CN217629040U - Garment steamer heating member and garment steamer - Google Patents

Abstract

The utility model discloses a garment steamer heating element and a garment steamer, wherein the heating element comprises a heating element and a main body, and the heating element is embedded in the main body; the main body is provided with a first vaporization cavity, a second vaporization cavity and a third vaporization cavity; the first vaporization cavity is communicated with the second vaporization cavity, and the second vaporization cavity is communicated with the third vaporization cavity; the main body is further provided with a water inlet and a steam outlet, the water inlet is communicated with the first vaporizing cavity, and the steam outlet is communicated with the third vaporizing cavity. After entering the first vaporization cavity from the water inlet, water starts to be heated and vaporized continuously, and after passing through the second vaporization cavity and the third vaporization cavity in sequence, the water is sprayed out from the steam outlet. The water or steam is continuously heated from the first vaporization chamber to the third vaporization chamber. Through setting up first vaporization chamber, second vaporization chamber and third vaporization chamber, prolonged the stroke of heating, guaranteed that water vaporization is abundant, the temperature is enough high, and the vaporization effect is good, irones the temperature height, and ironing effect is good.

Description

Garment steamer heating member and garment steamer

Technical Field

The utility model relates to a garment steamer technical field especially relates to a garment steamer adds heat-insulating material and garment steamer.

Background

A hanging ironing machine is also called as a hanging iron and a vertical iron, and is a machine capable of hanging clothes and cloth. The garment steamer can achieve the purpose of softening the fiber tissue of the garment and the cloth by continuously contacting the garment and the cloth with high-temperature water vapor generated inside, and can flatten the garment and the cloth by pulling, pressing and spraying, so that the garment and the cloth are perfect and new.

The heating element of the garment steamer heats water into high-temperature steam. The heating element of the present garment steamer heats and vaporizes insufficiently, the ironing temperature is not high enough, and the ironing effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a garment steamer adds heat-insulating material and garment steamer, the heating vaporization is abundant, and ironing temperature is high, and ironing effect is good.

The utility model discloses a heating element of a garment steamer, which comprises a heating element and a main body, wherein the heating element is embedded in the main body; the main body is provided with a first vaporization cavity, a second vaporization cavity and a third vaporization cavity; the first vaporization cavity is communicated with the second vaporization cavity, and the second vaporization cavity is communicated with the third vaporization cavity; the main body is further provided with a water inlet and a steam outlet, the water inlet is communicated with the first vaporizing cavity, and the steam outlet is communicated with the third vaporizing cavity.

Optionally, the third vaporization chamber is disposed between the first vaporization chamber and the second vaporization chamber, the first vaporization chamber and the third vaporization chamber being separated by a first barrier layer on the body; the heating body is embedded in the first interlayer.

Optionally, a first division bar is arranged in the first gasification cavity, a water inlet and outlet cavity is defined by the first division bar, and the water inlet cavity and the water outlet are arranged correspondingly.

Optionally, a first protrusion is disposed on a surface of the first interlayer at the bottom of the water inlet cavity.

Optionally, the first vaporization chamber and the third vaporization chamber are separated by a first barrier layer on the main body, and the second vaporization chamber and the third vaporization chamber are separated by a second barrier layer on the main body; a first communication port is arranged on the first interlayer and the second interlayer in a penetrating manner, and the first communication port is communicated with the first gasification cavity and the second gasification cavity;

a second division bar is arranged in the first gasification cavity, and the second division bar is separated in the first gasification cavity to form a first steam passage; the water inlet cavity is positioned at one end of the first gasification cavity, and the first communication port is positioned in the middle area of the first gasification cavity; the first steam passage is led out from the water inlet cavity, surrounds the water inlet cavity, extends to the other end of the first vaporization cavity after the water inlet cavity is surrounded by the first steam passage, and is folded back to the first communication port at the other end of the first vaporization cavity to be communicated with the first communication port.

Optionally, the side walls of the first division bar and the second division bar are provided with first stoppers, and the first stoppers are located in the first steam passage.

