KR20050107897A - The roof door open/close apparatus for greenhouse - Google Patents

Abstract

The present invention relates to a greenhouse window opening and closing device that can promote the growth of cultivated plants by adjusting the temperature inside the greenhouse to be suitable for growing conditions of horticultural plants in summer or winter, the characteristic configuration of which forms a greenhouse A plurality of cross bars 12 installed between the frame 11 so that the ventilation hole 13 is formed on the upper side of the frame 11 and one end of the frame 11 to selectively open and close the ventilation hole 13. Window frame 20 coupled to the hinge (15) via a medium, and elevating bar 21 is installed on the bottom surface of the window frame 20, the rack gear 22 is formed on one side, the frame 11 It is installed in the longitudinal direction of the greenhouse at the bottom of the rotary shaft 31 is provided with a plurality of pinion gear 32 geared with the rack gear 22 in the center, and the rotary shaft 31 to rotate the rotary shaft 31 It is to include a drive motor 30 connected to one end of.

Description

The roof door open / close apparatus for greenhouse}

The present invention relates to a ceiling window opening and closing device for a greenhouse, and more particularly, in a summer or winter, a greenhouse ceiling opening and closing that can promote the growth of cultivated plants by adjusting the temperature inside the greenhouse to be suitable for growing conditions of horticultural plants. Relates to a device.

In general, the greenhouse is divided into a tunnel type single-acting type with one roof and interlocking type by connecting several roofs together.

Single-acting greenhouse, as shown in Figure 1, providing a plurality of double arc-shaped frame 101 and interconnected the ends of them to create a single unit domed frame. After arranging a plurality of the domed frames at regular intervals along the longitudinal direction to form a greenhouse 100 having a tunnel shape, it is completed by covering the outer surface with vinyl.

The temperature inside the greenhouse is an important environmental factor for the growth of cultivated horticultural plants, and the temperature inside the greenhouse should be kept constant even during seasonal changes.

In other words, in a season when the temperature increases, such as summer, the temperature inside the greenhouse is rapidly increased, so that the plant cannot grow and die out (hereinafter referred to as "drying phenomenon"), which is too high than the air temperature.

In the season when the temperature is lowered, such as winter, the temperature inside the greenhouse is rapidly lowered, causing the plant to freeze (hereinafter referred to as "low temperature phenomenon").

Accordingly, in order to prevent the drying phenomenon of the plant due to the high temperature, water sprayed by spraying water on the outer surface of the greenhouse by providing a sprinkler 102 on the outer upper surface of the greenhouse 100 as shown in FIG. Along the outer surface of the greenhouse is adopted to lower the temperature inside the greenhouse.

However, the temperature reduction method of the greenhouse using the sprinkler 102, the water flowing down the outer surface of the greenhouse 100 can see the effect of the inner region of the greenhouse forming a boundary of the greenhouse to some extent, but actually lowering the temperature There was a problem that the temperature does not uniformly down to the inner central portion of the greenhouse 100, which is a zone where plants are needed to grow.

Therefore, there is a problem that the income of the horticulture plant grown in the greenhouse 100 causes a huge obstacle as well as the yield is reduced accordingly.

In addition to the problems described above, the conventional method for lowering the temperature inside the greenhouse using a sprinkler is because the water sprayed from the sprinkler continuously flows down the outer surface of the greenhouse, causing a significant temperature difference inside and outside the greenhouse. Dew condensation occurred, resulting in a decrease in the amount of sunlight transmitted and consequently a huge obstacle to the growth of horticultural plants.

In addition, the conventional method of lowering the temperature inside the greenhouse, since the water sprayed from the sprinkler flows down the vinyl on the outer surface of the greenhouse and then permeates the ground, the ground of the area always has excessive moisture and is located at the edge of the greenhouse. There was a problem that the horticultural plants do not grow normally due to adverse effects on the plants.

