KR101046056B1 - Roller Type Skylight Switchgear - Google Patents

Abstract

The present invention relates to a skylight opening and closing device of a greenhouse, a device capable of simultaneously opening and closing a plurality of greenhouse skylights in one direction or both directions with a rotational force of a single driving motor, and driving the rotational force in the longitudinal direction of the greenhouse with a greenhouse structure therebetween. Drive sprocket fitted to the motor, drive shaft and drive shaft to rotate together with the direction changing sprocket, drive sprocket and direction changing sprocket corresponding to the drive shaft and fitted to the opposite drive shaft to reverse the direction of the chain. The two members are easily moved under power by combining the chain installed to maintain the circumferential length of the sprocket and the opening and closing distance of the skylight, the towing bar extending between the chain and the chain, the towing bar and the push bar pushing the skylight. It is composed of towing roller cars, Towing roller car is equipped with two pairs of wheels to move left and right with wheels by using the inside of the greenhouse structure as a rail, and by using the structure of the basic greenhouse to support the load of the ceiling applied from the upper part of the greenhouse The present invention relates to a greenhouse skylight opening and closing device which is not only stable and economically, but also greatly reduces the shade area due to the members constituting the skylight.

Greenhouse, skylight, drive motor, drive shaft, drive sprocket, directional sprocket, chain, upper towing rod, lower towing rod, towing roller car, fixed bolt, push bar

Description

Roller-type Skylight Switchgear {Rolling Car Ventilation Apparatus}

The present invention relates to a skylight opening / closing device of a greenhouse, which operates a sprocket, a chain, a towing bar, and a towing roller, which are components of the skylight opening / closing device, in one direction or in both directions. The present invention relates to a skylight opening and closing device configured to simultaneously open and close the greenhouse indoor ventilation and temperature control.

The present invention relates to a skylight opening and closing device of a greenhouse, which is designed to reduce costs and convenience of construction while adhering to the functional aspects of a conventional double trust rail skylight opening and closing device (Patent Office Application No. 10-2006-0007484).
In general, a greenhouse house for growing vegetables or creating a green space should have a very functional element that transmits sunlight, which is an essential element of crop growth, and blocks and adjusts rain and wind, especially in summer. Because of the high temperature in the room, skylights, side windows, forced ventilation devices, etc. must be installed for indoor temperature control and ventilation.
This greenhouse house has a certain shape and spacing is set as standard, and as the structure is regularly installed, there is an advantage that can open and close a large area of the window using one motor, and also existing forms of skylight opening and closing system using the same There was this. However, these switchgear devices can open and close only one row with one motor, or only one window can be opened and closed with one motor. In case of changing the rotational force of the drive shaft to the linear reciprocating motion, it is necessary to install the motor shaft and pipe together with the driven gear (pipe), which is the accessory device according to the gear mechanism of the rack pinion, so it is expensive and It causes more shade, which will adversely affect crop growth. In addition, the existing skylight opening and closing device requires a separate space for installing the device, so the construction cost is increased because the height of the greenhouse should be built about 20cm high.

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The present invention is to solve the above problems, a plurality of skylights of the interlocking greenhouse by driving the sprocket, chain, towing rods, towing rollers with one motor, rather than a method of using one motor per row of skylights that have been proposed in the past It is an object of the present invention to provide a skylight opening and closing device to facilitate the opening and closing of the greenhouse and temperature control by opening and closing simultaneously in one or both directions.

In order to achieve the above object, the present invention is a device that can simultaneously open and close a plurality of greenhouse skylights in one direction or both directions by the rotational force of a single drive motor, the driving motor for applying the rotational force in the longitudinal direction of the greenhouse between the greenhouse structure And a drive shaft; A drive sprocket fitted to the drive shaft and rotating together; A direction switching sprocket corresponding to the drive shaft and fitted to an opposite drive shaft to change a traveling direction of the chain in a reverse direction; A chain installed in engagement with the driving sprocket and the turning sprocket to change the rotational movement of the sprocket into a linear movement and to maintain the circumferential length of the sprocket and the opening and closing distance of the skylight; A towing rod extending between the chain and the chain; Combining the tow bar and push-pull push bar while the two members are composed of a tow roller car to be easily moved under power; Two pairs of wheels are provided in the towing roller car, and the inner structure of the greenhouse structure is configured to move left and right smoothly by using wheels as rails.

