JPH0413047A - Storage type water heater - Google Patents

Abstract

PURPOSE:To make it possible to control easily a temperature in a green house or underground temperature by producing medium/hot water in a medium/low temperature hot water reservoir main body by way of a heat exchanger coil and supplying hot water by way of a communication pipeline which connects a high temperature hot water reservoir main body with the medium/low temperature hot water reservoir main body. CONSTITUTION:A heat exchanger coil 17 is installed in a medium/low temperature hot water reservoir main body C where water which turns into medium/low temperature hot water Q1 is filled up there. When valves 9h and 9i installed to a communication pipe 18 are opened, convection current forces hot water Q1 to flow from the upper layer of a high temperature hot water reservoir B to the upper layer of the medium/low temperature hot water reservoir C by way of the communication pipeline 18. The convection current of the hot water Q1 which has moved to the upper layer forces the medium/low temperature hot water Q2 to flow to the lower layer of the hot water reservoir B repeatedly so that the temperature of the medium/low temperature hot water may exceed a specified temperature promptly. The hot water Q1 or the medium/low temperature hot water Q2 obtained in this manner can be transported to each location so as to heat or insulate heat in the indoor section, the underground section and seedbeds by a booster hot water supply device 2 and a booster medium/low temperature hot water supply device 2.

Description

Detailed Description of the Invention (Field of Industrial Application) The present invention further improves the heat retention effect of greenhouses in greenhouse cultivation in cold regions, thereby giving farmers the advantage of early harvesting and The purpose is to provide a water heater that can reduce equipment costs and miscellaneous expenses by reducing equipment requirements.

(Prior Art) Conventionally, the success or failure of greenhouse cultivation in cold regions lies in how to manage the temperature inside the greenhouse and the temperature inside the ground. For this reason, piping is installed inside the greenhouse, underground, and inside the seedbed to deliver hot water as a heat medium to ensure the required temperature in each area. However, in greenhouse cultivation,
Since the temperature varies slightly depending on the crops and varieties grown, temperature control of the heating medium is an absolute necessity. Next, a conventional technique will be explained based on the drawings. FIG. 1 is a system diagram showing the functions of a conventional hot water storage type water heater.

Hot water Q3 is stored in the water heater body A.

When the stored hot water Q3 is partially heated by the heating device 1, it expands, becomes less dense, and rises. The hot water Q3, which is lower in temperature than the rising hot water Q3, descends and causes fluid convection 20, and by repeating this, the temperature of the hot water Q3 decreases.

The temperature of hot water Q3 is determined by the temperature attached to the water heater body A.
It is monitored by a thermometer 6, and signals instructing the heating device 1 to start and stop are sent via a control panel (not shown) to maintain the temperature at an arbitrarily set temperature. When the valves 9a and 9b are opened and the pressurized water supply device 2 is started, the hot water Q3 maintained at a constant temperature is sent through the hot water pipe 11 as a heat medium for heating or keeping warm. It has achieved its purpose. The hot water Q3-, which has achieved the purpose of heating or keeping warm, returns to the water heater main body A through the hot water return pipe 12, becoming warmer than when it was sent.
Repeat the steps shown above. However, since the temperature at which hot water is delivered differs depending on the location to be heated or kept warm, the following problems occur. For example, when heating the inside of a greenhouse, by sending hot water Q3 of 80℃ or higher, the temperature inside the greenhouse can be lowered by 25℃.
It is possible to maintain the temperature between ℃ and 30℃, but if you want to keep the inside of the ground or seedbed warm, by sending warm water Q3 of 40℃ to 45℃, the temperature inside the ground and inside the seedbed can be adjusted to suit crop growth. 20
It can be maintained between ℃ and 30℃. From these facts, when hot water Q3, which is as high as 80℃ or higher and necessary for heating the inside of the greenhouse, is sent underground or into the nursery, the temperature inside the ground or the nursery will rise and fall. Because of this, it is not possible to send hot water, so we have installed multiple water heater bodies A that are set at a constant temperature, but since multiple pieces of equipment are required, equipment costs and miscellaneous expenses naturally increase. Farmers are struggling to find countermeasures because these problems worsen the income and expenditure of agricultural management.

(Problems to be Solved by the Invention) The present invention aims to achieve the following objects. In greenhouse cultivation in cold regions, it is possible to easily control the temperature inside the greenhouse and underground, as well as heating,
The purpose is to reduce equipment costs and miscellaneous expenses by simplifying the equipment for heat insulation.

(Means to solve the problem) In order to solve the problem shown above, high temperature hot water storage water heater body B
By using hot water Q1 kept at a constant temperature inside as a heat medium and passing it through the heat exchange coil 17 provided inside the medium/low temperature hot water storage water heater main body C, medium/low temperature water Q2 can be easily produced. By focusing on the fluid convection 2o caused by the temperature difference and utilizing that convection through the connecting pipe 18,
This allows the temperature of medium- and low-temperature water to be controlled freely and quickly.

