CN218812763U - Ironing device - Google Patents

Abstract

The present application provides an ironing apparatus. The ironing device comprises a base assembly and an atomizing assembly, wherein the atomizing assembly is arranged on the base assembly, the base assembly comprises a shell and an ironing base plate, and the ironing base plate is provided with an ironing surface; the atomization assembly comprises a water storage part and an atomizer, the atomization assembly comprises an atomizer, the atomizer is communicated with the water storage part and is configured to atomize and spray liquid in the water storage part, so that the sprayed atomized liquid generates steam under the action of heat of the ironing base plate. The ironing device of this application is difficult for causing the damage to the clothing, and the nursing effect of clothing is better.

Description

Ironing device

Technical Field

The application relates to the field of household appliances, in particular to an ironing device.

Background

Along with the improvement of living standard of people, clothes nursing electric appliances such as ironing machines and the like are more and more appeared in the life of people.

At present, a heating element is usually arranged in an ironing machine, the heating element of the ironing machine is arranged on an ironing base plate, and when the ironing machine is used, the heating element is powered and heated, so that the heating element is preheated to a certain temperature, the heating element can store a certain amount of heat energy, and an ironing surface is maintained at the ironing temperature for a certain time by means of the stored heat energy. In addition, the ironing machine can also be provided with a steam cavity, the heating body is utilized to heat water in the steam cavity to generate high-temperature steam, and the steam is utilized to heat clothes to be ironed, so that the clothes become smooth and flat.

However, when the ironing machine irons the laundry using high temperature steam, the laundry may be damaged due to overheating, or the laundry may be damaged due to generation of white powder of the steam caused by calcification of the high temperature water in the steam chamber.

Disclosure of Invention

The embodiment of the application provides an ironing device, is difficult for causing the damage to the clothing, and the nursing effect of clothing is better.

The application provides an ironing device, which comprises a base assembly and an atomizing assembly, wherein the atomizing assembly is arranged on the base assembly, the base assembly comprises a shell and an ironing bottom plate, and the ironing bottom plate is provided with an ironing surface; atomization component includes water storage and atomizer, and atomization component includes the atomizer, atomizer and water storage intercommunication to be constructed for liquid atomization and the blowout in with the water storage, so that spun atomized liquid produces steam under the heat effect of ironing the bottom plate.

Thus, the atomization assembly can break up and atomize water into water mist consisting of tiny liquid drops and spray the water mist on the surface of the clothes being ironed; after the ironing surface of the ironing base plate is contacted with the clothes, water mist droplets on the surface of the clothes are evaporated due to high temperature, so that steam is formed, the clothes are ironed by the steam, the clothes are not easily scalded by the steam, and the ironing effect is good.

In some alternative embodiments, the nebulizer is an ultrasonic nebulizer. This allows the atomizer to atomize water by ultrasonic waves without the need for additional steps such as heating the water.

In some alternative embodiments, the water storage member has a communication hole, and the atomizer communicates with the inner cavity of the water storage member via the communication hole. Therefore, water in the water storage part can be supplied to the atomizer at any time, so that the atomizer can continuously generate water mist.

In some alternative embodiments, the communication hole is located at the front end of the water storage member, and the axial direction of the communication hole is inclined toward the ironing base plate. This facilitates the water mist spraying operation for the user.

In some optional embodiments, the atomizing assembly further includes a fixing bracket connected to the communication hole, and the atomizer is disposed on the fixing bracket.

In some alternative embodiments, the edge profile of the communication hole matches the shape of the atomizer, and the atomizer is embedded in the communication hole. Therefore, the atomizer is blocked in the communicating hole through the structure of the atomizer, and water in the water storage part can only pass through the atomizer and can only be sprayed out from the communicating hole.

