CN213092186U

CN213092186U - Intelligent greenhouse control system based on mobile phone visual remote control

Info

Publication number: CN213092186U
Application number: CN202022292813.6U
Authority: CN
Inventors: 牟玉明; 牟婷婷; 牟家乐
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-10-15
Filing date: 2020-10-15
Publication date: 2021-04-30
Anticipated expiration: 2030-10-15

Abstract

The utility model provides an intelligent warmhouse booth control system based on visual remote control of cell-phone, this control system includes: the greenhouse comprises a control box hung on the side wall of the greenhouse, a heat preservation device positioned at the top of the greenhouse and a ventilation window arranged at the top of the greenhouse; the heat preservation device and the ventilation system are controlled by the control box, the network converter is further arranged in the control box, the network converter can receive wireless signals sent by the mobile phone and convert the wireless signals into electric signals, and the heat preservation device and the ventilation system are mainly used for remotely controlling various devices on the greenhouse.

Description

Intelligent greenhouse control system based on mobile phone visual remote control

Technical Field

The utility model relates to an intelligent warmhouse booth control system especially relates to an intelligent warmhouse booth control system based on visual remote control of cell-phone.

Background

The automatic greenhouse environment control in China is still in the starting stage. The modern mechanical agriculture of China starts late, and although the innovation is developed rapidly, a certain gap is left between China and developed countries. In the last century, China introduced relevant technologies of highly developed countries in the field, although playing a certain role, the introduction of other technologies inevitably brings many factors such as high operation cost, difficult maintenance, inconsistency of system parameters with the climate characteristics of China and the like.

With the continuous development of network technology and smart phones, the environment control system of the greenhouse with independent intellectual property rights is gradually and successfully developed in China, the existing manual control system of the greenhouse is not mature enough, the standardization, modularization and universalization of products are not ideal enough, and the cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the problem that exists among the prior art, provided an intelligent warmhouse booth control system based on the visual remote control of cell-phone.

The control system includes: the greenhouse comprises a control box hung on the side wall of the greenhouse, a heat preservation device positioned at the top of the greenhouse and a ventilation window arranged at the top of the greenhouse; wherein, heat preservation device and air exchange system are controlled by the control box, still are equipped with the network converter in the control box, and the network converter can accept the cell-phone and send wireless signal to convert wireless signal into the signal of telecommunication.

Further, the heat retaining device includes: wrapping up the winding at epaxial heat preservation cotton-wadded quilt, drive spool pivoted driving motor, the limit stop of heat preservation cotton-wadded quilt lower extreme installation, the pressure touch relay of warmhouse booth bottom installation, when needing to keep warm, the motor puts down the cotton-wadded quilt, and the limit stop of cotton-wadded quilt lower part slides down along the big-arch shelter arc surface, when the landing touches pressure touch relay to the bottom, explains that the heat preservation cotton-wadded quilt has covered the big-arch shelter comprehensively, and the power off of pressure touch relay this moment, driving motor stall.

Further, the width of the heat preservation quilt is equal to the width of the greenhouse.

Furthermore, a supporting framework is further arranged on the surface of the arc lighting area of the greenhouse, the upper surface of the supporting framework is used for supporting the heat preservation cotton quilt, and the lower surface of the supporting framework is used for fixing the transparent film.

Furthermore, the fixed transparent film is provided with air exchange windows which are arranged side by side, and the opening and closing of the air exchange windows are controlled by driving the air exchange film roll to rotate by an air exchange motor arranged on one side of the greenhouse.

Furthermore, the greenhouse is also provided with a camera for observing the folding and unfolding conditions of the heat-preservation cotton quilt outside, the camera is connected with the control box through a signal line, and the camera can receive an electric signal sent by the network converter to control the running state of the camera.

Furthermore, at least two temperature and humidity sensors connected with the control box are arranged in the greenhouse, and the temperature and humidity sensors are arranged at positions capable of representing the average temperature and humidity in the greenhouse.

