CN210946191U

CN210946191U - Garment steamer host computer and garment steamer

Info

Publication number: CN210946191U
Application number: CN201921978128.XU
Authority: CN
Inventors: 谢威
Original assignee: Zhejiang Shaoxing Supor Domestic Electrical Appliance Co Ltd
Current assignee: Zhejiang Shaoxing Supor Domestic Electrical Appliance Co Ltd
Priority date: 2019-11-15
Filing date: 2019-11-15
Publication date: 2020-07-07
Anticipated expiration: 2029-11-15

Abstract

The utility model provides a garment steamer host and garment steamer, the garment steamer host includes water tank (11) and catch basin (12), catch basin (12) are located the below of water tank (11), set up the water inlet on water tank (11) and be used for the delivery port (111) with water tank (11) and catch basin (12) intercommunication; further comprising: electromagnetism actuation subassembly (15) and shutoff subassembly (13), shutoff subassembly (13) are located water tank (11) orientation one side of catch basin (12) just is close to delivery port (111) set up, electromagnetism actuation subassembly (15) are located in catch basin (12) just be close to shutoff subassembly (13) set up, the utility model discloses a garment steamer owner has solved the problem that difficult control and reliability are low when adopting mechanical type shutoff mode control water yield between current water tank and the catch basin.

Description

Garment steamer host computer and garment steamer

Technical Field

The utility model relates to an installation technical field is connected to the subassembly, especially relates to a garment steamer host computer and garment steamer.

Background

The hanging ironing machine is also called as a hanging iron and a vertical iron, and can hang ironing clothes and cloth. The garment steamer achieves the purpose of softening the fiber tissues of the clothes and the cloth by continuously contacting the clothes and the cloth with the scorching water vapor generated inside, and flattens the clothes and the cloth through the actions of pulling, pressing and spraying, so that the clothes and the cloth are flatter.

At present, a garment steamer mainly comprises a garment steamer main machine, a brush head, a telescopic rod assembly and a ironing board, wherein the telescopic rod is connected between the ironing board and the garment steamer main machine, and the brush head is connected with the garment steamer main machine through a steam guide pipe. When the clothes ironing device is used, high-pressure steam generated by the main frame of the clothes ironing device is sprayed to clothes on the ironing plate from the brush head along the steam guide pipe so as to iron the clothes. The main machine of the garment steamer mainly comprises a water tank and a shell, wherein a water storage tank is arranged in the shell, wherein when water is added, an upper water adding mode and a non-upper water adding mode can be adopted, and when the upper water adding mode is adopted, a mechanical plugging mode is often adopted between the water tank and the water storage tank to control whether water in the water tank flows into the water storage tank or not.

However, when the water outlet amount is controlled by adopting a mechanical plugging mode between the water tank and the water storage tank, the mechanical plugging mode usually depends on the buoyancy of the water in the water storage tank to drive and complete plugging, but the buoyancy in the water storage tank is difficult to control accurately, so that the reliability of water outlet control between the water tank and the water storage tank is low, and the water outlet control is difficult to control.

SUMMERY OF THE UTILITY MODEL

The utility model provides a garment steamer owner and garment steamer has realized the shutoff purpose of electromagnetic type between water tank and the catch basin, has improved the reliability of water yield control between water tank and the catch basin, has ensured the automatic and accurate purpose of retaining of water tank in to the catch basin to the difficult problem of controlling and the reliability is low when adopting mechanical type shutoff mode control water yield between current water tank and the catch basin has been solved.

In a first aspect, the utility model provides a garment steamer host computer includes at least:

the water storage tank is positioned below the water tank, and the water tank is provided with a water inlet and a water outlet for communicating the water tank with the water storage tank;

further comprising: the electromagnetic attraction component is positioned in the water storage tank and is arranged close to the blocking component;

the electromagnetic attraction component is used for being connected with a power supply and attracting the plugging component to move away from the water outlet when the water level in the water storage tank is lower than a preset value so as to open the water outlet, and is disconnected with the power supply when the water level in the water storage tank is higher than the preset value so as to plug the plugging component at the water outlet.

Through the setting including electromagnetic attraction subassembly and shutoff subassembly, realized the shutoff purpose of electromagnetic type between water tank and the catch basin, improved the reliability of water yield control between water tank and the catch basin, accomplished the water tank to the automatic and accurate purpose of retaining water in the catch basin, guaranteed like this that the water level in the catch basin remains at certain water level all the time, avoid leading to the main frame of garment steamer can't continuously produce high temperature steam because the water yield in the catch basin is not enough. In addition, the water outlet in the water tank is controlled to be blocked or not by depending on the water level change in the water storage tank through the matching of the electromagnetic attraction component and the blocking component, the water outlet is irrelevant to the atmospheric pressure, and the water tank is not required to be isolated from the atmosphere, so that the water can be added into the water tank at any time, the garment steamer can still work in the water adding process, and the problem that the garment steamer can not work continuously when the water tank is taken down and water is added is solved.

