KR101323357B1 - high and low control device of assembly vinyl greenhouse roof - Google Patents

Abstract

The present invention relates to a height adjustment device of a prefabricated vinyl house roof.
The present invention for this purpose a plurality of first, second, third roof lowering operation unit 160, 170, 180 provided at regular intervals to prevent typhoon damage and energy saving roof frame 110 of the plastic house 100 Is configured to selectively lift up and down.
The present invention configured as described above is to facilitate the assembly and disassembly of the plastic house, and in particular to adjust the height of the roof of the vinyl house to selectively raise and lower, especially in the summer to increase the height of the roof of the roof and heating in winter By lowering the height of the roof of the vinyl house, the space inside the vinyl house is reduced as a result, which saves about 30 to 40% of energy, which greatly improves the quality and reliability of the product, thereby allowing users to plant good images. It would be.

Description

High and low control device of assembly vinyl greenhouse roof

The present invention relates to a height adjustment device of a prefabricated vinyl house roof, and more particularly, to easily disassemble and assemble the vinyl house, and in particular, to selectively adjust the height of the roof of the vinyl house. In winter, when the height of the roof is increased and the heating is used, the height of the roof of the vinyl house is lowered, which consequently reduces the space inside the vinyl house, which saves about 30 to 40% of the energy. It has been greatly improved so that users can plant good images.

As you may know, the vinyl house is a cultivation of crops and other plants. In English-speaking culture, it is called a greenhouse or a glasshouse. In particular, the outer wall is made of polyethylene, which collects solar heat. It can maintain a constant temperature because outside air can't get inside. Plants are grown all year round without any external influences.

The above-mentioned conventional vinyl house has been pointed out as a big problem because it merely serves to cultivate plants and does not have a technical configuration for preventing energy saving or typhoon damage.

In order to solve the above problems, Utility Model Registration No. 0385938 (Application No. 2005-0007839 (name: Frame system for vinyl house)) has been registered. That is, the above-described conventional technique is arranged in a quadrangular four pillars 10 to be columnar as shown in Figure 1 (a) (b) (c) (d) (e) of the top of each pillar Is connected to the horizontally positioned connecting rod 20, the reinforcing bar to be formed in a mountain shape toward the top of the center point of the pillar 10 arranged in a square from the four corners (C) where the support 10 and the connecting table 20 meets ( 30 is connected to each other between the reinforcing bar 30 'between each reinforcing bar 30, and the tension member 41 fixed to the four corners (C) of the support and the connecting rod on the bottom of the mountain-shaped reinforcing bar (30) It is configured to be supported by the support 50 installed to enable the height adjustment in the dispersion plate 40 formed in the center of the. Four pillars 10 arranged in the quadrangle and the connecting table 20 horizontally positioned at the upper end thereof are preferably formed in a cube having a suitable length, but may be formed in a rectangular parallelepiped. The slope of the reinforcement 30 formed in the shape of a mountain toward the top of the center point of the support 10 arranged in a square from the four corners C where the support 10 and the connecting rod 20 meet is a rainfall of the area where the house is installed. Considering the snowfall and the amount of wind is to maintain a proper inclination, the angle of inclination is preferably within 45 °, the auxiliary reinforcing bar (30 ') disposed between each of the reinforcing rods 30 each connection table It is to be connected at a 90 ° angle to the center of (30). The lower end of the support (50) to support the bottom of the reinforcement (30) is raised and lowered by bolts and nuts on the distribution plate 40 formed in the center of the tension member 41 fixed to the four corners (C) of the support and the connection Since the support is adjustable, the bolts of the support 50 are disassembled to apply tension to the tension member 41, thereby further strengthening the binding force between the connecting rod 20 and the reinforcement 30 of the upper end of the support 10. The tension member 41 may be used by selecting any one of a rod or a wire. Therefore, the frame for the vinyl house as described above is supported by the support 50 standing on the distribution plate 40 of the four poles 10 and the connecting table 20 and the tension member 41 horizontally connecting the upper end respectively. Consists of a reinforcing rod (30) forming a roof of the mountain form is made to achieve a single space, in the state of securing the desired size by arranging the frame in one row or two rows in series in accordance with the demand of the demand The construction of the house was completed by covering the outer surface with vinyl. However, the above-described prior art also has many problems as follows. In other words, the prior art also has a structure in which the height of the roof of the vinyl house cannot be selectively adjusted. The height of the roof of the vinyl house is increased in summer, and the height of the roof of the vinyl house is lowered in winter when heating is used. It was pointed out as a big problem that the internal space could not be reduced to save about 30-40% of energy. In addition, the prior art has a problem that can not be minimized from the damage of the typhoon by lowering the height of the roof of the vinyl house when the summer typhoon comes. In addition, the prior art has a big problem that can not be used by applying the height of the vinyl house roof driving unit in various embodiments. In addition, the conventional technology also has a problem that can not be used to manually adjust the height of the roof during power outages. In particular, the prior art also has a problem that the vinyl house structure is not assembled prefabricated for each connector can not be easily disassembled and assembled vinyl house.

