JP4261000B2 - Ventilation equipment in a greenhouse - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a ventilator in a greenhouse, which is a greenhouse for animal and plant cultivation, in which a transparent or translucent synthetic resin sheet is spread on the outer periphery of a framework.
[0002]
[Prior art]
In general, greenhouses called plastic houses and pipe houses have a high temperature inside the arch pipes, and the inside of the house becomes hot, which adversely affects the animals and plants to be cultivated, or for workers working in the house. Is very hot and very difficult to work with.
[0003]
For this reason, conventionally, a ventilation device is attached to an arbitrary position such as a side surface, a roof surface or a valley portion of the house, and the temperature inside the house is adjusted by connecting or shutting off the inside of the house by winding up or rewinding the sheet. It is normal to plan.
[0004]
As shown in FIG. 14, the ventilation device in this case includes a pipe 2 that is a winding shaft around which one end of a sheet 1 is wound, a rotation driving member 4 that is connected to one end of the pipe 2 via an output shaft 3, and a rotation driving member. 4 and a handle 5 coupled via an input shaft. In this case, the power transmission mechanism, the output shaft, and the input shaft are integrally incorporated in the housing 6 of the rotary drive member 4, and a handle 5 or an electric drive mechanism is provided at the end of the housing 6, and the housing. 6 is held by a guide pipe P standing on the ground.
[0005]
When the lower end of the seat 1 is wound around the pipe 2 and the handle 5 is rotated, the pipe 2 rotates, the pipe 2 rises while winding the seat 1, and an opening A for ventilation is formed below the seat 1. When 5 is rotated in the opposite direction, the sheet 1 is rewound and the opening A is blocked.
[0006]
Normally, the rotary drive member 4 is guided by the guide pipe P and moves up and down, but it may be fixed to the guide pipe P or may not move up and down for some reason.
[0007]
When the rotary drive member 4 is fixed in this way, the proximal end of the pipe 2 and the housing 6 are not displaced, the intermediate body portion and the distal end side of the pipe 2 are raised while winding up the seat 1, and the pipe 2 is bent. To do. For this reason, the opening A is formed for a long time in the bent state, and when it is further rewound, it is lowered in the bent state. When the pipe 2 is bent in this way, an excessive load is applied to the connection position of the proximal end of the pipe 2 and a part of the pipe 2 is deformed or damaged, making it difficult to reuse. There is a bug that breaks.
[0008]
For this reason, for example, as shown in Utility Model Registration No. 3035056, an excessive load is not applied to the pipe while it is rising while winding the sheet, and deformation, breakage, and disconnection of the pipe are prevented. In addition, a ventilation device for a greenhouse has been developed that can prevent damage to the entire mechanism and ensure safety.
[0009]
This ventilator interposes a telescopic rod between a winding shaft pipe and a rotary drive member, and a hollow coupling or universal joint coupled to the tip of the telescopic rod. The base end is coupled to the rotary drive member, and one end of the pipe is coupled to the distal end of the coupling or universal joint.
[0010]
[Problems to be solved by the invention]
The conventional ventilation device described in the above publication has a remarkable effect that the elastic rod absorbs an excessive load acting on the pipe, and when the seat is rolled up, the pipe and the elastic rod rotate smoothly. However, at the initial stage when rewinding the seat from the fully open position, the retractable rod is bent, so the sliding resistance is large and it can not be compressed smoothly, and as a result the pipe does not rotate smoothly, There are cases where the sheet cannot be rewound or the operation of rewinding the sheet is extremely difficult.
[0011]
Therefore, an object of the present invention is to ventilate a plastic house in which a retractable rod is smoothly compressed when the sheet is rewound from a fully opened position where the sheet is wound, and the pipe and the retractable rod can be quickly lowered while rewinding the sheet. Is to provide a device.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, one means of the present invention is to couple a winding shaft to a rotary drive member via a telescopic rod and wind one end of a sheet stretched on the frame of the greenhouse around the winding shaft. In a ventilation device in a greenhouse that winds or rewinds a sheet by rotating the winding shaft in one direction via a rotation drive member, a weight is attached near the proximal end of the winding shaft or the distal end of a telescopic rod. It is characterized by.