In addition, conventionally by providing a separate heating means in the greenhouse to prevent the low temperature of the plant to supply a high temperature hot air to the inside of the greenhouse to supply the hot air circulating the inside of the greenhouse to increase the temperature inside the greenhouse The method is adopted.

However, the method of increasing the temperature of the greenhouse using the heating means may increase the temperature evenly to the inner central part of the greenhouse, which is a region in which plants which need to increase the temperature may be effective in the vicinity of the heating means. There was a problem that can not be.

In order to solve this problem, when increasing the temperature of the hot air generated in the heating means so that the temperature of the central portion can be raised, there was a problem that a dry shape occurs in the plant close to the heating means.

Therefore, there is a problem that the income is lowered due to the reduction in yield as well as causing a huge obstacle to the growth of the horticultural plants grown in the greenhouse.

On the other hand, conventionally, as shown in Figure 3 installed on the upper side of the greenhouse so as to open and close to illuminate the inside of the greenhouse.

The ceiling window is provided with a window frame 200 to be movable in the longitudinal direction of the greenhouse while being supported by the frame 101 installed on the upper side of the greenhouse, and the lifting wire 201 at one end of the bottom of the window frame 200. ) Are connected, and both ends of the lifting wire 201 are wound around the first rotating roller 202 and the second rotating roller 203, respectively.

Meanwhile, a moving pipe 210 is installed on the upper side of the window frame 200, and a moving wire 211 is connected to an outer surface of the moving pipe 210, and the moving wire 211 is formed of a first wire. It is wound on the rotary roller 202, one end of the moving pipe 210 is connected to the belt 221 which is operated by the drive motor 220.

Therefore, when the driving motor 220 is operated in the forward direction, since the rotational force generated from the driving motor 220 is transmitted to the belt 221, the belt 221 is pulled and the moving pipe to which the belt 221 is connected. 210 is moved together.

When the moving pipe 210 is moved, the moving wire 211 is moved together to rotate the first rotating roller 202, and the lifting wire 201 moves together as the first rotating roller 202 is rotated. While the window wire 200 is connected to the lifting wire 201 is moved downwards, the other end of the lifting wire 201 is wound on the second rotating roller 203, so that it maintains a constant elasticity It is rotated to a state.

On the other hand, when closing the ceiling window opened through the above process, if the drive motor 220 is operated in the reverse direction by the rotational force generated in the drive motor 220 is the belt 221 and the moving pipe 210 in the reverse direction The moving wire 211 and the lifting wire 201 connected to the moving pipe 210 are moved in the reverse direction and are closed while moving the window frame 200 upward.

However, such a conventional device is to open and close the window frame 220 after the rotational force generated from the drive motor 220 is transmitted to the rotating roller and the wire, when the foreign matter flows into the contact surface of the rotating roller and the wire or the humidity is high Due to the rotational force of the roller, the wire is not moved smoothly, there is a problem that can not open and close the ceiling window.

In addition, since the wire is stretched during long-term use, there is a problem that a slip phenomenon occurs due to a decrease in the elastic force of the wire.

In addition, the conventional window frame is opened and closed in a sliding manner in the upper part of the greenhouse, when the wire is broken, the window frame 200 falls and damages the surrounding equipment, and in severe cases, there is a problem that a human injury occurs.

In addition, the conventional window frame is installed so as to maintain a predetermined inclination angle, the center of gravity is located smoothly when the bottom is located in the sliding manner open, but when closing the open window frame due to the high weight window frame There was a problem that an overload occurs in the old motor.

The present invention has been invented to solve the above problems, the purpose is to hinge the ceiling window installed on the upper portion of the greenhouse to ventilate the greenhouse inside, while opening and closing the ceiling window by power transmission by coupling the rack gear and pinion gear. It is to provide a ceiling window opening and closing device that can perform the operation smoothly.

Referring to the characteristic configuration of the present invention for achieving the above object is as follows.

