KR101053561B1 - Greenhouse controlling a tilt angle of the roof - Google Patents

Abstract

PURPOSE: A greenhouse structure is provided to automatically change the inclination angle of a roof by detecting the external load applied to the structure. CONSTITUTION: A greenhouse structure comprises the following: a roof plate(100) with one side rotatably connected to the upper side of side walls, and the other side facing the center of the greenhouse structure; a cover unit located on the upper side of the roof plate; a supporter(30) for supporting the lower side of the cover unit, operated in the upward and downward motion by a driver; and a support bar(74) fixed to the supporter for supporting the lower side of the roof plate and for sliding from the roof plate for adjusting the inclination angle of the roof plate.

Description

Greenhouse controlling a Tilt Angle of the Roof}

The present invention relates to a greenhouse structure capable of changing the roof inclination angle, specifically, by changing the roof inclination angle of the greenhouse according to external weather conditions or other needs, to prevent disasters caused by weather conditions, and to reduce the load caused by the external environment. The present invention relates to a greenhouse structure.

In general, the greenhouse 10, which is a greenhouse structure used in farmland, was installed after covering the skeleton with an integral vinyl as shown in FIG. However, when vinyl is used as a material for the greenhouse structure, it is advantageous for initial construction, but there is a problem in that maintenance and repair are inconvenient and durability is weak.

Specifically, since the vinyl is easily torn due to strong winds or heavy rains, the greenhouses do not function as the weather conditions, and the growing crops inside the greenhouse structures are damaged. In order to solve these problems, building structures with the design strength of disaster prevention facilities are required, and more and more greenhouse structures are being built using glass instead of vinyl materials. Glass is a transparent material such as vinyl, which can increase the transmittance of sunlight and is significantly less likely to be damaged due to strong winds or heavy rain.

However, even in the case of the glass material, it is often broken in the weather such as heavy snow without breaking the load, there is a fear that durability problems due to the internal and external temperature difference. In addition, since the glass material has a considerable self weight compared to the vinyl material, it is inevitably vulnerable to external load.

In particular, the strength of the snow load is a criterion required for greenhouse structures, and a method of applying vibration to the roof is mainly used to remove snow accumulated on the roof of the greenhouse structure, but in the case of vinyl material, it is also torn by vibration for snow removal. If the glass material is easy to break.

The present invention is to solve the problems described above, it is an object of the present invention to provide a greenhouse structure that can withstand heavy snow using a durable and light material.

In addition, an object of the present invention is to change the roof shape of the structure during the wind or rainfall, thereby actively reducing the external load due to the weather.

In particular, an object of the present invention is to detect the external load applied to the structure even when the manager is absent, to automatically change the roof slope.

The present invention to solve the above problems is a pair of side walls facing each other; A pair of roof plates, one end of which is rotatably connected to an upper end of the sidewall, and the other end of which is disposed to face each other toward a central portion of the greenhouse structure; A cover part disposed on an upper portion of the roof plate at an upper surface of a central portion of the greenhouse structure in which the pair of roof plates face each other; A support for supporting a lower surface of the cover part and capable of vertical movement by a driving device; A pair of support bars fixed to the support and supporting the lower surface of the roof plate to be slidable; Including, the support bar fixed to the support in accordance with the up and down movement of the support by sliding the lower surface of the roof plate, thereby providing a greenhouse structure capable of adjusting the roof tilt angle, characterized in that for adjusting the inclination angle of the roof plate. do.

Here, the support is characterized in that to move the support up and down by adjusting the height in accordance with the operation of the hydraulic cylinder.

In addition, the support is made of a lower appearance and the upper inner tube, the lower end of the support bar is coupled to the side of the lower appearance, the upper inner tube is characterized in that it can be stretched up and down by an auxiliary hydraulic cylinder connected to the upper inner tube.

In addition, the present invention is a rack is formed on the bottom surface of the roof plate in the vertical direction of the roof plate, the upper end of the support bar is provided with a pinion rotatable in engagement with the rack, the pinion when the support bar is raised rack The gap between the roof plates is increased by moving upward along the upper side, and when the support bar descends, the pinion moves downward along the rack to narrow the gap between the opposed roof plates.

And the present invention is a controller module for transmitting a control command signal to control the inclination angle adjustment of the roof plate; A main controller configured to control the inclination angle of the roof plate by receiving the control command signal; An LCD monitor for outputting information transmitted and received from the main controller; The transmitted and received information is a communication module for communicating wirelessly; It provides a greenhouse structure capable of adjusting the roof tilt angle further comprising a.