[0013]
Similarly, another means is to couple the winding shaft to the rotation driving member via a telescopic rod, wind one end of the sheet extended on the frame of the greenhouse around the winding shaft, and wind the winding shaft through the rotation driving member. In a ventilation device in a greenhouse that winds or rewinds a sheet by rotating in one direction, a spring member that urges the winding shaft or the retractable rod downward near the proximal end of the winding shaft or the distal end of the retractable rod Is provided.
[0014]
In this case, the spring member is preferably made of a coil spring, a rubber string, a band, a stretchable elastic band, or a combination thereof.
[0015]
Similarly, another means is to couple the winding shaft to the rotation driving member via a telescopic rod, wind one end of the sheet extended on the frame of the greenhouse around the winding shaft, and wind the winding shaft through the rotation driving member. In a ventilation device in a greenhouse that winds or rewinds a sheet by rotating in one direction, one end of the string is connected to the vicinity of the base end of the winding shaft or the tip of the telescopic rod, and the lower end of the string is connected to the greenhouse. It is characterized by being fixed to the lower frame.
[0016]
In the above two means, one end of another cord or band is connected to the vicinity of the proximal end of the winding shaft or the tip of the telescopic rod, and the upper end of the string or the band is provided on the upper frame or the frame of the greenhouse. It is preferable to fix to an attachment member independent of the attachment member or the frame.
[0017]
Similarly, another means is to couple the winding shaft to the rotation driving member via a telescopic rod, wind one end of the sheet extended on the frame of the greenhouse around the winding shaft, and wind the winding shaft through the rotation driving member. In a ventilation device in a greenhouse that rolls up or rewinds a sheet by rotating in one direction, the retractable rod is composed of an outer tube and an inner tube that is movably inserted into the outer tube. A spring for biasing the inner tube in the compression direction is interposed between the two.
[0018]
In each of the above means, a first universal joint is provided between the base end of the telescopic rod and the rotation drive member, and a second universal joint is provided between the tip of the telescopic rod and the base end of the winding shaft. It is preferable to provide it.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0020]
The ventilation apparatus 10 of the greenhouse B which concerns on this invention is arrange | positioned at the side surface side of the said greenhouse B, for example, as shown in FIG.1, FIG.2, FIG.3. The greenhouse B is made of an arch-shaped pipe 11 and a transparent or translucent vinyl or the like which is stretched on the outer surface of the arch-shaped pipe 11 through a fixing member 14 of a sheet composed of a dovetail frame 14a and a locking filament 13. It is composed of a synthetic resin sheet 1.
[0021]
The end portion of the seat 1 is wound around a shaft 12 having a telescopic rod 20 and a winding shaft 22, and is wound up or rewound by rotating the shaft 12 to open and close the ventilation opening A on the side surface. The opening A may be formed on a roof surface or a valley of a continuous house.
[0022]
As shown in FIG. 2, one embodiment of the ventilating apparatus 10 according to the present invention winds one end of a sheet 1 stretched on a frame of a greenhouse B around a shaft 12, and the shaft 12 is interposed via a rotation drive member 15. The sheet 1 is wound or rewound by rotating in one direction. A feature of the embodiment of FIG. 2 is that a weight K is provided near the proximal end of the winding shaft 22. Hereinafter, the mounting structure of the shaft 12 will be described in detail.
[0023]
As shown in FIGS. 2 to 4, a reinforcing frame 16 is integrally connected to the rotation drive member 15, and one or a plurality of mounting holes 17 are provided in the reinforcing frame 16, and the arch pipe 11 that forms the framework of the greenhouse B is provided. A horizontal support rod 18 fixed to the mounting hole 17 is inserted into the mounting hole 17. Further, the shaft 12 includes a first universal joint 19 coupled to the rotation drive member 15, a telescopic rod 20 coupled to the first universal joint 19, and a second joint coupled to the tip of the telescopic rod 20. The universal joint 21 includes a winding shaft 22 formed of a pipe coupled to the second universal joint 21.
