KR102262846B1 - Side window opening and closing apparatus for glass greenhouse - Google Patents

Abstract

The present invention, in a side window opening and closing apparatus for a glass greenhouse which is to ventilate the inside of the glass greenhouse and supply external air heat-exchanged by water to the inside of the glass greenhouse, comprises: heat exchange ports connected to a frame on the side of the glass greenhouse, spaced apart from the ground and provided with a plurality of heat exchangers spaced apart from each other; horizontal bars provided in the frame on the side of the glass greenhouse, spaced apart from the ground, and spaced apart from each other up and down, a pair of horizontal bars is provided by being spaced apart from each other up and down, and a plurality of horizontal bars are spaced apart from each other; mesh networks provided to prevent the inflow of pests or foreign substances and provided with a plurality of mesh networks spaced apart from each other; a pair of sliding guides provided in front of the mesh network perpendicular to the ground and spaced apart from each other on both sides, and a plurality of sliding guides are provided spaced apart from each other; side windows in which a plurality of side windows are spaced apart from each other while being space apart vertically on the sliding guide; closed frames having a sealing port and a plurality of closed frames are spaced apart from each other; lifting motors provided spaced apart from an upper part of the side window and fixed to the frame on the side of the glass greenhouse to provide rotational force, and a plurality of lifting motors are provided spaced apart from each other; an elevating shaft formed in a cylindrical shape on the upper part of the side window and a plurality of elevating shafts are spaced apart from each other; a control unit provided to be spaced apart from the side window and provided for controlling the lifting motor; a guide bar provided with a sensor and formed in an angle shape; a rotation detection sensor provided on the lifting motor to detect the number of rotations of the lifting motor and transmit the same to the control unit.

Description

Side window opening and closing apparatus for glass greenhouse

The present invention relates to a side window opening/closing device for a glass greenhouse, and more particularly, by easily opening or closing the side window according to the internal environment of the glass greenhouse to supply or block external air to the inside of the glass greenhouse, as well as having a side window adjacent to the side window The present invention relates to a side window opening and closing device for a glass greenhouse in which the temperature of the outside air supplied to the inside of the glass greenhouse is also easily controlled when the side window is opened due to a plurality of heat exchange ports

In general, a greenhouse refers to a structure for cultivating crops, such as plants, with a frame built up and covered with glass, plastic, or vinyl as the outer surface of the frame.

A glass greenhouse is a representative example of the greenhouse, and it can be said that a green house can be included in a greenhouse in a broad sense, but a glass greenhouse and a plastic house can be said to be separate facilities in terms of their utility.

Since this glass greenhouse was originally developed for the purpose of protecting plants from the cold and promoting growth during the low temperature of winter, it is a facility that artificially creates a suitable growth environment for plants to be grown. In such a prior art, a greenhouse structure in which an opening is formed in an outer wall at a certain height, and a ceiling and a floor at an inner point of the greenhouse structure while maintaining a predetermined distance from the outer wall of the greenhouse structure is provided in the inner wall to close the entire space between the ceiling and the floor of the inner point of the greenhouse structure spaced apart from the outer wall by a predetermined distance, and an inner wall in which an opening is formed at a predetermined height, and the opening of the outer wall of the greenhouse structure and the opening of the inner wall An opening/closing door composed of an outer wall opening/closing door and an inner wall opening/closing door for opening and closing the room, a heat exchange unit for controlling the temperature and humidity of the air inside the greenhouse structure, and between the lower part of the outer wall opening and closing door and the lower part of the opening of the outer wall A lower network member provided in the front side of the lower network member, a front side network member provided between the front side of the outer wall opening and closing door and the front side of the opening of the outer wall in a state in which the lower portion is connected to the front side of the lower network member, and the lower portion on the rear side of the lower network member A mesh member comprising a rear network member provided between the rear side of the outer wall opening/closing door and the rear side of the opening of the outer wall in a connected state, and each of the lower network member, the front side network member, and the rear network member having wrinkle portions formed therein and a connector formed at regular intervals on the upper portion of the lower network member, a connecting rod fixed to the connector, an elastic member having a lower portion fixed to the connecting rod, and a lower portion connected to the upper portion of the elastic member. A rod extending for a certain length in the upper direction of the opening and rotating the upper part in the vertical direction of the opening of the outer wall while the lower part of the outer wall opening/closing door rotates in the vertical direction of the outer wall, and the upper part of the rod is the lower part Guiding the rotational movement of the upper part of the rod that penetrates through the guide hole formed in the guide hole and enters the inside for a certain length, the upper part is fixed on the upper part of the opening of the outer wall, and rotates in the vertical direction of the opening of the outer wall A technology characterized in that it is composed of an id frame and includes a deformation preventing part to prevent deformation of the lower network member has been known as in Korean Patent Registration No. 10-2154478.