(Function) The key to the success or failure of greenhouse cultivation in cold regions is how to manage the temperature inside the greenhouse and the temperature inside the ground.

In greenhouse cultivation, the temperature varies slightly depending on the crop and variety, so temperature control of the heat medium is an absolute requirement. For these reasons, in the present invention, it is formed as a pair with the high temperature hot water storage water heater main body B. A heat exchange coil 17 is provided inside the medium/low temperature water storage water heater main body C, and the hot water Q1 maintained at a constant temperature within the high temperature water storage water heater main body B is used as a heat medium, and the heat exchange coil 17 is By passing it through,
Medium/low temperature water Q2 is produced in the low temperature hot water storage water heater body C.

The medium/low temperature water Q2 thus obtained can be used for various purposes together with the hot water Q1. Furthermore, a connecting pipe 18 connects the high temperature water storage water heater body B and the medium/low temperature water storage water heater body C.
In order to supply hot water Q1 through the medium and low temperature water heater body C, the temperature of the medium and low temperature water Q2 stored in the medium and low temperature water heater body C can be quickly raised to a desired temperature. In addition to being able to quickly respond to the effects on crops caused by the arrival of cold waves, it can also easily respond to the temperature rises required when expanding greenhouses. Further, since the present invention is configured as described above, there is no need to have multiple equipment,
Equipment costs, management costs for managing the equipment, fuel costs, etc. that were previously incurred can now be significantly reduced.

(Example) Embodiments according to the present invention will be described based on the drawings.

FIG. 2 is a system diagram showing the functions of the hot water storage type water heater according to the present invention. Hot water Q1 is stored in the high temperature hot water storage water heater main body B. When the stored hot water Q1 is partially heated by the heating device 1, it expands and its density becomes small (and increases).The hot water Q1, which is lower in temperature than the rising hot water Q1, descends and causes fluid convection 20. By repeating this, the temperature of the hot water Q1 rises and is stored in the high temperature hot water storage water heater body B.The temperature of the hot water Q1 is monitored by a thermometer 7 attached to the high temperature hot water storage water heater body B. In order to maintain an arbitrarily set temperature, a signal is given to the heating device 1 to start and stop it via a control panel (not shown), and the temperature is maintained. is provided with a heat exchange coil 17, and a heat medium hot water supply pipe 13
and is connected to the heat medium hot water supply return pipe 14. A heat medium hot water circulation device 4 is provided in the heat medium hot water supply pipe 13 to supply hot water Q1 stored in the high temperature hot water storage water heater body B as a heat medium. Furthermore, the medium/low temperature hot water storage water heater body C is filled with water that will eventually become medium/low temperature water Q2. The hot water Q1 stored in the high temperature hot water storage water heater main body B is passed through the heat medium hot water supply pipe 13 to the heat medium hot water circulation device in order to heat the water filled in the medium/low temperature hot water storage water heater main body C! 4, the hot water is pressurized and fed, returns to the high temperature hot water storage water heater body B through the heat exchange coil 17 and the heat medium hot water supply return pipe 14, and repeats this process. The water filled in the medium/low temperature water storage water heater main body C to become hot water Q2 is heated every time the hot water Q1 serving as a heat medium passes through the heat exchange coil 17, and when it is partially heated, it expands and its density decreases. The water becomes smaller and rises, and as it rises, the lower temperature water falls, causing fluid convection 2
Wake up 0. By repeating this, the filled water becomes hot water Q2 and is stored in the medium/low temperature hot water storage water heater C.

The temperature of hot water Q2 is determined by a medium/low temperature hot water storage water heater C. It is monitored by a thermometer 8, and in order to maintain an arbitrarily set temperature, a signal is given to the heating medium hot water circulation device 4 to start and stop it via a control panel (not shown), thereby maintaining the temperature. Furthermore, in the present invention, communication pipes 18 are formed in the upper and lower parts of the high temperature hot water storage water heater main body B and the medium/low temperature hot water storage water heater main body C. The role of this connecting pipe 18 is to activate it when cold waves frequently occur in cold regions or when expanding a greenhouse, so that the temperature of the medium/low temperature water Q2 can be raised easily and quickly. This is what I did. Fluid convection 20 occurs inside the high temperature hot water storage water heater body B and the medium/low temperature hot water storage water heater body C. The hot water Q1 in the high temperature hot water storage water heater body B is set to 80°C or higher, and the medium/low temperature water Q2 in the medium/low temperature water storage water heater body C is normally set at 40°C or higher.
The temperature is set at 5°C to 15°C. As shown above, when a liquid is partially heated, it expands, its density decreases, and it rises. At the same time, the low-temperature liquid above falls and causes fluid convection. By repeating this process, the temperature decreases. However, the increase in Hot water Q1 is 80℃ or higher, medium/low temperature water Q2 is 4
Since the temperature is set at 5°C to 15°C, the inventor focused on this temperature difference. That is, inside the high-temperature hot water storage water heater main body B, even if the hot water Q1 is the same, the temperature is higher in the upper layer than in the lower layer due to heating. Furthermore, the high temperature hot water storage water heater body B has a higher temperature than the medium/low temperature hot water storage water heater body C. For these reasons, communication pipes 18 were formed in the upper and lower parts of the high temperature hot water storage water heater body B and the medium/low temperature hot water storage water heater body C.

