JPS6116796A - Steam iron - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a steam iron in which water is supplied to a vaporizing chamber to generate steam, and this steam is ejected from a steam hole in a base.

[Conventional technology]

Conventionally, the steam iron, which senses the heat of the base and controls the supply of water from the tank to the vaporization chamber, was developed in 1973.
No. 13998 is known. In this iron, a nozzle is attached to a through hole that communicates the tank and the vaporization chamber so that it can be adjusted up and down, and a valve body facing the drip hole of this nozzle is attached to a bimetal that senses the temperature of the iron base. The displacement is configured to change the degree to which the valve body opens and closes the drip hole of the nozzle. One end of the bimetal is fixed in the vaporizing chamber to sense the heat of the iron base, and a drip hole is opened and closed from below at the other free end, which is gradually moved up and down by the heat. Installing the valve rod.

[Problem that the invention seeks to solve]

However, in the conventional structure as described above, when the valve is not in use or when it is cold or at low temperatures, the valve rod is pressed against the nozzle side and stress is constantly applied to the bimetal, so the operating temperature may change due to deformation of the bimetal. Variability increases. At the same time, as the temperature of the iron base increases, the bimetal gradually curves downward, so the drip hole begins to open at a low temperature before reaching the appropriate temperature for water evaporation. When the drip hole is opened in this way, the water supplied to the vaporization chamber flows out from the steam hole without being vaporized, not only wetting the fabric but also causing water to vaporize if left in a horizontal position after use. There is a problem in that even if the temperature falls below the appropriate evaporation temperature, water cannot be prevented from flowing out from the tank to the vaporization chamber, causing corrosion of the base.

[Means for solving problems]

The present invention provides a heat-responsive opening/closing device that cuts off the flow of water supplied from a tank disposed above the base heated by a heating element to a vaporization chamber provided in the base. The thermally responsive member is connected to the base, and when the temperature of the base is at an inappropriate humidity for evaporation, the lower surface side contacts the base to form a concave shape, and when the temperature of the base is at an appropriate humidity for evaporation, it is reversed and the edge forms a concave shape. The above-mentioned conventional problems are solved by forming only the base with an inverted bimetal that forms a convex shape in contact with the base.

[Effect]

The steam iron of the present invention adopts a reversible bimetal for the heat-responsive member that operates in response to the heat of the base, so that when the base side reaches the appropriate evaporation temperature that can vaporize water, and when the base side reaches the appropriate evaporation temperature that can vaporize water, The thermally responsive member is rapidly reversed when the thermally responsive member is turned, so the reversing stroke obtained by this reversing action is used to operate the opening/closing device connected to this thermally responsive member to open the vaporization chamber from inside the tank. It is possible to cut off the water flow to and from the water. Moreover, until the base reaches the appropriate evaporation temperature, the lower surface side of the thermally responsive member is in contact with the base, so heat transfer from the base to the thermally responsive member is good, and when the base reaches the appropriate evaporation temperature, It is easy to reverse.

〔Example〕

In FIGS. 1 and 2, 1 is a base in which, for example, a heating element 2 is embedded, 3 is a base cover that covers the top surface of the base 1, and 4 in FIG. 1 is a handle attached to the top surface of the base cover 3. The base 1 and the base cover 3 form an iron main body, and inside this main body, a tank 5 is provided above the base 1, and a thermostat (not shown) that controls the heat generation of the heating element 2 is provided. is provided. In FIG. 1, 6 indicates a dial for setting the operating temperature of the thermostat, and 7 indicates a power cord.

A vaporizing chamber 9 is formed in the base 1 by a groove and a lid 8 screwed onto the upper surface of the base 1 to close the upper opening of the groove.
A steam hole 10 with both ends open is formed on the lower surface of the holder. Furthermore, a thermally responsive member 11 that operates by sensing the base temperature is provided on the base 1 side. Note that this embodiment shows a case where the thermally responsive member 11 is disposed within the vaporization chamber 9.

The thermally responsive member 11 is formed of an inverted bimetal,
The one shown in this embodiment is, for example, dish-shaped, forming a part of a spherical surface. This thermally responsive member 11 has its lower surface in contact with the base 1 at all times (that is, when the evaporation temperature is inappropriate).
It has a concave shape, and when the temperature of the base 1 reaches a temperature suitable for generating steam (in other words, the appropriate humidity for evaporation) (for example, the temperature of the thermally responsive member 11 becomes approximately 160°C in this state), it becomes elastic. It inverts elastically and becomes convex with only its edge contacting the base 1, and when the temperature drops below the appropriate evaporation temperature, it elastically inverts and becomes concave.

The water in the tank 5 is supplied to the vaporization chamber 9, and the flow and interruption of the supplied water are marked @12.
It is configured to be operated by the switching device shown in . In the case of this embodiment, the opening/closing device 12 includes a valve seat body 13 that is interposed between the tank 5 and the lid 8 and forms a passage that communicates the tank 5 and the vaporization chamber 9, and a valve seat of this valve seat body 13. Valve body 1 that comes into contact with and separates from the
It is formed from 4. The valve body 14 is connected to the thermally responsive member 11, and in this embodiment, a connecting rod 15 protruding from the valve body 14 is connected to a substantially central portion of the thermally responsive member 11. As a result, the valve body 14 is directly moved up and down by the reversing operation of the thermally responsive member 11, and the valve hole of the valve seat body 13 is opened and closed, and the flow and interruption of the water supplied from the inside of the tank 5 to the vaporization chamber 9 is interrupted. This is the configuration that is made.

