JP4014651B2 - Iron with anti-drop device - Google Patents

Description

TECHNICAL FIELD The present invention generally relates to the technology of an apparatus designed to shape its shape by applying the combined action of heat treatment, mechanical treatment and steam treatment to a textile article such as clothing. Related to the field.
The present invention comprises an iron bottom with a steam outlet communicating with an evaporation chamber which is placed under temperature by a heating circuit in thermal connection with a temperature regulating or control device, the evaporation chamber being closed by a valve The electric tank is connected to the water tank, and the feeding of water into the evaporation chamber is controlled by the valve.
Prior art Irons with removable valves are already known. This configuration has the advantage that the valve is easy to clean and therefore prevents adhesion of scale. Irons are also known in which the valve is operable by a control device, according to which the valve at least partially opens an orifice communicating the tank and the evaporation chamber. It occupies at least one evaporation position and a dry position that closes the orifice connecting the tank and the evaporation chamber. For irons with multiple evaporation positions and different amounts of water fed into the evaporation chamber, the user can adjust the amount of steam released, for example, depending on the wrinkle condition of the article or the nature of the ironing fiber There is an advantage. However, for this configuration, if the temperature of the evaporation chamber is insufficient to evaporate the total amount of water fed into the evaporation chamber, for example, ironing sensitive articles that require a lower iron bottom temperature. However, when the thermostat of the apparatus is adjusted to a low target temperature, there is a problem that water remains flowing from the steam outlet at the bottom of the iron. In such a configuration, the user adjusts the thermostat of the device according to the nature of the fiber being ironed, and at the same time adjusts the amount of water fed into the evaporation chamber so that un-evaporated water droplets can be There is also a problem that it must be prevented from exiting the steam outlet.
Disclosure of the invention The object of the present invention is to eliminate the above-mentioned problems, and the water in the tank is fed into the evaporation chamber only when the temperature of the evaporation chamber is sufficient to evaporate the total amount of water present in the evaporation chamber. It is to provide a removable iron with a valve.
The above object of the present invention includes an iron bottom 11 having a steam outlet 12 communicating with the evaporation chamber 14, the iron bottom 11 and the evaporation chamber 14 being in thermal relationship with the heating means, and the evaporation chamber 14 is a housing 22. In a steam iron that communicates with the tank 15 via an orifice 16 that can be closed by a valve 17 disposed therein, the valve 17 comprises a rod 5 adapted to close the orifice 16. A step portion 19 arranged on the cradle 3 integrated with the bellows 4 forming at least a part of the airtight conduit 31 between the tank 15 and the evaporation chamber 14, The cradle 3 is actuated by a steam iron characterized in that it is actuated by a bimetal 1 attached to a wall 20 in thermal relationship with the evaporation chamber 14. It has been achieved.
[Brief description of the drawings]
To facilitate an understanding of other features and advantages of the present invention, the following detailed description is made with reference to the embodiments illustrated in the accompanying drawings. In the accompanying drawings,
FIG. 1 is a partial longitudinal sectional view showing an embodiment of an iron according to the present invention.
FIG. 2 is a detailed longitudinal sectional view showing an embodiment of the iron according to the present invention.
FIG. 3 is a detailed longitudinal sectional view showing a second embodiment of the iron according to the present invention.
FIG. 4 is a detailed longitudinal sectional view showing a third embodiment of the iron according to the present invention.
FIG. 5 is a partial longitudinal sectional view showing an iron in an evaporation position when the evaporation chamber is at a low temperature in an embodiment of the iron according to the present invention.
FIG. 6 is a partial longitudinal sectional view showing the iron in the evaporation position when the evaporation chamber reaches the working temperature in the embodiment of the iron according to the present invention.
FIG. 7 is a partial longitudinal sectional view showing an iron in a dry position when the evaporation chamber is at a low temperature in an embodiment of the iron according to the present invention.
FIG. 8 is a partial longitudinal sectional view showing the iron in the dry position when the evaporation chamber reaches the working temperature in the embodiment of the iron according to the present invention.
FIG. 9 is a partial longitudinal sectional view showing the element of the present invention.
FIG. 10 is a partial longitudinal sectional view showing an iron in an intermediate position when the evaporation chamber is at an ambient temperature in an embodiment of the iron according to the present invention.
BEST MODE FOR CARRYING OUT THE INVENTION A steam iron according to the present invention is shown in FIG. The iron has an iron bottom 11 with a steam outlet 12 communicating with the evaporation chamber 14. The iron bottom 11 and the evaporation chamber 14 are in a thermal relationship with a heating means (not shown). The evaporation chamber 14 communicates with the tank 15 via an orifice 16 that can be closed by a valve 17 placed in the housing 22. As shown in FIG. 1, since the valve 17 closes the orifice 16, the water in the tank 15 does not flow into the evaporation chamber 14. Since the valve 17 can be removed from the housing 22, not only the valve itself but also the housing 22 and the orifice 16 are easily cleaned.
According to an important feature of the present invention, the valve 17 comprises a rod 5 adapted to close the orifice 16, which rod forms at least part of an airtight conduit 31 between the tank 15 and the evaporation chamber 14. A step 19 adapted to be placed on a cradle 3 integrated with the bellows 4, the cradle 3 being operated by a bimetal 1 attached to a wall 20 in thermal relationship with the evaporation chamber. It has become. As shown in FIG. 1, the bimetal 1 is fixed to a boss 30 provided on the wall 20. The wall 20 and the boss 30 are made of a good heat conductive material such as aluminum so as to transfer the heat quantity of the evaporation chamber 14 to the bimetal 1.
Preferably, the wall of the orifice 16 forms a nozzle joint 7 and the rod 5 is provided with a groove 6 through which water flows when the rod 5 is in a position facing the joint 7 as shown in FIG.
