JP3151399U - Agricultural heating device - Google Patents

Abstract

The present invention provides an agricultural heating apparatus that contributes to energy saving and environmental problems and that can effectively heat a greenhouse. A heating device for an agricultural greenhouse such as a vinyl house disposed in front of a circulation fan, comprising a frame body 2 and a heat generating layer 3. The frame body 2 has a ceiling at a predetermined position on the outer periphery. The frame 2 is provided with a heat generating layer 3, and the heat generating layer 3 includes a rectifying means 4 and a planar heating element. The plate-like bodies 4a made of an insulating material are arranged in a lattice shape so as to fit in the frame body 2, and the planar heating element is a belt-like metal plate that generates heat when energized. It was set as the structure arrange | positioned in each cell 4b which can be formed by arranging the shape body 4a in a grid | lattice form. [Selection] Figure 1

Description

  The present invention relates to a heating device in an agricultural greenhouse such as a vinyl house.

  Conventionally, as a heating method in an agricultural greenhouse such as a vinyl house, a method using a boiler as a heating facility is generally used. Specifically, it is a method of heating the inside of the greenhouse by blowing heat from the boiler into the greenhouse through a hot air hose or the like. According to this method, since the boiler generates heat using fossil fuel as a fuel, the amount of CO2 generated is high, which contributes to global warming. In addition, there is a problem that the operating cost is not constant due to the fossil fuel price.

JP 2007-319089 A JP 2007-292431 A JP 2005-333840 A

  In view of the above problems, an object of the present invention is to provide an agricultural heating apparatus that contributes to energy saving and environmental problems and that can effectively warm the inside of a greenhouse.

  In order to solve the above-mentioned problem, the present invention is a heating device in an agricultural greenhouse such as a vinyl house disposed in front of a circulation fan, and includes a frame body and a heat generating layer. In addition to providing the means for identifying the ceiling or the like at a predetermined location, the frame body is equipped with a heat generating layer. The heat generating layer is composed of a rectifying means and a planar heating element. The plate-like body is arranged in a lattice shape so as to fit in the frame body, and the planar heating element is a band-like metal plate that generates heat when energized, and the plate-like body is in a lattice shape. It has a structure that is arranged in each cell that can be arranged.

  Further, the present invention may employ a structure in which the planar heating element is constituted by a single continuous metal plate by passing through the plate-like bodies arranged in a lattice pattern in the agricultural heating apparatus. .

  Furthermore, this invention can also take the structure where the planar heating element is arrange | positioned in the waveform in the said heating apparatus for agriculture.

  In addition, the present invention may be configured such that in the heating apparatus for agriculture, a plurality of heat generating layers are provided in the frame.

  According to the agricultural heating device of the present invention, a planar heating element that is easily attached to a conventional circulation fan in an agricultural greenhouse such as a vinyl house and generates heat by energizing electricity, By adopting a structure that heats the air that passes through the circulation fan, it contributes to equipment cost reduction, as well as energy saving effect compared to conventional boiler-type heating devices that use fossil fuel as fuel, and Since there is almost no CO2 emission due to operation, it is also effective for environmental problems.

  In addition, according to the agricultural heating device according to the present invention, since the circulation fan of the agricultural greenhouse is used, there is almost no operating sound and blowing sound like the conventional boiler type heating device, and the noise problem is very difficult. It is effective.

  Hereinafter, an embodiment of a heating apparatus for agriculture according to the present invention will be described in detail with reference to the drawings.

1 and 2 show an embodiment of an agricultural heating apparatus 1 according to the present invention. FIG. 1 is a front view, and FIG. 2 is a side partial sectional view.
The agricultural heating apparatus 1 in this embodiment is comprised from the frame 2 and the heat-generating layer 3, as shown in FIG.1 and FIG.2.

The frame 2 is provided with individual means 2a for the ceiling or the like, and a heat generating layer 3 is provided in the frame 2.
Note that the means 2a for identifying the ceiling or the like is not particularly limited as long as it is a means that exhibits such a function. For example, means as shown in the drawings can be considered.

  Although the shape of the frame 2 is not particularly limited, for example, a rectangular shape as shown in FIG. 1A or a circular shape as shown in FIG.

The heat generating layer 3 includes a rectifying means 4 and a planar heat generating element 5.
The rectifying means 4 is a plate-like body 4 a made of an insulating material, and has a structure in which the plate-like bodies 4 a are arranged in a lattice shape so as to fit within the frame body 2. Thereby, a plurality of square cells 4b surrounded by the plate-like body 4a are completed.
By adopting such a structure, the air A sent out from the circulation fan D becomes a spiral turbulent flow, whereas the air A is rectified through the lattice-like rectifying means 4 and the agricultural greenhouse B The heating efficiency inside will be improved.

  Although various insulating materials are conceivable, the insulating material is not particularly limited as long as it has sufficient heat resistance to withstand the heat generated by the planar heating element 5.