Optionally, the second vaporization chamber and the third vaporization chamber are separated by a second barrier layer on the body; a second communication port is arranged on the second interlayer in a penetrating manner and is communicated with the first gasification cavity and the second gasification cavity;

a third division bar is arranged in the third vaporization chamber, and after the third division bar partially encloses the second communication port, the third vaporization chamber is partitioned to form a second steam passage; the second communicating port is located at one end of the third vaporizing chamber, the second steam passage extends to the other end of the third vaporizing chamber after being led out from the second communicating port, and is folded back to one end where the second communicating port is located from the other end of the first vaporizing chamber and then extends to the other end of the third vaporizing chamber, and the steam outlet is located at the tail end of the second steam passage.

Optionally, a second stopper is disposed on a side wall of the third division bar, and the second stopper is located in the second steam passage.

Optionally, the heating element further comprises a first cover body and a second cover body, wherein the first cover body covers the first vaporizing cavity to seal the first vaporizing cavity; the second cover body covers the second gasification cavity to seal the second gasification cavity; and a second bulge is arranged on the surface of the first cover body facing the first vaporization cavity and the surface of the second cover body facing the second vaporization cavity.

The utility model also discloses a garment steamer, which comprises a handle, a hot ironing head and the heating element; the handle is connected with the hot ironing head, and the heating element is arranged in the hot ironing head.

The utility model discloses a garment steamer heating member, heat-generating body inlay in the main part, heat the main part, and water begins to be heated the vaporization continuously after entering into first vaporization chamber from the water inlet to in proper order behind second vaporization chamber and third vaporization chamber, from the steam outlet blowout. The water or steam is continuously heated from the first vaporization chamber to the third vaporization chamber. The heating member of this scheme has prolonged the stroke of heating through setting up first vaporization chamber, second vaporization chamber and third vaporization chamber, guarantees that water vaporization is abundant, and the temperature is enough high, and vaporization effect is good, and ironing temperature is high, and ironing effect is good.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive faculty. In the drawings:

FIG. 1 is a schematic view of a steamer head of a steamer according to an embodiment of the present invention in a vertical position;

FIG. 2 is a schematic view of a steamer head of a steamer according to an embodiment of the present invention in a transverse position;

FIG. 3 is an exploded view of a garment steamer according to an embodiment of the present invention;

fig. 4 is a partially enlarged view of a portion a of fig. 3;

FIG. 5 is another perspective view of an exploded view of a garment steamer according to an embodiment of the present invention;

fig. 6 is a partially enlarged view of a portion B in fig. 5;

FIG. 7 is a schematic view of a heating element in accordance with an embodiment of the present invention;

fig. 8 is another schematic view of a heating element in accordance with an embodiment of the present invention;

fig. 9 is a cross-sectional view of a heating element in accordance with an embodiment of the present invention;

fig. 10 is an exploded schematic view of a heating element according to an embodiment of the present invention;

fig. 11 is another perspective view of a heating element according to an embodiment of the present invention;

figure 12 is a schematic view of a first vaporization chamber in accordance with an embodiment of the present invention;

FIG. 13 is a schematic view of a second vaporization chamber according to an embodiment of the present invention;

figure 14 is a schematic view of a third vaporization chamber according to an embodiment of the present invention;

fig. 15 is a schematic view of a handle according to an embodiment of the present invention;

fig. 16 is a partially enlarged view of portion C of fig. 15;

figure 17 is a schematic view of a garment steamer assembly according to an embodiment of the invention.