In some optional embodiments, the atomizing assembly further includes a water absorbing member, the water absorbing member is disposed in the communication hole, and the atomizer abuts against the water absorbing member. Therefore, even if components such as a water pump and the like are not arranged, the water storage part can supply water for the atomizer; in addition, the piece that absorbs water can carry out the transfer and cushion, can not produce the unstable phenomenon of supplying water because of the interior liquid level of water storage spare changes, perhaps the impact of water, and the atomizer can produce water smoke with comparatively stable speed all the time.

In some alternative embodiments, the absorbent member is absorbent cotton. The absorbent cotton has strong water absorption, and can ensure the stable supply of water for the atomizer.

In some optional embodiments, the absorbent cotton is in a cylindrical shape, one end of the absorbent cotton in the length direction of the absorbent cotton is abutted with the atomizer, and the other end of the absorbent cotton extends into the inner cavity of the water storage part. Let the cotton length direction's of absorbing water tip and atomizer butt like this, can make full use of the cotton self ability of absorbing water supplies water for the atomizer, makes the atomizer obtain stable water source supply all the time.

In some alternative embodiments, the inner wall of the communication hole has a positioning flange arranged circumferentially, and the atomizer abuts on a side wall of the positioning flange facing the outside of the communication hole; the water absorbing piece is clamped in the positioning flange. Therefore, the atomizer and the water absorbing part are fixed, and the positions of the water absorbing part and the atomizer are kept corresponding, so that water is stably supplied to the atomizer.

In some optional embodiments, the inner cavity of the water storage part is provided with a positioning part, and the positioning part is used for fixing the water absorbing part in the inner cavity of the water storage part. Thus, the water absorbing member can be positioned by utilizing the structure in the water storing member.

In some alternative embodiments, the shape of part of the cavity wall of the inner cavity of the water storage member matches the shape of the water absorbing member to form the positioning part. Therefore, the water storage part can be fixed without arranging other additional parts.

In some alternative embodiments, a part of the cavity wall of the inner cavity of the water absorbing member forms a receiving groove, one end notch of the receiving groove faces the communicating hole, the other end notch faces the inside of the inner cavity, the shape of the groove wall of the receiving groove and the shape of the water absorbing member are matched with each other, and the water absorbing member is received in the receiving groove.

In some optional embodiments, the base assembly further comprises a heat insulating shell, the heat insulating shell is arranged on one side of the ironing base plate, which faces away from the ironing surface, and the water storage part is arranged on the heat insulating shell.

In this way, the insulating shell separates the ironing base plate from the other structures of the ironing apparatus, and because of the protection of the insulating shell, the high temperature generated by the ironing base plate does not affect the normal operation of the components such as the water storage component or the atomizer, or damage the components. In addition, other temperature-resistant components such as the circuit board and the like in the ironing device are not affected by the temperature of the ironing base plate.

The ironing device comprises a base assembly and an atomizing assembly, wherein the atomizing assembly is arranged on the base assembly, the base assembly comprises a shell and an ironing base plate, and the ironing base plate is provided with an ironing surface; the atomization assembly comprises a water storage part and an atomizer, the atomization assembly comprises an atomizer, the atomizer is communicated with the water storage part, and the atomization assembly is constructed to atomize and spray liquid in the water storage part, so that the sprayed atomized liquid generates steam under the action of heat of the ironing base plate. In this way, the atomizing assembly can break up and atomize the water into water mist consisting of tiny liquid drops, and the water mist is sprayed on the surface of the clothes being ironed; after the ironing surface of the ironing base plate is contacted with the clothes, water mist droplets on the surface of the clothes are evaporated due to high temperature, so that steam is formed, the clothes are ironed by the steam, and the clothes are not easily scalded by the steam.