The present invention has been made to solve all the problems of the prior art as described above, a plurality of first, second, and third roof lowering operation unit provided at regular intervals to prevent typhoon damage and energy saving roof frame of the plastic house The first purpose is to be provided to selectively move up and down, the second object of the present invention by the above-described technical configuration is that the vinyl house structure is assembled prefabricated for each connector can be easily disassembled and assembled plastic house In particular, the third object of the present invention is to allow the height of the vinyl house roof to be selectively raised and lowered, so that the height of the vinyl house roof is increased, and in particular, the height of the vinyl house roof is lowered in winter when heating is used. As a result, the space inside the plastic house is reduced, saving about 30-40% of energy. In addition, the fourth purpose of the present invention is to reduce the height of the roof of the vinyl house when summer typhoon comes to minimize the damage from the typhoon, and the fifth purpose of the present invention is to The height of the driving unit is applied to the various embodiments to use the advantage, and in addition, the sixth object of the present invention is to have the advantage that can be used to manually adjust the height of the roof during power outages, The purpose is to provide a height control device for the roof of a prefabricated vinyl house, which greatly improves the quality and reliability of the product, allowing the user to plant a good image.

In order to achieve the above object, the present invention is characterized in that the plurality of first, second, third roof lowering operation units provided at regular intervals to prevent typhoon damage and energy saving selectively lift and lower the roof frame of the vinyl house. It provides height adjustment of the roof of prefabricated vinyl house.

As described in detail above, the present invention is to allow a plurality of first, second, and third roof elevating operation units provided at regular intervals to prevent the typhoon damage and to save energy to selectively operate the roof frame of the vinyl house. .

The vinyl house structure of the present invention according to the above-described technical configuration is assembled to each connector so that it can be easily disassembled and assembled.

In particular, the present invention allows to selectively adjust the height of the roof of the vinyl house to increase and decrease the height of the roof of the vinyl house, especially in the summer, and the height of the roof of the vinyl house in the winter when heating is used to consequently reduce the interior space of the vinyl house The reduction is about 30-40% energy savings.

In addition, the present invention is to reduce the height of the roof of the vinyl house when the summer typhoon comes to minimize the damage from the typhoon.

In addition, the present invention is to provide an advantage that can be used by applying the height of the vinyl house roof drive in various embodiments.

In addition, the present invention is to have the advantage that can be used to manually adjust the height of the roof during power outages.

The present invention is a very useful invention that greatly improves the quality and reliability of a product by virtue of the effects described above, and allows a user to plant a good image.

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

Figure 1 (a) (b) (c) (d) (e) is an overall perspective view of a conventional vinyl house frame system and
Sectional view and main part perspective view and use state diagram and another embodiment perspective view.
Figure 2 (a) is a prefabricated vinyl house roof applied to the present invention before the descent
It is a perspective view showing the state,
(b) is the image after the prefabricated vinyl house roof is lowered applied to the present invention
It is a perspective view which shows a womb.
Figure 3 is a plan view showing a prefabricated vinyl house roof applied to the present invention.
4 (a) is a cross-sectional view of the drive unit applied to the present invention,
(b) is a sectional view of an automatic driven part applied to the present invention,
(c) is a sectional view of a passive driven part applied to the present invention.
Figure 5 (a) is a state before the first roof lowering operation unit applied to the present invention is lowered
Degree,
(b) is a state diagram after the first roof lowering operation portion applied to the present invention is lowered
to be.
Figure 6 (a) of the prefabricated vinyl house roof of another embodiment applied to the present invention
Is a perspective view of the height adjustment device,
(b) is the state before the second roof lowering operation unit applied to the present invention is lowered
Degree,
(c) is a state diagram after the second roof lowering operation unit applied to the present invention is lowered
to be.
Figure 7 (a) is a state before the third roof lowering operation unit applied to the present invention is lowered
Degree,
(b) is a state diagram after the third roof lowering operation unit applied in the present invention is lowered
to be.