Wherein, 1, a garment steamer component; 10. a hanging ironing machine; 100. a handle; 110. a second top portion; 120. a bump; 130. mounting a column; 140. a mounting head; 200. heating the ironing head; 210. a steam jet; 220. a first top portion; 230. a limiting strip; 240. a guide groove; 250. mounting grooves; 300. a connecting member; 400. a heating member; 410. a heating element; 420. a main body; 421. a first vaporization chamber; 421a, a first division bar; 421b, a water inlet cavity; 421c, a second division bar; 421d, a first steam passage; 421e, a first stop block; 422. a second vaporization chamber; 423. a third vaporization chamber; 423a, a third division bar; 423b, a second steam passage; 423c, a second stop; 424. a steam outlet; 425. a water inlet; 426. a first barrier layer; 426a, a first communication port; 426b, a first protrusion; 427. a second barrier layer; 427a, a second communication port; 430. a first cover body; 431. a second protrusion; 440. a second cover body; 500. a water pump; 600. a conduit assembly; 610. a capillary needle tube; 620. a front pipeline; 630. an adapter; 20. a fixed seat.

Detailed Description

It is to be understood that the terminology, the specific structural and functional details disclosed herein are for the purpose of describing particular embodiments only, and are representative, but that the present invention may be embodied in many alternate forms and should not be construed as limited to only the embodiments set forth herein.

The invention will be described in detail below with reference to the drawings and alternative embodiments.

As shown in fig. 7 to 14, as an embodiment of the present invention, a heating element of a garment steamer is disclosed, and specifically, as shown in fig. 9 to 11, the heating element 400 includes a heating element 410 and a main body 420; the heating body 410 is embedded in the body 420. The main body 420 is provided with a first vaporization chamber 421, a second vaporization chamber 422, and a third vaporization chamber 423; the first vaporization chamber 421 is communicated with the second vaporization chamber 422, and the second vaporization chamber 422 is communicated with the third vaporization chamber 423; the main body 420 further defines a water inlet 425 and a steam outlet 524, wherein the water inlet 425 is communicated with the first vaporizing chamber 421, and the steam outlet 424 is communicated with the third vaporizing chamber 423. The main body 420 can be made of aluminum or aluminum alloy and the like, and has good heat conducting property, good heating effect and high speed. When the heating element 410 generates heat, the heat is transferred to the entire body 420, and the entire body 420 can be in a heat generating state.

The utility model discloses a garment steamer heating element, heat-generating body 410 inlay on main part 420, heat main part 420, and water begins to be heated the vaporization continuously after entering into first vaporization chamber 421 from water inlet 425 to after passing through second vaporization chamber 422 and third vaporization chamber 423 in proper order, from steam outlet 424 blowout. The water or steam is continuously heated from the first vaporization chamber 421 to the third vaporization chamber 423. The heating element 400 of this scheme has prolonged the stroke of heating through setting up first vaporization chamber 421, second vaporization chamber 422 and third vaporization chamber 423, guarantees that the water vaporization is abundant, and the temperature is enough high, and the vaporization is effectual, and ironing temperature is high, and ironing effect is good.

Alternatively, as shown in fig. 12, the heating element 410 may have a "U" shape, and both ends thereof are exposed to the outside of one end of the main body 420.

Alternatively, as shown in fig. 9, the third vaporization chamber 423 is disposed between the first vaporization chamber 421 and the second vaporization chamber 422, and the first vaporization chamber 421 and the third vaporization chamber 423 are separated by a first partition 426 on the main body 420; the heating element 410 is embedded in the first partition layer 426.

The first vaporizing chamber 421 is the first chamber after the water enters, and the temperature required during heating is high, and the heating speed is also high, so that the water can be heated and vaporized as fast as possible once entering the first vaporizing chamber 421. And the third vaporization chamber 423 is the last chamber of the steam leaving the heater, and further performs targeted heating before the steam leaves, so as to ensure that the temperature is high enough and the vaporization is sufficient when the steam is sprayed out. In this scheme, with first vaporization chamber 421 and the adjacent setting of third vaporization chamber 423, and inlay heat-generating body 410 in first interlayer 426, heat-generating body 410 can be directly to first vaporization chamber 421 and the heating of third vaporization chamber 423, the temperature of first vaporization chamber 421 and third vaporization chamber 423 is high, the heating is fast, it is effectual to heat, just can heat up the vaporization fast in water first vaporization chamber 421 comes in, steam can further the pertinence heating at third vaporization chamber 423, the temperature is high enough when guaranteeing steam blowout, the vaporization is sufficient.