In addition to the technical problems addressed by the embodiments of the present application, technical features constituting technical solutions, and advantages brought by the technical features of the technical solutions described above, other technical problems that can be solved by the present application, other technical features included in technical solutions, and advantages brought by the technical features will be described in further detail in the detailed description of embodiments.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of an ironing apparatus provided in an embodiment of the present application;

fig. 2 is a schematic internal cross-sectional view of an ironing apparatus provided in an embodiment of the present application;

FIG. 3 is an enlarged partial schematic view at A in FIG. 2;

fig. 4 is an exploded schematic view of an ironing apparatus provided in an embodiment of the present application;

figure 5 is a schematic view of the relative positions of a water reservoir and an atomizer in an ironing apparatus provided in an embodiment of the present application;

fig. 6 is a schematic connection diagram of a control circuit in the ironing apparatus provided in the embodiment of the present application.

Description of reference numerals:

100-ironing means;

110-a base assembly; 120-an atomizing assembly; 130-a controller; 140-temperature controller; 150-a fuse;

111-ironing the soleplate; 112-a housing; 113-rear cover; 114-water inlet cover; 115-an insulating shell; 116-a handle; 121-a water storage member; 122-an atomizer; 123-a fixed support; 124-a water absorbing member;

1111-a heating element; 1161-a handle body; 1162-upper cover; 1211-communicating pore; 1212-positioning the flange; 1213-a receiving groove; 1231-avoidance hole; 1241-bump;

111 a-ironing surface; 121 a-lumen.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments.

First, it should be understood by those skilled in the art that these embodiments are merely for explaining the technical principles of the present application, and are not intended to limit the scope of the present application. And can be adjusted as needed by those skilled in the art to suit particular applications.

Second, it should be noted that in the description of the present application, the terms of direction or positional relationship indicated by the terms "inside", "outside", and the like are based on the direction or positional relationship shown in the drawings, which are merely for convenience of description, and do not indicate or imply that a device or member must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

Furthermore, it should be noted that, unless explicitly stated or limited otherwise, the terms "connected" and "connected" in the description of the present application are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; there may be communication between the interiors of the two members. The specific meaning of the above terms in the present application can be understood by those skilled in the art as the case may be.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present disclosure. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

At present, a heating element is usually arranged in an ironing machine, the heating element of the ironing machine is arranged on an ironing base plate, and when the ironing machine is used, the heating element is powered and heated, so that the heating element is preheated to a certain temperature, the heating element can store a certain amount of heat energy, and an ironing surface is maintained at the ironing temperature for a certain time by means of the stored heat energy. Wherein, the heating element can be an electrothermal tube and other structures. In addition, the ironing machine can also be provided with a steam cavity, the steam cavity is connected with the ironing bottom plate in a heat conduction mode, and therefore after water enters the steam cavity, the heating body can be used for heating water in the steam cavity, high-temperature steam is generated, the high-temperature steam is sprayed out from the ironing bottom plate, the ironing clothes can be heated, and the clothes are made to become smooth and flat.

However, when the ironing machine uses steam to iron the clothes, on one hand, the temperature of the steam ejected by the ironing machine is high, and the high-temperature steam may damage the clothes; on the other hand, since the water contains minerals such as calcium, powder formed by calcification of water may be accumulated in the steam chamber, and when steam is ejected for ironing, the calcified powder may be ejected with the steam, which may cause contamination or damage to the clothes.

Therefore, this application provides an ironing device, its atomizing component that has can break up into water smoke through the atomizing mode to spray water smoke to ironing clothing surface, thereby utilize the heat of ironing the bottom plate to evaporate into hot steam with the water smoke on the clothing, realize the steam ironing operation. Therefore, the temperature control for steam ironing is better, and the clothes are not easy to damage.

The specific structure and various possible embodiments of the ironing device provided by the present application are described in detail below with reference to specific embodiments.

