JPS625256B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION An object of the present invention is to significantly reduce the power consumption of an evaporative humidifier.

Conventional electric heat evaporative humidifiers require approximately 500 liters of water per hour for household use, for example.
It has a humidifying capacity of 5000 ml and can humidify continuously for 10 hours, but the total amount of water required is 5000 ml, and the structure is such that the entire amount of water is heated.

In addition, the electric heat required for heating requires approximately 500W of power, which amounts to 5KW for 10 hours, requiring a large amount of energy.

The present invention solves the above problems, and embodiments thereof will be described below with reference to FIGS. 1 and 2.

In the figure, 1 is a main body, and this main body 1 is a partition wall 2.
The heating tank 3 is heat-insulated and fixed to one of the two, and the other has a detachable water tank 4.

There is a lid 5 on the top of the main body 1 mainly for the purpose of dustproofing.
There is an air outlet 6 provided in a part of the air outlet. Reference numeral 7 denotes a heater closely fixed to the heating tank 3, and although it is provided on the bottom surface in the figure, it can also be provided in the form of a band around the bottom of the heating tank 3.

There is an opening 8 in the upper part of the heating tank 3, and a cap 9 is provided in contact with the opening 8 or by other means to be detachable and airtight when tightened. This cap 9 has a hole through which an outlet pipe 10 passes.
One end of the heating tank 3 is penetrated into the opening 8 of the heating tank 3. The other end of the blowout pipe 10 is constricted to form a blowout nozzle 11 having fine holes. Suction pipe 12
The tip of the holder is also constricted to form a suction nozzle 13 with a fine hole, which is perpendicular to the ejection direction of the suction nozzle 11, and the opening of the fine hole tip of the suction nozzle 13 is located within the steam jet flow described later. 14, it is fixedly locked.

The other end of the suction pipe 12 is connected to a tube 15, and the end of the tube 15 reaches the bottom of the water tank 4 and has the purpose of sucking up water in the water tank 4.

A valve seat 16 is fixed to a part of the blow-off pipe 10,
The seat of the valve 17 is made of heat-resistant rubber. A spring 19 is provided between the cap cover 18 locked to the tank cap 9 and the valve seat 16,
The valve 17 is pressed against the top surface of the tank cap 9 through the valve seat 16 to prevent steam leakage from the through hole for the blowout pipe 10 of the tank cap 9, and also to prevent excessive pressure rise in the heating tank 3. It is configured as a safety valve.

Next, to explain the operation, the required amount of water is poured into the water tank 4 and the heating tank 3, and the heating tank 3 is filled with water.
The water inside is heated by heater 7. The heated water boils, and the generated steam is pressurized by the pores of the blow-off nozzle 11, and is ejected from the pores of the blow-off nozzle 11.

Since the pore opening of the suction nozzle 13 is located within the jet flow, the inside of the suction nozzle 13 becomes negative pressure due to the Ventury effect, and the water in the water tank 4 is sucked up through the tube 15 and the suction pipe 12, and the suction nozzle 13 The mixture is ejected from the tip of the heating tank 3 together with the steam in the heating tank 3, and is sprayed into the room through the air outlet 6 of the lid 5 to humidify the room.

Regarding the amount of water in the water tank 4 and the heating tank 3, this is a feature of the present invention and is related to the spray characteristics of the nozzle section consisting of the blow-off nozzle 11 and the suction nozzle 13, but it is based on experimental results. and the vapor pressure at the time of ejection is 0.5Kg/cm ² in gauge pressure.
As the rate of decrease in water volume in heating tank 3 is per minute
2.2ml, the water volume reduction rate in tank 4 is 6.2ml per minute.
becomes. That is, the total amount of humidification is 8.4 ml per minute, which is 504 ml per hour. The total amount of water required for 10 hours is approximately 5000ml, and when divided into each amount,
3690ml on the water tank 4 side, 1310ml on the heating tank 3 side
becomes.

Next, regarding the power required for heating, it is also related to thermal efficiency including insulation, but according to experiments, the purpose can be achieved with power consumption of 95W.

For 10 hours of continuous use, the power consumption is only 950W, which is less than 20% of the conventional 5KW, which is extremely effective in terms of energy saving. be.

[Brief explanation of the drawing]

FIG. 1 is a sectional view of a humidifier according to an embodiment of the present invention, and FIG. 2 is an enlarged sectional view of a main part of a mixing spray section. 3...Heating tank, 4...Water tank, 11...Blowout nozzle.

Claims (1)

[Claims] 1 It is divided into a water tank and a heating tank, and the pressurized steam generated in the heating tank is ejected from the pores of the blowout nozzle, and the steam is sucked up from the water tank from the tip of the suction nozzle within the ejected flow by the ventilate effect. A humidifier characterized by being configured to atomize water and mix it with blown steam to spray and humidify a room.