Alternatively, the heat-generating body 410 is partially exposed in the first chamber and the third chamber. In this scheme, heat-generating body 410 part is exposed in first cavity and third cavity, and water or steam in first cavity and the third cavity not only can be through the heat conduction heating of first interlayer 426, can also with heat-generating body 410 direct contact heating, and heating temperature is high, and rate of heating is fast, and heating effect is good.

Alternatively, as shown in fig. 9 to 11, the second vaporization chamber 422 and the third vaporization chamber 423 are separated by a second partition 427 on the main body 420; a first communication port 426a is formed through the first partition layer 426 and the second partition layer 427, and the first communication port 426a communicates the first vaporization chamber 421 and the second vaporization chamber 422; a second communication port 427a is arranged on the second partition wall 427 in a penetrating manner, and the second communication port 427a is communicated with the first vaporization chamber 421 and the second vaporization chamber 422. The first vaporization chamber 421 and the second vaporization chamber 422 are communicated with each other, and the second vaporization chamber 422 and the third vaporization chamber 423 are communicated with each other through the first communication port 426a and the second communication port 427 a.

Optionally, as shown in fig. 10 or fig. 12, a first partition strip 421a is disposed in the first vaporization chamber 421, a water inlet and outlet chamber 421b is defined by the first partition strip 421a, and the water inlet chamber 421b is disposed corresponding to the water inlet 425. In the scheme, after entering the first vaporizing chamber 421 from the water inlet 425, water directly flows into the water inlet chamber 421b, the water inlet chamber 421b plays a role of collecting water, so that the water is prevented from spreading around without any need, and the water is firstly heated and concentrated in the water inlet chamber 421 b.

Optionally, a first protrusion 426b is disposed on a surface of the first partition 426 at the bottom of the water inlet chamber 421b, and the first protrusion 426b can increase a surface area for heating, so that heating is faster.

Optionally, the heating element 410 is partially exposed in the water inlet chamber 421b, and water or steam in the water inlet chamber 421b can directly contact with the heating element 410, so that heating and vaporization are faster.

Optionally, a second division bar 421c is arranged in the first vaporization chamber 421, and the second division bar 421c partitions the first vaporization chamber 421 to form a first steam passage 421d; the water inlet chamber 421b is located at one end of the first gasification chamber 421, and the first communication port 426a is located in the middle area of the first gasification chamber 421; the first steam passage 421d is led out from the water inlet chamber 421b, extends to the other end of the first vaporizing chamber 421 after surrounding the water inlet chamber 421b for a circle, and is folded back to the first communication port 426a from the other end of the first vaporizing chamber 421 to be communicated with the first communication port 426 a. In this scheme, to go into water cavity 421b and set up the one end at first vaporization chamber 421, first intercommunication mouth 426a sets up in the middle zone of first vaporization chamber 421, and first steam flue 421d is drawn forth from going into water cavity 421b, centers on go into after water cavity 421b a week extend to the other end of first vaporization chamber 421, and follow the other end of first vaporization chamber 421 is rolled back to first intercommunication mouth 426a department, can increase the length of first steam flue 421d to a great extent, increases the stroke of steam in first vaporization chamber 421, and the heating is more abundant, and the vaporization effect is better.

Optionally, a first stopper 421e is disposed on a side wall of the first division bar 421a and the second division bar 421c, and the first stopper 421e is located in the first steam passage 421 d. The first stopper 421e can increase the bending degree of the first steam passage 421d, further increase the length of the first steam passage 421d, and further increase the stroke of the steam in the first vaporization chamber 421, so that the heating is more sufficient, and the vaporization effect is better.

Optionally, a part of the second partition bar 421c is disposed around the first communication port 426 a. Part the second parting stop 421c sets up around first intercommunication mouth 426a can play the effect of gathering together steam, can prevent that steam from escaping to all around, is favorable to steam to concentrate, completely enter into first intercommunication mouth 426a to enter into in the second gasification chamber 422.