However, in the prior art as described above, when the outer wall opening and closing door provided to supply external air to the inside of the glass greenhouse is opened and closed in a semicircular shape, the waste of the site due to the rotation radius of the outer wall opening and closing door is reduced. In addition to being excessive, there were problems such as easily twisting or breaking the shape of the outer wall opening/closing door, the opening/closing member and the deformation preventing unit due to external environmental factors such as wind or snow.

In addition, in the prior art as described above, due to the mesh member provided to prevent foreign substances such as pests or dust from entering the inside of the glass greenhouse, when the outer wall opening/closing door is partially opened, noise is generated due to the movement of the mesh member by the wind. Not only that, but there was also a problem that the outer wall opening and closing door was not easily sealed due to the thickness of the mesh member.

Accordingly, there is a demand for a side window opening and closing device for a glass greenhouse that solves the problems of the related art as described above.

Registered Patent Publication No. 10-2154478

The present invention was invented to solve the problems of the prior art as described above, and it is easy to open and close the side window for supplying or blocking the outside air to the inside of the glass greenhouse, and the waste of the site due to the opening and closing of the side window is prevented, An object of the present invention is to provide a side window opening and closing device for a glass greenhouse in which the inflow of foreign substances such as pests or dust into the inside of the glass greenhouse is also prevented, and the temperature of the external air supplied to the inside of the glass greenhouse is also easily controlled.

