WO2016010074A1 - Superheated steam generation device - Google Patents

Abstract

Provided is a superheated steam generation device which is capable of efficiently generating superheated steam, has an improved heating ability, and is easily used by farmers. The superheated steam generation device is formed by: providing a saturated steam generation chamber 6, the bottom surface of which is in contact with a heat source 5; and providing a saturated steam storage chamber 7, a vapour pressure adjustment chamber 8, and a superheated steam generation chamber 10 in the stated order to the upper section of the saturated steam generation chamber 6. The chambers are divided from one another by metal partition plates having holes (22, 23, 24) therein. In the saturated steam generation chamber 6, water becomes saturated steam as a result of being heated. The saturated steam is sent to the superheated steam generation chamber 10 via the saturated steam storage chamber 7 and the vapour pressure adjustment chamber 8 and becomes superheated steam as a result of being reheated.

Description

Superheated steam generator

The present invention relates to an apparatus for generating superheated steam that can be used for greenhouse heating, plant cultivation, cooking, and the like.

Conventionally, there has been proposed a heating cooker including a hot air unit (the unit is composed of a radial fan that circulates air in the heating chamber and a hot air heater) and a steam generator that supplies moisture to the heating chamber. (Patent Document 1). The heating cooker supplies steam to the hot air unit, and superheated steam generated by overheating with the hot air heater is stirred in the hot air unit and blown out into the heating chamber. It is a cooker that cooks food efficiently with less unevenness in quantity. In addition, a water tank for storing conditioned water, a steam generator for evaporating the water in the water tank, a superheated steam generator for generating superheated steam by heating the steam generated by the steam generator, and superheated steam generation There has been proposed a heater combined with a blower that blows superheated steam generated in a heater into a greenhouse (Patent Document 2).

JP 2007-3042 A Utility Model Registration No. 315564

The method for generating superheated steam in the heating cooker described in Patent Document 1 is unsuitable for heating a greenhouse. The method of generating superheated steam in the heater described in Patent Document 2 has been adopted in recent years for facility cultivation, and has achieved some results, but the construction cost at the time of new construction has become high, the facility area and the sudden temperature difference There is little room for heating capacity, and it is inadequate in terms of stable operation. Farmers are less reliable than existing heating. In order to disseminate superheated steam heaters as an alternative to oil-fired heaters over the long term, there are issues that need to be improved, such as improving the capacity performance of the equipment, lowering power consumption and reducing the cost of construction costs when newly installed. Exists.

The present invention solves the problems of conventional superheated steam generation methods, and by adopting a new superheated steam generation system, it is possible to efficiently generate superheated steam and improve the heating capacity. An object of the present invention is to provide an apparatus for generating superheated steam that can be easily adopted by farmers because of improved reliability such as cost reduction and stable operation.

An apparatus for generating superheated steam provided by the present invention includes:
A saturated water vapor generation chamber, and a saturated water vapor storage chamber, a steam pressure control chamber, and a superheated water vapor generation chamber are sequentially provided on the upper portion thereof,
The chambers are separated from each other by metal partition plates,
The saturated steam generation chamber is configured such that the bottom surface thereof is in contact with the heat source and directly connected to the water storage tank, whereby water in the storage tank is introduced into the saturation steam generation chamber and heated to become saturated steam. ,
The saturated water vapor generation chamber and the saturated water vapor storage chamber are separated by a metal partition plate having a single hole or a plurality of holes, so that the saturated water vapor generated in the saturated water vapor generation chamber is separated from the metal partition plate. It is configured to enter the saturated water vapor storage chamber through one hole or multiple holes,
The saturated water vapor storage chamber and the steam pressure control chamber are separated by a metal partition plate having one hole or a plurality of holes, so that the saturated water vapor stored in the saturated water vapor storage chamber is separated from the metal partition plate. It enters the steam pressure control chamber through one hole or multiple holes and is adjusted to a constant moisture content and steam pressure.
The steam pressure control chamber and the superheated steam generation chamber are separated by a metal partition plate having one hole or a plurality of holes, so that the adjusted saturated steam becomes one hole of the metal partition plate. Or it is configured to enter the superheated steam generation chamber through multiple holes,
The superheated steam generation chamber contains a heating source, and has a jet outlet and a blower fan, so that saturated steam in the superheated steam generation chamber is heated by the heating source to become superheated steam, and is sent from the jet outlet by the blower fan. It has the structure comprised so that it may be comprised.

