KR20130056409A - Vantilation system of vinyl-house using solar - Google Patents

Abstract

PURPOSE: A ventilation system is provided to eject moisture and heat from within a vinyl house by an operating fan apparatus which is installed in the vinyl house using sunlight. CONSTITUTION: A pair of length pipes is installed in a longitudinal direction of a vinyl house. A pair of width pipes is installed in an orthogonal direction of the length pipes. Four grip units(32) are respectively fixed to the length pipes and width pipes. A mounting unit(34) is formed at the center of the four grip units. A gear motor is fixed in the center of a supporting unit(36) of a body(30). A fan(50) is rotated and axially connected to the motor shaft(41) of a speed reduction motor. A detecting sensor(60) senses humidity and temperature within the vinyl house. The speed reduction motor is inserted and fixed to a fixing unit(37) with a strip shape, which is separately formed on the inner center part of the supporting unit. A fixing unit forms several ventilation spaces(38) between multiple connecting rods(39) by being connected to supporting unit with the connecting rods.

Description

Ventilation system of vinyl-house using solar

The present invention relates to a ventilation system of a plastic house, and more particularly, to operate a fan apparatus installed in a plastic house using sunlight to discharge moisture and heat in the plastic house to the outside. Relates to a ventilation system.

In general, the greenhouse is installed in the house to discharge the moisture and heat inside. This type of wind is driven by a manual wind driven by natural wind and an automatic driven by electric.

However, because the manual method is driven by natural wind, the fan does not operate at a constant speed and the speed is inconsistent, so that the amount of moisture and heat to the outside is low, and thus, it is impossible to discharge the desired moisture and heat. . In addition, there was a problem that the function is lost on a windless day.

The automatic method using electricity used to compensate for this drawback has a problem that not only consumes a lot of electricity because it uses the general electricity (220V), but also provides a risk of electric shock to farmers.

The present invention has been invented to solve the problems of the prior art as described above, by operating the fan apparatus installed in the plastic house using the solar light to save electricity by discharging the moisture and heat in the plastic house to the outside It is an object of the present invention to provide a ventilation system of a vinyl house using solar light to control humidity and temperature, and to provide safety to the user.

In order to achieve the above object, the present invention provides a ventilation system for discharging moisture and heat inside the vinyl house to the outside, the pair of longitudinal pipes installed in the longitudinal direction of the vinyl house, and in the orthogonal direction of the longitudinal pipes; A pair of transverse pipes to be installed, and four grippers positioned in the square space between the longitudinal pipes and the transverse pipes and fixed to the longitudinal and transverse pipes, respectively, are formed, and a seat is formed at the center of the four grippers. A body in which the support portion extends downwardly on the lower side of the part, a deceleration motor fixedly installed at the center side of the support portion of the body, and a fan which is fixedly seated on the seating portion of the body and axially connected to the motor shaft of the reduction motor; It is installed on the support of the body and connected to the sensing sensor for sensing the humidity and temperature inside the plastic house, the reduction motor and the sensor The solar cell is attached to the photovoltaic module to generate electricity, the inverter to vary the current generated by the photovoltaic module to supply to the power system, the deceleration motor, the sensor and the inverter connected to control the operation It provides a ventilation system of a vinyl house using solar light, characterized in that consisting of a controller.

The ventilation system of the vinyl house using the solar light according to the present invention made as described above can be used to generate environmentally friendly electricity by driving the solar cell apparatus installed in the vinyl house using solar energy, thereby eliminating the need for commercial electricity. There is an advantage to reduce the cost.

In addition, by attaching and installing a sensor to measure the humidity and temperature in the plastic house there is an advantage that can always maintain the appropriate humidity and temperature in the plastic house.

1 is an installation perspective view of a ventilation system of a plastic house using sunlight according to the present invention;
2 is a perspective view of the fan according to the present invention;
3 is an exploded perspective view of the fan according to the present invention;
Figure 4 is an installation state of the ventilation system of another embodiment according to the present invention,
5 is an installation configuration diagram according to the present invention.