Alternatively, as shown in fig. 13, in the second vaporization chamber 422, the first communication port 426a is located at one end of the second vaporization chamber 422, and the second communication port 427a is located at the other end of the second vaporization chamber 422. In this embodiment, the first communication port 426a and the second communication port 427a are located at two ends of the second vaporization chamber 422, and the steam flows into the third vaporization chamber 423 from the other end after entering from one end of the second vaporization chamber 422, so that the stroke is large and the heating effect is good.

Alternatively, as shown in fig. 9 to 11, the heating element 400 further includes a first cover 430 and a second cover 440, wherein the first cover 430 covers the first vaporizing chamber 421 to seal the first vaporizing chamber 421; the second cover 440 covers the second gasification cavity 422 to seal the second gasification cavity 422; the surface of the first cover 430 facing the first vaporization chamber 421 and the surface of the second cover 440 facing the second vaporization chamber 422 are provided with second protrusions 431. The second protrusions 431 may increase the surface area of heating, which is faster.

Alternatively, as shown in fig. 11 and 14, a third division bar 423a is disposed in the third vaporization chamber 423, and after the third division bar 423a partially encloses the second communication port 427a, the third vaporization chamber 423 is blocked to form a second steam passage 423b; the second communication port 427a is located at one end of the chamber of the third vaporization chamber 423, the second vapor passage 423b extends to the other end of the third vaporization chamber 423 after being led out from the second communication port 427a, and is folded back from the other end of the first vaporization chamber 421 to the end where the second communication port 427a is located, and then extends to the other end of the third vaporization chamber 423, and the vapor outlet 424 is located at the tail end of the second vapor passage 423 b. As shown in fig. 14, the end of the second channel 423b is an end of the second channel 423b away from the second communication port 427 a. By the arrangement, the length of the second steam channel 423b can be greatly increased, the stroke of the steam in the second vaporization cavity 422 is increased, the heating is more sufficient, and the vaporization effect is better.

Optionally, a sidewall of the third partition 423a is provided with a second stopper 423c, and the second stopper 423c is located in the second steam channel 423 b. The second stopper 423c can increase the bending degree of the second steam channel 423b, further increase the length of the second steam channel 423b, and further increase the stroke of the steam in the third vaporization chamber 423, so that the heating is more sufficient, and the vaporization effect is better.

As shown in fig. 1 and 2, as another embodiment of the present invention, there is also disclosed a garment steamer comprising a handle 100, a hot iron head 200 and a heating member 400 as described above; the handle 100 is connected to the heat iron head 200, and the heating member 400 is disposed in the heat iron head 200.

Optionally, a steam spout 210 is disposed on one side of the hot iron head 200, and the steam outlet 424 is in butt joint with the steam spout 210. The steam vents 210 are arranged to extend parallel or perpendicular to the axis L1 of the hot iron head 200; the other side of the hot ironing head 200 is rotatably connected with the handle 100, so that the hot ironing head 200 can be switched between a horizontal state and a vertical state relative to the handle 100; when the heat ironing head 200 is rotated to the vertical state, the first top 220 of the heat ironing head 200 does not protrude from the second top 110 of the handle 100.

As shown in fig. 1, the vertical state of the hot ironing head 200 with respect to the handle 100 means that the axis L1 of the hot ironing head 200 is parallel to the axis L2 of the handle 100; as shown in fig. 2, the state in which the thermal iron head 200 is in a lateral direction with respect to the handle 100 means that an axis L1 of the thermal iron head 200 is perpendicular to an axis L2 of the handle 100. The thermal iron head 200 is switched between the horizontal state and the vertical state with respect to the handle 100 by rotation. The steam generated inside the steamer 10 is ejected from the steam outlet 210 to perform ironing.

