KR102037662B1 - Thermoelectric flowerpot - Google Patents

Abstract

The present invention relates to a warmth-keeping flower pot and, more specifically, to a warmth-keeping flower pot which enables keeping warmth for a plant that is planted in a state exposed to the outside, without being influenced by the outside temperature, and which enables providing fertilizers, nutrients, and the like, in a small surface area. A method for producing the warmth-keeping flower pot comprises: a foam-expanded flower pot forming step; a sheet extrusion step; a sheet stretching step; a cylindrical heat-shrinkable sheet forming step; a floor sheet fixing step; a heat-shrinkable sheet coating step; and a heat-shrinkable sheet finishing step.

Description

Thermal Insulation Plant {Thermoelectric flowerpot}

The present invention relates to a pot for keeping warm, and more specifically, to be kept warm without being influenced by the outside temperature in the planted state to be exposed to the upper part of the floor, landscape water, plants and flowers, such as manure and nutrients The present invention relates to a thermal insulation pot that can be used for a long time so as not to be damaged by coating the outer surface of the foam foam planter to provide a small area.

As is well known, in order to create an optimal environment for plant cultivation in crop cultivation, a vinyl house or facility grower should maintain water supply, drainage, proper temperature, and proper amount of light.

In addition, when the display or arrangement in a desired position in the state exposed to the road surface planted in pots, such as fruit water, landscaping plants and plants, and planted in the exposed position on the floor to produce a fruit plant is used in various ways.

In general, a vinyl house or a facility grower is a mountain area or a field directly exposed to strong winds where the location may drop to a minimum temperature. Therefore, whether or not a certain temperature can be maintained greatly affects plant growth. do.

To this end, a vinyl house or a facility grower intends to increase the room temperature of the vinyl house by using various heating appliances such as a stove.

However, in the case of potted plants grown in small quantities at home, it is very difficult to install a separate heating device for the small amount of potted plants. In addition, most heating devices are not easy to handle, there is a problem that is always exposed to the risk of safety accidents.

In particular, in the case of families with young children, there is a problem that the risk of safety accidents due to heating appliances is higher, and since most of such heating appliances cannot be adjusted according to the external temperature, the manager is always installed on the veranda according to the external temperature. There is a discomfort to control the temperature of.

In addition, when used in the field and outdoors, plastic potted plants are used, so the temperature of the bottom and the outside is transferred directly from the soil to the roots through the plastic pots, which affects the growth. There is a problem that can not be concluded normally.

In addition, when planting fruit water in the field, manure, nutrients and fertilizers provide a large amount in a large radius, but it is not able to inhale all the provided amount and inhale only a small part, so it is difficult to grow healthy and fruit. It happened.

[Document 1] Utility Model Publication No. 1994-6807 (published on April 12, 1994) [Document 2] Utility Model Registration No. 251468 (registered Oct. 09, 2001) [Document 3] Patent Publication No. 2007-0025395 (published Mar. 06, 2007) [Document 4] Patent Publication No. 2012-0032335 (2012. 04. 05. publication)

Therefore, to solve such a conventional drawback, the problem of the present invention is to form a pot form by foaming the raw material consisting of any one of styrofoam, EPS (Expanded Poly-styrene), EPP (Expanded Poly-Propylene) Afterwards, the outer diameter and the lower side of the foam foam planter are wrapped in a heat-shrink sheet formed of polyethylene, and then molded integrally, so that the thermal insulation can be maintained and used for a long time.

Another object of the present invention is to wrap the insulation tube in the outer diameter of the pot to circulate the hot water so that the growth is made faster.