[0024]
The rotation drive member 15 includes a housing 23 and a rotation transmission mechanism that is provided in the housing 23 and transmits a rotation input from the input shaft 24 to the output shaft 25, and the proximal end of the first universal joint 19 is connected to the output shaft 25. Are connected via a bolt 26. The reinforcing frame 16 is formed integrally with the housing 23, and a plurality of, for example, two mounting holes 17 are formed in the reinforcing frame 16 in parallel with the output shaft 25.
[0025]
The telescopic rod 20 includes an outer tube 27 and an inner tube 28 slidably inserted into the outer tube 27, and can be raised and lowered while extending and contracting via the first universal joint 19 at the base end. Yes. The winding shaft 22 is interlocked with the telescopic rod 20 via the second universal joint 21, but even if the telescopic rod 20 is raised and lowered, the second universal joint 21 is bent and the winding shaft 22 is always horizontal. Is retained.
[0026]
A weight K is attached to the proximal end of the winding shaft 22 so that the shaft 12 is constantly weighted downward. The weight K may be provided at the tip of the telescopic rod 20, for example, near the upper end of the inner tube 28. The weight K improves the slidability of the telescopic rod 20 by applying a weight downward. As shown in FIGS. 6 and 7, the weight K includes, for example, a ring K1 and a cylindrical portion K2, and the cylindrical portion K2 is fixed to the winding shaft 22 with a bolt.
[0027]
The support rods 18 are arranged in parallel in two upper and lower sides and are respectively coupled to the arch pipe 11 through joints 29. The end portions of the support rods 18 are inserted into the mounting holes 17 and fixed with bolts 30. When the support rod 18 is fixed to the frame of the greenhouse B, the rotary drive member 15 is also directly fixed to the frame of the greenhouse B. At the same time as the assembly of the greenhouse B, the entire ventilator 10 is also fixed to the greenhouse B. It will be fixed directly attached to itself. The support rod 18 may be coupled to the frame after the greenhouse B is assembled.
[0028]
The shaft 12 is rotationally driven by a turning operation of a handle 31 coupled to the input shaft 24 in the rotational drive member 15. The housing 23 and the reinforcing frame 16 are fixed by two upper and lower support rods 18 and 18 so as not to rotate when the handle 31 is rotated.
[0029]
However, one mounting hole having a rectangular cross section is formed in the reinforcing frame 16, and as shown in FIGS. 5A, 5B, 5C, and 5D, prismatic pipes a and b, an L-shaped angle c, You may attach using the C-type channel d etc. as a support rod.
[0030]
The reinforcement frame 16 is provided with a plurality of blades 32 for increasing the strength of the frame body. The blade 32 may be omitted, and another reinforcing member may be used.
[0031]
As shown in FIGS. 1 and 2, for example, when the handle 31 is rotated in one direction, the shaft 12 is rotated in the same direction, the seat 1 is wound up, the opening A is opened, and the handle 31 is rotated in the other direction. Then, the sheet 1 is rewound and the opening A is closed. At this time, for example, when the seat 1 is rolled up, the output shaft 25 is fixed, so that the telescopic rod 20 is tilted while rotating via the first universal joint 19, and the upper universal joint 21 is bent. At the same time, the winding shaft 22 around which the sheet 1 is wound moves while winding the sheet 1 while rotating in a horizontal state.
[0032]
Furthermore, as shown in FIG. 6, when the seat 1 is rewound from the fully open state at the position of the arrow X, the weight K generates a force that pushes the shaft 12, particularly the upper end of the inner tube 28 downward, so that it can expand and contract. The smooth rod 20 smoothly slides in the compression direction, whereby the winding shaft 22 also smoothly rotates and the sheet 1 can be easily rewound.
