KR101433679B1 - insulation pad for greenhouse - Google Patents

Abstract

The present invention relates to a thermal pad for a greenhouse, comprising: a plurality of pad bodies 110 each having a lattice-shaped joint 111 formed on a rim of a double membrane to form an air layer 112 therein; A joining member 130 for fixing the joining portion 111 of the pad body 110 to the frame 10 of the greenhouse 1, A supply member 140 which punctures a hole in one side of the membrane 110 and forms a new outflow inlet to communicate with the connection member 120 and the other side of the pad body 110 corresponding to the supply member 140 And a blocking member 150 for joining or separating the supply member 140 by perforating a hole in the side film. Thus, energy loss can be minimized by minimizing heat loss due to a temperature difference between the inside and the outside of the greenhouse.

Description

[0001] The present invention relates to an insulation pad for greenhouse,

The present invention relates to a heat insulating pad for a greenhouse, and more particularly, to a heat insulating pad for a greenhouse which is connected to a window of a greenhouse to efficiently save energy by minimizing heat loss due to a difference between the inside and outside temperature.

Generally, greenhouses include vinyl houses in a broad sense. They can be covered with glass or vinyl, with the skeleton set up outside for the purpose of plant cultivation, and they can be equipped with heating. , The growth environment suitable for the plant is artificially created to promote the growth of the plant.

Therefore, in the past, mainly the hearth has been used as the heating facility of the greenhouse. However, when the heated heat is directly raised, it is cooled down to some extent and then it is lowered by the convection action. Thus, the heating effect is reduced, It was difficult to maintain a uniform temperature uniformly throughout the plant, especially in the case of a large greenhouse, due to a large temperature difference depending on the portion.

In order to solve such a problem, an apparatus for controlling indoor air temperature for heating indoor air in winter and ventilating indoor air in summer has been developed.

On the other hand, in the case of the patent 10-0934094, by using the geothermal heat to heat the air to be introduced into the greenhouse, the hot air in the greenhouse is recycled, And is capable of easily heating the air introduced into the greenhouse while preventing cooling of the geothermal heat.

However, this conventional technology leaves the heat loss according to the temperature difference between the inside and the outside of the greenhouse as it is, so that it is difficult to keep the inside of the greenhouse at a proper temperature, and also there is a problem of defending energy.

Accordingly, a primary object of the present invention is to provide a thermal insulation pad for a greenhouse that can minimize energy loss due to a temperature difference between the inside and the outside of the greenhouse, thereby saving energy.

Another object of the present invention is to provide a thermal insulation pad for a greenhouse which forms a shielding air layer of a greenhouse to suppress heat loss according to a temperature difference between the inside and the outside of the greenhouse.

Another object of the present invention is to provide a thermal insulation pad for a greenhouse which can circulate heated air to a shielding air layer of a greenhouse to efficiently suppress heat loss according to an external temperature difference.

It is another object of the present invention to provide a thermal insulation pad for a greenhouse which can easily form an injection port on a thermal pad and is installed in each window in a unitary manner to facilitate replacement due to damage.

In order to accomplish the above object, the present invention provides a thermal insulation pad for a greenhouse, comprising: a pad body having a junction formed at an edge of a double layer to form an air layer therein; a connection member for connecting and communicating the pad body; A joining member for joining to the frame of the greenhouse, a feeding member for drilling any hole of the pad body and forming a new outlet port, and a blocking member for blocking any hole of the pad body. Basic features.

Therefore, the heat insulating pad for a greenhouse of the present invention is provided with a pad body having an air layer formed according to the size of a window of a greenhouse, so that it is easy to replace the pad body when it is damaged, And the temperature of the greenhouse can be efficiently controlled so that the circulated air is reheated and circulated again. In this case, the greenhouse in which the insulation pad is installed in the large greenhouse is separately provided It is possible to easily and conveniently form the air inlet or the like of the air conditioner and to easily open and close the air conditioner if necessary.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall perspective view showing a state of installation of a thermal insulation pad for a greenhouse according to the present invention. FIG.
FIG. 2 is a sectional view showing the installation state of a thermal insulation pad for a greenhouse according to the present invention. FIG.
3 is a cross-sectional view showing a state in which a supply member is engaged with a thermal insulation pad for a greenhouse according to the present invention.
4 is a cross-sectional view showing a state in which the supply member of the green heat insulating pad according to the present invention is opened.
5 is an exploded perspective view showing a state in which a supply member is separated from a thermal insulation pad for a greenhouse according to the present invention.
6 is an exploded perspective view showing a state in which a coupling member is separated from a thermal insulation pad for a greenhouse according to the present invention.