Further, in a preferred embodiment of the superheated steam generating apparatus according to the present invention, as water introduced into the saturated steam generating chamber, after removing foreign substances in the water through a filter, it is contacted with a natural ore that emits mid-infrared rays and reformed. Use the purified water.

Also, in a preferred embodiment of the superheated steam generating device according to the present invention, the superheated steam is mixed with heated air and sent out from a jet outlet by a blower fan.

An apparatus for generating superheated steam according to the present invention has a saturated steam generation chamber whose bottom surface is in contact with a heating source, and sequentially on the saturated steam generation chamber, a saturated steam storage chamber, a steam pressure control chamber, A superheated steam generation chamber is provided, and the chambers are separated by a metal partition plate having one hole or a plurality of holes. Due to this characteristic configuration, the superheated steam generator can generate superheated steam efficiently, leading to cost reduction, stable operation, small size and light weight. It is easy to do.

It is sectional drawing which showed typically an example of the structure of the production | generation apparatus of the superheated steam of this invention. It is sectional drawing which showed an example of the structure of the production | generation apparatus of the superheated steam of this invention more easily.

The present invention will be described with reference to FIGS.
The saturated steam generation chamber is in contact with the heat source at the bottom and is directly connected to the water storage tank, and the water in the storage tank supplied from the water inlet is sent to the saturation steam generation chamber and heated to the saturated steam. It is comprised so that.
As shown in FIGS. 1 and 2, the saturated water vapor generation chamber 6 has a bottom surface of the saturated water vapor generation chamber itself in contact with the heating source 5 and is directly connected to the water storage tank 4. The water (flow direction 14) in the water tank 4 supplied from the water tap 1 which is a water introduction port is introduced into the saturated water vapor generation chamber 6 through the backflow prevention structure. In the saturated water vapor generating chamber, water is heated by a heating source to generate saturated water vapor. The heating source is not particularly limited and may be a heater that is heated by combustion of fuel, but an electric heater is preferable because it does not generate carbon dioxide.
The water supplied to the water storage tank 4 is preferably water from which impurities in the water have been removed in advance through the filter 2, and further water whose quality has been improved by natural ore 3 that emits mid-infrared radiation, such as Hempite (registered trademark). preferable.
Superheated steam generated from water whose quality has been improved by natural ore that emits mid-infrared rays has the effect of promoting plant growth and fungicidal and fungicidal effects.When this is supplied to plants such as vegetables grown in house, It has been proven to lead to disease prevention and growth promotion, and has the effect of reducing the amount of agricultural chemicals used.

The saturated steam generation chamber 6 and the saturated steam storage chamber 7 are partitioned by a metal partition plate having one hole or a plurality of holes, and the saturated steam generated in the saturation steam generation chamber is Enter the saturated water vapor storage chamber through one or more holes. The metal partition plate is preferably a partition plate made of a metal material such as iron, stainless steel, copper, or a copper alloy, or a laminated plate combining layers made of the metal material, and has high thermal conductivity. It is preferable that it has mechanical strength. The metal partition plate may be a single layer (a rust preventive layer may be appropriately added to the surface), for example, a three-layer structure (stainless layer / copper layer (or aluminum layer) / stainless layer) ) And the like, and may have a multilayer structure in consideration of thermal conductivity, mechanical strength, and surface corrosion resistance. For the material of the side wall and the housing, the material and structure of the metal partition plate described above may be referred to as appropriate.
The saturated steam storage chamber 7 has an internal structure for storing saturated steam and adding residual heat to the saturated steam in order to efficiently convert the saturated steam generated in the saturated steam generation chamber 6 to superheated steam in the superheated steam generation chamber 10. It is preferable that For example, a wall (preferably made of metal) is combined with the interior of the saturated water vapor storage chamber 7 to form a flow path (not shown) that meanders through the room (that is, the flow path in the room is more Thereby allowing saturated water vapor to pass through the chamber over a longer period of time, and then steam regulation through holes (one or more holes) 23 in the metal partition plate provided at the top. A structure introduced into the chamber 8 is preferable.