[0033]
FIG. 8 relates to another embodiment of the present invention, in which a coil spring L as a spring member for biasing the winding shaft 22 downward is attached in the vicinity of the proximal end of the winding shaft 22. The lower end of the coil spring L is fixed to a frame below the greenhouse B or an anchor bolt on the ground. The coil spring L may be provided in the vicinity of the distal end of the telescopic rod 20, for example, the inner tube 28. In this case, since the coil spring L positively pulls the shaft 12 downward when the sheet 1 is rewound from the fully opened state, the elastic rod 20 is smoothly compressed by the momentum, and as a result, the sheet 1 is rewound. Becomes smooth. The spring member may be a rubber string instead of the coil spring L, an elastic and wide elastic band, or a combination thereof.
[0034]
Similarly, FIG. 9 shows another embodiment of the present invention, in which one end of a string M is connected to the vicinity of the tip of the telescopic rod 20 and the lower end of the string M is fixed to the lower frame of the greenhouse B. Is. The string M may be coupled to the winding shaft 22 side. The string M is unwound when the retractable rod 20 is in the fully open position, and gradually winds as the retractable rod 20 descends, and pulls the retractable rod 20 downward as it winds, so that the retractable rod 20 is retractable. The slidability in the compression direction of the rod 20 is improved. A wide band may be used instead of the string M.
[0035]
In the embodiment shown in FIG. 8 and FIG. 9, one spring member, string M or band is provided, but another string M or band is coupled to the telescopic rod 20 or winding shaft 22, The other end of the string M or band may be fixed to the upper frame, and the two strings M or bands may be wound in opposite directions.
[0036]
That is, as in the embodiment shown in FIG. 10, the lower spring member W and the upper wide band 30 or string may be coupled in the vicinity of the proximal end of the winding shaft 22, and the embodiment shown in FIG. As described above, the lower band 33 or the string and the upper band 30 may be coupled in the vicinity of the proximal end of the winding shaft 22.
[0037]
In the embodiment of FIG. 10, the lower spring member W connects the band 30a and the coil spring 32 in series, the upper end of the band 30a is connected to the winding shaft 22, and the lower end of the coil spring 32 is connected to the lower frame of the greenhouse. It is connected to anchor bolts and other fasteners that are mounting members on the ground, and another upper band 30 is connected to the winding shaft 22 at the lower end and fixed to the upper frame of the greenhouse. In this case, at the fully closed position S of the sheet indicated by the dotted line, the lower band 30a is wound around the winding shaft 22 and the upper band 30 is fully rewound. The upper end of the upper band 30 may be coupled to an attachment member provided on the frame or an attachment member provided independently of the frame.
[0038]
When the shaft 12 is rotationally driven by the handle 31 from the fully closed position S, the opening 1 is gradually opened by winding and lifting the sheet 1 around the winding shaft 22. At this time, the lower band 30a is rewound, and the upper part The band 30 is wound around the winding shaft 22. In this case, since the winding diameter (winding amount) of the upper band 30 wound around the winding shaft 22 is small and the winding diameter of the lower band 30a is large at a position below the neutral position in FIG. The lower band 30a is wound a lot with respect to the amount of rotation. As a result, the coil spring 32 extends and pulls the lower band 30a downward.
[0039]
In the illustrated neutral position, the upper and lower bands 30, 30a have the same winding diameter with respect to the winding shaft 22, and the coil spring 32 becomes neutral. When the position is further raised from this position to the fully open position T, the winding diameter of the upper band 30 is increased, and the winding diameter of the lower band 30a is decreased. Pull 30a downward.
[0040]
The upper band 30 that rotates the shaft 12 in the reverse direction from the fully open position T via the handle 31 is rewound, and the lower band 30 a starts to wind around the winding shaft 22. However, at this time, since the winding diameter of the lower band 30a is smaller than the winding diameter of the upper band 30, it becomes easy to sag. However, since the coil spring 32 pulls it downward, it is prevented from sagging.