The present invention provides a foam foaming pot molding step of molding a foam foam pot having an internal space inside the body by foaming a raw material made of Schirofoam and EPS or EPP;
A sheet extrusion step of extruding polyethylene into a heat shrink sheet to have a thickness of 0.5 to 5 mm;
A sheet stretching step of feeding the heat-shrinkable sheet to the stretching machine and stretching 15 to 55% along the direction of the arrow while heating the plurality of rollers;
The stretched heat-shrinkable sheet is cut to have a cylinder smaller than the smallest diameter of the outer diameter of the body, wound to a cylindrical shape, and pressurized while heating the overlapping portions of both ends to form a cylindrical heat-shrinkable sheet formed by welding both ends integrally at the weld. Heat shrink sheet forming step;
A bottom sheet fixing step of cutting the bottom sheet smaller than the bottom size of the body and then applying a glue to fix the bottom sheet to the floor;
Combining the cylindrical heat shrink sheet into the outer diameter of the foam foam planter, and rotating the cylindrical heat shrink sheet and the foam foam plant while heating, the elongated cylindrical heat shrink sheet is contracted by heat and wrapped along the outer diameter of the body to form an integrally coated heat shrink sheet. step;
Since the lower side of the cylindrical heat shrink sheet is heat-shrink and formed to wrap from the lower side along the outer diameter of the bottom sheet, the bottom finishing protrusion is heated to be integrally welded and fixed along the bottom sheet.
A heat shrink sheet finishing step of forming a sheet-coated insulating flower by fixing the sheet-coated insulation to the upper side of the cylindrical heat-shrinkable sheet to be heat-shrinked to cover the upper side of the body and to be integrally formed with an inner diameter finish portion on the upper side of the inner space; It characterized in that it comprises a.

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The present invention foams the raw material consisting of any one of styrofoam, EPS (Expanded Poly-styrene), EPP (Expanded Poly-Propylene) in a mold to form a flower pot shape, and then the outer diameter and the bottom of the foam foam flower pot are molded into polyethylene. It is stretched and wrapped in a cylindrically shaped heat-shrinkable sheet to be integrally wrapped by heat shrinkage by heating, so that the thermal insulation can be maintained by the foaming material, so that it is suitable for frost-covered applications, and it is not damaged for a long time by coating. It is to provide an effect that can be used without.

The present invention can be used to grow for many years, such as perennial fruit water, to provide nutrients in a small space to see a large effect in a small amount without loss, and to provide an effect that can shorten the growing period.

The present invention is to provide an effect that the growth of the lost water and plants through the role of increasing the temperature by circulating the hot water circulating the heat pipe in the outer diameter of the pot.

1 is a perspective view of the foam pot of the present invention
Figure 2 is a plan view of the foam pot of the present invention
3 is a bottom view of the foam pot of the present invention
Figure 4 is a cross-sectional view of the foam pot of the present invention
Figure 5 is a front view showing the molding process for the heat shrink sheet of the present invention
Figure 6 is a front view of a state in which the bottom sheet and the cylindrical heat shrinkable sheet in the foam pot of the present invention
Figure 7 is an enlarged cross-sectional view of the main portion of the sheet-coated thermal insulation of the present invention
8 is a perspective view of a sheet-coated insulating pot of the present invention
9 is an enlarged cross-sectional view of a main portion of a further embodiment of the sheet-coated insulating pot of the present invention
Figure 10 is an enlarged plan view of the main portion of a further embodiment for the sheet-coated insulating pot of the present invention
11 is a block diagram of a sheet-coated insulating pot of the present invention

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

1 is a perspective view of the foam pot of the present invention, Figure 2 is a plan view of the foam pot of the present invention, Figure 3 is a bottom view of the foam pot of the present invention, Figure 4 is a cross-sectional view of the foam pot of the present invention It is shown.

By foaming a raw material consisting of either styrofoam, expanded poly-styrene (EPS) or expanded poly-propylene (EPP), a plurality of bottoms of the inner space 12 of the body 11 having a rectangular or circular inner space 12 are formed. By forming the drain port 14 in a circular shape to form a foam foam pot 10 to be drained.

The outer diameter of the body 11 is to form a groove portion 13 in the vertical direction at regular intervals to proceed to lose weight.