The utility model discloses a garment steamer 10, heat scald head 200 and connect the switching that realizes transverse state and vertical state through rotating, during the use, heat scald head 200 can all iron clothes etc. under transverse state and vertical state, and the user can iron the clothing with transverse movement and vertical migration, only needs to cut heat transfer and scalds first 200, and need not change the posture of standing appearance or hand, and it is big to iron the area, convenient to use. When not in use, the blanching head 200 rotates to a vertical state, and in the state, the top of the blanching head 200 does not protrude out of the top of the handle 100, so that the whole shape of the garment steamer 10 is regular, the occupied space is small, and the garment steamer is convenient to store.

Alternatively, as shown in fig. 1, the steam vents 210 are provided on the hot iron head 200 to extend parallel to the axis L1 of the hot iron head 200. Thus, the extending direction of the steam nozzle 210 is the same as the extending direction of the hot ironing head 200, and the user can directly know the direction of the steam nozzle 210 according to the direction of the hot ironing head 200, for example, when the hot ironing head 200 is in the vertical state, it indicates that the steam nozzle 210 is also in the vertical state, and when the hot ironing head 200 is in the horizontal state, it indicates that the steam nozzle 210 is also in the horizontal state, so that the user can know the current direction of the steam nozzle 210, and the operation of direction adjustment is facilitated.

Alternatively, as shown in fig. 1, the number of the vapor injection heads is at least two, and may be two, three, four, or more. Set up two at least steam nozzle, for the condition that only a steam nozzle extends the setting, steam jet is more concentrated, and the power of spouting is bigger, and the effect of ironing is better. Of course, in other embodiments, only one steam nozzle can be provided and can be arranged to extend parallel or perpendicular to the axis L1 of the hot ironing head 200, increasing the ironing area.

Alternatively, as shown in fig. 2, the thermal iron head 200 may be rotated by 90 ° or 270 ° with respect to the handle 100, so as to switch between the horizontal state and the vertical state. The hot iron head 200 is rotated by 90 ° relative to the handle 100, that is, the axis L1 of the hot iron head 200 can be rotated by 90 ° relative to the axial direction L2 of the handle 100, so as to switch between the horizontal state and the vertical state. The heat iron head 200 is rotated 270 ° with respect to the handle 100, that is, the axis L1 of the heat iron head 200 can be rotated 270 ° with respect to the axial direction L2 of the handle 100, and the horizontal state and the vertical state are switched.

The hot iron head 200 can rotate 360 degrees relative to the hot iron head 200, and in the scheme that the hot iron head 200 rotates 90 degrees or 270 degrees relative to the handle 100 to realize the switching between the transverse state and the vertical state, the hot iron head 200 can only rotate 90 degrees or 270 degrees, when a user rotates along the same direction and cannot rotate any more, the hot iron head 200 is in the transverse state or the vertical state, and the rotation is accurate and convenient. For the scheme that the thermal iron head 200 can rotate 90 degrees relative to the handle 100 to realize the switching between the horizontal state and the vertical state, the thermal iron head 200 has a small rotation stroke and is convenient and quick to rotate.

Optionally, as shown in fig. 3 to 6, a protrusion 120 is disposed on the handle 100, and a position of the hot ironing head 200 corresponding to the handle 100 is provided with a position limiting strip 230; when the hot ironing head 200 rotates to the vertical state, the bump 120 abuts against one end of the limiting bar 230, and when the hot ironing head 200 rotates to the horizontal state, the bump 120 abuts against the other end of the limiting bar 230. In this embodiment, the thermal ironing head 200 can be positioned in a horizontal state or a vertical state when rotating by the blocking between the protrusion 120 and the limiting bar 230. Thus, the operator does not easily rotate the hot iron head 200 excessively. Moreover, the bump 120 and the limiting strip 230 have simple structures, are not easy to damage, and have high reliability after long-term use.

Optionally, the limiting bar 230 is disposed in an arc shape, and a central angle of the limiting bar 230 is 270 °. In this way, the central angle corresponding to the moving track of the bump 120 between the two ends of the limiting strip 230 is 90 °, that is, the hot ironing head 200 can only rotate 90 °, so as to realize the switching between the horizontal state and the vertical state, and the hot ironing head 200 has a small rotating stroke and is convenient and rapid to rotate.