In one possible embodiment, the method further comprises: the water level control assembly is used for switching on the electromagnetic attraction assembly and the power supply when the water level in the water storage tank is lower than a preset value and switching off the electromagnetic attraction assembly and the power supply when the water level in the water storage tank is higher than the preset value.

In one possible embodiment, the water level control assembly comprises a float assembly located within the reservoir and a magnetic switch located outside the reservoir;

and when the floating assembly is close to the magnetic switch, the magnetic switch is closed so as to enable the electromagnetic attraction assembly to be connected with the power supply, and when the floating assembly is far away from the magnetic switch, the magnetic switch is disconnected so as to enable the electromagnetic attraction assembly to be disconnected with the power supply.

In one possible embodiment, the float assembly comprises: the magnetic switch comprises a floater and a magnetic part positioned in the floater, wherein the magnetic part is used for driving the magnetic switch to be closed when the floater approaches the magnetic switch.

In one possible embodiment, the float comprises: the magnetic floater comprises an upper floater cover and a lower floater cover, wherein the upper floater cover and the lower floater cover enclose a hollow floater, and the magnetic part is arranged on the lower floater cover.

In one possible embodiment, the water level control assembly further comprises: the limiting part is positioned in the water storage tank, the interior of the limiting part is communicated with the water storage tank, and the floating assembly is arranged in the limiting part.

In one possible embodiment, the stopper portion includes: the spacing muscle that two at least intervals set up and lid are established spacing lid on the spacing muscle, spacing muscle with spacing lid enclose into with the communicating spacing space of catch basin, the subassembly activity of floating is established in the spacing space.

In one possible embodiment, the electromagnetic attraction assembly includes: the electromagnetic chuck and be used for bearing electromagnetic chuck's basin lid, the top of basin lid with the top of catch basin links to each other, the bottom unsettled of basin lid is established in the catch basin, just the bottom of basin lid set up with the opening of catch basin intercommunication, electromagnetic chuck with the water level control subassembly electricity is connected.

In a possible implementation, the electromagnetic attraction assembly further includes: the conductive structure comprises a first conductive piece positioned on the outer surface of the water tank cover and a second conductive piece positioned outside the water storage tank;

one end of the first conductive piece is electrically connected with the electromagnetic chuck, the other end of the first conductive piece extends out of the water storage tank and is abutted against one end of the second conductive piece, and the other end of the second conductive piece is electrically connected with the water level control assembly.

In a possible implementation manner, a boss is arranged on the outer edge of the top end of the water tank cover, a part of the first conductive piece is located on the boss, an opening through which the boss can extend outwards is formed in the water storage tank, and when the boss extends out of the opening, the first conductive piece located on the boss abuts against the second conductive piece.

In a possible implementation, the electromagnetic attraction assembly further includes: one end of the telescopic structure is positioned at the opening, and the second conductive piece is arranged at the other end of the telescopic structure and close to the opening;

one end of the telescopic structure is used for moving under the driving of the boss, so that the other end of the telescopic structure drives the second conductive piece to be in contact with the first conductive piece on the boss.

In a possible embodiment, the telescopic structure comprises: one end of the first telescopic structure is located at the opening, a partial area of the first telescopic structure abuts against the second telescopic structure, and the second conductive piece is arranged on the second telescopic structure;

the first telescopic structure is used for moving under the driving of the boss, and the second telescopic structure is used for moving towards the boss after the first telescopic structure moves, so that the second conductive piece is in contact with the first conductive piece.

In a possible embodiment, the extension and retraction directions of the first telescopic structure and the second telescopic structure are perpendicular to each other.

In a possible embodiment, the telescopic structure further comprises: the elastic buckle seat is located outside the water storage tank and connected with the water storage tank, a containing cavity is formed in the elastic buckle seat, and at least partial region of the first telescopic structure and the second telescopic structure is located in the containing cavity.

In a possible embodiment, the first telescopic structure comprises: one end of the first elastic buckle is located at the opening, the other end of the first elastic buckle abuts against the second telescopic structure, and two ends of the first elastic piece are connected with the elastic buckle seat and the first elastic buckle respectively;

the first elastic piece is used for driving the first elastic buckle to stretch and retract along the direction towards the opening.

