JPH1176699A - Iron - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the operating efficiency of ironing by stably fogging at an iron for smoothing wrinkles at clothes, etc. SOLUTION: Water within a water tank 6 is guided into an vaporizing room 3 formed at a base 4 by a pump device 8 through a first water channel 18 to guide steam generated within the room 3 to a mixing room 19 through a steam passage 2 and water within the tank 6 is guided to the room 19 through a second water channel 20 to granulate water from the channel 20 by the flowing speed of steam in the room 23 to jet toward the front side of the base 4 from the upper side of the base 4 out of a jetting nozzle 23. In addition, a valve device 24 opened by a prescribed pressure is provided at the second channel 20.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an iron for stretching wrinkles of clothes and the like.

[0002]

2. Description of the Related Art Conventionally, this type of iron has been disclosed in Japanese Patent Application No.
As described in 143648, the configuration shown in FIG. 3 was used. Hereinafter, the configuration will be described with reference to FIG.

As shown in FIG. 3, an iron body 1 includes a base 4 having a vaporization chamber 3 covered with a lid 2, a heater 5 for heating the base 4, and water disposed above the base 4. And a pump device 8 for supplying the water in the water tank 6 to the water channel 7.

The pump device 8 includes a mist button 9 formed on the upper part of the water tank 6 so as to be movable up and down, and a piston 11 formed of a flexible material which slides up and down in a cylinder 10 by operating the mist button 9. And a button spring 12 for urging the mist button 9 upward.

The cylinder 10 is provided with a pumping passage 13
And a check valve 14 made of a steel ball or the like for opening and closing the pumping path 13, a discharge path 15 for supplying water in the cylinder 10 to the water path 7, and a valve body 1 for opening and closing the discharge path 15.
6 and a spring 17 for urging the valve body 16 to close the discharge path 15.

[0006] The water channel 7 is provided above the lid 2 and has a first water channel 18 for guiding water in the water tank 6 to the vaporization chamber 3;
Second water conduit 20 for guiding water in water tank 6 to mixing chamber 19
And a steam passage 21 for guiding steam generated in the vaporization chamber 3 to the mixing chamber 19.

The mixing chamber 19 is formed in a dome shape above the second water conduit 20, and its upper surface protrudes from a base cover 22 that covers the upper surface of the base 4 and is exposed outside the iron body 1. And Further, a slit-shaped ejection nozzle 23 is formed at the tip of the mixing chamber 19.

The operation of the above configuration will be described.
When ironing while supplying water by spraying mist onto hardly stretchable fibers such as hemp or fibers with particularly high wrinkles, first press the mist button 9 against the urging force of the button spring 12. After the piston 11 is lowered and the mist button 9 is released, the pressure of the button spring 12 causes the piston 11 to rise to a negative pressure in the cylinder 10.

At this time, the discharge passage 15 is closed by the valve body 16 and the check valve 14 is opened to allow the water in the water tank 6 to flow into the cylinder 10 via the water pumping passage 13.
When the mist button 9 is pressed again to lower the piston 11, the check valve 14 closes the pumping path 13, so that about 1 ml of water stored in the cylinder 10 pushes down the valve body 16 and momentarily. The water is supplied to the water channel 7.

The water supplied into the water channel 7 is supplied to a first water channel 18 communicating with the vaporizing chamber 3 and a second water channel communicating with the mixing chamber 19.
Is branched into two systems. First waterway 18
Is instantaneously evaporated in the vaporization chamber 3 and supplied as steam to the mixing chamber 19 through the steam passage 21.

On the other hand, the water from the second water conduit 20 is sent directly to the mixing chamber 19, but becomes fine particles due to the flow velocity of the steam jetted from the steam passage 21. At this time, mixing chamber 1
9 is projected upward in a dome shape from the second water conduit 20, so that the flow velocity of the steam guided from the steam passage 21 to the mixing chamber 19 is accelerated, and the mixing flow from the second water conduit 20 to the mixing chamber 1 is accelerated.
9 can be made more uniform and granular.