Height adjustment device of the prefabricated vinyl house roof applied to the present invention is configured as shown in Figures 2 to 7.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

First, the height control device of the prefabricated vinyl house roof applied to the present invention is a plurality of first, second, third roof lowering operation unit 160, 170, 180 provided at regular intervals to prevent typhoon damage and energy saving It is configured to selectively raise and lower the roof frame 110 of the plastic house (100).

The first embodiment of the present invention for this purpose is configured as shown in Figs.

That is, as shown in FIGS. 2 and 3, a plurality of automatic driven parts 140 are respectively provided between both ends of the roof frame 110 and the upper part of the first roof lowering operation unit 160, and the roof frame 110. In front of the) is provided with a drive unit 130 for selectively operating the automatic driven portion 140.

At this time, the drive unit 130 rotates the shaft 133 on both sides by operating the bevel gear module 131 provided in the housing 132 by the drive of the drive motor 134 as shown in Figure 4a. The plurality of automatic driven parts 140 are operated by the rotation of the shaft 143 as shown in FIG. 4B, by operating the plurality of bevel gear modules 141 provided in the housing 142. It is configured to actuate each of the automatic driven parts connected to another shaft one after the other.

In particular, the first roof lowering operation unit 160 applied to the present invention is configured as shown in FIG.

That is, a screw rod 161 is connected to each of the automatic driven parts 140 to operate in reverse rotation.

In addition, the screw protection tube 162 is fixedly installed at the bottom of the roof frame 110 to move up and down by the forward and reverse rotation of the screw rod.

And the fixing nut 163 is fastened to the outer peripheral surface of the screw protection tube 162 is provided, the fixing nut 163 is fixed to the upper end of the fixing support 120 to be described later.

In addition, the lower end is fixedly installed on the ground, the upper end is provided with a fixing support 120 to be inserted into the inside of the screw protection tube 162 to operate the screw protection tube 162 sliding up and down.

The present invention can manually operate the automatic driven part 140 in the front end or the rear rear end of the plurality of automatic driven parts 140 when the driving motor 134 of the drive unit 130 is broken or power is not applied. Of course, the passive driven portion 150 may be provided to be used.

At this time, the manual driven part 150 is an extension rod 154 extending to the tip of any bevel gear and to operate the bevel gear module 151 provided in the housing 152 as shown in Figure 4c The handle 155 is provided at the front end of the extension rod 154 to operate the bevel gear module by hand and the shaft 153 is rotated by the operation of the bevel gear module.

Referring to the operation and effect of the first embodiment of the height adjustment device of the present invention prefabricated vinyl house roof configured as described above are as follows.

First of all, the present invention allows easy disassembly and assembly of a vinyl house, and in particular, it is possible to selectively adjust the height of the roof of the vinyl house. By lowering the height of the roof, the space inside the plastic house is reduced, which saves about 30-40% of energy.

Figure 2 (a) of the present invention for this purpose is a perspective view showing a state before the prefabricated vinyl house roof descending applied to the present invention, (b) shows a state after the prefabricated vinyl house roof applied to the present invention is lowered. As a perspective view, Figure 2 (a) is used in the state of raising the height of the roof frame 110 in the usual summer time, Figure 2 (b) of the roof frame 110 to prevent typhoon damage and energy saving It will be used with the height lowered.

In order to lower the roof frame 110 as shown in FIG. 2 (a), as shown in FIG. 2 (b), the roof frame 110 is simply lowered when the driving unit 130 is driven and the automatic driven unit 140 is operated. On the contrary, when the driving unit 130 reversely drives the automatic driving unit 140 to operate, the roof frame 110 is simply raised, and the driving unit 130, the automatic driving unit 140, and the first driving unit 130 are operated. The roof lift operation unit 160 is configured to be connected to each other to enable the above operation.

In more detail, when the bevel gear module 131 is driven by the driving motor 134 as shown in FIG. 4 (a), the shaft 133 rotates. In addition, a plurality of automatic driven parts 140 are connected to the end of the shaft 133 as shown in FIG. 4 (b) to rotate the shaft 143 by the operation of the bevel gear module 141. By the operation of the 140, the first roof lowering operation unit 160 is operated.