In order to efficiently generate superheated steam in the superheated steam generation chamber 10, the steam pressure control chamber 8 is adjusted so that the moisture content of the saturated steam is constant and the steam pressure is constant. An internal structure having a function to adjust is preferable. For example, in the same manner as the flow path meandering the interior of the saturated water vapor storage chamber 7, a flow path (not shown) that meanders the interior of the steam pressure control chamber 8 by combining walls (preferably made of metal). It is formed so that the flow path in the room is longer and passes through the room for a longer time. Thus, when the saturated water vapor passes through the inside of the steam pressure control chamber 8, the water content is adjusted and the pressure is adjusted, and the hole (one hole or a plurality of holes) of the metal partition plate provided on the upper part is provided. 24 is preferably introduced into the superheated steam generation chamber 10 through 24.

The superheated steam generation chamber 10 includes a heating source 9 and includes a superheated steam outlet 12 and a blower fan 11. Then, it is reheated to about 180 ° C. to 250 ° C. to become superheated steam (water in a completely gaseous state). In a preferred embodiment, the generated superheated steam (flow direction 15) is mixed with heated air (flow direction 16) in the mixing unit 19 and sent out from the jet outlet 12 by the blower fan 11. The heating source 9 is preferably an electric heater having a three-dimensional structure. The heating source 9 is a three-dimensional heating element in which a flat plate punching-shaped heating element is wound in a cylindrical roll shape, or a line is formed outside the cylindrical insulator. A more preferable example of the electric heater is a configuration in which a plurality of three-dimensional heating elements each having a helical heating body wound in a spiral shape are used. When such an electric heater is housed in the storage cylinder 20 and the entire outside thereof is covered with the heat insulation cover-21, the heat efficiency is high and the heat can be sufficiently heated even with relatively small electric power. There is an advantage of less.
1 and 2, the housing 13 is provided with an air intake port (not shown) for the blower fan 11. The blower fan 11 sends air between the storage cylinder 20 and the heat insulating cover 21 (arrow 16), and also sends air into the storage cylinder 20 (arrow 17). The steam rising from the steam pressure chamber 8 merges with the flow of air (arrow 17) sent from the blower fan 11 into the storage cylinder 20, passes through the heating source 9, and becomes superheated steam (arrow 15). Then, it exits from the storage cylinder 20 to the mixing section 19. In the mixing unit 19, the superheated steam that has come out of the storage cylinder 20 and the air heated by flowing between the storage cylinder 20 and the heat insulating cover 21 (arrow 16) are mixed and ejected to the outside (arrow). 18).
Flow rate of the superheated steam to be jetted to the outside from the generator of the present invention include, but are not limited to, a general-purpose device, approximately every minute 1m ^{3 ~} 2m 3 is illustrated.

The saturated steam generation chamber 6 and the saturated steam storage chamber 7, the saturated steam storage chamber 7 and the steam pressure control chamber 8, and the steam pressure control chamber 8 and the superheated steam generation chamber 10 are each made of metal having one hole or a plurality of holes. It is partitioned by a partition plate. In order to maximize the functions of the saturated water vapor storage chamber 7 and the steam pressure control chamber 8, the hole in the partition plate between the chambers is a single hole, and as shown in FIGS. The position of one hole of the partition plate between the saturated steam generation chamber 6 and the saturated steam storage chamber 7 is set at the center, and the position of one hole of the partition plate between the steam pressure control chamber 8 and the superheated steam generation chamber 10 Is one end near the side wall on the blower fan side, and the position of one hole of the partition plate between the saturated water vapor storage chamber 7 and the steam pressure control chamber 8 is the farthest end from the end. It is preferable to set to the part.
The size of the hole is not particularly limited. For example, the size is preferably 1/10 to 1/20 of the bottom area of each chamber, and the shape may be circular or polygonal.
The shape of the bottom surface of each chamber is not particularly limited, and may be a circle, a rectangle, a polygon, or the like. The bottom area of each chamber is not particularly limited, and for example, about 300 cm ² to 500 cm ² is exemplified.