Figure 5 is a front view showing a molding process for the heat shrink sheet of the present invention, Figure 6 is a front view of a state in which the bottom sheet and the cylindrical heat shrink sheet separated in the foam pot of the present invention, Figure 7 is a sheet-coated insulation of the present invention Enlarged cross-sectional view of the main part of the pot, Figure 8 shows a perspective view of the sheet-coated insulating pot of the present invention.

The heat-shrinkable sheet 20 for molding polyethylene by extrusion is stretched and molded in the direction of the arrow in the range of 15 to 55% while passing through a plurality of heated rollers, and the heat-shrinkable sheet 20 is wound in a cylindrical shape to be part of both ends. Are overlapped and then fixed while welding by welding the overlapping portion 22 of the overlapping portion to form a cylindrical heat shrink sheet 21 having a cylindrical shape.

After molding the bottom sheet 30 to have a size and shape smaller than the size and shape of the bottom of the foam foam pot 10, and then fixed to the floor by applying an adhesive,

Combining the cylindrical heat shrink sheet 21 with the outer diameter of the body 11 and rotating while heating the foam foam pot 10, the elongated cylindrical heat shrink sheet 21 along the shape of the body 11 is heat-shrink to fix integrally will be.

The lower side of the cylindrical heat shrink sheet 21 is to overlap a part of the outer diameter of the bottom sheet 30 to be fixed integrally by welding, such as a dead end weld portion 31 by heating, the cylindrical heat shrink sheet 21 Wrapped along the upper shape of the body 11 to the upper side of the inner space 12 is bent in the direction formed is inner diameter finishing portion 23 is wrapped in a constant depth along the upper surface of the inner space 12 and fixed integrally Molding to form a sheet-coated insulating pot 40.

The bottom sheet 30 fixed to the bottom of the body 11 is provided to be perforated or smaller than the size of the drain 14.

Soil is supplied to the inside of the sheet-coated thermal insulation pot 40, and planted and supplied with lost water, landscaping water, plants and flowers.

9 is an enlarged cross-sectional view of a main portion of a further embodiment of the sheet-coated insulating potion of the present invention, and FIG. 10 shows an enlarged plan view of a main portion of a further embodiment of the sheet-coated heat-insulating pot of the present invention.

Sheet-coated insulating pot 40 is wound around at least two rounds of the insulating tube 50 on the outer diameter of the body 11 to supply hot water to circulate, the inlet 51 on one end of the insulating tube 50 At the opposite end) is an outlet 52 is formed.

Insulation pot according to the present invention made of such a configuration, the raw material consisting of any one of styrofoam and EPS (Expanded Poly-styrene), EPP (Expanded Poly-Propylene) to the mold by foaming the rectangular or circular inner space 12 Forming a plurality of drain holes 14 in the bottom of the body 11 having a circular shape is to supply a foam foam pot 10 of a very light form to be drained.

The outer diameter of the body 11 is protruded vertically and is formed in a conical shape so as to become narrower toward the lower side to allow stacking, and the groove 11 is formed in the vertical direction at regular intervals on the outer diameter of the body 11 to lose weight. By forming the lower side of the raw material to save the raw material and the projecting portion to be formed to be utilized as a handle.

After molding the foamed foam pot 10, the polyethylene is extruded into the heat shrink sheet 20 to have a thickness of 0.5 to 5 mm, and then supplied to a stretching machine and passed through a plurality of rollers in the direction of the arrow while heating the rollers. Elongation of ˜55% is cut to have a cylinder smaller than the smallest diameter of the outer diameter of the body 11 and wound to a cylindrical shape.

The heat-shrinkable sheet 20 wound in a cylindrical shape is pressurized while heating a portion where both ends overlap, and both ends of the welded portion 22 are integrally welded to form a cylindrical heat-shrink sheet 21.

After the cylindrical heat shrink sheet 21 is molded, the bottom sheet 30 is cut smaller than the bottom size of the body 11, and then the adhesive is applied to fix the bottom sheet.