Fig. 1 is a schematic structural diagram of an ironing apparatus provided in an embodiment of the present application. Fig. 2 is a schematic internal cross-sectional view of an ironing apparatus provided in an embodiment of the present application. Fig. 3 is a partially enlarged schematic view at a in fig. 2. Fig. 4 is an exploded schematic view of an ironing apparatus provided in an embodiment of the present application. As shown in fig. 1 to 4, the ironing apparatus 100 provided in the present application may be a hand-held ironing device such as a cordless iron. The ironing device 100 specifically comprises a base assembly 110 and an atomizing assembly 120, the atomizing assembly 120 is disposed on the base assembly 110, the base assembly 110 comprises a housing 112 and an ironing base plate 111, and the ironing base plate 111 has an ironing surface 111a.

Specifically, the base assembly 110 is a main structure of the ironing apparatus 100, and a housing 112 and the ironing base plate 111 can be used to enclose a receiving space, and functional components such as the atomizing assembly 120 can be disposed in the receiving space. Specifically, the housing 112 may include a rear cover 113, a filler cap 114, and the like.

The atomizing assembly 120 specifically includes a water storage part 121 and an atomizer 122, the atomizer 122 is communicated with the water storage part 121, and is configured to atomize and spray the liquid in the water storage part 121, so that the sprayed atomized liquid generates steam under the action of heat of the ironing base plate 111.

Specifically, the water storage member 121 itself is a container capable of storing liquid, and is configured as a water tank or the like. Wherein the water storage member 121 can be detachably connected with other structures of the base assembly 110. Thus, when the water storage member 121 is empty of water, it can be detached from the ironing apparatus 100 and taken to a place where water can be conveniently collected for water replenishment.

Wherein, the atomizer 122 in the atomizing assembly 120 can break up and atomize the water into a water mist formed by tiny droplets, and the water mist can be sprayed out by the atomizer 122 and sprayed on the surface of the clothes being ironed. Since the ironing base plate 111 of the ironing apparatus 100 has a high temperature, when the ironing surface 111a of the ironing base plate 111 contacts the clothes, the water mist droplets on the surface of the clothes are vaporized due to the high temperature, thereby forming steam and performing steam ironing on the clothes.

Because the atomizing component 120 forms the vaporous liquid drop, so compare with the conventional ironing device that has the water spray function, the water smoke sprays the scope comparatively evenly, and steam ironing effect is better, and does not need the artifical single of user to press the water spray button and can spout water smoke. Meanwhile, because the steam generated by the ironing base plate 111 is heated when the ironing apparatus 100 irons, the temperature of the steam is lower than that of the ironing base plate 111, and the steam is not easy to damage the clothes, thereby achieving a better ironing effect.

In an alternative embodiment, the atomizer 122 is an ultrasonic atomizer. This allows the atomizer 122 to atomize water by ultrasonic waves without the need for additional steps such as heating the water.

In order to supply the water stored in the water storage member 121 to the atomizer 122, in an alternative configuration, the water storage member 121 has a communication hole 1211, the communication hole 1211 penetrates through both the inside and outside of the water storage member 121, and the atomizer 122 communicates with the inner cavity 121a of the water storage member 121 via the communication hole 1211. Thus, water in the water storage member 121 can be supplied to the atomizer 122 at any time, so that the atomizer 122 can continuously generate water mist.

In order to facilitate the ironing operation by the user, the communication hole 1211 in the water storage member 121 may be alternatively positioned at a front end of the water storage member 121, and an axial direction of the communication hole 1211 is inclined toward the ironing base plate 111.

In particular, the water storage member 121 generally occupies a large space in the ironing apparatus, and the water storage member 121 may be disposed at the front of the ironing apparatus 100, and the front end of the water storage member 121 is generally not shielded by other structures. Thus, the front end of the water storage member 121 is the front end of the ironing device 100. The communication hole 1211 is located at the front end of the water storage member 121, and the water mist is sprayed out of the ironing device 100 by the atomizer 122 after the water is atomized. The user can spray water smoke to the clothing top earlier, then utilizes and irones bottom plate 111 to the clothing, and the operation is comparatively convenient nature. In addition, the communication hole 1211 is inclined toward the ironing base plate 111, so that when the user takes the ironing apparatus, an included angle a is formed between the axial direction L of the communication hole 1211 and the horizontal direction H, that is, the communication hole has a downward orientation relative to the horizontal direction H, so that the mist can be conveniently sprayed onto the clothes by the self-gravity.