Greenhouse ceiling window opening and closing device of the present invention is a plurality of cross bars installed between the frame so that the ventilation hole is formed on the upper side of the frame forming the greenhouse, and one end is selectively hinged to the frame to open and close the ventilation hole A window frame coupled to the window frame, a lifting bar having a rack gear formed on one side of the window frame, and a plurality of pinion gears installed in the longitudinal direction of the greenhouse on the bottom of the frame and coupled to the rack gear at the center thereof. And a drive motor connected to one end of the rotating shaft to rotate the rotating shaft.

Referring to the present invention having such characteristics in detail as follows.

4 is a perspective view showing a state in which the ceiling window opening and closing device according to the present invention is installed in the greenhouse, Figure 5 is a cross-sectional view showing a state in which the ceiling window opening and closing device according to the present invention is installed in the greenhouse.

As referred to herein, in the present invention, a plurality of cross bars 12 are provided on an upper side of the frame 11 forming the greenhouse, and the greenhouses 10 formed by the cross bars 12 and the frame 11 are provided. The roof is covered with vinyl, but the vinyl is not to cover the entire roof of the greenhouse 10, but to cover the ventilation hole 13 is formed on the upper side of the greenhouse, most preferably the frame 11 and the frame 11 Covering the two interspaces of the vinyl to cover the ventilation holes 13 formed in the adjacent space, to form a plurality of ventilation holes 13 at equal intervals.

On the other hand, the ventilation hole 13 is provided with a window frame 20 covered with vinyl, the hinge 15 is provided on both sides of the lower end of the window frame 20, the hinge 15 is a window frame 20 is coupled to the frame 11 so as to be rotatable, and the lifting bar 21 is installed on the bottom of the window frame 20, and the rack gear 22 is provided on one side of the lifting bar 21. Formed.

On the other hand, the rotary shaft 31 is provided on the bottom surface of the arc-shaped frame 11, the rotary shaft 31 is provided in the longitudinal direction of the greenhouse 10, the rack gear 22 in the central portion of the rotary shaft 31 ) And a pinion gear 32 which is gear-coupled, and a driving motor 30 for rotating the rotary shaft 31 is connected to one end of the rotary shaft 31.

In addition, the drip tray 40 is installed at the bottom of the roof of the greenhouse 10 to collect water droplets generated on the surface of the vinyl installed on the roof of the greenhouse 10 and the vinyl installed on the window frame 20. ) Is installed along the length of the greenhouse.

On the other hand, a protective cover 50 is installed on the upper end of the window frame 20, the support plate 51 to be accommodated inside the protective cover 50 at the upper end of the frame 11 opposite the window frame 20 is installed. ) Is installed.

In addition, the drive motor 30 may be directly connected to one end of the rotary shaft 31, may be installed so that the rotational force is transmitted through a separate power transmission member 33, the drive motor 30 is shown in FIG. As shown in FIG. 7, the driving motor 30 may be installed below the greenhouse as shown in FIG. 7.

On the other hand, when installing the power transmission member 33 in the lower portion of the greenhouse, as shown in Figure 7, if you install a separate rotary lever 34 as shown in Figure 8 without using the drive motor 30, It is possible to open and close the ceiling window.

Referring to the present invention configured as described in detail as follows.

First, when the driving motor 30 is driven in a forward direction so that the ceiling window is opened to ventilate the inside of the greenhouse, the rotation shaft 31 and the pinion gear 32 installed on the rotation shaft 31 are connected to the driving motor 30. Are rotated together.

When the pinion gear 32 is rotated, the rack gear 22 geared to the pinion gear 32 is moved to raise and lower the lifting bar 21 on which the rack gear 22 is formed, and the upward bar ( As the 21 is raised, the window frame 20 is rotated about the hinge 15 to open the upper part of the greenhouse.

On the other hand, when closing the open window frame 20 through the above-described process when the drive motor 30 is rotated in the reverse direction, the rotary shaft 31 and the pinion gear 32 connected to the drive motor 30 is reversed Will be rotated.