After the bottom sheet 30 is fixed to the bottom of the body 11, the cylindrical heat shrink sheet 21 is bonded to the outer diameter of the body 11 of the foam foam pot 10, the cylindrical heat shrink sheet 21 and foam foam pot Rotating while heating (10) is formed to be integrally molded while being wrapped along the outer diameter of the body 11 while the elongated cylindrical heat shrink sheet 21 is contracted by heat.

Since the lower side of the cylindrical heat shrink sheet 21 is heat-shrink and formed to wrap from the lower side along the outer diameter of the bottom sheet 30, the bottom finishing protrusion 31 is heated to be integrally welded and fixed along the bottom sheet 30. ,

The upper side of the cylindrical heat shrink sheet 21 is heat-shrinkable to surround the upper side of the body 11, the heat shrink is fixed to be integral to the inner diameter finishing portion 23 on the upper side of the inner space 12, the sheet-coated thermal insulation pot ( 40), the inner diameter finishing portion 23 preferably has a depth of 5 ~ 7mm.

When the inner diameter finishing portion 23 is 5 mm or less, there is a disadvantage in that it is easily separated from the upper side of the inner space 12, and in the case of 7 mm or more, since heat shrinkage may not be made normally, it may be difficult to wrap, and thus preferably have a depth of 6 mm. It is.

Since the bottom sheet 30 is fixed to the lower side of the drain hole 14, the sheet-coated thermal insulation pot 40 is formed by molding holes with the same size or smaller size.

The inner space 12 of the sheet-coated insulating pot 40 may be planted with lost water or the like using soil or manure, and is preferably used to be exposed to the upper side of the floor, and the heat shrinkable sheet 20 is required. Therefore, it is possible to provide a variety of colors to provide a very beautiful product.

In the case of planting the lost water, the sheet-coated insulating pot 40 is installed at regular intervals on the upper side of the floor, such as a field, so that the body 11 is prepared with styrofoam, EPS (Expanded Poly-styrene), and EPP (Expanded Poly-Propylene). Since it is foamed raw material made of any one of them, it is possible to stably maintain warmth, thereby promoting growth and shortening the growing period, and providing only about 30% of existing nutrients to the limited internal space 12. In this case, it is possible to absorb all of them without loss, thereby greatly reducing the maintenance cost required for growth, and to stably grow by reducing the change in temperature by not transmitting the external temperature directly to the soil.

In addition, by wrapping the heat pipe 50 having the water inlet 51 and the water outlet 52 in the outer diameter of the body 11 to circulate the hot water in the season when the temperature goes down to enable the growth and cultivation of loss stably.

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

end. Foam foaming molding step

Foam foam to form a foam foam pot 10 having an inner space 12 inside the body 11 by foaming a raw material consisting of any one of styrofoam, EPS (Expanded Poly-styrene) and EPP (Expanded Poly-Propylene). To carry out the potting step (S10).

I. Sheet extrusion step

It is to perform the sheet extrusion step (S20) for extrusion molding the polyethylene to the heat shrink sheet 20 to have a thickness of 0.5 to 5mm.

All. Sheet Stretching Step

By supplying the heat-shrinkable sheet 20 to the stretching machine, the sheet stretching step S30 is performed to stretch 15 to 55% in the direction of the arrow while heating the plurality of rollers.

la. Cylindrical Heat Shrink Sheet Forming Step

The stretched heat-shrinkable sheet 21 is cut to have a cylinder smaller than the smallest diameter of the outer diameter of the body 11 and wound to have a cylindrical shape and pressurized while heating the overlapping portions of both ends so that both ends of the welded part 22 are integrally formed. Welding is to perform a cylindrical heat shrink sheet forming step (S40) of forming a cylindrical heat shrink sheet (21).

hemp. Floor sheet fixing step

After cutting the bottom sheet 30 smaller than the bottom size of the body 11 is to perform a bottom sheet fixing step (S50) to apply the adhesive to fix the floor.