Furthermore, the top of the greenhouse is at least provided with a rainfall sensor connected with the control box, and the opening of the ventilation window of the air opening in the rainy days is controlled to be closed and opened by rain.

The technical effects of the utility model reside in that: the system has the greatest advantages that firstly, the camera is utilized to monitor the whole system, particularly the running condition of the heat preservation device, so that an operator can observe the state of the greenhouse in any place capable of receiving wireless signals when remotely using the mobile phone, and can send instructions to the control box through the mobile phone to control the ventilation window, so that the heat preservation device works safely and safely, and when observing that the equipment has problems, the system can be immediately operated on the mobile phone to stop the equipment from running. Secondly, the whole system is built by adopting a mature module, so that the user expenditure cost is low, the burden is small, the installation is simple, and the maintenance is convenient.

Drawings

FIG. 1 is a front view of the greenhouse control system of the present invention;

FIG. 2 is an isometric view of the greenhouse control system of the present invention;

FIG. 3 is a sectional view of the greenhouse control system of the present invention;

in the figure, 1, a greenhouse, 2, a control box, 4, a mobile phone, 5, a heat preservation device, 6, a limit stop, 7, a temperature and humidity sensor, 8, a camera, 9, a press-contact relay, 11, a transparent film, 12, a support framework, 13, a ventilation window, 14, a ventilation film roll, 15, a ventilation motor, 16, a rainfall sensor, 21, a network converter, 51, a scroll, 53, a heat preservation quilt and 54, a driving motor are arranged.

Detailed Description

The following describes embodiments of the present invention with reference to fig. 1 to 3.

Fig. 1 illustrates a structure of a side surface of a greenhouse, and the control system comprises: the greenhouse comprises a control box 2 hung on the side wall of a greenhouse 1, a heat preservation device 5 positioned at the top of the greenhouse 1, and a ventilation window 13 arranged above the greenhouse 1; wherein, heat preservation device 5 and air exchange system 3 are controlled by control box 2, still are equipped with network converter 21 in the control box 2, and network converter 21 can accept cell-phone 4 and send wireless signal to convert wireless signal into the signal of telecommunication.

The greenhouse 1 is characterized in that a camera 8 for observing the folding and unfolding conditions of the heat-preservation cotton quilt 53 is further arranged outside the greenhouse 1, the camera 8 is connected with the control box 2 through a signal line, and the camera 8 can also control the running state of the greenhouse by receiving an electric signal sent by the network converter 21.

Fig. 2 illustrates the overall layout and top structure of the greenhouse, and the heat preservation device 5 includes: the greenhouse comprises a heat insulation quilt 53 wrapped and wound on a reel 51, a driving motor 54 for driving the reel 51 to rotate, a limit stop 6 arranged at the lower end of the heat insulation quilt 53, and a pressure contact type relay 9 arranged at the bottom of the greenhouse 1, wherein the width of the heat insulation quilt 53 is equal to that of the greenhouse 1. The surface of the arc lighting area of the greenhouse 1 is also provided with a support framework 12, the upper surface of the support framework 12 is used for supporting the heat preservation cotton quilt 53, and the lower surface of the support framework 12 is used for fixing the transparent film 11; the fixed transparent film 11 is provided with air exchange windows 13 arranged side by side, and the opening and closing of the air exchange windows 13 are controlled by driving an air exchange film roll 14 to rotate by an air exchange motor 15 arranged on one side of the greenhouse 1.

Fig. 3 illustrates the structure inside the greenhouse, and at least two temperature and humidity sensors 7 connected with the control box 2 are arranged in the greenhouse 1.

The working principle is as follows: the top of the greenhouse 1 is provided with a heat preservation device 5, the upper part is provided with a replacement air window 13, and the side surface is hung with a control box 2. The scroll 51 of the top heat preservation device 5 is used for releasing or rolling up the heat preservation quilt 53, under the condition that the temperature in the greenhouse 1 is low, the driving motor 54 drives the scroll 51 to rotate, so that the scroll 51 releases the heat preservation quilt 53, and because the surface for laying the quilt is a circular arc curved surface extending downwards, the quilt slides downwards along the circular arc curved surface due to the self-weight effect in the process of releasing the heat preservation quilt 53.