As described above, the inside of the mixing chamber 19 is in a pressurized state in which steam and granular water are mixed, and the slit-shaped ejection nozzle 23 provided at the tip of the mixing chamber 19 in the two-phase state of gas and liquid. Squirted to the outside through. Since the spouted steam and the granular water suddenly decrease in external pressure at the moment when they leave the mixing chamber 19, they are finely crushed into a mist, and are spouted in front of the iron as steam mixed with the mist.

[0013]

However, in such a conventional structure, the water in the cylinder 10 pumped by using the pump device 8 is distributed to the first water passage 18 and the second water passage 20. The ratio is hardly constant due to various factors, including the speed at which the mist button 9 is pressed.

For example, when the temperature of the vaporization chamber 3 is high, the pressure inside the vaporization chamber 3 rises instantaneously, and no water is sent to the first water conduit 18 thereafter. All the rest of the water will thereafter flow from the second water channel 20 to the mixing chamber 1
9 will be sent. When the temperature of the vaporization chamber 3 is low, the pressure in the vaporization chamber 3 does not rise immediately, and the water from the pump device 8 is supplied to the first water passage 18 and the second water passage 20.
Is distributed to the first water conduit 18 and the second water conduit 20 in proportion to the pipe resistance.

Therefore, the ratio of the water sent from the second water channel 20 to the mixing chamber 19 and the steam sent from the steam passage 21 becomes stable when various factors change as described above. However, as a result, the ejection nozzle 2
3 has a problem that the amount, spread, particle size, etc. of the mist ejected from the nozzle 3 become unstable.

If the water channel 7 is divided so as to be detachable upstream of the second water conduit 20 so that the water tank 6 is detachable, the pressure inside the vaporization chamber 3 rises. If the water tank 6 is removed while the water tank 6 is in operation, steam or water droplets flow backward from the connection between the water tank 6 and the water channel 7, which is disadvantageous for the user.

An object of the present invention is to solve the above-mentioned conventional problems, and it is a first object of the present invention to spray a stable mist regardless of various conditions and to improve ironing work efficiency.

It is a second object of the present invention to prevent steam from being ejected from the detachable portion even when the water tank is made detachable.

[0019]

According to the present invention, in order to achieve the first object, water in a water tank is introduced into a vaporization chamber formed on a base by a pump device through a first water conduit, and the water is introduced into the vaporization chamber. The generated steam is guided to the mixing chamber through the steam passage, and the water in the water tank is guided to the mixing chamber through the second water passage, and the water from the second water passage is granulated by the flow velocity of the steam in the mixing chamber, and is ejected. It is configured to squirt from above the base toward the front of the base from the nozzle,
The second headrace is provided with a valve device for opening the second headrace at a predetermined pressure.

Thus, the valve device is opened only when the pressure in the vaporization chamber rises to a predetermined value, and water is supplied to the mixing chamber through the second water conduit. The ratio of the quantities can be stabilized, so that
The amount, spread, particle diameter, etc. of the mist ejected from the ejection nozzle can be stabilized, and the work efficiency of ironing can be improved.

In order to achieve the second object,
The water in the water tank is guided into the vaporization chamber formed on the base by the pump device through the first water conduit, and the steam generated in the vaporization chamber is guided to the mixing chamber through the steam passage.
Guiding the water in the water tank to the mixing chamber through the second headrace,
The mixing chamber is configured to granulate the water from the second water conduit by the flow velocity of the steam, and to jet the water from above the base toward the front of the base from the jet nozzle. A check valve is provided on the upstream side of the branching portion for restricting the flow of liquid or gas only to the direction of the vaporizing chamber or the direction of the mixing chamber.

Thus, even if the water tank is detachable while the pressure inside the vaporization chamber is rising, the steam is spouted from the connection part by the action of the check valve. Can be prevented.