Wherein the mist may have a plurality of different spray patterns and ranges, the atomizing assembly 120 may spray the mist in a fan shape to the front of the ironing device 100, for example.

Fig. 5 is a schematic view of the relative positions of the water storage part and the atomizer in the ironing device provided by the embodiment of the present application. As shown in fig. 1 to 5, in order to fix the atomizer 122, in some alternative embodiments, the atomizing assembly 120 further includes a fixing bracket 123, the fixing bracket 123 is connected to the communication hole 1211, and the atomizer 122 is disposed on the fixing bracket 123.

The fixing bracket 123 may cover the outer side of the atomizer 122, and the fixing bracket 123 has a avoiding hole 1231 for avoiding the water mist of the atomizer 122, so that the water mist generated by the atomizer 122 can be sprayed out through the avoiding hole 1231. To facilitate attachment and detachment, the fixing bracket 123 may be detachably attached to the water storage member 121 by means of a screw fastener or the like.

In addition, it will be understood by those skilled in the art that the fixing bracket 123 may also be connected to the housing 112 or the like, and the atomizer 122 may be mounted on the fixing bracket 123, so as to fix the atomizer 122.

In order to spray the water in the water storage member 121 by atomizing the atomizer 122, optionally, the edge contour of the communication hole 1211 matches the shape of the atomizer 122, and the atomizer 122 is embedded in the communication hole 1211. The atomizer 122 is blocked in the communication hole 1211 through the structure thereof, and the water in the water storage member 121 can only pass through the atomizer 122 and can only flow to the outside of the water storage member 121 through the communication hole 1211; at the same time, the atomizer 122 can be fixed by the positioning of the communication hole 1211. Wherein the side wall of the atomizer 122 may be in abutting engagement with the inner wall of the communication hole 1211.

Because the water level in the water storage member 121 may be changed continuously as the ironing operation is performed, and meanwhile, when the user operates the ironing apparatus, the water in the water storage member 121 may be shaken in the water storage member 121 continuously as the ironing apparatus moves, thereby causing impact on the atomizer 122. In order to stably and smoothly supply the water storage member 121 to the atomizer 122, in an alternative structure, the atomizing assembly 120 further includes a water absorbing member 124, at least a part of the water absorbing member 124 is disposed in the communication hole 1211, and the atomizer 122 abuts against the water absorbing member 124.

In this way, the water absorbing member 124 absorbs the water in the water storage member 121 into its own structure by its own water absorbing property, and delivers the water to the atomizer 122. Thus, even if a water pump or the like is not provided, the water storage member 121 can supply water to the atomizer 122. In addition, because the water absorbing member 124 can transfer and buffer, the phenomenon that water supply is unstable due to liquid level change in the water storage member 121 or water impact is avoided, and the atomizer 122 can always generate water mist at a stable speed.

The absorbent member 124 can take a variety of different forms and configurations. In an alternative embodiment, the absorbent member 124 is absorbent cotton. The absorbent cotton has strong water absorption, and can ensure the stable supply of water for the atomizer 122.

Further, in some embodiments, the water absorbing member 124, such as water absorbing cotton, may have a cylindrical shape, and one end of the water absorbing cotton along its length direction abuts against the atomizer 122, and the other end extends into the inner cavity 121a of the water storage member 121. The length direction of the absorbent cotton is also the extending direction of the fiber of the absorbent cotton, and water is absorbed by one end of the absorbent cotton and is transmitted to the other end of the absorbent cotton. Let the cotton length direction's of absorbing water tip and atomizer 122 butt like this, can make full use of the cotton self ability of absorbing water supply for atomizer 122, make atomizer 122 obtain stable water source supply all the time.

