more stable and reliable, the composite gear train gear transmission mechanism 8 is designed to comprise a driving wheel 81, a multi-stage fixed shaft gear train 82 and a planetary gear train 83, the driving wheel 81 is fixed on an output shaft of the film rolling driving motor 1, the driving wheel 81 is in transmission connection with the multi-stage fixed shaft gear train 82, an output shaft of the multi-stage fixed shaft gear train 82 is a central shaft 84 of the planetary gear train 83, an output shaft 7 of the film rolling device is fixed on a planet carrier 85 of the planetary gear train 83, and the output shaft 7 of the film rolling device and the central shaft 84 are coaxially arranged.

Referring to fig. 4 and 5, in order to implement automatic and rapid detection and reporting of a fault, a fault detection system 9 is further designed, the fault detection system 9 includes an upper detection component 91, a lower detection component 92 and two positioning cam mechanisms 93, the positioning cam mechanisms 93 are in transmission connection with output shafts of the film winding driving motor 1, the upper detection component 91 and the lower detection component 92 are respectively arranged corresponding to rotating cams 931 of the two positioning cam mechanisms 93, so that the film winding device drives a film winding shaft to wind and release a film to reach set positions, the upper detection component 91 and the lower detection component 92 are respectively triggered, the upper detection component 91 and the lower detection component 92 are both connected with the control unit 5, the control unit 5 or the upper computer 6 is further connected with a timing module 94, and the upper computer 6 is further connected with an alarm module 95.

In order to make the detection components operate more stably and not prone to failure, the upper detection component 91 and the lower detection component 92 of the present embodiment use limit switches, the positioning cam mechanism 93 includes a rotating cam 931 and a cam positioning toothed disc 932 coaxially fixed with the rotating cam 931, the cam positioning toothed disc 932 is in transmission connection with an output shaft of the film winding driving motor 1, the upper detection component 91 and the lower detection component 92 respectively include a state detection switch and a motor power-off switch, each rotating cam 931 is provided with two protrusion profiles 9311, and the two protrusion profiles 9311 respectively correspond to the state detection switch and the motor power-off switch;

the cam position-adjusting fluted disc 932 is in transmission connection with the output shaft of the film rolling driving motor 1 through a multi-stage fixed-shaft gear train 82, the position-adjusting cam mechanism 93 further comprises a knob 933 and a rotating shaft 934, an upper fixed plate 10 and a lower fixed plate 11 which are arranged in parallel are further fixed in the film rolling device, the position-adjusting cam mechanism 93 is arranged between the upper fixed plate 10 and the lower fixed plate 11, the knob 933 and the cam position-adjusting fluted disc 932 are respectively fixed at two ends of a rotating cam 931, the cam position-adjusting fluted disc 932 and the rotating cam 931 are rotatably arranged on the rotating shaft 934 and can axially slide along the rotating shaft 934, one end of the rotating shaft 934 is fixed on the lower fixed plate 11, the outer end of the knob 933 extends out through a knob hole on the upper fixed plate 10, a spring 935 is sleeved on the rotating shaft 934, the spring 935 is arranged between the cam position-adjusting fluted disc 932 and the lower fixed plate 11 in a pressing manner, and the cam position-adjusting fluted disc 932 can be disengaged from gears of the multi-stage fixed-shaft gear train 82 by pressing the knob 933, and then the knob 933 is rotated to adjust the angle of the rotating cam 931 and then reset, thereby realizing the purpose of adjusting and limiting.

Referring to fig. 1, in order to ensure the sealing performance of the film rolling device and prevent rainwater or water vapor from entering and damaging internal electrical components, the structure of the film rolling device shell 12 is designed as follows: the film rolling device shell 12 is a sealed shell formed by buckling an upper shell 121 and a lower shell 122, a sealing ring 123 is arranged between the upper shell 121 and the lower shell 122 in a padding mode, an operation panel 1211 and a limiting adjustment panel 1212 are arranged on the outer surface of the upper shell 121, an operation key covered with a waterproof film is arranged on the operation panel 1211, the operation panel 1211 is also connected with a circuit board of the control unit 5, the operation panel 1211 can send a control signal to the control unit 5 to control the action of the film rolling driving motor 1, namely, manual operation and control are realized at the equipment end of the film rolling device, debugging work is convenient during installation or overhaul, a knob hole is formed in the limiting adjustment panel 1212, a knob 933 is arranged in the film rolling device shell 12, one end of the knob 933 extends to the outer side of the film rolling device shell 12 through the knob hole, a sealing rubber ring 1213 is arranged between the knob 933 and the knob hole, and a film rolling device output shaft 7 is led out through a shaft hole 1221 on the lower shell 122, and an oil seal 1222 is arranged between the film rolling device output shaft 7 and the shaft hole 1221, the oil seal 1222 is a TC-type framework oil seal, and a waterproof vent valve 124 is arranged on the upper casing 121 or the lower casing 122.