[0023]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention according to claim 1 of the present invention provides a water tank for storing water, a base having a vaporization chamber for vaporizing water in the water tank to generate steam,
A base cover that covers an upper surface side of the base, a pump device that guides water in the water tank through the first water conduit into the vaporization chamber, and a mixing chamber that granulates the water in the water tank by the flow rate of steam. A second water conduit for guiding the water in the water tank to the mixing chamber, a steam passage for guiding steam generated in the vaporization chamber to the mixing chamber, and a base for connecting the water and steam in the mixing chamber from above the base. And a valve for opening the second water conduit at a predetermined pressure in the second water conduit, wherein the pressure of the vaporization chamber is at a predetermined pressure. Only when it rises to the value, the valve device is opened and water is supplied to the mixing chamber through the second water conduit, so that the ratio of the amount of water and steam supplied to the mixing chamber can be stabilized, and as a result, Amount of fog ejected from the ejection nozzle Spread, can be made to stable particles or the like, it is possible to improve the work efficiency of ironing.

According to a second aspect of the present invention, in the first aspect of the invention, the outer shell of the valve device is formed of a material having low thermal conductivity such as a synthetic resin or ceramic. Can be minimized, so that when the valve device is opened and the water inside the water channel is sent to the mixing chamber, the amount of water evaporated inside the valve device is extremely high. The amount, spread, particles and the like of the mist ejected from the ejection nozzle can be stabilized.

According to a third aspect of the present invention, there is provided a water tank for storing water, a base having a vaporization chamber for vaporizing water in the water tank to generate steam, and a base cover for covering an upper surface of the base. A pump device for guiding water in the water tank into the vaporization chamber through a first water conduit, a mixing chamber for granulating the water in the water tank by the flow rate of steam, and mixing the water in the water tank. A second water passage leading to the chamber, a steam passage leading steam generated in the vaporization chamber to the mixing chamber, and a jet nozzle for jetting water and steam in the mixing chamber from above the base toward the front of the base. And a check valve that makes the flow of liquid or gas only in the direction of the vaporization chamber or in the direction of the mixing chamber upstream of the branch between the first water conduit and the second water conduit. Provided by water In ink ironing detachable, even when the pressure in the vaporizing chamber portion removed water tank when they are elevated, it is possible to prevent the steam jet of the connecting portion by the action of the check valve.

[0026]

Embodiments of the present invention will be described below with reference to the drawings. The same components as those in the conventional example are denoted by the same reference numerals, and description thereof is omitted.

(Embodiment 1) As shown in FIG.
4 is provided downstream of the second water conduit 20, and the valve device 24 urges the valve body 26 to the upstream side by the pressure valve spring 25, and when a pressure equal to or more than a predetermined pressure is applied from the upstream side. Only the open state is configured. Also, the valve device 2
The outer shell 4 is made of a material having low thermal conductivity such as synthetic resin and ceramic. Other configurations are the same as the conventional example.

The operation of the above configuration will be described. As in the conventional example, the water in the water tank 6 pumped from the pump device 8 by pressing the mist button 9 passes through the discharge path 15, the water path 7, and the first water supply path 18, and Supplied to At this time, since the second water conduit 20 is shut off by the valve device 24 and the vaporization chamber 3 side is in the open state, the pressure does not increase and the valve device 24 does not enter the open state.
At this point, the water is passed through the second water channel 20 to the mixing chamber 19.
Not supplied to

Here, the steam vaporized by the heat of the vaporization chamber 3 is supplied to the mixing chamber 19 through the vapor passage 21. On the other hand, the first headrace 1
The pressure also acts on the valve body 26 of the valve device 24 through 8.
Normally, the pressure in the mixing chamber 19 and the pressure in the second water conduit 20 are the same when the pressure is saturated. Because of the difference, the valve element 26 is moved against the spring force of the pressure valve spring 25 by the pressure applied to the second water conduit 20 instantaneously, and the valve device 24 is opened. As a result, steam is supplied into the mixing chamber 19 through the valve device 24 as a passage.