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

1 to 5, the ventilation system of the vinyl house using sunlight according to the present invention is a pair of longitudinal pipes (11, 12) and transverse pipes (21, 22), longitudinal pipes (11, 12) and transverse Body 30, which is located between the pipe (21, 22) is fixed, the reduction motor 40 is fixed to the body 30, 휀 (50) connected to the reduction motor 40, which is installed on the body 30 The sensor 60, a solar module 70 for generating electricity, an inverter 80 for changing the current, the controller 90 for controlling the overall operation.

Ventilation system of a vinyl house using sunlight according to the present invention is a system for discharging moisture and heat inside the vinyl house (2) to the outside, a pair of species in the longitudinal direction of the plastic house (2) as shown in FIG. Pipes 11 and 12 are provided, and a pair of transverse pipes 21 and 22 are provided in the orthogonal direction to the longitudinal pipes 11 and 12, and between the longitudinal pipes 11 and 12 and the transverse pipes 21 and 22, respectively. The square space portion 4 is configured to be formed.

The longitudinal pipes 11 and 12 and the transverse pipes 21 and 22 which are installed in the orthogonal directions to each other are applied to a generally used vinyl house 2 having a cross section dome shape as shown in FIG. 1, and as shown in FIG. 4. It is mainly applied to the vinyl house (2) of the rectangular cross-section that is installed in a large size, in addition to this can be applied to any kind of vinyl house (2).

The body 30 is fixedly installed in the rectangular space portion 4 formed between the longitudinal pipes 11 and 12 and the horizontal pipes 21 and 22.

The body 30 is grippers 32 fixed to longitudinal pipes 11 and 12 and transverse pipes 21 and 22 respectively positioned on four sides of the rectangular space portion 4 as shown in FIGS. 2 and 3. And a seating portion 34 is formed on the center side of the four grip portions 32 formed to correspond to the longitudinal pipes 11 and 12 and the lateral pipes 21 and 22, and the lower portion of the seating portion 34. The side is formed by extending the supporting portion 36 downward.

The gripping portion 32 is formed in a tubular shape having a semi-circular cross section in which the lower side is opened and the upper side is closed, as shown in FIG. It is preferable to be seated and fixed while inserting from the upper side to the lower side on the rectangular space portion 4 between the lateral pipes (21, 22).

However, in addition to the above-described shape, the gripping portion 32 may be formed in various configurations or structures.

It is preferable that the body 30 is integrally formed, and may be separated and formed as necessary to be used in a coupling manner.

The reduction motor 40 is fixedly installed at the center of the support part 36 of the body 30 including the grip part 32, the seating part 34, and the support part 36. The reduction motor 40 forms a band-shaped fixing part 37 at an inner center of the support part 36 so as to be fitted to the fixing part 37, and the fixing part 37 has a plurality of connecting parts 39. It is connected to the support portion 36 by the configuration. In addition, a ventilation space 38 for discharging moisture and heat inside the vinyl house 2 to the outside by spaces between the plurality of connecting rods 39 is formed.

The deceleration motor 40 is connected to the fan 50, which is a means for discharging moisture and heat inside the plastic house 2 to the outside. The shock 50 is inserted and seated in the seating part 34 of the body 30, and is rotated by being connected to the motor shaft 41 of the reduction motor 40.

The support part 36 of the body 30 is attached to the detection sensor 60 for detecting the humidity and temperature inside the plastic house (2). The humidity and temperature conditions measured by the sensor 60 are transmitted to the controller 90 to be described later.

The solar sensor 70 is connected to the detection sensor 60 and the reduction motor 40. The solar module 70 is installed outside the plastic house 2 and connected to the sensor 60 and the reduction motor 40, and attaches the solar cell 72 to generate electricity.

The solar module 70 is installed separately on the outside of the vinyl house 2, or may be installed on the outer wall of the vinyl house 2 itself depending on the installation environment, the installation place is not limited.

The photovoltaic module 70 generates a direct current electricity. In this case, an inverter 80 is provided to convert the direct current electricity into an alternating current electricity. The inverter 80 varies the current supplied from the solar module 70 and supplies it to the power system.

The controller 80 is connected to the inverter 80, the detection sensor 60 and the reduction motor 40 to control the operation.