When the pinion gear 32 is rotated in the reverse direction, the rack gear 22 geared to the pinion gear 32 is moved, and the lifting bar 21 on which the rack gear 22 is formed is lowered, so that the window frame 20 is to rotate around the hinge 15 to seal the top of the greenhouse.

At this time, since the support plate 51 is accommodated in the protection cover 50 installed at the upper end of the window frame 20, external air is prevented from flowing through the upper end of the window frame 20.

Meanwhile, rainwater flowing along the outer surface of the vinyl covered by the roof and the window frame 20 of the greenhouse 10 due to bad weather is collected by the drip tray 40 installed in the longitudinal direction at the bottom of the roof of the greenhouse 10. You lose.

In addition, dew that is generated due to the difference between the inside temperature of the greenhouse 10 and the outside temperature and flows down along the inner surface of the vinyl covered by the roof of the greenhouse 10 and the window frame 20 is formed at the bottom of the roof of the greenhouse 10. Will be collected in the drip tray (40) installed in the longitudinal direction, the dew generated at this time will be collected through a minute gap generated between the drip tray 40 and the crosspiece (12) because a large amount is not generated.

As such, the present invention has an effect that can be easily ventilated at any time as needed inside the greenhouse in which the horticultural plants are grown.

In particular, since the window frame installed on the upper side of the greenhouse is rotated around the hinge, the unique effect of preventing the damage of the surrounding equipment and the occurrence of human life accidents due to the high weight of the window frame falling to the lower part of the greenhouse have.

In addition, the present invention can cultivate the plant while simply ventilating the air in the greenhouse to be suitable for the growth conditions of the horticultural plants can produce a good quality fruit and at the same time have the effect of increasing the yield.

1 is a perspective view showing a typical greenhouse

Figure 2 is a perspective view of a state installed sprinkler on the top of a typical greenhouse.

Figure 3 is a perspective view showing a ceiling window for a conventional greenhouse.

Figure 4 is a perspective view showing a state in which the ceiling window opening and closing device according to the invention installed in the greenhouse.

Figure 5 is a cross-sectional view showing a state in which the ceiling window opening and closing device according to the invention installed in the greenhouse.

6 to 8 is a perspective view showing another embodiment of the ceiling window opening and closing apparatus according to the present invention.

※ Explanation of symbols about main part of drawing ※

11: frame 12: cross

13: ventilator 15: hinge

20: window frame 21: lifting bar

22: rack gear 30: drive motor

31: rotating shaft 32: pinion gear

40: drip tray 50: protective cover

51: support plate

Claims (5)

One side end to selectively open and close the plurality of rungs 12 and the ventilation hole 13 installed between the frame 11 so that the ventilation hole 13 is formed on the upper side of the frame 11 forming a greenhouse Silver frame 11, the window frame 20 coupled to the hinge 15 via a medium, the lifting bar 21 is installed on the bottom surface of the window frame 20, the rack gear 22 is formed on one side, and The rotating shaft 31 is installed on the bottom of the frame 11 in the longitudinal direction of the greenhouse and has a plurality of pinion gears 32 geared with the rack gear 22 at the center thereof, and to rotate the rotating shaft 31. Greenhouse ceiling opening and closing device, characterized in that it comprises a drive motor 30 connected to one end of the rotary shaft (31). The method of claim 1, wherein the window frame 20 is a greenhouse window opening and closing device, characterized in that at least two or more are installed. The method of claim 2, wherein the window frame 20 is a greenhouse window opening and closing device, characterized in that installed at equal intervals on the upper side of the greenhouse. According to claim 1, The lower side of the window frame 20 is characterized in that the drip tray 40 is installed in the longitudinal direction of the greenhouse to collect rain water moving along the upper surface of the window frame 20 and dew moving along the bottom surface. Greenhouse ceiling switchgear. The support plate of claim 1, wherein a protective cover 50 is installed at an upper end of the window frame 20, and a support plate embedded in a protective cover 50 at an upper end of an opposite frame 11 on which the window frame 20 is installed. 51) is a ceiling window opening and closing device characterized in that the installation.