Optionally, a guide groove 240 is arranged between the limiting strips 230, the guide groove 240 is arc-shaped, and a central angle of the guide groove 240 is 90 °; the protrusion 120 is inserted into the guide groove 240. The guide groove 240 may serve to limit and guide the protrusion 120.

Optionally, the garment steamer 10 further comprises a connector 300, the connector 300 is fixedly connected to a side of the hot iron head 200 facing away from the steam outlet, and the connector 300 is rotatably connected to the handle 100; the stopper bar 230 is disposed around the connection member 300. In this embodiment, the rotary connection between the thermal head 200 and the handle 100 is realized by a rotary member. Spacing 230 is around the setting of connecting piece 300, and spacing 230 is close to the position that hot ironing head 200 and handle 100 rotate to be connected, and spacing 230 is close to the tie point of hot ironing head 200 and handle 100 promptly, and during the rotation process, when spacing 230 withstood with lug 120, hot ironing head 200 was more stable, and spacing effect is better.

Optionally, a mounting groove 250 is formed on the hot ironing head 200, the connecting member 300 is disposed in the mounting groove 250, and the position limiting bar 230 and the guide groove 240 are formed in the mounting groove 250. The mounting groove 250 may serve as a location and a limit for the connection member 300. The mounting groove 250 may also limit and guide the protrusion 120 together with the limiting bar 230 and the guide groove 240.

Optionally, as shown in fig. 15 and 16, the garment steamer 10 further comprises a water pump 500 and a pipe assembly 600, the water pump 500 and the pipe assembly 600 are arranged in the handle 100; the pipe assembly 600 includes a capillary tube 610, and the pipe assembly 600 is respectively communicated with the water pump 500 and the water inlet 425 of the main body 420 of the heating element 410 through the capillary tube 610. In this embodiment, by providing the capillary tube 610 on the water path between the water pump 500 and the heating element 410, the passage aperture of the general tube of the passage aperture arm of the capillary tube 610 is small, and the throttling function can be achieved. In addition, by providing the capillary needle tube 610, the flow rate of water entering the heating element 410 can be reduced, and the problem that the heating element 410 is difficult to completely heat and vaporize water when the flow rate of water is too large can be avoided.

Optionally, the pipe assembly 600 further includes a pre-pipe 620, and the pre-pipe 620 is connected to the water pump 500 and the capillary tube 610, respectively. The water pump 500 is communicated with the capillary tube 610 through the preposed pipeline 620, so that the connection is convenient, and the installation and fixation of the water pump 500 and the capillary tube 610 are easy. The front pipe 620 may be a hose or the like.

Optionally, the pipe assembly 600 further includes an adapter 630, and the adapter 630 is connected to the capillary tube 610 and is communicated with the water inlet 425 of the main body 420 of the heating element 410. Through the switching of adapter 630, can make things convenient for the installation of capillary needle 610 fixed.

Optionally, the handle 100 is formed with a mounting post 130 therein, and the capillary needle tube 610 is inserted into the mounting post 130. Mounting post 130 may facilitate the mounting of capillary tube 610 and may function to protect capillary tube 610.

Optionally, a mounting head 140 is disposed on an end of the mounting post 130 close to the water pump 500, and the capillary tube 610 is fixed in the mounting head 140 and inserted into the mounting post 130. Mounting post 130 may securely hold capillary needle 610.

Alternatively, the capillary tube 610 is integrally formed with the mounting head 140, and the capillary tube 610 can be firmly integrated with the mounting head 140 and firmly fixed. The capillary tube 610 and the mounting head 140 are modularized and convenient to assemble. The mounting head 140 may be made of plastic, and the capillary tube 610 may be injection molded into the mounting head 140 by an injection molding process, so as to integrally form the capillary tube 610 and the mounting head 140.