[0041]
Furthermore, since the coil spring 32 pulls the entire shaft 12 downward through the winding shaft 22 at the initial stage of lowering, the telescopic rod 20 is compressed smoothly, and a similar lower band 30a is wound around the winding shaft 22, The belt 30 is rewound, and the winding shaft 22 smoothly rotates and descends to the fully closed position S. The coil spring 32 is neutral in the neutral state shown in the figure, and when it further moves downward from this position, the coil spring 32 starts to extend again. Similarly, in the embodiment of FIG. However, it is rewound to a position close to the fully open position, but from the position where the entire amount has been rewound, a tension is generated that pulls the winding shaft 22 downward. Therefore, at the initial stage of shifting from the fully open position to the closing direction, the winding shaft 22 is pulled downward by the pulling force of the lower band 33, the telescopic rod 20 is compressed smoothly, and the unwinding operation of the seat 1 can be performed smoothly. The
[0042]
Further, FIG. 12 shows another embodiment of the present invention, in which a spring N that always pulls the inner tube 28 in the compression direction is interposed between the inner lower end of the outer tube 27 and the lower end of the inner tube 28. It is. In this case, when the sheet 1 is rewound from the fully opened position, the spring N actively pulls the inner tube 28 downward, so that the slidability of the telescopic rod 20 is improved and the sheet 1 can be rewound smoothly. . The spring N may be provided on the outer periphery or above the inner tube 28 to push the inner tube 28 in the compression direction.
[0043]
FIG. 13 shows another embodiment of the present invention, in which a rotary drive member 15 is attached so as to be swingable. In this embodiment, since the rotary drive member 15 swings and can directly lift the retractable rod 20, the first universal joint 19 at the base when compared with the embodiment of FIG. 2 is omitted. .
[0044]
As in the case of FIG. 2, the ventilation device 10 shown in FIG. 13 winds one end of the sheet 1 stretched on the frame of the greenhouse B around the shaft 12 and rotates the shaft 12 in one direction via the rotation drive member 15. By doing so, the sheet 1 is rolled up or rewound. Further, the weight K is attached to the shaft 12 in the same manner. In this case, the rotation drive member 15 is swingably attached to the bracket 33 via the reinforcing frame 16a, the bracket 33 is attached to the support rod 18 fixed to the frame of the greenhouse B, and the shaft 12 is attached to the rotation drive member 15. This is composed of a stretchable rod 20 that is coupled, a universal joint 21 that is coupled to the tip of the stretchable rod 20, and a winding shaft 22 that is coupled to the universal joint 21. In place of the weight K, the spring L shown in FIG. 8, the string M shown in FIG. 9, other spring members, rubber strings, and the spring N shown in FIG. 12 may be used.
[0045]
The bracket 33 is formed, for example, in a plate shape, and the reinforcing frame 16a and the housing 25 of the rotation drive member 15 are attached to the bracket 33 via a rotation shaft or the like so as to be movable in the arrow Y direction. The housing 25 may be directly swingably coupled to the bracket 33. As shown in the figure, the bracket 33 is fixed to the two support rods 18 via the presser fittings 34, but mounting holes are formed in the bracket 33 to form the support rod 18 or the support rods a, b, shown in FIG. c. d may be inserted.
[0046]
In this embodiment, when the handle 31 is rotated, the shaft 12 is rotated to wind up or rewind the seat 1, or at this time, when the telescopic rod 20 is tilted, the housing 15 swings in the tilt direction. ing. The ventilator is provided on the side surface of the greenhouse B, but it may be provided on the wife surface or the roof surface.
[0047]
【The invention's effect】
The present invention has the following effects.
[0048]
According to the invention of each claim, the weight is applied to the telescopic rod, and the force in the compression direction is urged by the spring member, the spring, the string, the belt, etc., so the initial stage of rewinding the seat from the fully opened position where the shaft is raised The telescopic rod automatically tries to slide in the compression direction, and as a result, the telescopic rod compresses smoothly and the winding shaft rotates smoothly, so the sheet can be easily unwound quickly and quickly. Workability can be improved.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view of a greenhouse equipped with a ventilation device according to an embodiment of the present invention.