According to the present invention, it is possible to reduce the influence of the external load generated due to weather conditions such as snow loading or wind load on the structure of the greenhouse structure.

In addition, by using a lightweight and durable material can provide a greenhouse structure that is not unreasonable to the safety of the structure according to the change in the inclination angle of the roof.

In addition, the present invention has the advantage that the real-time control is possible by automatically changing the inclination angle of the roof according to the detected external load even in the absence of a manager.

1 is a perspective view showing a greenhouse structure using a conventional vinyl material.
2 is a perspective view showing a greenhouse structure of the present invention.
3A and 3B are structural views showing a side view and a structure of a frame, respectively, showing an embodiment of changing a roof inclination angle in a greenhouse structure of the present invention.
Figures 4a and 4b is a structural view showing the structure of the side view and the frame showing another embodiment of changing the roof inclination angle in the greenhouse structure of the present invention, respectively.
5 and 6 are configuration diagrams of a control system for controlling the roof inclination angle of the greenhouse structure according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings and preferred embodiments.

2 is a perspective view showing a greenhouse structure of the present invention.

As shown, the greenhouse structure of the present invention includes a pair of side walls 12 facing each other; A pair of roof plates 100 and 102 one end of which is rotatably connected to an upper end of the side wall 12 and the other end of which is disposed to face each other toward a central portion of the greenhouse structure; A cover portion 101 disposed above the roof plates 100 and 102 on an upper surface of a central portion of the greenhouse structure in which the pair of roof plates 100 and 102 face each other; And a control unit.

Specifically, the pair of roof plates (100, 102) are disposed to have an inclination angle in a symmetrical shape with respect to the longitudinal center of the greenhouse structure, the cover portion 101 is a roof plate (100, 102) It is disposed on the top of the roof plate (100, 102) to cover the other end of the.

In the present invention, the side wall 12, roof plates 100 and 102, and the cover 101 constituting the greenhouse structure may be made of polycarbonate. Polycarbonate generally refers to a polyester having a carbonate bond formed by a condensation reaction between a divalent hydroxy compound and carbonic acid, and is abbreviated as PC. Polycarbonate has excellent mechanical strength and electrical insulation, is transparent, and has a high softening temperature of 140 to 150 ° C. In general, the strength is known to be 250 times that of plate glass and 30 times that of acrylic. The impact strength is excellent, and there is no risk of breakage even if a strong impact is applied at minus 40 ° C. In addition, having a weight of about half of the glass is easy to transport and construction, and can reduce the burden of the weight on the structure.

In addition, glass or a thermoplastic resin may be used as the material of the side walls 12 and the roof plates 100 and 102. The glass may be a multilayer glass in which a metal space and a special seal are located between a pair of glass plates, or a laminated glass or a reinforced glass in which a polyvinyl butylene film is positioned between a pair of glass facing each other. In addition, the thermoplastic resin may be a light and excellent polyethylene resin, vinyl chloride resin, acrylic resin and the like, in addition to the fiber-reinforced plastic (FRP), hard vinyl chloride resin and the like.

Figures 3a and 3b is a structural view showing the structure of the side view and the frame showing an embodiment for changing the roof inclination angle in the greenhouse structure of the present invention, respectively, Figures 4a and 4b are respectively changing the roof inclination angle in the greenhouse structure of the present invention Side view showing another embodiment to make and structural diagram showing the structure of the frame.

As shown in Figure 3a, the greenhouse structure of the present invention is a rack 72 is formed on the lower surface of the roof plate (100, 102) in the vertical direction of the roof plate (100, 102), the support bar 74 A pinion 73 rotatably engaged with the rack 72 is provided at an upper end thereof, so that the pinion 73 moves upward along the rack 72 to face the roof plate when the support bar 74 is raised. The interval between the 100 and 102 is widened, and when the support bar 74 descends, the pinion 73 moves downward along the rack 72 to narrow the gap between the opposing roof plates 100 and 102. It is done.
That is, when the support bar 74 fixed to the support 30 rises as the support 30 rises, the pinion 73 moves upward along the rack 72 to face the roof plates 100 and 102. The gap between them widens. On the contrary, when the support bar 74 fixed to the support 30 descends as the support 30 descends, the pinion 73 moves downward along the rack 72 to face the roof plates 100 and 102. The gap between them narrows.