Further, even when water is supplied into the vaporization chamber 3 and steam is generated, the water inside the water channel 7 is still filled with water, and the steam generated in the vaporization chamber 3 is filled with water as described above. When the water is supplied to the mixing chamber 19 through the valve device 24, the water inside the water channel 7 is also sent to the mixing chamber 19 at the same time.

Therefore, the amount of water sent to the mixing chamber 19 in one operation is determined by the internal volume of the water channel 7, and a stable amount of water can be supplied into the mixing chamber 19, and as a result, a stable mist is emitted from the jet nozzle 23. Can be squirted.

Further, with this configuration, if the pressure in the vaporization chamber 3 does not rise to a predetermined pressure, the valve device 24 will not be opened, and water will not be supplied into the mixing chamber 19.
When the temperature in the vaporization chamber 3 is low, the vaporization capacity is low, a large amount of steam is not generated, the flow of steam is weak, and there is no power to make water into granules.
Therefore, large water droplets can be prevented from being ejected from the ejection nozzle 23.

Further, the outer shell of the valve device 24 is formed of a material having low thermal conductivity such as a synthetic resin or ceramic.
Evaporation of water inside the valve device 24 can be minimized, so that when the valve device 24 is opened and water inside the water channel 7 is sent to the mixing chamber 19, The amount of water evaporated in the nozzle is extremely small,
The amount, spread, particles, etc. of the fog squirted from can be stabilized, and the surface tension is generally high,
Since there is little adhesion of water scale and the like, the inside is clogged by the influence of fine particles such as water scale and the like, and the water channel can be less likely to be blocked.

(Embodiment 2) As shown in FIG.
Is divided into a water channel 7a held on the water tank 6 side and a water channel 7b held on the base 7 side in order to make the water tank 6 detachable. The check valve 27 is provided inside the water passage 16b on the upstream side of the branch portion between the first water passage 18 and the second water passage 20, and attaches the valve body 28 and the position of the valve body 28 upward. The check valve spring 29 is held in an energized state, so that the flow of water or steam in the water channel 7b is restricted only in the direction of the vaporizing chamber 3 or in the direction of the mixing chamber 19. Other configurations are the same as those in the first embodiment.

The operation of the above configuration will be described. By pressing the mist button 9 as in the first embodiment, the water in the water tank 6 pumped from the pump device 8 is discharged.
The water is supplied to the inside of the vaporization chamber 3 after passing through the water channel 7 and the first water channel 18. At this time, the valve element 28 is opened by the pressure of the pressured water.

The water supplied into the vaporization chamber 3 causes the vaporization chamber 3
The steam generated inside is similar to Example 1 above,
While the internal pressure of the vaporization chamber 3 is rising, it is ejected from the interior of the vaporization chamber 3 toward the steam passage 21 and the first water conduit 18.
Normally, when the pressure of the steam jetted from the first water conduit 18 becomes equal to or higher than a predetermined pressure, the valve element 26 of the valve device 24 operates in the opening direction, and the generated steam flows toward the mixing chamber 19.

If the water tank 6 is removed while the pressure is increasing and the upper surface of the water channel 7a is opened, the upper surface of the water channel 7a is closed by the valve element 28. Accordingly, it is possible to prevent steam or water drops from spouting from the upper surface of the water channel 7a.

[0038]

As described above, according to the first aspect of the present invention, a water tank for storing water and a base having a vaporization chamber for vaporizing water in the water tank to generate steam are formed. And a base cover that covers the top side of the base,
A pump device for guiding the water in the water tank through the first water conduit into the vaporization chamber, a mixing chamber for granulating the water in the water tank by the flow rate of steam, and the water in the water tank to the mixing chamber. A second water conduit for guiding, a steam passage for guiding steam generated in the vaporization chamber to the mixing chamber, and a jet nozzle for jetting water and steam in the mixing chamber from above the base toward the front of the base. Since the valve device for opening the second water conduit at a predetermined pressure is provided in the second water conduit, the valve device is opened only when the pressure of the vaporization chamber rises to a predetermined value, Since the water is supplied to the mixing chamber through the headrace channel, the ratio of the amount of water and steam supplied to the mixing chamber can be stabilized, and as a result, the amount, spread, and particle size of the mist ejected from the ejection nozzle Etc. can be stable It is possible to improve the work efficiency of ironing.