2 is a partially enlarged perspective view of the ventilation device of FIG. 1. FIG.
FIG. 3 is an exploded perspective view of FIG. 2;
FIG. 4 is an enlarged perspective view of a rotation driving member.
FIGS. 5A, 5B, 5C, and 5D are partially cutaway perspective views according to each embodiment of a support rod.
6 is an enlarged side view of FIG. 1. FIG.
7 is a partially enlarged perspective view of a weight portion in FIG. 6. FIG.
FIG. 8 is a schematic side view of a greenhouse according to another embodiment.
FIG. 9 is a schematic side view of a greenhouse according to another embodiment.
FIG. 10 is a schematic side view of a greenhouse according to another embodiment.
FIG. 11 is a schematic side view of a greenhouse according to another embodiment.
FIG. 12 is a partially longitudinal side view according to one embodiment of a telescopic rod.
FIG. 13 is a partially enlarged perspective view of a ventilator according to another embodiment.
FIG. 14 is a partially cutaway perspective view of a conventional ventilation device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Seat 10 Ventilator 12 Shaft 15 Rotation drive member 16 Reinforcement frame 17 Mounting hole 18 Support rod 19 First universal joint 20 Telescopic rod 21 Second universal joint 22 Winding shaft 23 Housing 24 Input shaft 25 Output shaft 27 Outer Tube 28 Inner tube 30, 31, 33 Band 33 Bracket B Plastic house K Weight L Spring M String N Spring W Spring member

Claims (7)

The winding shaft is coupled to the rotation drive member via a telescopic rod, one end of a sheet stretched on the frame of the greenhouse is wound around the winding shaft, and the winding shaft is rotated in one direction via the rotation drive member. A ventilator in a greenhouse, wherein a weight is attached in the vicinity of the proximal end of the winding shaft or in the vicinity of the distal end of the telescopic rod. The winding shaft is coupled to the rotation drive member via a telescopic rod, one end of a sheet stretched on the frame of the greenhouse is wound around the winding shaft, and the winding shaft is rotated in one direction via the rotation drive member. In the ventilation device in a greenhouse that winds up or rewinds the sheet, a spring member that biases the winding shaft or the retractable rod downward is provided near the proximal end of the winding shaft or near the distal end of the retractable rod. Ventilator in a greenhouse. 3. The ventilation apparatus for a greenhouse according to claim 2, wherein the spring member is made of a coil spring, a rubber string, a band, a stretchable elastic band, or a combination thereof. The winding shaft is coupled to the rotation drive member via a telescopic rod, one end of a sheet stretched on the frame of the greenhouse is wound around the winding shaft, and the winding shaft is rotated in one direction via the rotation drive member. In the ventilation device in the greenhouse that winds up or rewinds the sheet, one end of the string or band is coupled near the proximal end of the winding shaft or near the distal end of the retractable rod, and the lower end of the string or band is placed below the greenhouse A ventilation device in a greenhouse, which is fixed to a frame or a mounting member. One end of another string or band is connected near the proximal end of the winding shaft or near the tip of the telescopic rod, and the upper end of the string or band is independent from the upper frame of the greenhouse, the mounting member provided on the frame, or the frame The ventilation device in a greenhouse according to claim 3 or 4, wherein the ventilation device is fixed to the mounting member. The winding shaft is coupled to the rotation drive member via a telescopic rod, one end of a sheet stretched on the frame of the greenhouse is wound around the winding shaft, and the winding shaft is rotated in one direction via the rotation drive member. In the ventilation device in the greenhouse that winds up or rewinds the seat, it consists of an outer tube and an inner tube that is movably inserted into the outer tube, and the inner tube is placed between the outer tube and the inner tube. A ventilating apparatus for a greenhouse, comprising a spring biased in the compression direction. A first universal joint is provided between the base end of the telescopic rod and the rotary drive member, and a second universal joint is provided between the tip of the telescopic rod and the base end of the winding shaft. A ventilator in a greenhouse according to claim 1, 2, 3, 4, 5, or 6.

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