In order to realize the above object, the present invention is provided so as to be able to open and close on the side of a glass greenhouse having a space for growth inside by the combination of a metal frame and a glass panel to promote ventilation inside the glass greenhouse and also provide water A side window opening/closing device for a glass greenhouse for supplying external air heat-exchanged to the inside of a glass greenhouse by means of a window opening and closing device for a glass greenhouse, connected to a frame on the side of the glass greenhouse and spaced apart from the ground to an upper part, and water and external air from the outside on the inside It is supplied and provided to change the temperature of the outside air, is formed of a pulp material and sprayed with water-tight paint on the outer surface, and its shape is formed in a corrugated shape so that the contact area between the outside air and water is wider than the unit area A heat exchanger plate is provided, and a water supply unit for receiving water from the outside and supplying it to the heat exchanger plate is formed on the upper part of the heat exchange plate, and a water receiving part for receiving water passing through the heat exchange plate and discharging to the outside is provided on the lower part of the heat exchange plate Formed and spaced apart from each other and provided with a plurality of heat exchangers, a pair of spaced apart from the ground and spaced apart from each other in a frame on the side of the glass greenhouse, each of which is formed in an H shape with an open top and bottom, is provided, and heat exchange A horizontal bar that is spaced apart from the front of the sphere and provided horizontally with the ground, a plurality of horizontal bars spaced apart from each other, and a pair of horizontal bars facing each other, are provided to prevent the inflow of pests or foreign substances, mutually A mesh network provided with a plurality of spaced apart, and a pair provided perpendicularly to the ground in front of the mesh network and spaced apart from each other on both sides are provided, each of which is formed in an H shape with both sides open and provided on the side of the glass greenhouse The rear is fixed to the frame of the upper body, and a plurality of sliding guides are provided spaced apart from each other, and while being spaced up and down on the sliding guide, each is provided so as to surround the front and both sides of the sliding guide, and sliding on the upper and lower sides of each side. A plurality of bearings that are slidably inserted inside the open H shape of the guide are connected to the shaft. Provided and spaced apart from each other and provided with a plurality of sliding spheres, a plurality of sliding spheres are formed in front of a rectangular frame and connected to the rear, and the inside of the rectangular frame is formed of a transparent synthetic resin material and is formed by sunlight. A coating to prevent discoloration and discoloration is formed on the outer surface, a plurality of panels are provided, and a plurality of overlapping panels are provided, a plurality of side windows are provided spaced apart from each other, and a plurality of side windows are provided connected on the rim of the side windows and connected to the rear side at the rear It has a sealing sphere formed of any one selected from the group consisting of mohair or silicon pad to extend and seal the side window, and a sealing frame provided with a plurality of spaced apart from each other, and spaced apart provided on the upper portion of the side window and side of the glass greenhouse A lifting motor fixed to the upper frame to provide a rotational force and provided with a plurality of spaced apart from each other, a cylindrically formed upper portion of the side window and spaced apart, as well as receiving rotational force from the lifting motor, is formed in a cylindrical shape on both sides of the outer periphery A winding drum is provided on the outer periphery of the cylindrical shape with a winding groove to be inserted into a thread shape, and each winding drum has a lower portion connected to the upper portion of the side window and an upper portion wound on the winding groove of the winding drum. A wire is provided, and both ends are connected and fixed to the frame on the side of the glass greenhouse so as to be axially rotatable, and a plurality of lifting shafts spaced apart from each other are provided, spaced apart from the side window, and provided for controlling the lifting motor and a control unit that is formed on both sides of the frame on the side of the glass greenhouse, both sides are fixed on the frame, and are respectively provided at the upper and lower portions of the side window, and detects the elevation of the side window and transmits a signal to the control unit to move the upper and lower sides of the side window A sensor for limiting the range of sliding movement is provided, a guide bar formed in the form of an angle, a rotation detection sensor provided on the lifting motor to detect the number of rotations of the lifting motor and transmit it to the control unit, and on the water supply unit of the heat exchanger UV sterilization plant for sterilizing foreign substances such as water and bacteria contained in the water inside A water tank with teeth is connected by a water supply pipe to supply water to the inside of the water supply unit, and on the water supply pipe, a water pump for supplying water, a filter for collecting foreign substances on the water, and the pressure of water supplied through the water supply pipe A pressure sensor and a circulation pipe are provided to measure and deliver water to the control unit and recirculate water above a certain pressure to the water tank, and on the water receiving unit, both ends are connected to the water receiving unit and the water tank to receive the water contained in the water receiving unit. There is provided a side window opening/closing device for a glass greenhouse in which a water return pipe for supplying a water tank is provided, and a valve for controlling the flow of water under the control of a control unit is provided on the water supply pipe and the circulation pipe, respectively.

The side window opening and closing device for a glass greenhouse according to the present invention has the advantage of easily opening and closing the side window for supplying or blocking external air to the inside of the glass greenhouse with a simple structure, The waste of the site is prevented, the introduction of foreign substances such as pests or dust into the inside of the glass greenhouse by the mesh network is also prevented, and the temperature of the outside air supplied to the inside of the glass greenhouse is also easily controlled by the heat exchanger. will be.

1 is a schematic side view of a side window opening and closing device for a glass greenhouse according to the present invention;
2 to 3 is a schematic operation diagram of the side window opening and closing device for a glass greenhouse according to the present invention.

Hereinafter, specific details for carrying out the present invention will be described in more detail with reference to the accompanying drawings.