The upper cover of the limiting adjusting panel 1212 is provided with a waterproof cover 1214, the waterproof cover 1214 is of a hinged type upper flip structure, the hinged shaft is arranged on the upper side of the waterproof cover 1214, the limiting adjusting panel 1212 comprises a dial scale and a transparent cover 12121 which are arranged in a fitting manner, a sealing groove is arranged between the dial scale and the transparent cover 12121, the dial scale and the upper fixing plate 10 are the same plate, the upper shell 121 at the position of the limiting adjusting panel 1212 is provided with a panel hole, the transparent cover 12121 is covered at the panel hole and is fixed with the outer edge of the panel hole in a sealing manner, a bolt is fixed and connected with the panel hole in a bonding manner or a sealing rubber ring is additionally arranged to ensure the sealing property, the annular convex rib 12122 is fixed at the position of the knob hole along the circumferential direction, the sealing rubber ring 1213 is fixed at the inner side of the annular convex rib 12122 along the circumferential direction, the sealing structure can maintain the balance of the inner pressure and the outer pressure of the film winder while ensuring the sealing property, and further avoid the possibility of damage of the sealing structure, provide waterproof foundation for the solar electric film rolling device.

The upper detection block 91 in fig. 4 is formed by overlapping SW1 and SW3B in fig. 6, SW1 is located on the upper side of SW3B to perform a state detection function, SW3B performs a motor current cutoff function, the lower detection block 92 in fig. 4 is formed by overlapping SW2 and SW3A in fig. 6, SW2 is located on the upper side of SW3A to perform a state detection function, and SW3A performs a motor current cutoff function. The specific working principle is as follows:

as shown in fig. 6, HF2315F motor drive chip (control unit 5), M represents a dc motor (roll film drive motor 1), UOT1 represents a positive electrode, and UOT2 represents a negative electrode. When the single chip microcomputer pin OPEN-D0 outputs high level, pin 1 of HF2315F motor driving chip receives high level signal, so that UOT1 outputs positive voltage, UOT2 outputs negative voltage, current passes through 1-2 of SW3A, after passing through DC motor M, it returns to UOT2 through 5-4 of SW3B, the motor drives gear mechanism to rotate, the single chip microcomputer timer starts to work, when the cam reaches upper limit, 5-4 of SW3B is disconnected, diode D6 cuts off current in reverse phase, the whole circuit state is OPEN, two ends of motor are powered off, stop rotating, at this time, if SW2 is closed by cam impact in preset range of timer, LED D2 emits red light, OPEN-JC pin of single chip microcomputer detects that level is pulled down, it is judged that the device works normally, if SW2 is not closed by cam impact in preset range of timer, if the OPEN-JC pin of the single chip microcomputer does not detect that the level is pulled down, the single chip microcomputer can actively report the equipment fault and timely inform the farmer of the equipment fault, and the equipment fault needs to be overhauled and checked. The logic for reverse turning off of the motor is consistent with the above logic and vice versa.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an electronic film reeling device of solar energy which characterized in that: the film winding device comprises a film winding driving motor (1), a solar cell panel (2), a storage battery (3), a wireless data transmission module (4) and a control unit (5), wherein the film winding driving motor (1), the solar cell panel (2), the storage battery (3) and the wireless data transmission module (4) are all connected with the control unit (5);

the output shaft of the film rolling driving motor (1) is used for being in transmission connection with a film rolling shaft of the greenhouse film rolling and releasing;

the solar panel (2) is used for receiving solar energy, converting the solar energy into electric energy and storing the electric energy in the storage battery (3);

the storage battery (3) supplies power for the film winding driving motor (1) and a system;

the control unit (5) is in data transmission with the upper computer (6) through the wireless data transmission module (4) and controls the action of the film rolling driving motor (1) according to a control command issued by the upper computer (6).

2. The solar electric film winder according to claim 1, wherein: still including rolling up membrane ware output shaft (7), it is 6-8V's small-size direct current motor to roll up membrane driving motor (1), and the output shaft that rolls up membrane driving motor (1) is connected with rolling up membrane ware output shaft (7) transmission through compound train gear drive (8), rolls up membrane ware output shaft (7) and is used for being connected with the membrane axle transmission of rolling up of big-arch shelter receipts and releasing membrane, and the drive ratio more than or equal to 500 of compound train gear drive (8).