According to the roller-type skylight opening and closing device according to the present invention as described above, sprockets, chains, towing rods, towing roller cars, etc. constituting the skylight opening and closing device are installed in a row on a greenhouse structure and the appearance is neat and the existing skylight opening and closing device In comparison, crops can receive more sunlight, and the towing roller car transfers the load of the skylight directly to the main structure of the greenhouse by moving the top of the greenhouse structure as a rail, which is more stable in the structure of the skylight opening and closing device. In addition, since the height of the greenhouse can be constructed by about 20cm lower than when using the existing device has the effect of saving the construction cost.

With reference to the accompanying drawings will be described in more detail the roller-type skylight opening and closing device of the present invention.
1 is a cross-sectional view showing a skylight opening and closing device of the greenhouse according to the present invention, Figure 2 is a plan view of the skylight opening and closing device of the greenhouse according to the present invention, Figure 3 is a partially enlarged view of Figure 2, Figure 4 5 is an enlarged view of the right part of FIG. 1 and FIG. 6 is an enlarged view of the main part of the drawing.
As shown in the present invention, the present invention relates to a greenhouse skylight opening and closing device, to allow the plurality of skylights 5 to be opened and closed simultaneously in one or two directions at the same time as the driving motor 16, and the driving motor 16 is large. ), The drive shaft 15, the drive sprocket 11 and the turning sprocket 12, the chain 13, the tow bar 14, the push bar 6, and the tow roller car 20.
1 and 3 to 5, the drive motor 16 of the roller-type skylight opening and closing device is a structure in the width direction of the greenhouse so as to apply a rotational force in the width direction of the greenhouse {phase current (2)- (4)-lower current (3)} is installed in one drive motor 16 per greenhouse on the upper current (2).
The drive motor 16 installed as described above has a structure coupled to the drive shaft 15. When the rotational force generated by operating the drive motor 16 rotates the drive shaft 15, the skylight connected to the drive shaft 15 is provided. Each component of the switchgear is movable by the rotational force. In addition, the drive motor 16 is manufactured so that the forward rotation and the reverse rotation can be performed at the same time, it is possible to open and close the greenhouse skylight 5 as one drive motor 16 by using this.
Preferably, the drive shaft 15 is installed at two left and right ends in the longitudinal direction of the greenhouse, which indirectly transfers the force transmitted from the driving sprocket 11 and the driving sprocket 11 to which the rotational force of the driving motor 16 is directly transmitted. It is intended to install each of the direction switching sprockets 12 to be received and driven, the drive shaft 15 is installed in the drive shaft (15) in which the drive motor 16 is installed, the direction switching sprocket 12 to the opposite drive shaft (15b) Will be installed.
On the other hand, the drive sprocket 11 installed on the motor row drive shaft 15 is provided with the chain 13 meshed with its own circumferential length and the transport distance for opening and closing the skylight 5, so that the drive sprocket 11 rotates. The chain 13 moves together and changes the rotational movement of the sprocket into a linear motion to move the upper towing rod 14a connected to the end of the chain 13 to move toward the direction change sprocket 12.
In addition, the upper towing rod 14a is installed by connecting the chain 13 installed on the driving sprocket 11 and the chain 13 installed on the direction switching sprocket 12,
In other words, it is installed in the interval between the pair of chains 13, and serves to transmit the rotational force generated in the drive sprocket 11 to the opposite direction switching sprocket 12, pushing and pulling the greenhouse right skylight (5a) In combination with the left push bar (6b), when the upper tow bar (14a) is moved, the left push bar (6b) moves together to open the right skylight (5a), and at this time, the tow bar (14) and the push bar ( The coupling of 6) is made of a towing roller wheel 20.
The towing roller car 20 is fixed to the push bar 6 and the towing bar 14 to open and close the skylight (5), two pairs of wheels 21 on the body to facilitate their transfer The two pairs of wheels 21 are used to move left and right by using the inside of the greenhouse choke phase 2 is installed as a towing rod 14 as a rail. That is, when the rotational force generated by the drive motor 16 moves the upper towing rod 14a connected to the chain 13 through the driving sprocket 11, the upper towing rod 14a and the left push bar 6b are coupled. The towing roller car 20 is moved, and thus the left push bar 6b is opened by pushing the right skylight 5a upward.
At this time, in order to configure the skylight (5) in the form of a bidirectional or unidirectional swing around the ridge (7), the end of the skylight (5) and the upper end of the push bar (6) fixed, the lower end of the push bar (6) It is fixed to the towing roller car 20. In addition, the left push bar (6b) is fixed to the right skylight (5a), the right pushbar (6a) is fixed to the left skylight (5b) so as to cross each other in the push bar (6), which is a tow bar This is to open and close the skylight 5 only by moving the 14.
When the skylight 5 is installed to open in one direction, the lower end of the push bar 6 is fixed to either the upper towing rod 14a or the lower towing rod 14b to either the left or right side. The skylight 5 can be opened or closed in only one direction, and the right push bar 6a and the left push bar 6b are different from the towing roller car 20 of the upper tow bar 14a and the lower tow bar 14b, respectively. When fixed, the left and right skylights 5 can be opened and closed at the same time.