As shown in FIG. 17, as another embodiment of the present invention, a garment steamer assembly 1 is disclosed, including a stationary base 20 and a garment steamer 10 as described above; the garment steamer 10 is detachably hung on the fixed base 20. The arrangement of the fixing seat 20 can facilitate the accommodation of the garment steamer 10.

The above description is provided to further explain the present invention in detail with reference to specific alternative embodiments, and the contents between the above embodiments may be arbitrarily combined, and it should not be construed that the present invention is limited to the specific description. To the utility model discloses to the ordinary skilled person in technical field's the prerequisite that does not deviate from the utility model discloses under the design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. The heating element of the garment steamer is characterized by comprising a heating body and a main body, wherein the heating body is embedded in the main body; the main body is provided with a first vaporization cavity, a second vaporization cavity and a third vaporization cavity; the first vaporization cavity is communicated with the second vaporization cavity, and the second vaporization cavity is communicated with the third vaporization cavity; the main body is further provided with a water inlet and a steam outlet, the water inlet is communicated with the first vaporizing cavity, and the steam outlet is communicated with the third vaporizing cavity.

2. The heating element of claim 1 wherein said third vaporization chamber is disposed between said first vaporization chamber and said second vaporization chamber, said first vaporization chamber and said third vaporization chamber being separated by a first barrier layer on said body; the heating body is embedded in the first interlayer.

3. The heating element of claim 1 wherein a first division bar is disposed within said first vaporization chamber, said first division bar enclosing a water inlet and outlet chamber, said water inlet chamber disposed in correspondence with said water inlet.

4. The heating element of claim 3 wherein the surface of the first barrier at the bottom of the water intake chamber is provided with a first protrusion.

5. The heating element of claim 3 wherein said first vaporization chamber and said third vaporization chamber are separated by a first barrier layer on said body, and said second vaporization chamber and said third vaporization chamber are separated by a second barrier layer on said body; a first communicating port is arranged on the first interlayer and the second interlayer in a penetrating manner, and the first communicating port is communicated with the first vaporizing cavity and the second vaporizing cavity;

a second division bar is arranged in the first gasification cavity and is partitioned in the first gasification cavity to form a first steam passage; the water inlet cavity is positioned at one end of the first gasification cavity, and the first communication port is positioned in the middle area of the first gasification cavity; the first steam passage is led out from the water inlet cavity, surrounds the water inlet cavity, extends to the other end of the first vaporization cavity after the water inlet cavity is surrounded by the first steam passage, and is folded back to the first communication port at the other end of the first vaporization cavity to be communicated with the first communication port.

6. The heating element of claim 5 wherein the side walls of said first and second webs are provided with first stops, said first stops being located in said first channel.

7. The heating element of claim 1 wherein said second vaporization chamber and said third vaporization chamber are separated by a second barrier layer on said body; a second communication port penetrates through the second interlayer and is communicated with the first gasification cavity and the second gasification cavity;

a third division bar is arranged in the third vaporization chamber, and after the third division bar encloses the second communication opening part, the third vaporization chamber is partitioned to form a second steam passage; the second communicating port is located at one end of the third vaporizing chamber, the second steam passage extends to the other end of the third vaporizing chamber after being led out from the second communicating port, and is folded back to one end where the second communicating port is located from the other end of the first vaporizing chamber and then extends to the other end of the third vaporizing chamber, and the steam outlet is located at the tail end of the second steam passage.

8. The heating element of claim 7 wherein the side walls of said third division bar are provided with second stops, said second stops being located in said second steam channel.

9. A heating element as claimed in any one of claims 1 to 8, characterized in that the heating element further comprises a first lid body and a second lid body, the first lid body covering the first vaporizing chamber to seal the first vaporizing chamber; the second cover body covers the second gasification cavity to seal the second gasification cavity; and a second bulge is arranged on the surface of the first cover body facing the first vaporization cavity and the surface of the second cover body facing the second vaporization cavity.

10. A garment steamer comprising a handle, a steamer head and a heating element as claimed in any one of claims 1 to 9; the handle is connected with the hot ironing head, and the heating element is arranged in the hot ironing head.

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