3. The solar electric film winder according to claim 2, wherein: compound gear train gear drive (8) are including action wheel (81), multistage ordinary gear train (82) and planetary gear train (83), and action wheel (81) are fixed in on the output shaft of rolling up membrane driving motor (1), and action wheel (81) are connected with multistage ordinary gear train (82) transmission, and the output shaft of multistage ordinary gear train (82) is center pin (84) of planetary gear train (83), roll up membrane ware output shaft (7) and be fixed in on planet carrier (85) of planetary gear train (83), and roll up membrane ware output shaft (7) and center pin (84) coaxial arrangement.

4. The solar electric film winder according to claim 1, wherein: the film rolling device is characterized by further comprising a fault detection system (9), the fault detection system (9) comprises an upper detection component (91), a lower detection component (92) and two position adjusting cam mechanisms (93), the position adjusting cam mechanisms (93) are in transmission connection with output shafts of the film rolling driving motors (1), the upper detection component (91) and the lower detection component (92) are respectively arranged corresponding to rotating cams (931) of the two position adjusting cam mechanisms (93), so that the film rolling device drives a film rolling shaft to take up and release a film to reach a set position and respectively trigger the upper detection component (91) and the lower detection component (92), the upper detection component (91) and the lower detection component (92) are connected with the control unit (5), the control unit (5) or the upper computer (6) is further connected with a timing module (94), and the upper computer (6) is further connected with an alarm module (95).

5. The solar electric film winder according to claim 4, wherein: the upper detection member (91) and the lower detection member (92) are both contact or proximity sensors.

6. The solar electric film winder according to claim 4, wherein: it is limit switch to go up detection part (91) and lower detection part (92), positioning cam mechanism (93) including rotate cam (931) and with rotation cam (931) coaxial fixation's cam positioning fluted disc (932), cam positioning fluted disc (932) all with the output shaft transmission connection of rolling up membrane driving motor (1), it includes state detection switch and motor power off switch respectively to go up detection part (91) and lower detection part (92) equally divide, and is provided with two protruding profiles (9311) on every rotation cam (931) respectively, and two protruding profiles (9311) correspond trigger state detection switch and motor power off switch respectively.

7. The solar electric film winder according to claim 6, wherein: the cam position adjusting fluted disc (932) is in transmission connection with an output shaft of a film rolling driving motor (1) through a multi-stage dead axle gear train (82), the position adjusting cam mechanism (93) further comprises a knob (933) and a rotating shaft (934), an upper fixing plate (10) and a lower fixing plate (11) which are arranged in parallel are further fixed in the film rolling device, the position adjusting cam mechanism (93) is arranged between the upper fixing plate (10) and the lower fixing plate (11), the knob (933) and the cam position adjusting fluted disc (932) are respectively fixed at two ends of a rotating cam (931), the cam position adjusting fluted disc (932) and the rotating cam (931) are rotatably arranged on the rotating shaft (934) and can axially slide along the rotating shaft (934), one end of the rotating shaft (934) is fixed on the lower fixing plate (11), the outer end of the knob (933) extends out through a knob hole in the upper fixing plate (10), and a spring (935) is sleeved on the rotating shaft (934), and the spring (935) is pressed between the cam position-adjusting fluted disc (932) and the lower fixed plate (11).

8. The solar electric film winder according to claim 1, wherein: the film rolling device is characterized by further comprising a film rolling device shell (12), the film rolling device shell (12) is a sealed shell formed by buckling an upper shell (121) and a lower shell (122), a sealing ring (123) is arranged between the upper shell (121) and the lower shell (122), an operation panel (1211) and a limiting adjusting panel (1212) are arranged on the outer surface of the upper shell (121), an operation key covered with a waterproof film is arranged on the operation panel (1211), a knob hole is formed in the limiting adjusting panel (1212), a knob (933) is arranged in the film rolling device shell (12), one end of the knob (933) extends to the outer side of the film rolling device shell (12) through the knob hole, a sealing rubber ring (1213) is arranged between the knob (933) and the knob hole, a film rolling device output shaft (7) is led out through a shaft hole (1221) in the lower shell (122), and an oil seal (1222) is further arranged between the film rolling device output shaft (7) and the shaft hole (1221), the upper shell (121) and/or the lower shell (122) are/is also provided with a waterproof ventilation valve (124).

9. The utility model provides an equip intelligent big-arch shelter of automatic film reeling ware of solar energy which characterized in that: the two sides and/or the top of the greenhouse are/is driven by an electric film rolling device to rotate forward or backward to realize film rolling and film releasing, and the electric film rolling device is the solar electric film rolling device in any one of claims 1 to 8.

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