At this time, when the screw rod 161 is rotated forward, the first roof lowering operation unit 160 is lowered as shown in FIG. 5 (a) to FIG. 5 (b). Descends along the outer circumferential surface. In this process, the fixing nut 163 is fixed to the fixing support 120 so that even if the screw rod 161 is rotated, the fixing nut 163 is lowered with the screw protection tube 162 without moving.

Of course, if the screw rod 161 is rotated again, the roof frame 110 is raised as shown in FIG. 5 (b) to FIG. 5 (a) by the reverse order of the above operation.

Therefore, the present invention can be made to selectively raise and lower the height of the roof frame 110 simply by the operation of the drive unit 130, the automatic driven unit 140 and the first roof lift operation unit 160. .

The above operation of the present invention is possible by the driving of the drive motor 134, but the drive motor 134 is broken or cannot be used where the power is not applied. Therefore, in preparation for such a case, of course, the present invention can be manually operated as shown in Figure 4 (c).

That is, Figure 4 (c) is an extension rod 154 is formed on any bevel gear of the bevel gear module 151, the handle 155 is provided at the tip of the extension rod, the operator holding the handle 155 When turned, the bevel ear module 151 is operated, and eventually, the automatic driving unit 140 and the first roof lowering operation unit 160 are operated successively by the rotation of the shaft 130. Even if power is not applied, the height of the roof frame 110 can be adjusted manually.

In addition, the technical configuration of the second embodiment of the present invention will be described.

That is, as shown in FIG. 6, the second roof lowering operation unit 170 is provided, and the fixed support base 120 is fixedly installed at a predetermined interval on the ground.

And the lower end is fitted to each fixed support 120, the upper end is provided with a rack gear 174 is fixed to the roof frame 110.

In addition, when the shaft 172, which is elongated in the longitudinal direction by the driving of the driving motor 171 provided on both front sides of the vinyl house 100, is rotated, the shaft 172 is arranged at a predetermined interval on the shaft to selectively install the rack gear 174. The pinion gear 173 for raising and lowering is provided.

Referring to the operation and effect of the second embodiment of the height adjustment device of the present invention prefabricated vinyl house roof configured as described above are as follows.

First, the second embodiment of the present invention is to facilitate the assembly and disassembly of the vinyl house, and in particular to adjust the height of the roof of the vinyl house to selectively adjust the lifting and lowering, especially in the summer season to increase the height of the roof of the vinyl house and use the winter season It lowered the height of the roof of the vinyl house, consequently reducing the space inside the vinyl house, saving about 30-40% of energy.

Figure 6 (b) of the present invention for this purpose is a state diagram before the second roof lowering operation unit applied to the present invention is lowered, Figure 6 (c) is a state diagram after the second roof lowering operation unit applied to the present invention is lowered. 6 (b), when the driving motor 171 shown in FIG. 6 (a) is driven, the plurality of pinion gears 173 arranged at regular intervals on the shaft 172 rotate forward. When the pinion gear 173 is rotated forward, the rack gear 174 interlocks with each other and the roof frame 110 descends as shown in FIG. 6 (c). On the contrary, the drive motor 171 and the pinion gear ( When 173 is reversely rotated, the rack gear 174 meshed with the rack gear 174 is raised to raise the roof frame 110 as shown in FIG. 6 (b).

Therefore, the second embodiment of the present invention is to simply adjust the height of the roof frame (110).

In addition, the technical configuration of the third embodiment of the present invention will be described.

That is, as shown in Figure 7 is provided with a third roof lowering operation unit 180, to raise and lower the roof frame 110 by a hydraulic or pneumatic cylinder 181, a plurality of at regular intervals on the ground Is fixedly installed, and the fixing support 120 is formed with holes 121 and 122 so that hydraulic or pneumatic inflow and outflow are provided.

In addition, the lower end is fitted to each fixed support 120, the upper end is a variable support 182 is fixed to the roof frame 110;

Referring to the operation and effect of the third embodiment of the height control device of the present invention prefabricated vinyl house roof configured as described above are as follows.