2 to 4 show an embodiment of the conduit 31. As shown in FIG. 2, the nozzle joint 7 and the bellows 4 are two separate parts. The cradle 3 is integral with the bellows 4, but the bellows 4 is preferably made of silicone and molded into the cradle 3. The cradle 3 includes an outer element 33 operated by the bimetal 1 and an inner element 34 pressed against the rod 5 of the valve 17. The inner element 34 leaves at least one passage that allows water to flow inside the bellows 4 when the step 19 is placed on the cradle 3. In the embodiment shown in FIG. 3, the bellows 4, the nozzle joint 7 and the cradle 3 are in one piece, preferably made of silicone. In the embodiment shown in FIG. 4, the cradle 3 includes a rigid element 35 placed inside the bellows 4.
According to an advantageous feature of the invention, as shown in FIGS. 5 to 8, the valve 17 includes a body 18 movably mounted on the rod 5. Preferably, the valve 17 comprises a return spring 26 mounted between the main body 18 and the rod 5. As shown in FIGS. 5 to 8, the main body 18 includes a hollow passage 22 provided with a slit 23, and the rod 5 includes a head 24 provided so as to slide in the hollow passage 22. A pawl 25 that slides in the slit 23 is provided.
The main body 18 provided in the housing 22 has a first position where the orifice 16 is closed by the rod 5 and a second position where the bimetal 1 moves the rod 5 via the cradle 3 according to the temperature change. It comes to occupy.
FIGS. 5 and 6 show the iron when the body 18 occupies a first position termed the evaporation position. In the iron shown in FIG. 5, since the evaporation chamber 14 is at a low temperature, the water fed into the evaporation chamber does not evaporate. The bimetal 1 occupies a position where the rod 5 is placed on the cradle 3 and is perpendicular to the nozzle joint 7 to close the orifice. Therefore, when the iron is at the evaporation position and the temperature of the evaporation chamber 14 is not sufficient to evaporate water, water is not sent to the evaporation chamber 14, so that water droplets may flow out of the steam discharge port 12. Absent. In the iron shown in FIG. 6, since the evaporation chamber 14 has reached the working temperature, the total amount of water fed into the evaporation chamber is evaporated. The bimetal 1 occupies a position that allows water to be fed into the evaporation chamber 14 because the rod 5 is placed on the cradle 3 and the groove 6 is perpendicular to the nozzle joint 7. . Therefore, when the iron is in the evaporation position, the water sent into the evaporation chamber 14 is completely evaporated, and there is no possibility that water droplets flow out from the steam discharge port 12. The rod 5 movable with respect to the main body 18 moves with the movement of the cradle 3 that receives the action of the bimetal 1.
7 and 8 show the iron when the body 18 occupies a second position, named the dry position. When in this position, the rod 5 is perpendicular to the nozzle joint 7 and closes the orifice. In the iron shown in FIG. 7, the evaporation chamber 14 is at a low temperature, and in the iron shown in FIG. 8, the evaporation chamber 14 reaches the working temperature. Regardless of the temperature inside the evaporation chamber 14, when the temperature is between the ambient temperature and the maximum temperature when the iron is normally used, even if the cradle 3 is moved by the bimetal 1, A part always remains at right angles to the nozzle joint 7. As shown in the figure, the cradle 3 is held in place by a rod 5, for example, by lightly pressing. According to a variant embodiment not shown, the cradle 3 is placed on the bimetal 1. In the embodiment shown in FIG. 8, the rod 5 is pressed against the end of the slit 23 by the action of the return spring 26 by stop means such as a pawl 25.
The iron comprises means 40 for operating the body 18 from the dry position to the evaporation position or vice versa and allowing the valve 17 to be removed from the body. The device has been improved as described above, so that the user can choose between dry ironing and steam ironing, as well as when water is being steamed through the steam outlet 12 when ironing in the evaporation position. You will get a guarantee that it will not flow out of. As understood from the above description, the steam iron of the present invention has a valve that can be removed at the same time as the prevention of water droplets.
According to an advantageous variant embodiment of the invention, as shown in FIG. 9, the cross section of the groove 6 increases with the spacing from the free end 21 side of the rod 5. Since the deflection of the bimetal 1 increases with temperature, the cross section of the groove 6 placed at a position facing the nozzle joint 7 increases with temperature. Therefore, when the temperature in the evaporation chamber 14 rises, the amount of water discharged from the tank 15 increases accordingly, and the amount of steam discharged from the steam discharge port 12 also increases. The advantage of this configuration is that even delicate articles can be ironed at low temperatures, so they do not require a large amount of steam, whereas thick, heat-resistant items that are ironed at high temperatures are a large amount of steam. Is that you need. According to this structure, the steam iron provided with the water droplet prevention device is obtained, and the amount of steam can be changed according to the temperature change of the evaporation chamber.
According to another variant of the invention, which is a further advantage, the body 18 can occupy a plurality of positions, in which the bimetal 1 is moved via the cradle 3 in response to temperature changes. The rod 5 can be moved. In the iron of the present invention shown in FIG. 10, the main body 18 occupies an intermediate position between the dry position and the evaporation position. When the bimetal 1 moves the cradle 3 and moves the groove 6 of the rod 5 to a position facing the nozzle joint 7, the starting temperature of the evaporating chamber 14 is When occupying the evaporation position, this configuration is higher than the temperature of the evaporation chamber when intervening. Since the cross section of the groove 6 increases with the distance from the free end 21 side, the amount of water fed in when the temperature of the evaporation chamber is the same is greater when it is at the evaporation position than when it is at the intermediate position. According to this configuration, a steam iron that includes the water droplet prevention device and can discharge a plurality of steam amounts is obtained.
The invention also relates to an iron comprising a plurality of heating means, for example heating means preferably provided for heating the iron bottom 11 and preferably heating means provided for heating the evaporation chamber 14. Applied.
The application field of commercial applicability <br/> present invention, there is the art of electric steam iron.