On the other hand, the direction switching sprocket 12 is provided with the same configuration as the drive sprocket 11. In other words, corresponding to the drive sprocket 11, the direction change sprocket 12 rotates with the force transmitted by the upper towing rod 14a to move, and reverses the direction of rotation of the rotating force. That is, the towing roller vehicle 20 of the upper towing rod 14a is moved from the driving motor 16 through the driving sprocket 11, and the transmitted rotating force passes through the turning sprocket 12 and the lower towing rod 14b of the lower towing rod 14b. Towing roller car 20 is moved. Thus, the lower tow bar 14b and the right push bar 6a are moved to open the greenhouse left skylight 5b.
And the end of the lower towing rod 14b is connected to the end of the chain 13 engaged with the drive sprocket 11. Accordingly, the rotational force of the driving motor 16 rotates the driving sprocket 11 to move the upper towing rod 14a to open the greenhouse right skylight 5a, and the force opening the right skylight 5a to change the direction of the sprocket 12 Take this and switch it to open the greenhouse left skylight (5b) by moving the lower towing rod (14b). The opening and closing degree of the skylight 5 is limited to the conveying length of the chain 13 meshed with the sprocket. When the skylight 5 is opened to the maximum and the chain 13 is moved to one end in one direction, the drive motor 16 Even if it operates, the skylight 5 is kept open and stopped. In addition, when the driving motor 16 is driven in reverse, the generated reverse rotational force rotates the driving sprocket 11 in reverse to move the turning sprocket 12 and the upper towing rod 14a past the lower towing rod 14b. In order to proceed in the reverse order to return the push bar (6) to open the skylight (5) to the original state can be closed at the same time open skylight (5).
In more detail with reference to Figure 1 when explaining the driving state of the roller-type skylight opening and closing apparatus of the present invention.
As shown, in the roller-type skylight opening and closing device installed as described above to open and close the greenhouse skylight (5), when the drive shaft (15) is rotated by the force from the drive motor (16), the drive shaft (15) The installed drive sprocket 11 is rotated at regular intervals. When the chain 13 meshed with the driving sprocket 11 receives the rotational force and moves by the transfer distance for opening and closing the skylight 5 in a linear direction, the upper towing rod 14a connected to the end of the chain 13 is connected with itself. By using the combined towing roller car 22 is moved together. At this time, the towing roller car 20 is coupled to the left push bar 6b together with the upper towing rod 14a, and the towing roller car 20 moves and moves the left push bar 6b. The left push bar 6b pushes the end of the right skylight 5a upward, and the greenhouse right skylight 5a is opened.
At the same time, when the moved force pushes the chain 13 engaged with the turning sprocket 12 located at the end of the moving distance of the upper towing rod 14a, the chain 13 moves and the turning sprocket 12 rotates. It is to be converted in the reverse direction again the force has been moved in a straight direction, the converted force pushes the towing roller car 20 fixed to the lower tow bar 14b, coupled to the towing roller car 20 together By moving the right push bar 6a, the right push bar 6a pushes the left skylight 5b end upward, so the left skylight 5b is also opened along with the right. In addition, the tow roller car 20 is provided with two pairs of wheels 21 so as to easily move left and right by using the inside of the greenhouse structure upper chord 2 provided with the tow bar 14 as a rail.
That is, the roller-type skylight opening and closing device by installing the upper towing rod (14a) and the lower towing rod (14b), respectively, by the rotational force of the driving motor 16, these two are configured to move left and right in opposite directions, skylight in both directions It becomes to be able to open and close (5). In this case, when the driving motor 16 is driven in reverse, the generated reverse rotational force rotates the driving sprocket 11 in the reverse direction and passes the lower towing rod 14b and the turning sprocket 12 and the upper towing rod 14a. In the reverse order to move the push bar (6) opening the skylight (5) to return to the original state will be able to close the open skylight (5) at the same time.
The skylight push bar 6 can be freely installed in the case of one paper, two papers, four papers according to the strength of the material of the tow roller car 20 and the structure skylight 5 of the greenhouse. Here, one branch is composed of one push bar (6) to be fixed to one point of the towing roller car 20, and the opposite side is to connect one point to the end of the skylight (5), two branches are composed of two push bars (6) It is fixed to one point of the towing roller car 20, and the two sides are connected to each other so that the opposite side is symmetrically with a certain distance from the end of the skylight (5), and the four paper is composed of four tow rollers (6) (20) fixed to one point and the opposite side is to connect the four points to the left and right symmetrical with a certain distance from each other at the end of the skylight (5).
When only one direction of the skylight (5) is installed, the end of each push bar (6) is fixed only to the tow roller car 20 and the lower towbar (14b) to install only the left skylight (5b) or only the right skylight (5a) Can open and close.
In the case of installing the skylight in both directions, the lower towing rod 14b and the other towing roller 14a are fixed to each towing roller car 20, respectively, and the left skylight 5b and the right skylight 5a. ) Can be opened and closed simultaneously with one drive motor 16.
In addition, even if the left sky window, rain sky window, Yangcheon window, etc. are installed in each ridge (7) in combination, if the system is repeatedly installed at regular intervals, only one drive motor 16 can open and close the windows in all cases.