  The planar heating element 5 is composed of a band-shaped metal plate that generates heat when energized, and is arranged in each of the squares 4b that are completed by arranging the plate-like bodies 4a in a grid pattern. . In addition, about the material of a metal plate, if it has the heat_generation | fever effect by electricity supply, it will not specifically limit.

At this time, it is possible to adopt a structure in which the planar heating element 5 penetrates the plate-like bodies 4a arranged in the lattice shape. By adopting such a structure, the planar heating element 5 arranged in the plurality of grids 4b can be constituted by a single continuous metal plate.
In this way, by configuring the planar heating element 5 from a single continuous metal plate, the length of the planar heating element 5 (metal plate) in the heating layer 3 can be easily adjusted. Thus, since the electric resistance value is changed by adjusting the length of the sheet heating element 5 (metal plate), the amount of heat generation can be easily and freely controlled.

  The planar heating element 5 is preferably arranged in a wave shape as shown in the drawing. FIG. 3 is a partially enlarged view showing a specific example of such a structure. FIG. 3A shows a wave shape of one turn of the planar heating element 5 from the lower limit to the upper limit and to the lower limit in one cell 4b. FIG. 3B shows a case where the planar heating element 5 takes a wave shape corresponding to ½ turn from the lower limit to the upper limit or from the upper limit to the lower limit in one cell 4b. ing. By adopting such a structure, the contact area between the passing air A and the planar heating element 5 is increased, so that the heating efficiency of the air A is improved.

  In addition, as shown in FIG. 2, it is also possible to have a structure in which a plurality of the heat generating layers 3 are provided in the frame 2. In the drawing, the heat generating layer 3 is shown as having a three-layer structure. By adopting such a structure, the air A passes through the heat generating layer 3 over three layers, and the heating efficiency and the heating speed of the air A can be improved.

  The agricultural heating device 1 according to the present invention configured as described above is disposed in front of the circulation fan D via the individual means 2a provided in the frame body 2, and is used in an agricultural greenhouse B such as a vinyl house. , Will be heated.

FIG. 4 is an explanatory view showing an agricultural greenhouse B to which the agricultural heating apparatus 1 according to the present invention is attached.
That is, by the action of the circulation fan D, the air A in the agricultural greenhouse B circulates in the agricultural greenhouse B as shown by the arrows in the drawing. At this time, by turning on the power of the agricultural heating device 1 according to the present invention disposed in front of the circulation fan D, the air A entering from the suction side of the circulation fan D is heated for agriculture on the blowing side. It is heated in contact with the sheet heating element 5 of the apparatus 1 and sent into the agricultural greenhouse B. By repeating this, the air A in the agricultural greenhouse B is efficiently heated.

According to the agricultural heating device 1 according to the present invention, by using electricity as an energy source, only a reduction in fuel cost is realized as compared with a conventional boiler heating device using fossil fuel as fuel. In addition, there is almost no CO2 emission, and there is a very advantageous effect in terms of environmental problems.
In addition, there is almost no combustion noise of the boiler, blower noise, etc., and the noise problem is also excellent.

  The present invention is easily mounted in front of the circulation fan D and enables efficient heating that is friendly to the environment. For example, the circulation fan D in a tunnel can be used not only for an agricultural heating apparatus. It can be said that the industrial applicability of the present invention is enormous, considering its application such as preventing road surface freezing by being attached.

It is a front view which shows embodiment of the heating apparatus for agriculture concerning this invention. It is a side surface fragmentary sectional view which shows embodiment of the heating apparatus for agriculture concerning this invention. It is the elements on larger scale which show the specific example of the structure of the planar heating element in the heating apparatus for agriculture concerning this invention. It is explanatory drawing which shows the greenhouse for agriculture which attached the heating apparatus for agriculture concerning this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Agricultural heating device 2 Frame 2a Fixing means 3 Heat generation layer 4 Rectifying means 4a Plate-like body 4b Grid 5 Planar heating element A Air B Agricultural greenhouse D Circulation fan

Claims (4)

A heating device in an agricultural greenhouse such as a vinyl house arranged in front of a circulation fan,
A frame and a heating layer,
The frame body is provided with individual means to the ceiling or the like at a predetermined position on the outer periphery, and a heating layer is equipped in the frame body,
The heating layer is composed of a rectifying means and a planar heating element,
The rectifying means has a structure in which plate-like bodies made of an insulating material are arranged in a lattice shape in a state of being accommodated in the frame body,
The planar heating element is a band-shaped metal plate that generates heat when energized, and is disposed in each square formed by arranging the plate-like bodies in a grid pattern.
An agricultural heating device characterized by the above.   In the heating apparatus for agriculture, a single metal plate in which planar heating elements arranged in a plurality of grids are continuous by passing through the planar heating elements arranged in a grid pattern. The heating apparatus for agriculture according to claim 1, comprising:   The agricultural heating apparatus according to claim 1 or 2, wherein in the agricultural heating apparatus, the planar heating elements are arranged in a wave shape.   The agricultural heating apparatus according to any one of claims 1 to 3, wherein in the agricultural heating apparatus, a plurality of heat generation layers are provided in a frame body.

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