1 to 3, the side window opening/closing device for a glass greenhouse according to the present invention is on the side of the glass greenhouse 2 having a space for growth inside by the combination of the metal frame 10 and the glass panel 12. In the side window opening/closing device for a glass greenhouse which is provided so as to be openable and openable to ventilate the inside of the glass greenhouse (2) and supply external air heat-exchanged by water to the inside of the glass greenhouse (2), the glass greenhouse (2) Connected to the frame 10 on the side and spaced apart from the ground, a heat exchange plate 14 for receiving water and external air from the outside to change the temperature of the outside air is provided on the inside, and the heat exchange plate 14 ), a water supply unit 16 that receives water from the outside and supplies it to the heat exchange plate 14 is formed on the upper portion, and the water that has passed through the heat exchange plate 14 is accommodated and discharged to the outside in the lower portion of the heat exchange plate 14 . A pair of heat exchanging ports 20 in which a water receiving part 18 is formed to be formed, and a frame 10 on the side of the glass greenhouse 2 are spaced apart from the ground and spaced apart from each other up and down, each of which has an open upper and lower part It is formed and provided in an H-shape, and is provided between a horizontal bar 22 spaced apart from the front of the heat exchanger 20 and provided horizontally with the ground, and a pair of the horizontal bars 22 facing each other, Or the mesh network 24 provided to prevent the inflow of foreign substances, and the mesh network 24 is provided in front of the mesh network 24 and is provided perpendicularly to the ground and is provided with a pair spaced apart from each other on both sides, each of which has both sides of the H The sliding guide 26 is formed and provided in a shape, and the rear is fixed to the frame 10 on the side of the glass greenhouse 2, and the sliding guide 26 is spaced up and down on the sliding guide 26, and each sliding guide 26 ) is provided to surround the front and both sides, and a plurality of bearings 28 inserted to be slidable inside the open H-shape of the sliding guide 26 are provided on the upper and lower sides of each side of the sliding guide 26 and are provided with shaft connection. ) and the sliding port 30, a plurality of square frames in front A side window 34 provided with a transparent panel 32 formed inside the rectangular frame and connected to the rear, and connected on the rim of the side window 34, and extended to the rear at the rear A sealing frame 38 having a sealing port 36 for sealing the side window 34, is provided spaced apart from the upper portion of the side window 34, and is fixed to the frame 10 on the side of the glass greenhouse 2 and has a rotational force A lifting motor 40 for providing a, cylindrically spaced apart from the upper portion of the side window 34, as well as receiving rotational force from the lifting motor 40, a winding drum formed in a cylindrical shape on the outer periphery and spaced apart from each other on both sides 42 is provided, and each winding drum 42 is provided with a wire 44 having a lower portion connected to the upper portion of the side window 34 and an upper portion wound on the winding drum 42, both ends of which are axially rotated A lifting shaft 48 that is connected and fixed to the frame 10 on the side of the glass greenhouse 2 by a rotation guide 46 and the side window 34 are spaced apart from each other so as to be able to control the lifting motor 40 It consists of a control unit 50 provided.

First, the combination of the metal frame 10 and the glass panel 12 is provided so as to be able to open and close on the side of the glass greenhouse 2 having a space for growth on the inside to promote ventilation inside the glass greenhouse 2 and also A side window opening/closing device for a glass greenhouse for supplying external air heat-exchanged by water to the inside of the glass greenhouse (2), connected to the frame (10) on the side of the glass greenhouse (2) and spaced apart from the ground A heat exchange plate 14 is provided inside the heat exchange plate 14 to change the temperature of the outside air by receiving water and external air from the outside, and water is supplied to the heat exchange plate 14 on the upper portion of the heat exchange plate 14 from the outside. A water supply unit 16 is formed, and a heat exchange port 20 is provided in the lower portion of the heat exchange plate 14 to accommodate the water passing through the heat exchange plate 14 and also form a water receiving unit 18 to discharge to the outside. do.

On the other hand, on the water supply unit 16 of the heat exchange port 20, a water tank 56 containing water inside is connected by a water supply pipe 58 to supply water to the inside of the water supply unit 16, and the water supply pipe At 58, the pressure of the water supplied through the water pump 60 for supplying water, the filter 62 for collecting foreign substances on the water, and the water supply pipe 58 is measured and transmitted to the controller 50 to be described later. In addition, a pressure sensor 64 and a circulation pipe 66 for recirculating water above a certain pressure to the water tank 56 are provided, and on the water receiving unit 18, both ends are a water receiving unit 18 and a water tank ( 56) is provided with a water return pipe 68 for supplying the water accommodated in the water accommodating part 18 to the water tank 56, and on the water supply pipe 58 and the circulation pipe 66, the flow of water is controlled, respectively. Each of the valves 70 controlled by the control of the controller 50 is provided.