In order to keep the positions of the absorbent pad and the atomizer 122 corresponding, thereby stably supplying water to the atomizer 122, a docking or fixing structure may be provided at the communication hole 1211. Optionally, the inner wall of the communication hole 1211 has a positioning flange 1212 arranged circumferentially, and the atomizer 122 abuts on a side wall of the positioning flange 1212 facing the outside of the communication hole 1211; and the absorbent member 124 is captured within the positioning flange 1212.

At this time, the positioning flange 1212 may be disposed on the hole wall of the communication hole 1211 near the outer end of the hole opening, such that the positioning flange 1212 and the inner wall of the communication hole 1211 form a cavity having an opening, the atomizer 122 may be accommodated in the cavity, and the opening of the cavity is blocked by the fixing bracket 123, such that a side wall of the atomizer 122 facing the inner cavity 121a of the water storage member 121 may abut against a side wall of the positioning flange 1212, and another side wall of the atomizer may abut against the fixing bracket 123, so as to fix the atomizer 122. At the same time, the positioning flange 1212 can engage with the absorbent member 124, such that the absorbent member 124 is also secured.

Specifically, the positioning flange 1212 is disposed around the wall of the communication hole 1211, so that the positioning flange 1212 defines a smaller through hole, the water absorbing member 124 can be inserted into the through hole, and the end of the water absorbing member 124 is aligned with the atomizer 122.

In order to make the water absorbing member 124 have a high water storage capacity, the water absorbing member 124 generally has a large volume, and therefore, the end of the water absorbing member 124 may be provided with a protrusion 1241, and the protrusion 1241 may be engaged with the through hole defined by the positioning flange 1212, so as to complete the alignment and fixation of the end of the water absorbing member 124.

The water absorbing member 124 may be positioned by a structure inside the water storage member 121 in addition to the alignment of the water absorbing member 124 and the atomizer 122 by a positioning structure inside the communication hole 1211. In an alternative embodiment, a positioning part for fixing the water absorbing member 124 in the inner cavity 121a of the water storage member 121 may be provided or formed in the inner cavity 121a of the water storage member 121.

The positioning portion may have a plurality of different types or structures, for example, the positioning portion may be a protrusion or a groove disposed in the inner cavity 121a of the water storage member 121, and the water absorption member 124 may also have a corresponding positioning structure matching with the protrusion or the groove. Alternatively, the shape of the inner cavity 121a of the water storage member 121 may be used to position and fix the water absorbing member 124.

In an alternative structure of the water storage member 121, a partial cavity wall shape of the inner cavity 121a of the water storage member 121 matches with the shape of the water absorbing member 124 to form a positioning portion. Thus, the water absorbing member 124 can be fixed without providing any additional member in the water storage member 121.

Specifically, a portion of the wall of the water storage member 121 near the communication hole 1211 may be formed in a channel or groove-like structure, and the water absorbing member 124 may be accommodated in the channel or groove-like structure. In an alternative mode, a part of the cavity wall of the inner cavity 121a of the water storage member 121 forms a receiving groove 1213, one end notch of the receiving groove 1213 faces the communication hole 1211, the other end notch faces the inside of the inner cavity 121a, the groove wall shape of the receiving groove 1213 and the shape of the water absorbing member 124 are matched with each other, and the water absorbing member 124 is received in the receiving groove 1213.

The containing groove 1213 may be surrounded to a shape matching the water absorbing member 124, specifically, the cavity wall of the inner cavity 121a of the water storage member 121 above the communicating hole 1211 may form a tubular structure similar to a channel, the cavity wall below the inner cavity 121a of the water storage member 121 may form a boss consistent with the extending direction of the channel, and the water absorbing member 124 may be clamped into the containing groove 1213 formed by the boss and the tubular structure, so as to be fixed.

In addition, the base assembly 110 further comprises a heat insulation shell 115, the heat insulation shell 115 is disposed on a side of the ironing base plate 111 facing away from the ironing surface 111a, and the water storage member 121 is disposed on the heat insulation shell 115.