First, the third embodiment of the present invention is to facilitate the assembly and disassembly of the vinyl house, and in particular, to adjust the height of the roof of the vinyl house to selectively raise and lower, especially in the summer season to increase the height of the roof of the vinyl house and heating in winter It lowered the height of the roof of the vinyl house, consequently reducing the space inside the vinyl house, saving about 30-40% of energy.

Figure 7 (a) of the present invention for this purpose is a state diagram before the third roof lowering operation portion applied to the present invention, Figure 7 (b) is a state diagram after the third roof lowering operation portion applied to the present invention is lowered. to be.

That is, when hydraulic or pneumatic flows through the upper hole 122 in the state as shown in FIG. 7 (a), the variable support 182 is lowered, and as a result, the roof frame 110 connected thereto is lowered. When hydraulic or pneumatic flows through the 121, the variable support 182 is raised, and as a result, the roof frame 110 is raised.

At this time, the variable support 182 is a sliding up and down operation in the interior of the fixed support 120, a protrusion is formed at the end to prevent the departure from the outside.

Therefore, the third embodiment of the present invention is to simply adjust the height of the roof frame (110).

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.

It is to be understood that the invention is not to be limited to the specific forms thereof which are to be described in the foregoing description, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

The technical idea of the height adjustment device of the roof of the prefabricated vinyl house of the present invention is actually capable of repeating the same result. Particularly, by implementing the present invention, it is possible to promote the technological development and contribute to the industrial development, thus it is worth protecting.

Description of the Related Art
100: plastic house 110: roof frame
120: stationary support 160: first roof lift operation unit
170: second roof lowering operation unit 180: third roof lowering operation

Claims (8)

delete In the height control device of the prefabricated vinyl house roof, the plurality of first, second, third roof lift operation unit provided at regular intervals to prevent typhoon damage and energy saving selectively lift and operate the roof frame of the vinyl house,
A plurality of automatic driven parts 140 are respectively provided between both ends of the roof frame 110 and the upper part of the first roof lowering operation part 160, and the automatic driven parts 140 are provided at the front of the roof frame 110. Height control device of the prefabricated vinyl house roof, characterized in that the drive unit 130 to selectively operate.
The method of claim 2,
The drive unit 130,
The bevel gear module 131 provided in the housing 132 is operated by the driving motor 134 to rotate the shafts 133 on both sides.
The plurality of automatic driven unit 140,
It is operated by the rotation of the shaft 143, by operating a plurality of bevel gear module 141 provided in the interior of the housing 142, each of the pre-operated automatic drive part connected to another shaft in operation Height adjustment of the roof of the vinyl house.
The method of claim 2,
The first roof lowering operation unit 160,
A screw rod 161 connected to each of the automatic driven parts 140 and operating in reverse rotation;
A screw protection tube 162 fixedly installed at a lower end of the roof frame 110 to move up and down by reverse rotation of the screw rod;
Fixing nut 163 is fastened to the outer circumferential surface of the screw protective tube 162 and
The lower end is fixedly installed on the ground, the upper end is fitted into the inside of the screw protection tube, the screw support tube 162 is fixed to the support holder 120 for sliding operation up and down; height adjustable device of the prefabricated house roof .
The method of claim 2,
Among the plurality of automatic driven parts 140, the front end or the rear rear end of the driving motor 134 of the drive unit 130 is broken down or manual power to manually operate the automatic driven part 140 when no power is applied. Height control device of the prefabricated vinyl house roof, characterized in that the eastern 150 is provided.
The method of claim 5,
The passive driven part 150,
To operate the bevel gear module 151 provided in the housing 152, an extension rod 154 extending to the tip of any bevel gear and a tip of the extension rod 154 are rotated by hand to bevel gear module. Height of the prefabricated vinyl house roof, characterized in that the handle 155 and the shaft 153 to be rotated by the operation of the bevel gear module is provided.
The method of claim 2,
The second roof lowering operation unit 170,
Fixing support 120 is fixed to a plurality of fixed spaces on the ground installed;
A lower end of each rack is fitted to the fixing support 120, the upper end of the rack gear 174 is fixed to the roof frame 110; And
Rotating the shaft 172 elongated in the longitudinal direction by the driving of the driving motor 171 provided on both sides of the front of the vinyl house 100 is built up at regular intervals on this shaft to selectively win the rack gear 174. Height adjustment device of the prefabricated vinyl house roof, characterized in that the pinion gear (173) for lowering operation is provided. delete

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