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

As shown in FIGS. 1 to 6, the thermal pad 100 for a greenhouse of the present invention includes a plurality of pad main bodies 111, each having a lattice- A joining part 120 connecting the pad body 110 and the pad body 110 in order and connecting the joining part 111 of the pad body 110 to the frame 10 of the greenhouse 1, A supply member 140 for drilling holes in one side of the pad body 110 and forming a new outflow opening to communicate with the connection member 120; And a blocking member 150 for piercing holes in the other side of the pad body 110 corresponding to the pad member 110 and coupling or separating the holes to the supply member 140.

The pad body 110 is formed of a double layer of vinyl or the like and overlaps the edges of the double layer and is attached by various conventional techniques to form the bonding portion 111, so that the air layer 112 is formed inside.

The connection member 120 is provided with a connection pipe 121 to connect the pad body 110 and the pad body 110 so that they can communicate with each other and have a coupling hole 123 at a predetermined position of the pad body 110 And the coupling tube 121 is coupled to the coupling hole 123 to allow the pad body 110 to communicate with each other.

Here, the coupling pipe 121 and the coupling hole 123 are provided with a coupling hole 122 for coupling to and separating from the upper and lower right and left pad main bodies 110, if necessary.

The coupling member 130 may be installed by attaching the support frame 131 to the frame 10 of the greenhouse and fixing the joint portion 111 of the pad body 110 to the support frame 131.

Here, the support frame 131 is provided with a fixing spring 133 which is formed at the upper and lower sides of the coupling groove 132 and is fitted into the upper and lower coupling grooves 132. The fixing spring 133 is connected to the coupling portion 111 of the pad body 110, So that it can be fixed.

The supply member 140 may be formed by drilling a hole in a desired position of the pad body 110 as required and inserting the support 143 into the air layer 112 and positioning the fastener 141 to the outside, .

The hole 141 of the pad body 110 is engaged with the flange 142 of the fastener 141 while the fastener 141 and the fastener 143 are engaged with each other, And is fixed to the earth 143.

The backflow preventive side 145 is formed in the fastening hole 141 to prevent the air in the air layer 112 from escaping to the outside and an annular fitting groove 144 is formed at the rear end of the backrest 143, .

The blocking member 150 includes a fastening hole 151 and is inserted into the air layer 112 of the pad body 110. The blocking member 150 is screwed to the rear end of the fastening hole 141, 152 so that the rim of the perforated hole is fitted.

An annular fixing protrusion 153 corresponding to the fitting hole 144 formed in the support 152 of the supply member 140 is protruded from the front end of the fastening tool 151.

Therefore, when the fixing protrusion 153 is engaged with the fitting hole 144, the air layer 112 of the pad body 110 is closed, and when the fixing protrusion 153 is separated, the air layer 112 is opened.

The operation of the thermal insulation pad 100 according to the present invention will now be described.

The edge of the pad body 110 formed of a double membrane is attached so as to match the size of the window of the greenhouse 1 so that the air layer 112 is formed therein and the connector 122 is attached at a predetermined position to be in communication with the air layer 112 do.

After the support frame 131 is attached to the frame 10 of the greenhouse 1, the joint portion 111 of the pad body 110 is fixed to the engagement groove 132 of the support frame 131 by the fixing spring 133, .

Both ends of the connection tube 121 are connected to the connection port 122 of the pad body 110 by the coupling hole 123 to communicate the air layer 112 of the adjacent pad body 110 with each other.

In this state, the pad body 110 and the pad body 110 are connected to each other through the connection tube 121, and then the air is heated by the blower 20 having the heater to supply the inside of the pad body 110 And the circulation pipe (21) is coupled to reheat the circulated air so as to continuously circulate the circulated air.