And in the present invention, the support 30 is characterized in that the support 30 is moved up and down by adjusting the height according to the operation of the hydraulic cylinder (33).

The support 30 is disposed in a plurality of spaced apart at regular intervals along the longitudinal direction of the greenhouse structure, it is stretchable in the longitudinal direction.

The upper end of the support 30 supports the lower end of the cover 101, a pair of support bar 74 is installed in the cantilever shape on the upper side of the support 30, the upper end of the support bar 74 It is arranged to contact the bottom of the roof plate (100, 102).

Therefore, as shown on the right side of FIG. 3A, when the support 30 is extended while moving upward by the driving of the hydraulic cylinder 33, the cover portion 101 disposed on the upper end of the support 30 moves upward. At the same time as moving, the upper end of the support bar 74 is moved upward to push the end of the roof plate (100, 102) up.

At this time, the roof plate (100, 102) is connected to the side wall 12 and the hinge, while changing the inclination angle while rotating the rotation around the hinge with the upper movement of the support bar (74).

Therefore, by increasing the height of the roof plate (100, 102) by increasing the inclination angle of the roof plate (100, 102), it is possible to reduce the load burden due to sublingual load by removing the snow accumulated on the roof plate (100, 102). have.

On the other hand, the upper end of the roof plate (100, 102) is located in the lower portion of the cover portion 101 before the hydraulic cylinder 33 is driven, the cover portion 101 while the inclination angle of the roof plate (100, 102) is changed It may be beyond the lower region of.

To this end, the present invention is configured to the support 30, the lower appearance and the upper inner tube, the lower end of the support bar 74 is coupled to the side of the lower appearance, the upper inner tube is an auxiliary hydraulic cylinder connected to the upper inner tube ( By 36) configured to be stretchable up and down, the height of the upper inner tube of the support 30 can be adjusted separately.

Although not shown, end portions of the roof plates 100 and 102 may rotate to an angle outside the width of the cover portion 101. In this case, a space between the lower end of the cover part 101 and the upper ends of the roof plates 100 and 102 may be opened.

In the present invention, the support bar 74 slides with the lower surfaces of the roof plates 100 and 102 to adjust the inclination angles of the roof plates 100 and 102.

To this end, the present invention, as can be seen in the enlarged view of the drawing shown on the left side of Figure 3b, the rack 72 in the vertical direction of the roof plate (100, 102) on the lower surface of the roof plate (100, 102) And a pinion 73 rotatably engaged with the rack 72 at an upper end of the support bar 74, so that the pinion 73 is raised when the support bar 74 is raised. The gap between the roof plates 100 and 102 facing the upper part is increased along the upper side, and when the support bar 74 descends, the pinion 73 moves downward along the rack 72 to face the roof plate ( By configuring the interval between the 100, 102 to be narrowed, it is possible to adjust the inclination angle of the roof plate (100, 102).

In addition, as shown in the right side of Figure 4a, by reducing the inclination angle of the roof plates (100, 102) can be lowered the height of the roof plates (100, 102).

As the support bar 74 moves downward, the roof plates 100 and 102 are disposed in the horizontal direction. Therefore, when a strong wind occurs, by lowering the resistance to wind, it is possible to solve the safety problem of the structure due to the wind load.

In this case, by driving the auxiliary hydraulic cylinder 36 to adjust the height of the cover portion 101 so that the lower end of the cover portion 101 in contact with the top of the roof plate (100, 102), and the cover portion 101 The space between the roof plates 100 and 102 can be prevented from opening.

5 and 6 are configuration diagrams of a control system for controlling the roof inclination angle of the greenhouse structure according to the present invention.

The present invention includes a controller module 300 for transmitting a control command signal to control the inclination angle adjustment of the roof plate (100, 102); A main controller 400 for controlling the inclination angle of the roof plates 100 and 102 by receiving the control command signal; An LCD monitor 201 for outputting information transmitted and received by the main controller 400; The transmitted and received information is a communication module for communicating wirelessly; Characterized in that further comprises.

The control system starts operation by supplying power from the power supply unit 200, and the transceiver module 202 is located between the controller module 300 and the main controller 400 to transmit and receive signals between them.

In addition, a pressure sensor 41 is installed on upper surfaces of the roof plates 100 and 102, and a wind speed sensor 11 is installed on the upper surface of the cover part 101 to detect loads and wind speeds according to snowfall. Can be.