Further, the valve stem 16 with the valve body 14 attached to the lower end is connected to the tank 5 at the lower end, and is guided to the vertical cylindrical part of the water inlet body 17 which is provided with the upper opening arranged on the front surface of the handle 4. It is provided so as to be able to move up and down, and is always urged downward by a spring 18. In FIG. 1, reference numeral 19 indicates a spring receiver fixed to the valve stem 16, and reference numeral 20 indicates a relief portion when the valve stem 16 rises.

When the steam iron having the above structure is not in use and for a while after being energized, the temperature on the base 1 side is below the appropriate evaporation temperature, so the thermally responsive member 11 has its lower surface in contact with the base 1 at two points in FIG. While maintaining the concave posture as shown by the chain line, the valve body 14 is pressed against the valve seat portion of the valve seat body 13 via the valve body 16 by the biasing force of the spring 18.
The supply of water from the tank 5 to the vaporization chamber 9 is cut off.

Therefore, corrosion of the metal base 1 and wetting of the iron storage box, cloth, etc., as in the conventional case, are prevented.

When the temperature on the base 1 side rises after electricity is applied and reaches the appropriate evaporation temperature sufficient to generate steam in the vaporization chamber 9, the reversible bimetallic thermally responsive member 11 that senses the temperature As shown by the solid line in FIG. 2, it is elastically inverted and only the edge contacts the base 1, forming a convex shape.

Since the lower surface side of the thermally responsive member 11 is in contact with the base 1 until this reversal, heat transfer from the base 1 to the thermally responsive member 11 is good, and therefore the reversing operation of the thermally responsive member 11 is prevented. It is done easily and reliably. Therefore, the correlation between the temperature of the base 1 and the steam ejection described later is accurate.

Then, the valve body 14 and the valve stem 16 are pushed up against the biasing force of the spring 18 via the connecting rod 15 in conjunction with the thermally responsive member 11 reversed as described above. is separated from the valve seat portion of the valve seat body 13. Therefore, the inside of the tank 5 and the inside of the vaporization chamber 9 are communicated with each other, and water in the tank 5 is circulated and supplied to the vaporization chamber 9.

As water is dripped into the vaporization chamber 9 by the water supply as described above, steam is instantaneously generated within the vaporization chamber 9, and this steam is ejected from the steam hole 10 of the base 1.

In addition, in this embodiment, the member 11 is connected to the vaporizer v9 so that the thermally responsive member 11 receives water dripping into the vaporizer chamber 9.
Because of the built-in structure, the dripping water is stopped by the thermally responsive member 11 and evaporated there, so that water scale adheres to the upper surface of the thermally responsive member 11.

When the power is turned off after ironing is finished and the temperature on the base 1 side drops below the appropriate evaporation temperature, the thermally responsive member 11 elastically flips over and becomes concave as shown by the two-dot chain line in FIG. Then, the lower surface side contacts the base 1. Therefore, the valve body 14 and the valve stem 16 are pushed down by the biasing force of the spring 18, and the valve body 14 comes into close contact with the valve seat portion of the valve seat body 13, thereby preventing water from being supplied from the tank 5 to the vaporization chamber 9. will be cut off.

Therefore, even if the iron body is placed horizontally after use, the water in the tank 5 is prevented from being supplied to the vaporizing chamber 9, so corrosion of the base 1 can be prevented.

In addition, the thermally responsive member 1 when the temperature drops below the above-mentioned appropriate evaporation temperature.
The water scale adhering to the upper surface of the member 11 is broken into small pieces and peeled off from the thermally responsive member 11 due to the shock caused by the reversing operation of the heat-responsive member 1. The water scale peeled off in this way can be discharged together with the water to the outside of the vaporization chamber 9 through the steam hole 10 by lifting the valve stem 16 using an operation part (not shown) and supplying the water in the tank 5 to the vaporization chamber 9. .

Further, although the above-mentioned embodiment is configured as described above, the shape of the thermally responsive member 11 in the present invention is not limited to a dish shape that forms part of a spherical surface, but may be a short shelf shape.

In carrying out the present invention, the base, heating element, vaporization chamber, tank, switchgear,
The specific structure, shape, position, material, etc. of thermally responsive members, etc.
It goes without saying that the present invention is not limited to the one embodiment described above and can be configured and implemented in various ways.

〔Effect of the invention〕

According to the present invention, the gist of which is the structure described in the above claims, the reversible bimetallic thermally responsive member rapidly moves when the temperature reaches which water can be vaporized and when the temperature drops below that temperature. Since the opening/closing device is operated in conjunction with the reversing operation, the reversing stroke of the thermally responsive member can reliably shut off and release the water supplied from the tank to the vaporization chamber, and also allow water to be supplied to the vaporization chamber even during use. Since the open state for supply does not change, it has the effect of continuously supplying a certain amount of water to the middle school and obtaining a stable jet of steam, and also allows the base to reach the appropriate temperature for evaporation. When reaching the base, the thermally responsive member receives good heat transfer from the base and easily turns over, which also has the effect of high accuracy in ejecting steam.

[Brief explanation of drawings]

The drawings show one embodiment of the present invention, with FIG. 1 being a partially sectional side view, and FIG. 2 being an enlarged sectional view of the main part.

Claims (1)

[Claims] A base heated by a heating element, a vaporization chamber provided on the base, a tank disposed above the base, and a switching device that blocks the flow of water supplied from inside the tank to the vaporization chamber; It is provided on the base side, and when the base temperature is inappropriate for evaporation, the lower surface side contacts the base to form a concave shape, and when the base temperature is at the appropriate evaporation temperature, it is reversed and only the edge becomes the base. A steam iron comprising a reversible bimetallic heat-responsive member that contacts to form a convex shape, and the opening/closing device is linked to the reversing action of the heat-responsive member.