An apparatus for generating superheated steam according to the present invention will be described with reference to FIGS.
The taken water enters the water storage tank 4 from the water faucet 1 at the water inlet through the filter 2, is sent from the water storage tank to the saturated water vapor generation chamber 6, and is heated by the heating source 5 from the lower part of the saturated water vapor generation chamber 6. It becomes saturated water vapor. The saturated water vapor is sent to the saturated water vapor storage chamber 7 through one hole 22 of the partition plate between the chambers, and then the steam is adjusted through one hole 23 of the partition plate (made of metal in this embodiment) between the chambers. It is sent to the pressure chamber 8, the water content is further adjusted and regulated, and sent to the superheated steam generation chamber 10 through the one hole 24 of the partition plate between the chambers, and reheated by the heating source 9 to be superheated steam. It becomes. In the present embodiment, the superheated steam is mixed with separately prepared heated air 16 by the blower fan 11, the temperature and the air volume are adjusted, and discharged from the spout 12 into an agricultural house (such as a greenhouse). .
The temperature and air volume of the superheated steam discharged are determined by the sensors (particularly the temperature sensor) installed inside the agricultural house and the control circuit (in response to the signal from the sensor, the heating source in the superheated steam generation chamber). By providing an automatic control system having a control circuit for controlling the heat generation amount and the air flow rate of the blower fan, the automatic control can be performed.

The heating by the superheated steam generated from the generating apparatus according to the present invention has a larger heat storage amount than the heating by the currently used petroleum combustion air, has an excellent heat retention effect, and has a heating fuel cost of 50-80. The percentage can be reduced.

1 Water tap (water supply source)
DESCRIPTION OF SYMBOLS 2 Filter 3 Natural ore which radiates | emits mid-infrared 4 Water storage tank 5 Heating source 6 Saturated steam generation chamber 7 Saturated steam storage chamber 8 Steam pressure regulation chamber 9 Heating source 10 Superheated steam generation chamber 11 Blower fan 12 Spout 13 Equipment housing Exterior 14 Flow direction (arrow)
15 Flow direction of superheated steam (arrow)
16 Flow direction of heated air (arrow)
17 Direction of air flow in superheated steam generation unit (arrow)
18 Ejection direction (arrow)
DESCRIPTION OF SYMBOLS 19 Mixing part 20 Storage cylinder 21 Thermal insulation cover 22 One hole of metal partition plate 23 One hole of metal partition plate 24 One hole of metal partition plate

Claims (3)

An apparatus for generating superheated steam,
A saturated water vapor generation chamber, and a saturated water vapor storage chamber, a steam pressure control chamber, and a superheated water vapor generation chamber are sequentially provided on the upper portion thereof,
The chambers are separated from each other by metal partition plates,
The saturated steam generation chamber has a structure in which the bottom surface is in contact with a heating source and directly connected to the water storage tank, whereby water in the water storage tank is introduced into the saturation steam generation chamber and heated to become saturated steam. ,
The saturated water vapor generation chamber and the saturated water vapor storage chamber are separated by a metal partition plate having a single hole or a plurality of holes, so that the saturated water vapor generated in the saturated water vapor generation chamber is separated from the metal partition plate. It is configured to enter the saturated water vapor storage chamber through one hole or multiple holes,
The saturated water vapor storage chamber and the steam pressure control chamber are separated by a metal partition plate having one hole or a plurality of holes, so that the saturated water vapor stored in the saturated water vapor storage chamber is separated from the metal partition plate. It enters the steam pressure control chamber through one hole or multiple holes and is adjusted to a constant moisture content and steam pressure.
The steam pressure control chamber and the superheated steam generation chamber are separated by a metal partition plate having one hole or a plurality of holes, so that the adjusted saturated steam becomes one hole of the metal partition plate. Or it is configured to enter the superheated steam generation chamber through multiple holes,
The superheated steam generation chamber contains a heating source, and has a jet outlet and a blower fan, so that saturated steam in the superheated steam generation chamber is heated by the heating source to become superheated steam, and is sent out from the jet outlet by the blower fan. Characterized by having a structure configured to be
The superheated steam generator. The water introduced into the saturated steam generation chamber is water that has been subjected to removal of foreign substances in the water through a filter and further modified by contacting with natural ore that emits mid-infrared rays. The apparatus for generating superheated steam described in 1. The superheated steam generating apparatus according to claim 1 or 2, wherein the superheated steam is mixed with heated air and sent out from a jet outlet by a blower fan.

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