Greenhouse structure capable of adjusting the tilt angle of the roof, characterized in that for transmitting the detection result of the pressure sensor (41) or the wind speed generator (11) to the main controller (400) by Zigbee communication.

The main controller 400 outputs the detected value to an output device such as an LCD monitor 201 on a screen, and operates the controller module 300 according to a user input value to operate the hydraulic cylinder 33 or the hydraulic cylinder 33. ) And the auxiliary hydraulic cylinder 36. At this time, the main controller 400 is set to a threshold value, and if the result value detected from the pressure sensor 41 and the wind speed generator 11 exceeds the threshold value, even if there is no user input, the controller module ( 300) may be set to operate. In particular, it is preferable to change the roof inclination angle of the greenhouse structure in real time by setting the operation of the controller module 300 step by step even if not a specific threshold value.

The control system is provided with a separate program control unit 204 for controlling the program of the main controller 400, the administrator can of course drive the control system through a separate manager terminal 401.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the claims of the present invention include modifications and variations that fall within the true scope of the invention.

10: vinyl house 11: wind
12: side wall 30: support
33: hydraulic cylinder 36: auxiliary hydraulic cylinder
41: pressure sensor 72: rack
73: pinion 74: support bar
100, 102: roof plate 101: cover part
200: power supply 201: LCD monitor
202: transceiver 204: program controller
300: controller module 400: main controller
401: manager terminal

Claims (7)

A pair of side walls 12 facing each other;
A pair of roof plates 100 and 102 one end of which is rotatably connected to an upper end of the side wall 12 and the other end of which is disposed to face each other toward a central portion of the greenhouse structure;
A cover portion 101 disposed above the roof plates 100 and 102 on an upper surface of a central portion of the greenhouse structure in which the pair of roof plates 100 and 102 face each other;
A support 30 supporting the lower surface of the cover portion 101 and capable of vertical movement by a driving device;
A pair of support bars 74 fixedly installed at the support 30 to support lower surfaces of the roof plates 100 and 102 so as to be slidable; Including,
The support bar 74 fixed to the support 30 according to the vertical movement of the support 30 slides with the lower surfaces of the roof plates 100 and 102, thereby inclining angles of the roof plates 100 and 102. Greenhouse structure is adjustable roof inclination angle adjustable.
The method of claim 1,
The support 30 is a greenhouse structure capable of adjusting the tilt angle of the roof, characterized in that for moving the support (30) up and down by adjusting the height according to the operation of the hydraulic cylinder (33).
The method of claim 2,
The support 30 is made of a lower appearance and the upper inner tube,
The lower end of the support bar (74) is coupled to the side of the lower appearance, the upper inner tube is a greenhouse structure adjustable roof tilt angle, characterized in that it can be stretched up and down by the auxiliary hydraulic cylinder (36) connected to the upper inner tube.
The method of claim 1,
The bottom surface of the roof plate (100, 102) is formed with a rack 72 in the vertical direction of the roof plate (100, 102), the upper end of the support bar 74 rotatably engaged with the rack 72 Pinion 73 is provided,
When the support bar 74 ascends, the pinion 73 moves upward along the rack 72 to increase the spacing between the opposing roof plates 100 and 102, and when the support bar 74 descends, 73 is a greenhouse structure capable of adjusting the roof inclination angle, characterized in that the gap between the roof plates (100, 102) facing the lower along the rack (72).
The method of claim 1,
The roof plate (100, 102) and the cover 101 is a greenhouse structure capable of adjusting the roof tilt angle, characterized in that the polycarbonate material.
The method of claim 1,
A controller module (300) for transmitting a control command signal to control the tilt angle adjustment of the roof plates (100, 102);
A main controller 400 for controlling the inclination angle of the roof plates 100 and 102 by receiving the control command signal;
An LCD monitor 201 for outputting information transmitted and received by the main controller 400;
The transmitted and received information is a communication module for communicating wirelessly; Greenhouse structure adjustable roof inclination angle further comprising a.
The method of claim 6,
Pressure sensors 41 are installed on upper surfaces of the roof plates 100 and 102,
The wind machine 11 is provided on the upper surface of the cover portion 101,
Greenhouse structure capable of adjusting the tilt angle of the roof, characterized in that for transmitting the detection result of the pressure sensor (41) or the wind speed generator (11) to the main controller (400) by Zigbee communication.

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