In a possible embodiment, the second telescopic structure comprises: the elastic buckle comprises a first elastic buckle and a first elastic piece, wherein one end of the first elastic buckle is close to the opening, the other end of the first elastic buckle is connected with one end of the first elastic piece, the other end of the first elastic piece is connected with the elastic buckle seat, the other end of the first elastic buckle is abutted against the first elastic buckle, and the first conductive piece is arranged at one end, close to the opening, of the first elastic buckle;

the second elastic piece is used for driving the second elastic buckle to move towards the boss after the first elastic buckle moves away from the opening, so that the second conductive piece is in contact with the first conductive piece on the boss.

In a possible embodiment, one side of the second elastic buckle facing the first elastic buckle is provided with a sliding inclined surface, and the other end of the first elastic buckle abuts against the sliding inclined surface;

and when the first elastic buckle moves towards the opening, the first elastic buckle slides on the sliding inclined plane to drive the second elastic buckle to move away from the opening.

In a possible embodiment, an end of the first snap fastener located at the opening is sleeved with a flexible member.

In a possible embodiment, the first conductive member is a metal sheet, one end of the metal sheet is located on the boss, and the other end of the metal sheet extends along the outer wall of the water tank cover towards the electromagnetic chuck and is electrically connected with the electromagnetic chuck.

In a possible implementation manner, a through hole is formed in the position, close to the electromagnetic chuck, of the water tank cover, and a lead connected with the electromagnetic chuck penetrates through the through hole to be electrically connected with the metal sheet.

In a possible embodiment, the second conductive member is a probe, one end of the probe is used for contacting the first conductive member, and the other end of the probe is electrically connected to the water level control assembly.

In one possible embodiment, the occlusion assembly comprises: the water outlet cover and the telescopic valve body structure are positioned in the water outlet cover;

the top end of the water outlet cover is connected with the water tank, the bottom end of the water outlet cover extends into the opening of the water tank cover, and a water outlet communicated with the water storage tank is formed in the bottom end of the water outlet cover;

the valve body structure is used for plugging the water outlet when the electromagnetic chuck is disconnected with the power supply and moving the electromagnetic chuck away from the water outlet under the suction effect of the electromagnetic chuck when the electromagnetic chuck is connected with the power supply so as to open the water outlet.

In one possible embodiment, the valve body structure includes: the water outlet cover is arranged on the outer wall of the water outlet cover, and the other end of the water outlet cover is connected with the valve body.

In one possible embodiment, the valve body comprises: the electromagnetic chuck is used for attracting the valve body and the valve core to move away from the water outlet so as to open the water outlet.

In one possible embodiment, the method further comprises: the sealing element is positioned at the position where the water outlet cover is connected with the water tank, so that the water outlet cover is connected with the water tank in a sealing mode.

In a second aspect, the present invention provides a garment steamer, comprising: the garment steamer comprises a telescopic rod assembly, an ironing board, a brush head and any one of the garment steamer main machines, wherein two ends of the telescopic rod assembly are respectively connected with the garment steamer main machine and the ironing board, and the brush head is connected with the garment steamer main machine through a steam pipe.

The structure of the present invention and other objects and advantages thereof will be more clearly understood from the following description of the preferred embodiments taken in conjunction with the accompanying drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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 described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic structural view of a main unit of a garment steamer provided by the present invention;

fig. 2 is a schematic view of a split structure of a host machine of the garment steamer provided by the utility model;

FIG. 3 is a schematic view of the cross-sectional structure of the water tank of the main frame of the steamer when the water outlet is blocked;

FIG. 4 is a schematic view of the cross-sectional structure of the water outlet of the water tank in the main unit of the garment steamer provided by the utility model when opened;

fig. 5 is a schematic view of a partial bottom view of a water tank in a main frame of a garment steamer;

FIG. 6 is a schematic view of a partial top view of a reservoir in a main frame of a garment steamer;

fig. 7 is a schematic structural view of a limit cover in a main frame of a garment steamer provided by the utility model;

FIG. 8 is a schematic view of a part of the structure of the water tank cover in the main frame of the steamer;

fig. 9 is a schematic structural view of a second elastic buckle in the main frame of the garment steamer provided by the utility model;

fig. 10 is a schematic structural view of a first elastic buckle in the main frame of the garment steamer provided by the present invention;

fig. 11 is a schematic perspective view of the garment steamer according to the present invention;

fig. 12 is a schematic side view of the garment steamer of the present invention.