If it is necessary to quickly raise the temperature of the medium/low temperature water Q2 above the set temperature, open the valves 9h and 9i provided in the connecting pipe 18 to raise the temperature of the high temperature water storage water heater body B. Hot water Q1 flows from the upper layer to the connecting pipe 18 by convection.
It moves to the upper part of the medium/low temperature water storage water heater main body C through the medium/low temperature water storage water heater body C.

Medium/low temperature water Q2 from the lower part of the medium/low temperature hot water storage water heater body C
However, due to the convection of the hot water Q1 that has moved to the upper layer, it moves to the lower layer of the high temperature hot water storage water heater body B and repeats this process.
This is to quickly raise the temperature of the low temperature water Q2 above the set temperature. The hot water Q1 and medium/low temperature water Q2 obtained in this way are sent to each location by a pressurized water supply device 2 and a medium/low temperature water pressurized water supply device 3 in order to heat or keep warm inside the greenhouse, underground, and inside the seedbed. to achieve its purpose.

(Effect of the invention) Since the present invention was configured as described above, it exhibited the following effects.

In greenhouse cultivation in cold regions, temperature control inside the greenhouse, underground, and inside the seedbed has been a major problem for agricultural managers because equipment costs and miscellaneous expenses are considerable. However, with the development of the present invention, it has become possible to easily manage multiple temperatures with one water heater, and it has also been made possible to quickly deal with the effects on crops caused by the sudden onset of cold waves that often occur in cold regions. Furthermore, even when expanding a greenhouse, heating and insulation can be done inside the greenhouse, underground, and inside the nursery by simply installing piping leading to the greenhouse, reducing the equipment costs that were previously required. This shows the effect of drastically reducing miscellaneous expenses such as management costs and fuel liability. In addition, the type of heating device for obtaining a heat source, equipment, and power source are not shown in FIGS. 1 and 2 for explaining the conventional technology and embodiments.

[Brief explanation of drawings]

FIG. 1 is a system diagram showing the functions of a conventional hot water storage type water heater, and FIG. 2 is a system diagram showing the functions of the hot water storage type water heater according to the present invention. A: Water heater body, B: High temperature hot water storage water heater body, C: Medium/low temperature water heater body, Ql: Hot water, Q2. ...Medium/low temperature water, Q3...Hot water, W...Makeup water,
]-=-3・Heating device, 2... Pressurized water supply device, 3... Medium/low temperature water pressurized water supply device, 4.
...heat medium hot water circulation device, 6.7.8---
--Thermometer, 9a, 9b. 9 c s 9 d % 9 e s 9 f % 9
g s 9 h s 91 %9j... valve,
11... Hot water supply pipe, 12... Hot water return pipe, 13... Heat medium hot water supply pipe, 14...
... Heat medium hot water supply return pipe, 15 ... Makeup water supply pipe, 17 ... Heat exchange coil, 18
......Connection pipe, 19...Arrow showing interspecies movement of hot water, 20...Arrow showing fluid convection, 21...Flow direction of hot water Q1 Arrow showing, 2
2...Arrow indicating the flow direction of medium/low temperature water Q2,
23...Arrow indicating the flow direction of hot water Q3, 24
...Arrow indicating the circulation of heat medium hot water, 25...
...Arrow indicating supply of makeup water, 27...Middle...
Low temperature water supply pipe, 28... Medium/low temperature water supply return pipe, Fig. 1 23'

Claims (1)

[Claims] A high-temperature water storage water heater body B having a heating device for obtaining high-temperature water (80°C or higher), and a medium-low temperature water heater that stores medium-low temperature water (65°C to 15°C) using the obtained high-temperature water as a heat medium. Concerning a hot water storage type water heater formed as a pair of water storage water heater bodies C. A feature is that communication pipes 18 are formed in the upper and lower parts of the high temperature hot water storage water heater main body B and the medium/low temperature hot water storage water heater main body C to transfer hot water to each tank using fluid convection 20 generated by heating. A storage type water heater.