Here, it is preferable that the respective heat-insulating pads 100 are communicated with each other, but the lower window of the greenhouse 1 is first communicated and the upper window is sequentially communicated so that the introduced air moves from the lower window to the upper window.

Therefore, external air is supplied to the heat insulating pad 110 by the blower 20, and is heated to a proper temperature through the heater to be supplied to the air layer 112 of the heat insulating pad 100, thereby suppressing direct heat exchange between the external air and the room air And the temperature of the greenhouse 1 can be efficiently controlled by forming an air layer 112 having an appropriate temperature.

Further, it is preferable to sense the temperature and the pressure of the inlet and outlet ends of the blower 20, control the blower 20 and the heater under optimum conditions, if necessary, and circulate the air so that the circulated air is reheated to supply and circulate .

When a separate air inlet or the like is to be formed in the greenhouse 1 in which the heat insulating pad 100 has been installed, a hole is drilled in the heat insulating pad 100 and the support 143 is inserted into the air layer 112 And the outer circumferential surface of the outer circumferential surface of the outer circumferential surface of the outer circumferential surface of the outer circumferential surface of the outer circumferential surface of the outer circumferential surface So that air can be smoothly injected and air can be prevented from escaping from the air layer 112 to the outside.

Further, in the hole formed in the opposite side, the fastening tool 151 is inserted into the air layer 112 of the pad body 110, and the cutoff hole 152 is screwed from the outside to block the perforated hole.

The insertion hole 144 formed in the support member 152 of the supply member 140 and the fixing protrusion 153 of the fastening member 151 are pressed into the state where the air layer 112 is closed, The air inlet 112 may be opened by separating the fitting hole 144 formed in the support 152 and the fixing protrusion 153 of the fastener 151 so that air can be injected into the air layer 112 will be.

1: Greenhouse 10: Frame
20: blower 21: circulation pipe
100: Insulating pad 110: Pad body
111: junction 112: air layer
120: connecting member 121: connecting tube
122: connector 123:
130: coupling member 131: support frame
132: coupling groove 133: fixing spring
140: supply member 141: fastener
142: flange 143:
144: fitting groove 145: reverse flow prevention side
150: blocking member 151: fastener
152: blocking member 153: fixing protrusion

Claims (5)

A plurality of pad main bodies 110 each having a joining portion 111 formed in a lattice shape on the rim of the double membrane and forming an air layer 112 in each of the joining portions 111,
A connection member 120 for sequentially connecting and communicating the pad main body 110,
An engaging member 130 for fixing the joint portion 111 of the pad body 110 to the frame 10 of the greenhouse 1,
A supply member 140 for drilling a hole in one side of the pad body 110 and forming a new outlet port to communicate with the connection member 120,
And a blocking member (150) for piercing the other side film of the pad body (110) corresponding to the supply member (140) and joining it to the supply member (140).
The method according to claim 1,
The connection member 120 includes a connection pipe 121 to connect the pad body 110 and the pad body 110 so that the pad body 110 can communicate with the pad body 110, Wherein the pad body (110) is configured to communicate with the connection pipe (121) by a connection port (122) to the port (123).
The method according to claim 1,
The joining member 130 is installed by attaching a support frame 131 to the frame 10 of the greenhouse 1 and fixing the joining portion 111 of the pad body 110 to the support frame 131, 131 are provided with fixing springs 133 which are formed in the upper and lower coupling grooves 132 and fit into the upper and lower coupling grooves 132 so that the fixing springs 133 press the joining portions 111 of the pad main body 110 to be fixed Wherein the heat insulating pad is made of a metal.
The method according to claim 1,
The supply member 140 is formed by drilling a hole at a desired position of the pad body 110 and inserting the support 143 into the air layer 112 and positioning the fastener 141 outside, Wherein a backflow preventing side wall 145 is formed in the fastening hole 141 and an annular fitting groove 144 is formed in the rear end of the supporting wall 141. [
The method according to claim 1 or 4,
The blocking member 150 has a fastening hole 151 and is inserted into the air layer 112 of the pad body 110 through a perforated hole so that the blocking member 152 is screwed from outside. And an annular fixing protrusion (153) corresponding to the fitting hole (144) formed in the support (152) of the supply member (140) is protruded from the front end of the heat dissipating pad.

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