At this time, the heat exchange plate 14 is formed of a pulp material and a paint having water-tightness is sprayed on the outer surface of the water, and its shape is formed in a wavy shape so that the contact area between the outside air and water is wider than the unit area. it is desirable

In addition, a UV sterilization device (not shown) for sterilizing foreign substances such as bacteria contained in the water is provided on the water tank 56 and can be used, so that water exchanged with external air can be continuously reused will become

A pair is provided in the frame 10 on the side of the glass greenhouse 2 spaced apart from the ground and spaced apart from each other up and down, each of which is formed in an H shape with an open upper and lower part, and is provided in front of the heat exchanger 20 . A horizontal bar 22 provided to be spaced apart and horizontal to the ground is provided.

At this time, the horizontal bar 22 is provided between the frame 10 and the frame 10, and the front of the horizontal bar 22 is provided so that the front of the frame 10 and the front surface coincide with the closing hole ( 36) is to easily prevent the external air from being supplied to the inside of the glass greenhouse (2).

It is provided between a pair of horizontal bars 22 facing each other, and a mesh network 24 is provided to prevent the inflow of pests or foreign substances.

A pair is provided in front of the mesh network 24 and provided perpendicular to the ground and spaced apart from each other on both sides, each of which is formed in an H shape with both sides open, and a frame 10 on the side of the glass greenhouse 2 ) is provided with a sliding guide 26 that is fixed to the rear.

At this time, the sliding guide 26 is formed to be elongated in the vertical direction so that the side window 34 to be described later is slidable up and down.

The sliding guide 26 is spaced up and down, and each is provided to surround the front and both sides of the sliding guide 26, and the upper and lower portions of each side are slidable inside the open H shape of the sliding guide 26. A plurality of sliding openings 30 are provided in which a plurality of bearings 28 that are inserted so as to be axially connected are provided.

At this time, since the bearing 28 of each of the sliding holes 30 is inserted on the sliding guide 26 and slid up and down, the side window 34 to be described later is stably slid up and down on the sliding guide 26. .

A plurality of sliding openings 30 are formed in a square frame in front and connected to the rear, and a side window 34 having a transparent panel 32 is provided inside the square frame.

At this time, the panel 32 provided inside the side window 34 is preferably formed to be transparent so that sunlight can be easily transmitted onto the glass greenhouse 2 , and the panel 34 is made of glass or synthetic resin material. It is preferable that any one selected is used, but it is more preferable that a synthetic resin material having a light weight and strong impact is used, and when a synthetic resin material is used, a coating to prevent discoloration and discoloration by sunlight is preferably formed on the panel 34.

In addition, a plurality of the panel 34 may be provided and used in multiple overlapping, and when a part of the panel 34 is damaged due to damage caused by an external impact, only the damaged part can be easily replaced and used.

The frame 10 on the side of the glass greenhouse 2 is formed long on both sides, both sides are fixed on the frame 10, and is provided at the upper and lower portions of the side window 34, respectively, to adjust the vertical sliding movement range of the side window 34. A limiting guide bar 52 as in FIG. 1 is provided.

At this time, the guide bar 52 is provided in the form of an angle, and a sensor 72 (not shown) is provided on the guide bar 52 to transmit a signal to the control unit 50 and a lift motor 40 to be described later. to control the operation of

A sealing frame 38 is provided on the edge of the side window 34 and has a sealing hole 36 extending to the rear side to seal the side window 34 .

In this case, it is more preferable that the closing port 36 is either mohair or silicon pad, or mohair with less operating noise when the side window 34 slides up and down.

A lifting motor 40 is provided in the upper portion of the side window 34 and is fixed to the frame 10 on the side of the glass greenhouse 2 to provide rotational force.