In this way, the insulating shell 115 insulates the ironing base plate 111 from the other structures of the ironing apparatus, and because of the protection of the insulating shell 115, the high temperature generated by the ironing base plate 111 does not affect the normal operation of the components such as the water storage member 121 or the atomizer 122, or cause damage to these components. In addition, other temperature-insensitive components such as the circuit board in the ironing device are also not affected by the temperature of the ironing base plate 111.

Fig. 6 is a schematic connection diagram of a control circuit in the ironing apparatus provided in the embodiment of the present application. Figure 6 shows the electrical connections between the components in the ironing device. As shown in fig. 4 and 6, in order to perform an ironing operation, the ironing base plate 111 has a heat generating body 1111. Among them, the heat-generating body 1111 may have various forms. Alternatively, the heating body 1111 may include at least one of an electrothermal tube or a ceramic heating body. The heat-generating body 1111 may further include a Positive Temperature Coefficient (PTC) semiconductor heater chip or the like. In this embodiment, a heating element 1111 is taken as an electric heating tube for example.

Specifically, the ironing base plate 111 may be a cast aluminum base plate, or may be a base plate made of other heat conductive metals or alloys, so as to conduct the heat of the heating element 1111. The present application does not specifically limit the material of the ironing base plate 111.

In order to control the ironing operation of the ironing apparatus, optionally, the ironing apparatus further comprises a controller 130 and the like; the ironing base plate 111 and the atomizer 122 of the atomizing assembly 120 are electrically connected to a controller 130, which constitutes a control circuit of the ironing apparatus, as shown in fig. 6.

Specifically, the controller 130 may be disposed on the circuit board and disposed inside the housing 112, and a switch or the like is disposed outside the housing 112 for a user to operate and control.

In addition, the housing 112 may include a handle 116, the handle 116 may include a handle body 1161 and an upper cover 1162, the top end of the handle body 1161 has an opening, the upper cover 1162 covers the opening of the handle body 1161 to form the handle 116, and a switch or the like may be disposed on the handle 116.

In order to control the temperature of the ironing side 111a of the ironing base plate 111, the ironing apparatus 100 may further comprise a temperature controller 140, and the temperature controller 140 may be disposed on the base assembly 110 and configured to control the heating temperature of the ironing base plate 111, so that the preheating temperature of the ironing apparatus 100 may be accurately adjusted according to the needs. Specifically, the temperature controller 140 may be connected in series with the heating element 1111.

For example, the thermostat 140 may be a mechanical thermostat, and the thermostat 140 may have an adjusting member, such as an adjusting knob, etc., so as to control the heating temperature of the ironing base plate 111 by using the adjusting member.

In addition, a fuse 150 can be further arranged in the whole control loop, and when the current in the loop is too large, the fuse 150 can be fused, so that potential safety hazards caused by too high heat generated by the heating body 1111 can be avoided.

In this embodiment, the ironing device comprises a base assembly and an atomizing assembly, the atomizing assembly is arranged on the base assembly, the base assembly comprises a shell and an ironing base plate, and the ironing base plate is provided with an ironing surface; the atomization assembly comprises a water storage part and an atomizer, the atomization assembly comprises the atomizer, and the atomizer is communicated with the water storage part and is constructed to atomize and spray out liquid in the water storage part. Thus, the atomization assembly can break up and atomize water into water mist consisting of tiny liquid drops and spray the water mist on the surface of the clothes being ironed; after the ironing surface of the ironing base plate is contacted with the clothes, water mist droplets on the surface of the clothes are evaporated due to high temperature, so that steam is formed, the sprayed atomized liquid generates steam under the action of heat of the ironing base plate, the clothes are ironed by the steam, the steam is not easy to scald the clothes, and the ironing effect is good.