According to the second aspect of the present invention, since the outer shell of the valve device is formed of a material having low thermal conductivity such as synthetic resin or ceramic, the evaporating action of water inside the valve device is minimized. As a result, when the valve device is opened and the water inside the water channel is sent to the mixing chamber, the amount of water evaporated inside the valve device is extremely small and is ejected from the ejection nozzle. The amount, spread, particles and the like of the fog can be stabilized.

According to the third aspect of the present invention, a water tank for storing water, a base having a vaporization chamber for vaporizing water in the water tank to generate steam, and an upper surface side of the base A base cover that covers the water tank, a pump device that guides the water in the water tank into the vaporization chamber through the first water conduit, a mixing chamber that granulates the water in the water tank by the flow rate of steam, A second water conduit that guides water to the mixing chamber, a steam passage that guides steam generated in the vaporization chamber to the mixing chamber, and directs water and steam in the mixing chamber from above the base toward the front of the base. A jet nozzle for jetting, wherein the first headrace and the second
Since a check valve for restricting the flow of liquid or gas to only the direction of the vaporizing chamber or the direction of the mixing chamber is provided on the upstream side of the branch portion with the headrace, the iron inside the vaporizing chamber is detachable with the water tank detachable. Even if the water tank is removed while the pressure of the air is rising, the check valve can prevent the steam from being spouted from the connection portion.

[Brief description of the drawings]

FIG. 1 is a partially cutaway side view of an iron according to a first embodiment of the present invention.

FIG. 2 is a partially cutaway side view of an iron according to a second embodiment of the present invention.

FIG. 3 is a partially cutaway side view of a conventional iron.

[Explanation of symbols]

 Reference Signs List 3 vaporization chamber 4 base 6 water tank 8 pump device 18 first water passage 19 mixing chamber 20 second water passage 21 steam passage 22 base cover 23 ejection nozzle 24 valve device

 ──────────────────────────────────────────────────の Continuing on the front page (72) Inventor Kiichi Shimosaka 1006 Kadoma Kadoma, Kazuma, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd. (72) Inventor Tomoaki Kajiura 1006 Kadoma Kadoma, Osaka Prefecture Inside Matsushita Electric Industrial Co., Ltd.

Claims (3)

[Claims] 1. A water tank for storing water, a base having a vaporization chamber for vaporizing water in the water tank to generate steam, a base cover for covering an upper surface of the base,
A pump device for guiding the water in the water tank through the first water conduit into the vaporization chamber, a mixing chamber for granulating the water in the water tank by the flow rate of steam, and the water in the water tank to the mixing chamber. A second water conduit for guiding, a steam passage for guiding steam generated in the vaporization chamber to the mixing chamber, and a jet nozzle for jetting water and steam in the mixing chamber from above the base toward the front of the base. An iron provided with a valve device for opening the second water conduit at a predetermined pressure in the second water conduit. 2. The iron according to claim 1, wherein an outer shell of the valve device is formed of a material having low thermal conductivity such as synthetic resin or ceramic. 3. A water tank for storing water, a base having a vaporization chamber for vaporizing water in the water tank to generate steam, a base cover for covering an upper surface of the base,
A pump device for guiding the water in the water tank through the first water conduit into the vaporization chamber, a mixing chamber for granulating the water in the water tank by the flow rate of steam, and the water in the water tank to the mixing chamber. A second water conduit for guiding, a steam passage for guiding steam generated in the vaporization chamber to the mixing chamber, and a jet nozzle for jetting water and steam in the mixing chamber from above the base toward the front of the base. A check valve is provided upstream of a branch between the first water conduit and the second water conduit so that the flow of liquid or gas is limited to the direction of the vaporization chamber or the direction of the mixing chamber. Iron.