Description of reference numerals:

10-hanging the host computer of the steamer; 11-a water tank; 111-a water outlet; 112-a boss; 12-a water storage tank;

121-a water outlet; 13-a plugging component; 13 a-valve body construction; 13 b-a water outlet cover; 131 b-a drainage port;

131-a valve core; 132-a valve body; 1321-upper valve cover; 1323-magnetic conductive member; 1322-lower valve cover;

133-a third elastic member; 14-a seal; 15-electromagnetic attraction components; 151-electromagnetic chuck;

152-water tank cover; 1521-an opening; 1522-boss; 1523-through holes; 16-a water level control assembly;

16 a-a floating assembly; 16 b-a magnetic switch; 16 c-a limiting part; 161-float upper cover;

162-float lower cover; 163-a magnetic member; 164-a limit cap; 1641-fastener; 165-a limiting rib;

1651-card slot; 17-a telescopic structure; 171-a first telescopic structure; 1711-a first snap;

1712-a first elastic member; 1721-a second snap; 1721 a-sliding ramp;

1722-a second elastic member; 172-a second telescoping configuration; 173-a snap seat; 174-a flexible member;

18-a conductive structure; 181-a first electrically conductive member; 182-a second electrically conductive member; 19-a housing;

20-a telescopic rod assembly; 30-ironing board; 40-hanging parts; 50-a brush head; 60-steam tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example one

FIG. 1 is a schematic structural diagram of a main frame of a garment steamer, FIG. 2 is a schematic structural diagram of a split structure of a main frame of a garment steamer provided by the present invention, FIG. 3 is a schematic structural diagram of a cross section when a water tank outlet of a main frame of a garment steamer provided by the present invention is blocked, FIG. 4 is a schematic structural diagram of a cross section when a water tank outlet of a main frame of a garment steamer is opened, FIG. 5 is a schematic structural diagram of a partial upward view of a water tank of a main frame of a garment steamer provided by the present invention, FIG. 6 is a schematic structural diagram of a partial downward view of a water storage tank of a main frame of a garment steamer provided by the present invention, FIG. 7 is a schematic structural diagram of a limit cover of a main frame of a garment steamer provided by the present invention, FIG. 8 is a schematic structural diagram of a partial structure of a water storage tank cover of a main frame of a garment steamer provided by the, fig. 10 is a schematic structural view of the first elastic buckle in the main frame of the garment steamer.

The present embodiment provides a garment steamer host 10, which garment steamer host 10 can be applied to a garment steamer or other device that can generate steam. In this embodiment, specifically, the host 10 of the garment steamer is applied to the garment steamer as an example, as shown in fig. 1, the host 10 of the garment steamer may include: the water tank 11 and the water storage tank 12, the water storage tank 12 is located below the water tank 11, the water tank 11 and the water storage tank 12 can be connected in a clamping mode, or the water tank 11 and the water storage tank 12 are arranged independently, for example, the water tank 11 and the water storage tank 12 are separated from each other, the water tank 11 is placed on the water storage tank 12, when cleaning or water adding is needed, the water tank 11 can be taken down from the water storage tank 12, and of course, the water tank 11 can also be placed on the water storage tank 12 for water adding.

In this embodiment, the water tank 11 is provided with a water inlet (not shown) and a water outlet 111 for communicating the water tank 11 with the water storage tank 12, for example, the top of the water tank 11 may be provided with a water inlet, the bottom of the water tank 11 may be provided with a water outlet 111, the water outlet 111 may communicate the water tank 11 with the water storage tank 12, when adding water, water may be added into the water tank 11 from the water inlet, and water in the water tank 11 may enter the water storage tank 12 through the water outlet 111. In this embodiment, in order to make the water in the water storage tank 12 enter the heating element assembly of the steamer main unit 10 to heat steam, the bottom of the water storage tank 12 is provided with a water outlet 121, so that the water in the water storage tank 12 can flow into the heating element assembly or other heating devices from the water outlet 121.

Among the prior art, owing to control the water tank through the sealed water tank bottom of the interior horizontal plane of catch basin whether go out water, but need pull down the water tank like this when the water tank need add water and add water, lead to the garment steamer can not keep normal play steam state during adding water like this for garment steamer's use is convenient inadequately.

To solve the above problem, the present application further includes, as shown in fig. 2: the electromagnetic attraction component 15 and the plugging component 13, the plugging component 13 is located on one side of the water tank facing the water storage tank 12 and is arranged close to the water outlet 111, for example, the plugging component 13 can be covered on the water outlet 111, one end of the plugging component 13 can be connected with the bottom surface of the water tank 11, and the other end is suspended in the water storage tank 12. The electromagnetic attraction-close component 15 is positioned in the water storage tank 12 and is close to the plugging component 13. For example, the electromagnetic attraction assembly 15 may be located below the plugging assembly 13, one end of the electromagnetic attraction assembly 15 is connected to the top end of the water storage tank 12, and the other end of the electromagnetic attraction assembly 15 is suspended in the water storage tank 12.