Finally, it is described that the technical solutions described in the above embodiments are modified, or some or all of the technical features are equivalently replaced; and these modifications or substitutions do not depart from the scope of the technical solutions of the embodiments of the present application.

Claims (14)

1. Ironing apparatus, characterized in that it comprises a base assembly (110) and an atomizing assembly (120), said atomizing assembly (120) being arranged to said base assembly (110), said base assembly (110) comprising a housing (112) and an ironing base plate (111), said ironing base plate (111) having an ironing face (111 a);

the atomizing assembly (120) comprises a water storage part (121) and an atomizer (122), the atomizing assembly (120) comprises an atomizer (122), and the atomizer (122) is communicated with the water storage part (121) and is configured to atomize and spray the liquid in the water storage part (121) so that the sprayed atomized liquid generates steam under the action of heat of the ironing base plate (111).

2. Ironing apparatus according to claim 1, characterized in that said atomizer (122) is an ultrasonic atomizer.

3. The ironing device according to claim 1 or 2, characterized in that said water storage member (121) has a communication hole (1211), said atomizer (122) communicating with the inner cavity (121 a) of said water storage member (121) via said communication hole (1211).

4. Ironing apparatus according to claim 3, characterized in that said communication aperture (1211) is located at the front end of said water storage member (121), and in that the axial direction of said communication aperture (1211) is inclined towards said ironing base plate (111).

5. The ironing apparatus according to claim 3, characterized in that said atomizing assembly (120) further comprises a fixing bracket (123), said fixing bracket (123) being connected to said communication hole (1211), and said atomizer (122) being disposed on said fixing bracket (123).

6. Ironing apparatus according to claim 5, characterized in that the edge profile of said communication aperture (1211) matches the shape of said atomizer (122), and in that said atomizer (122) is embedded in said communication aperture (1211).

7. The ironing apparatus according to claim 3, characterized in that said atomizing assembly (120) further comprises a water absorbing member (124), said water absorbing member (124) being arranged in said communication hole (1211), and said atomizer (122) and said water absorbing member (124) being in abutment.

8. Ironing apparatus according to claim 7, characterized in that said absorbent member (124) is absorbent cotton.

9. The ironing apparatus according to claim 8, characterized in that said water absorbing member (124) is cylindrical, and one end of said water absorbing member (124) along its length direction abuts against said atomizer (122), and the other end extends into the inner cavity (121 a) of said water storing member (121).

10. The ironing apparatus according to claim 8 or 9, characterized in that the inner wall of said communication hole (1211) has a positioning flange (1212) circumferentially arranged, said atomizer (122) abutting on the side wall of said positioning flange (1212) facing towards the outside of said communication hole (1211);

the water absorbing piece (124) is clamped in the positioning flange (1212).

11. The ironing apparatus according to claim 7, characterized in that the internal cavity (121 a) of the water storage member (121) has a positioning portion for fixing the water absorbing member (124) in the internal cavity (121 a) of the water storage member (121).

12. The ironing apparatus according to claim 11, characterized in that the shape of part of the chamber wall of the inner chamber (121 a) of the water reservoir (121) matches the shape of the water absorbent member (124) to form said positioning portion.

13. The ironing apparatus according to claim 12, wherein a part of the cavity wall of the inner cavity (121 a) of the water storage member (121) forms a receiving groove (1213), one end of the receiving groove (1213) has a notch facing the communication hole (1211) and the other end has a notch facing the inside of the inner cavity (121 a), the groove wall shape of the receiving groove (1213) and the shape of the water absorbing member (124) are matched with each other, and the water absorbing member (124) is received in the receiving groove (1213).

14. Ironing apparatus according to claim 1 or 2, characterized in that said base assembly (110) further comprises a thermally insulating enclosure (115), said thermally insulating enclosure (115) being arranged on a side of said ironing base plate (111) facing away from said ironing face (111 a), said water reservoir (121) being arranged on said thermally insulating enclosure (115).

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