Claims (9)

An iron bottom (11) having a steam discharge port (12) communicating with the evaporation chamber (14) is provided. The iron bottom (11) and the evaporation chamber (14) are in thermal relation with the heating means, and the valve (17) In a steam iron comprising an evaporation chamber (14) in communication with a tank (15) via an orifice (16) that can be closed by a rod (5) , the rod (5) is connected to the evaporation chamber (14) and heat. A pedestal (19) adapted to be placed on a cradle (3) actuated by a bimetal (1) provided on a wall (20) in a symmetric relationship, said cradle (3) comprising a tank (15 ) And an evaporation chamber (14), and is fixed to a bellows (4) forming at least a part of an airtight conduit (31) . 2. The steam iron according to claim 1, wherein the wall of the orifice (16) forms a nozzle joint (7) and the rod (5) is arranged to allow water to flow when in a position facing the nozzle joint (7). A steam iron comprising a groove (6). Steam iron according to claim 1 or 2, characterized in that the cross section of the groove (6) increases with the spacing from the free end (21) side of the rod (5). The steam iron according to any one of claims 1 to 3, wherein the bellows (4), the nozzle joint (7) and the cradle (3) are made of one part. A steam iron according to any one of the preceding claims, characterized in that the valve (17) comprises a body 18 movably mounted on the rod (5). 6. A steam iron according to claim 5, wherein the valve (17) comprises a return spring (26) mounted between the body (18) and the rod (5). 7. Steam iron according to claim 5 or 6, wherein the body (18) placed in the housing (22) has a first position in which the orifice (16) is closed by the rod (5), and a bimetal (1). Can occupy a second position where the rod (5) can be moved via the cradle (3) according to the temperature change. The steam iron according to claim 7, wherein the main body (18) occupies a plurality of positions where the bimetal (1) can move the rod (5) via the cradle (3) in accordance with the temperature change. A steam iron, characterized in that it is possible. The steam iron according to any one of claims 4 to 8, wherein the main body (18) includes a hollow passage (22) provided with a slit (23), and the rod (5) passes through the hollow passage (22). A steam iron comprising a head (24) provided to slide and provided with a pawl (25) provided to slide in the slit (23).

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