At this time, a rotation detection sensor 54 for detecting the number of rotations of the lifting motor 40 and transmitting it to the control unit 50 is provided on the lifting motor 40 and used, thereby determining the degree of opening and closing of the side window 34 . It will be easily adjustable.

It is formed in a cylindrical shape on the upper part of the side window 34 and is spaced apart and receives rotational force from the elevating motor 40. On the outer periphery, a winding drum 42 formed in a cylindrical shape and spaced apart from each other is provided, and each winding is provided. The drum 42 has a lower portion connected to the upper portion of the side window 34 and a wire 44 wound on the upper portion of the winding drum 42, and both ends of the frame on the side of the glass greenhouse 2 are axially rotatable. A lifting shaft 48 connected and fixed by a rotation guide 46 is provided at (10).

At this time, on the outer periphery of the winding drum 42 provided on the elevating shaft 48 , the wire 44 is uniformly wound on the winding drum 42 in the shape of a screw thread, not shown winding groove 74 . This formation is desirable.

The side window 34 is provided spaced apart, and a control unit 50 provided for controlling the lifting motor 40 is provided, and a rotation detection sensor 54 and a sensor 72 are additionally connected on the control unit 50, It is desirable to achieve stable control of the elevating motor 40 .

On the other hand, on the side of the glass greenhouse 2, as shown in FIGS. 2 to 3, the heat exchanger 20, the horizontal bar 22, the mesh network 24, the sliding guide 26, and the sliding hole 30 are spaced apart from each other. ), the side window 34, the closed frame 38, the lifting motor 40, and the lifting shaft 48 are each provided with a plurality of can be used.

The side window opening/closing device for a glass greenhouse according to the present invention made as described above has the advantage of easily opening and closing the side window 34 for supplying or blocking external air to the inside of the glass greenhouse 2 only with a simple structure, and the side window 34 This movement up and down prevents wastage of the site due to opening and closing of the side window 34, and the inflow of foreign substances such as pests or dust into the inside of the glass greenhouse 2 by the mesh network 24 is also prevented, and the glass greenhouse (2) There is an advantage that the temperature of the outside air supplied to the inside is also easily controlled by the heat exchanger 20 .

2: glass greenhouse 10: frame
12: glass panel 14: heat exchange plate
16: water supply unit 18: water receiving unit
20: heat exchanger 22: horizontal bar
24: mesh network 26: sliding guide
28: bearing 30: sliding hole
32: panel 34: side window
36: sealing hole 38: sealing frame
40: elevating motor 42: winding drum
44: wire 46: rotation guide
48: lifting shaft 50: control unit
52: guide bar 54: rotation detection sensor
56: water tank 58: water supply pipe
60: water pump 62: filter
64: pressure sensor 66: circulation pipe
68: water return pipe 70: valve

Claims (5)