The front surface of the greenhouse 1 is provided with the camera 8, the lens of the camera 8 is aligned to the arc lighting area of the greenhouse 1, the state of the lighting area can be observed constantly, at least two temperature and humidity sensors 7 are arranged on the roof inside the greenhouse 1, the signal lines of the temperature and humidity sensors 7 are led out from the control box 2, the top of the greenhouse 1 is provided with a rainfall sensor 16, the fixed transparent film 11 is provided with the ventilation windows 13 side by side, the ventilation windows 13 are opened and closed by the ventilation motor 15 arranged on one side of the greenhouse 1 to drive the ventilation film roll 14 to rotate to be controlled, and the ventilation windows 13 can be controlled to be opened and closed according to whether the rainfall sensor 16 detects that the greenhouse is in rainy days.

Inside network converter 21 that is equipped with of control box 2, network converter 21 can be with temperature and humidity sensor 7, and in the APP on signal pass through wireless network transmission to cell-phone 4 that camera 8 received, operation cell-phone 4 can send wireless signal back to network converter 21 again, and network converter 21 converts the instruction signal who receives into control signal again to control air exchange system 3, heat preservation device 5 work.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the embodiments of the present invention.

Claims

1. The utility model provides an intelligent warmhouse booth control system based on visual remote control of cell-phone which characterized in that, this control system includes: the greenhouse comprises a control box (2) hung on the side wall of a greenhouse (1), a heat preservation device (5) positioned at the top of the greenhouse (1), and a ventilation window (13) arranged at the top of the greenhouse (1);

wherein, heat preservation device (5) and air exchange system (3) are controlled by control box (2), still are equipped with network converter (21) in control box (2), and network converter (21) can accept cell-phone (4) and send wireless signal to convert wireless signal into the signal of telecommunication.

2. The intelligent greenhouse control system based on mobile phone visual remote control as claimed in claim 1, wherein the heat preservation device (5) comprises: the heat preservation cotton quilt (53) wound on the reel (51) is wrapped, the reel (51) is driven to rotate, the driving motor (54) is driven to rotate, the limit stop (6) is arranged at the lower end of the heat preservation cotton quilt (53), and the pressure contact type relay (9) is arranged at the bottom of the greenhouse (1).

3. The intelligent greenhouse control system based on the mobile phone visual remote control as claimed in claim 2, wherein the width of the heat preservation quilt (53) is equal to the width of the greenhouse (1).

4. The intelligent greenhouse control system based on the mobile phone visual remote control as claimed in claim 2, wherein a supporting framework (12) is further arranged on the surface of the arc lighting area of the greenhouse (1), the upper surface of the supporting framework (12) is used for supporting the heat preservation quilts (53), and the lower surface of the supporting framework (12) is used for fixing the transparent film (11).

5. The intelligent greenhouse control system based on the mobile phone visual remote control as claimed in claim 4, wherein the fixed transparent film (11) is provided with ventilation windows (13) arranged side by side, and the opening and closing of the ventilation windows (13) are controlled by driving a ventilation film roll (14) to rotate by a ventilation motor (15) installed on one side of the greenhouse (1).

6. The intelligent greenhouse control system based on the mobile phone visual remote control as claimed in claim 2, wherein a camera (8) for observing the folding and unfolding conditions of the heat preservation quilt (53) is further arranged outside the greenhouse (1), the camera (8) is connected with the control box (2) through a signal line, and the camera (8) can also receive an electric signal sent by the network converter (21) to control the operation state of the greenhouse.

7. The intelligent greenhouse control system based on the mobile phone visual remote control as claimed in claim 1, wherein at least two temperature and humidity sensors (7) connected with the control box (2) are arranged in the greenhouse (1).

8. The intelligent greenhouse control system based on mobile phone visual remote control as claimed in claim 5, wherein the top of the greenhouse (1) is provided with at least one rainfall sensor (16) connected with the control box (2).