The electromagnetic attraction component 15 is used for connecting with a power supply and attracting the plugging component 13 to move away from the water outlet 111 when the water level in the water storage tank 12 is lower than a preset value, so that the water outlet 111 is opened (as shown in fig. 4), and for disconnecting with the power supply when the water level in the water storage tank 12 is higher than the preset value, so that the plugging component 13 plugs the water outlet 111 (as shown in fig. 3). For example, when the water level in the water storage tank 12 is lower than the preset value, at this time, the electromagnetic attraction component 15 is connected with the power supply, so that the electromagnetic attraction component 15 can generate an electromagnetic field after being powered on, the blocking component 13 can be attracted, the blocking component 13 moves away from the water outlet 111 under the action of attraction, the blocking component 13 is separated from the water outlet 111, the water outlet 111 is opened, water in the water tank 11 enters the water storage tank 12 through the water outlet 111, along with the rise of the water level in the water storage tank 12, when the preset water level is reached, the electromagnetic attraction component 15 is disconnected from the power supply, so that the attraction capacity of the blocking component 13 is lost after the electromagnetic attraction component 15 is powered off, the blocking component 13 moves towards the water outlet 111, and blocks the water outlet 111, and thus the water in the water tank 11 stops flowing into the water storage tank 12. In this embodiment, the purpose of electromagnetically controlling the plugging component 13 is achieved through the electromagnetic attraction component 15, and compared with mechanical control, when electromagnetic control is adopted, the strength of magnetism can be manually adjusted, so that the electromagnetic attraction component 15 is easily and accurately controlled, and the reliability of water outlet control between the water tank 11 and the water storage tank 13 is higher.

In this embodiment, through the setting of electromagnetic actuation subassembly 15 and shutoff subassembly 13, realized the shutoff purpose of electromagnetic type between water tank 11 and the catch basin 12, improved the reliability of water yield control between water tank 11 and the catch basin 13, accomplished the purpose of water tank 11 automatic and accurate retaining to the catch basin 12 in, ensured like this that the water level in the catch basin 12 remains at certain water level all the time, avoided leading to the main frame of the garment steamer can't continuously produce high temperature steam because the water yield in the catch basin 12 is not enough. In addition, the water outlet 111 is controlled to be blocked or not by the water level change in the water storage tank 12 through the matching of the electromagnetic attraction component 15 and the blocking component 13, the water outlet is irrelevant to the atmospheric pressure, and the water tank 11 is not required to be isolated from the atmosphere, so that the water can be added into the water tank 11 at any time, the garment steamer can still work in the water adding process, and the problem that the garment steamer can not work continuously when the water tank 11 is taken down for water adding is solved.

It should be noted that the preset water level in the water storage tank 12 can be determined according to the actual requirement of the main machine of the steamer during operation, which is not limited in this embodiment, and whether the electromagnetic attraction component 15 is powered on or not can be designed according to the height of the preset water level, so that the plugging component 13 can meet the condition that the water outlet 111 of the water tank 11 can be plugged when the water storage tank 12 reaches the preset water level.

In a possible implementation manner, in order to realize the connection and disconnection between the electromagnetic attraction assembly 15 and the power supply, in this embodiment, as shown in fig. 2, the method may further include: and one end of the water level control component 16 is electrically connected with the electromagnetic attraction component 15, the other end of the water level control component 16 is electrically connected with a power supply, the water level control component 16 connects the electromagnetic attraction component 15 with the power supply when the water level in the water storage tank 12 is lower than a preset value, and disconnects the electromagnetic attraction component 15 from the power supply when the water level in the water storage tank 12 is higher than the preset value. Therefore, in this embodiment, the water level control assembly 16 can control whether the electromagnetic attraction assembly 15 is powered or not according to the water level change in the water storage tank 12.

Of course, in this embodiment, besides the water level control assembly 16 is used to control whether the electromagnetic attraction assembly 15 is connected to the power supply, in other examples, the control panel of the steamer main body may be used to control the electromagnetic attraction assembly 15 to be connected to or disconnected from the power supply according to the water level change.