1 is a cross-sectional view showing a skylight opening and closing device of a greenhouse according to the present invention.
Figure 2 is a plan view of the skylight opening and closing device of the greenhouse according to the present invention.
3 is a partially enlarged view of FIG. 2;
4 is an enlarged view of a left portion of FIG. 1;
5 is an enlarged view of the right part of FIG. 1;
6 is an enlarged view of a main part of the drawing;
<Description of the symbols for the main parts of the drawings>
1: pillar 2: present present 3: lower present 4: private
5: skylight (5a: right skylight 5b: left skylight)
6: push bar (6a: right push bar 6b: left push bar) 7: ridge
11: drive sprocket 12: divert sprocket 13: chain
14: towing rod 14a: upper towing rod 14b: lower towing rod
15: motor row drive shaft (15b: direction change drive shaft)
16: drive motor
20: towing roller car 21: roller car wheel
31: J towing rod fixing bolt

Claims (1)

In the greenhouse skylight opening and closing device, A forward and reverse drive motor for applying rotational force in the longitudinal direction of the greenhouse with the greenhouse structure therebetween; A drive shaft fitted to the drive motor and installed at two positions at both ends of the greenhouse structure; A drive sprocket fitted to the drive shaft and rotating together; A direction switching sprocket corresponding to the drive sprocket and fitted to an opposite drive shaft to change a traveling direction of the chain in a reverse direction; A chain installed in engagement with the driving sprocket and the turning sprocket to change the rotational movement of the sprocket into a linear movement and to maintain the circumferential length of the sprocket and the opening and closing distance of the skylight; A towing rod extending between the chain and the chain; Combining the tow bar and push-pull push bar while the two members are composed of a tow roller car to be easily moved under power; The tow roller is provided with two pairs of wheels so that the inner structure of the greenhouse structure can be used to move left and right smoothly with wheels, and a plurality of greenhouse sky windows in one direction or two directions with the rotational force of one driving motor. Roller-type skylight opening and closing device which can be opened and closed at the same time.

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