As shown in FIG. 5, the controller 90 preferably includes a storage battery 91 so as to accumulate electricity generated by the inverter 80 and use it as a reserve power, and when the storage battery 91 lacks electricity. It is desirable to install and connect so that commercial electricity (DC 15V) can be used.

In addition, a small wind power generator (8) on the outside of the plastic house (2) for environmentally friendly electricity production in the event of a lack of electricity of the battery 91 may be configured to be used as a reserve power.

The controller 90 may be programmed to operate at a predetermined time period to automatically discharge moisture and heat inside the plastic house 2 to the outside.

In addition, the controller 90 may be configured to operate the fan 50 when the humidity or temperature is set to ventilate the inside of the vinyl house 2.

2: vinyl house 4: square space
8: small wind power generator 11, 12: longitudinal pipe
21,22: horizontal pipe 30: body
32: grip part 34: seating part
36: support portion 40: reduction motor
41: motor shaft 50: 휀
60: sensor 70: solar module
72 solar cell 80 inverter
90 controller 91 storage battery

Claims (8)

In the ventilation system to discharge moisture and heat inside the plastic house to the outside,
A pair of longitudinal pipes 11 and 12 installed in the longitudinal direction of the vinyl house 2;
A pair of transverse pipes (21, 22) installed in the orthogonal direction of the longitudinal pipes (11, 12);
Four gripping portions positioned in the square space portion 4 between the longitudinal pipes 11 and 12 and the transverse pipes 21 and 22 and fixed to the longitudinal pipes 11 and 12 and the transverse pipes 21 and 22, respectively. 32 is formed, the seating portion 34 is formed on the center side of the four grip portion 32, the support body 36 is formed extending downward in the lower side of the seating portion 34 and ;
A reduction motor 40 fixedly installed at the center of the support part 36 of the body 30;
A seat 50 fixed to the seating part 34 of the body 30 and connected to the motor shaft 41 of the reduction motor 40 to be rotated;
A detection sensor (60) installed at the support part (36) of the body (30) to sense humidity and temperature inside the plastic house (2);
A solar module 70 connected to the deceleration motor 40 and the detection sensor 60 and having a solar cell 72 attached thereto to generate electricity;
An inverter (80) for supplying a current generated by the solar module (70) to a power system;
The deceleration motor 40, a sensor sensor 60 and the inverter 80 is connected to the ventilation system of the plastic house using solar light, characterized in that made of a controller 90 to control the operation. The method of claim 1,
The gripping portion 32 is formed in a tubular shape having a semicircular cross section in which the lower side is opened and the upper side is closed, so that the body 30 having the gripping portion 32 is formed on the longitudinal pipes 11 and 12 and the horizontal pipe ( 21, 22, the ventilation system of the vinyl house using sunlight, characterized in that configured to be seated and fixed while inserting from the upper side to the lower side on the rectangular space portion (4). The method of claim 1,
The reduction motor 40 is fitted and fixed to a band-shaped fixing part 37 formed at an inner central portion of the supporting part 36, and the fixing part 37 is connected to the supporting part 36 by a plurality of connecting rods 39. The ventilation system of the plastic house using sunlight, characterized in that the connection is configured so that the ventilation space 38 is formed between the plurality of connecting rods (39). The method of claim 1,
The controller (90) is a ventilation system of a vinyl house using solar light, characterized in that the storage battery (91) inherent to be used as a reserve power by storing the electricity generated by the inverter (80). The method of claim 1,
The controller (90) is a ventilation system of a vinyl house using solar light, characterized in that the battery 91 is discharged and configured to use commercial electricity (DC 15V) in the event of electrical shortage. The method of claim 1,
The controller (90) is a vinyl house using sunlight, characterized in that the battery 91 is discharged and further provided with a small wind power generator (8) on the outside of the vinyl house (2) for use of reserve power in the event of an electrical shortage. Ventilation system. The method of claim 1,
The controller (90) is programmed to operate at a set time period, the ventilation system of a vinyl house using sunlight, characterized in that configured to automatically discharge the moisture and heat inside the plastic house (2) to the outside. The method of claim 1,
When the controller (90) reaches the set humidity or temperature, the fan (50) is operated to ventilate the interior of the vinyl house (2), characterized in that the ventilation system of the vinyl house using sunlight.

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