In one possible implementation, as shown in fig. 2, the water level control assembly 16 may include a floating assembly 16a and a magnetic switch 16b, the floating assembly 16a is located in the water storage tank 12, the floating assembly 16a may move upwards under the action of buoyancy when the water level in the water storage tank 12 rises to a certain height, the magnetic switch 16b is located outside the water storage tank 12, one end of the magnetic switch 16b is electrically connected to the electromagnetic attraction assembly 15, and the other end of the magnetic switch 16b is connected to a power supply, wherein when the floating assembly 16a is close to the magnetic switch 16b, for example, the water level in the water storage tank 12 decreases, so that the floating assembly 16a decreases as the water level decreases, the floating assembly 16a is close to the magnetic switch 16b, the floating assembly 16a may drive the magnetic switch 16b to close, for example, the floating assembly 16a may be a magnetic member such as a magnet having attraction force on the magnetic switch 16b, therefore, the electromagnetic attraction component 15 is connected with the power supply, the electromagnetic attraction component 15 can attract the plugging component 13 to move away from the water outlet 111, the water outlet 111 is opened, and water in the water tank 11 can enter the water storage tank 12.

When the water level in the water storage tank 12 rises, the floating component 16a moves upwards under the action of buoyancy, the floating component 16a is far away from the magnetic switch 16b, the magnetic switch 16b is disconnected after losing the drive of the floating component 16a, so that the electromagnetic attraction component 15 is disconnected with the power supply, the electromagnetic attraction component 15 loses the attraction force, the plugging component 13 loses the attraction force of the electromagnetic attraction component 15 and then moves towards the water outlet 111, and the plugging component 13 is plugged at the water outlet 111 again. Therefore, the arrangement of the magnetic switch 16b and the floating assembly 16a realizes that the electromagnetic attraction assembly 15 controls the blocking assembly 13 to block the water outlet 111 or not along with the change of the water level, and the operation of automatically adding water into the water storage tank 12 by the water tank 11 is completed.

In one possible implementation, the floating assembly 16a may include: and a magnetic member 163 disposed in the float, the magnetic member 163 being used to drive the magnetic switch 16b to be closed when the float approaches the magnetic switch 16b, and accordingly, when the float moves upward as the water level rises, the distance between the magnetic member 163 and the magnetic switch 16b increases, and the attraction force of the magnetic member 163 to the magnetic switch 16b is weakened until the magnetic switch 16b is opened. By including the floater and the magnetic element 163, the magnetic switch 16b is automatically switched on or off according to the water level change, so that the electromagnetic attraction component 15 controls whether the plugging component 13 attracts or not, and a certain amount of water is kept in the water storage tank 12.

In this embodiment, the magnetic switch 16b may be located on the outer bottom surface of the reservoir 12 as shown in fig. 3, or the magnetic switch 16b may be located at the bottom end of the outer side surface of the reservoir 12 as shown in fig. 3, in this embodiment, the magnetic switch 16b only needs to ensure the purpose of closing when the float approaches and opening when the float leaves.

In one possible implementation, the float comprises: the upper float cover 161 and the lower float cover 162, and the upper float cover 161 and the lower float cover 162 enclose a hollow float, i.e. in this embodiment, the inside of the float is hollow, and the magnetic member 163 may be located in the hollow space of the float, in this embodiment, the magnetic member 163 is provided on the lower float cover 162, for example, the magnetic member 163 may be located on the inner bottom wall or the inner side wall of the lower float cover 162. By providing the float upper cover 161 and the float lower cover 162, the magnetic member 163 is disposed on the inner wall of the float, and the magnetic member 163 is easily replaced or inspected. In this embodiment, the upper float cover 161 and the lower float cover 162 may be detachably connected by snap-fitting or fastening with a fastener.

In one possible implementation, in order to ensure that the floating assembly 16a moves in the same direction and is not easily deflected as the water level changes, the water level control assembly 16 further includes, as shown in fig. 2: the limiting part 16c is located in the water storage tank 12, the inner part of the limiting part 16c is communicated with the water storage tank 12, and the floating component 16a is arranged in the limiting part 16c, so that the floating component 16a can move in the limiting part 16c along with the water level change according to a certain direction, the floating component 16a is prevented from deflecting or shaking in the water storage tank 12, and the limiting part 16c plays a limiting role in limiting the up-and-down movement of the floating component 16 a.

In one possible implementation, as shown in fig. 2-6, the limiting portion 16c includes: at least two spacing ribs 165 arranged at intervals and a spacing cover 164 covering the spacing ribs 165 are arranged, for example, in fig. 6, the number of the spacing ribs 165 is two, an interval is formed between the two spacing ribs 165, the spacing ribs 165 and the spacing cover 164 enclose a spacing space 1601 communicated with the water storage tank 12, the floating assembly 16a is movably arranged in the spacing space 1601, wherein the spacing ribs 165 limit the floating assembly 16a in the horizontal direction, and the spacing cover 164 limits the floating assembly 16a in the vertical direction. In this embodiment, as shown in fig. 7, the limiting cover 164 has a buckle 1641, the limiting rib 165 is provided with a slot 1651 engaged with the buckle 1641, and the limiting cover 164 and the limiting rib 165 are connected by engaging the buckle 1641 with the slot 1651.