The combination of the metal frame 10 and the glass panel 12 is provided so as to be able to open and close on the side of the glass greenhouse 2 having a space for growth on the inside, so as to promote ventilation inside the glass greenhouse 2 as well as water In the side window opening/closing device for a glass greenhouse so that external air heat-exchanged by means of a glass greenhouse (2) is supplied to the inside,
It is connected to the frame 10 on the side of the glass greenhouse (2) and is spaced apart from the ground, and is provided inside to change the temperature of the outside air by receiving water and outside air from the outside, and is made of a pulp material In addition, a water-tight paint is sprayed on the outer surface of the water, and a heat exchange plate 14 is provided, which is formed in a corrugated shape so that the contact area between the outside air and water is wider than the unit area, and the heat exchange plate 14 A water supply unit 16 that receives water from the outside and supplies it to the heat exchange plate 14 is formed on the upper portion of the heat exchange plate 14, and the water passing through the heat exchange plate 14 is accommodated and discharged to the outside in the lower portion of the heat exchange plate 14 The water accommodating part 18 is formed, the heat exchange port 20 is provided with a plurality of spaced apart from each other;
A pair is provided in the frame 10 on the side of the glass greenhouse 2 spaced apart from the ground and spaced apart from each other up and down, each of which is formed in an H shape with an open upper and lower part, and is provided in front of the heat exchanger 20 . A horizontal bar 22 provided with a plurality of spaced apart and provided horizontally with the ground, spaced apart from each other;
a mesh network 24 provided between a pair of the horizontal bars 22 facing each other, provided to prevent the entry of pests or foreign substances, and provided with a plurality of spaced apart from each other;
A pair is provided in front of the mesh network 24 and provided perpendicular to the ground and spaced apart from each other on both sides, each of which is formed in an H shape with both sides open, and a frame 10 on the side of the glass greenhouse 2 ) is fixed to the rear, the sliding guide 26 is provided with a plurality of spaced apart from each other;
The sliding guide 26 is spaced up and down, and each is provided to surround the front and both sides of the sliding guide 26, and the upper and lower portions of each side are slidable inside the open H shape of the sliding guide 26. A plurality of bearings 28 that are inserted so as to be provided with a shaft connection, a sliding hole 30 provided with a plurality of spaced apart from each other;
The sliding port 30 is formed in a square frame in front of a plurality of frames and connected to the rear, and the inside of the square frame is formed of a transparent synthetic resin material and a coating to prevent discoloration and discoloration due to sunlight is applied to the outer surface It is formed in, is provided with a plurality of overlapping panels 32 are provided, the side windows 34 are provided with a plurality of spaced apart from each other;
It is connected to the rim of the side window 34 and has a sealing port 36 formed of any one selected from the group consisting of mohair or silicon pad, which extends to the rear side to promote sealing of the side window 34, A sealing frame 38 provided with a plurality of spaced apart from each other;
a lifting motor 40 spaced apart from the upper portion of the side window 34 and fixed to the frame 10 on the side of the glass greenhouse 2 to provide rotational force, and provided with a plurality of spaced apart from each other;
It is formed in a cylindrical shape on the upper part of the side window 34 and spaced apart, and receives rotational force from the elevating motor 40, and is formed in a cylindrical shape on the outer periphery and spaced apart from both sides, and is wound in a threaded shape on the outer periphery of the cylindrical shape. A winding drum 42 in which a groove 74 is formed is provided, and each winding drum 42 has a lower portion connected to the upper portion of the side window 34 and an upper portion on the winding groove 74 of the winding drum 42 . A wire 44 wound on is provided, both ends of which are connected and fixed to the frame 10 on the side of the glass greenhouse 2 so as to be axially rotatable, and are spaced apart from each other and provided with a plurality of elevating shafts ( 48);
a control unit 50 provided to be spaced apart from the side window 34 and provided to control the lifting motor 40;
It is formed on both sides of the frame 10 on the side of the glass greenhouse (2), and both sides are fixed on the frame 10, and are respectively provided in the upper and lower parts of the side window 34, and the elevation of the side window 34 is sensed. In addition, a sensor 72 for limiting the vertical sliding movement range of the side window 34 by transmitting a signal to the control unit 50 is provided, and a guide bar 52 formed in an angle shape;
a rotation sensor 54 provided on the elevating motor 40 to detect the number of revolutions of the elevating motor 40 and transmit it to the control unit 50;
On the water supply unit 16 of the heat exchanger 20, a water tank 56 having a UV sterilization device for sterilizing foreign substances such as water and bacteria contained in the water is connected by a water supply pipe 58 inside. Water is supplied to the inside of the supply unit 16, and on the water supply pipe 58, the water pump 60 for supplying water, the filter 62 for collecting foreign substances on the water, and the water supply pipe 58 are supplied through A pressure sensor 64 and a circulation pipe 66 that measure the pressure of water and deliver it to the control unit 50 and recirculate water above a certain pressure to the water tank 56 are provided, and on the water receiving unit 18, A water return pipe 68 having both ends connected to the water receiving unit 18 and the water tank 56 to supply the water contained in the water receiving unit 18 to the water tank 56 is provided, and a water supply pipe 58 is provided. and valves (70) for controlling the flow of water under the control of the control unit (50), respectively, on the circulation pipe (66). delete delete delete delete

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