bar. Heat Shrink Sheet Coating Step

When the cylindrical heat shrink sheet 21 is coupled to the outer diameter of the body 11 of the foam foam pot 10, and the cylindrical heat shrink sheet 21 and the foam foam pot 10 is rotated while heating, the elongated cylindrical heat shrink sheet 21 is While shrinking by heat while wrapping along the outer diameter of the body 11 is to perform a heat-shrink sheet coating step (S60) molded in one piece.

four. Heat Shrink Sheet Finishing Step

Since the lower side of the cylindrical heat shrink sheet 21 is heat-shrinked and molded to wrap from the lower side along the outer diameter of the bottom sheet 30, the bottom finishing protrusion 31 is heated to be integrally welded and fixed along the bottom sheet 30.

The upper side of the cylindrical heat shrink sheet 21 is heat-shrinkable to surround the upper side of the body 11, the heat shrink is fixed to be integral to the inner diameter finishing portion 23 on the upper side of the inner space 12, the sheet-coated thermal insulation pot ( 40 is to perform a heat shrink sheet finishing step (S70) for molding.

According to the present invention, the foam foam pot is molded and then extruded and stretched to form a cylinder, and then the foam foam pot is wrapped and heat-shrinked by heating to wrap the outer and lower sides of the foam foam pot to be fixed integrally to form a sheet-coated warm pot. It is to provide a very useful invention to maintain the warmth and to be used for a long time by the coating of the heat shrinkable sheet even if placed on the ground after planting the lost water and plants by molding.

10: foam foam pot 11: body
12: interior space 13: groove
14 drain 20: heat shrink sheet
21: cylindrical heat shrink sheet 22: weld
23: inner diameter finish portion 30: floor sheet
31: welded floor finishing 40: sheet coating type thermal insulation
50: insulation tube 51: inlet
52: outlet

Claims (5)

delete delete delete delete Foam foam to form a foam foam pot 10 having an inner space 12 inside the body 11 by foaming a raw material consisting of any one of styrofoam, EPS (Expanded Poly-styrene) and EPP (Expanded Poly-Propylene). Pollen molding step (S10);
A sheet extrusion step (S20) of extruding polyethylene into a heat shrink sheet 20 to have a thickness of 0.5 to 5 mm;
A sheet stretching step (S30) of feeding the heat-shrinkable sheet 20 to the stretching machine and stretching 15 to 55% along the direction of the arrow while heating the plurality of rollers;
The stretched heat-shrinkable sheet 21 is cut to have a cylinder smaller than the smallest diameter of the outer diameter of the body 11 and wound to have a cylindrical shape and pressurized while heating the overlapping portions of both ends so that both ends of the welded part 22 are integrally formed. A cylindrical heat shrink sheet forming step of welding the cylindrical heat shrink sheet 21 (S40);
A bottom sheet fixing step (S50) of cutting the bottom sheet 30 smaller than the bottom size of the body 11 and then applying a gluing agent to fix the bottom sheet 30;
When the cylindrical heat shrink sheet 21 is coupled to the outer diameter of the body 11 of the foam foam pot 10, and the cylindrical heat shrink sheet 21 and the foam foam pot 10 is rotated while heating, the elongated cylindrical heat shrink sheet 21 is Heat shrink sheet coating step (S60) is formed integrally while being wrapped along the outer diameter of the body 11 while being shrunk by heat;
Since the lower side of the cylindrical heat shrink sheet 21 is heat-shrinked and molded to wrap from the lower side along the outer diameter of the bottom sheet 30, the bottom finishing protrusion 31 is heated to be integrally welded and fixed along the bottom sheet 30.
The upper side of the cylindrical heat shrink sheet 21 is heat-shrinkable to surround the upper side of the body 11, the heat shrink is fixed to be integral to the inner diameter finishing portion 23 on the upper side of the inner space 12, the sheet-coated thermal insulation pot ( 40) heat shrink sheet finishing step (S70) for molding; Method of manufacturing a pot for thermal insulation, characterized in that it comprises a.

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