In one possible implementation, the electromagnetic attraction assembly 15 may include: electromagnetic chuck 151 and be used for bearing electromagnetic chuck 151's basin lid 152, for example, electromagnetic chuck 151 establishes in basin lid 152, and the top of basin lid 152 links to each other with the top of basin 12, for example, can link to each other through the dismantlement mode such as block between basin lid 152 and the basin 12, and basin lid 152 can be followed basin 12 and dismantled down and wash like this, conveniently to the washing of basin lid 152.

The bottom end of the water tank cover 152 is suspended in the water storage tank 12, and the bottom end of the water tank cover 152 is provided with an opening 1521 communicated with the water storage tank 12, so that when the plugging component 13 moves away from the water outlet 111, the water outlet 111 is opened, and water in the water tank 11 enters the water storage tank 12 through the water outlet 111, the plugging component 13 and the opening 1521. In this embodiment, the electromagnetic chuck 151 is electrically connected to the water level control assembly 16, specifically, the electromagnetic chuck 151 is electrically connected to the magnetic switch 16b, when the magnetic switch 16b is closed, the electromagnetic chuck 151 is connected to a power supply, the electromagnetic chuck 151 is powered on to generate a magnetic force, the plugging assembly 13 moves away from the water outlet 111 under the attraction effect of the magnetic force, after the magnetic switch 16b is disconnected, the electromagnetic chuck 151 is disconnected from the power supply, the electromagnetic chuck 151 is powered off and cannot generate the magnetic force, and the plugging assembly 13 moves toward the water outlet 111 after losing the attraction force of the electromagnetic chuck 151 and plugs the water outlet 111.

In a possible implementation manner, since the electromagnetic suction cup 151 is located in the water tank cover 152, such that the electromagnetic suction cup 151 is located in the water tank 12, and the magnetic switch 16b is located outside the water tank 12, in order to facilitate the connection between the electromagnetic suction cup 151 and the magnetic switch 16b, in this embodiment, as shown in fig. 3 to 4, the electromagnetic attraction assembly 15 may further include: the conductive structure 18 (see fig. 4), the conductive structure 18 includes a first conductive member 181 located on the outer surface of the water tank cover 152 and a second conductive member 182 located outside the water storage tank 12, for example, the first conductive member 181 is located on the surface of the water tank cover 152 facing the inner wall of the water storage tank 12, the second conductive member 182 is located outside the water storage tank 12, one end of the first conductive member 181 is electrically connected to the electromagnetic chuck 151, the other end of the first conductive member 181 extends out of the water storage tank 12 and abuts against one end of the second conductive member 182, and the other end of the second conductive member 182 is electrically connected to the water level control assembly 16. When the water tank cover 152 is mounted on the water storage tank 12, the first conductive member 181 abuts against the second guide member, thereby electrically connecting the electromagnetic chuck 151 and the magnetic switch 16 b.

In a possible implementation manner, a boss 1522 is disposed on an outer edge of a top end of the water tank cover 152, a portion of the first conductive member 181 is located on the boss 1522, an opening 122 through which the boss 1522 can extend outward is formed in the water storage tank 12, and when the boss 1522 extends out of the opening 122, the first conductive member 181 located on the boss 1522 abuts against the second conductive member 182. After the water tank cover 152 is installed on the water storage tank 12, the boss 1522 passes through the opening 122 and is located outside the water storage tank 12, so that the first conductive member 181 on the boss 1522 can be in contact with the second conductive member 182 outside the water storage tank 12 to realize the electrical connection between the electromagnetic suction cup 151 and the magnetic switch 16 b. Accordingly, when the boss 1522 is removed from the opening 122 along with the water tank cover 152, the first conductive member 181 is disconnected from the second conductive member 182.

In one possible implementation manner, in order to achieve reliable contact between the first conductive member 181 and the second conductive member 182, the electromagnetic attraction assembly 15 further includes: the telescopic structure 17 has one end of the telescopic structure 17 located at the opening 122, and the second conductive member 182 is disposed at the other end of the telescopic structure 17 and close to the opening 122. One end of telescopic structure 17 is used for moving under the drive of boss 1522 to make telescopic structure 17's the other end drive the second electrically conductive piece 182 and the first electrically conductive piece 181 contact on the boss 1522, for example, when boss 1522 passed trompil 122 and stretches out and draws back outside reservoir 12, boss 1522 drives the one end of telescopic component and makes telescopic component's one end keep away from trompil 122 and remove, telescopic component's one end is removed the other end that drives telescopic component and is removed towards boss 1522, until the second electrically conductive piece 182 on telescopic component's the other end contacts with the first electrically conductive piece 181 on the boss 1522.

In a possible implementation, the telescopic structure 17 may include: first extending structure 171 and second extending structure 172, the one end of first extending structure 171 is located trompil 122 department, the partial region of first extending structure 171 supports on second extending structure 172, first extending structure 171 is used for removing under the drive of boss 1522, second extending structure 172 is used for removing towards boss 1522 after first extending structure 171 removes to make second conductive piece 182 contact with first conductive piece 181, for example, can remove the flexible blockking of second extending structure 172 after first flexible subassembly removes, second extending structure 172 can drive second conductive piece 182 and stretch out and draw back like this. In this embodiment, the second conductive member 182 is disposed on the second telescopic structure 172, so that the second telescopic structure 172 can drive the second conductive member 182 to move toward the boss 1522, so that the second conductive member 182 contacts with the first conductive member 181.

In this embodiment, the extension direction of the first extension structure 171 and the extension direction of the second extension structure 172 may be perpendicular to each other, for example, as shown in fig. 3, the first extension structure 171 may extend and contract along a horizontal direction, and the second extension structure 172 may extend and contract along a vertical direction, or, the first extension structure 171 may extend and contract along a vertical direction, and the second extension structure 172 may extend and contract along a horizontal direction, and the extension direction of the first extension structure 171 and the second extension structure 172 may be set according to the extension direction of the boss 1522 from the opening 122, for example, when the boss 1522 extends from the opening 122 to the outside of the reservoir 12 along the horizontal direction, the first extension structure 171 may extend and contract along the horizontal direction, the second extension structure 172 extends and contracts along the vertical direction, when the boss 1522 extends from the opening 122 to the outside of the reservoir 12 along the vertical direction, the first extension structure 171 may extend and contract along the vertical direction, the second telescopic structure 172 can be horizontally telescopic. Of course, in some other examples, the telescoping directions of the first telescoping structure 171 and the second telescoping structure 172 may also form an included angle, and the included angle may be an acute angle.

In a possible implementation manner, in order to realize the arrangement of the telescopic structure 17 outside the reservoir 12, in this embodiment, the telescopic structure 17 may further include: the latch seat 173 is located outside the water storage tank 12 and connected to the water storage tank 12, for example, as shown in fig. 3, the latch seat 173 is located on the top outer edge of the water storage tank 12, and the latch seat 173 is located on the side of the water storage tank 12 away from the water tank 11. The inside of the latch seat 173 has a receiving cavity, and at least a part of the first telescopic structure 171 and the second telescopic structure 172 are located in the receiving cavity, for example, as shown in fig. 2, an end of the first telescopic structure 171 close to the opening 122 is located outside the latch seat 173, an end of the second telescopic structure 172 provided with the second conductive member 182 is also located outside the latch seat 173, and the rest of the first telescopic structure 171 and the second telescopic structure 172 are located in the receiving cavity of the latch seat 173. The mounting of the telescopic structure 17 outside the reservoir 12 is achieved by means of the snap-in seat 173.

In one possible implementation, the first telescopic structure 171 may include: first bullet knot 1711 and first elastic component 1712, the one end of first bullet knot 1711 is located trompil 122 department, and the other end of first bullet knot 1711 supports on second extending structure 172, and the both ends of first elastic component 1712 link to each other with bullet knot seat 173 and first bullet knot 1711 respectively, and first elastic component 1712 is used for driving first bullet knot 1711 along the direction flexible towards trompil 122. For example, when the boss 1522 extends and retracts from the opening 122, one end of the first elastic buckle 1711 is pressed to move away from the opening 122, the first elastic component 1712 is compressed, and after the first elastic buckle 1711 moves, the first elastic buckle 1711 loses the limit on the second telescopic structure 172, and the second telescopic structure 17 extends and retracts to enable the second conductive component 182 to contact with the first conductive component 181. When the boss 1522 is removed from the opening 122, the first elastic element 1712 drives the first elastic buckle 1711 to move toward the opening 122, and one end of the first elastic buckle 1711 is located at the opening 122, for example, one end of the first elastic buckle 1711 may extend into the opening 122 to block the opening 122.

In one possible implementation, the second telescopic structure 172 may include: the second elastic component 1721 and the second elastic component 1722, one end of the second elastic component 1721 is close to the opening 122, the other end of the second elastic component 1721 is connected to one end of the second elastic component 1722, the other end of the second elastic component 1722 is connected to the elastic component seat 173, the other end of the first elastic component 1711 abuts against the second elastic component 1721, the second conductive component 182 is disposed at one end of the second elastic component 1721 close to the opening 122, and the second elastic component 1722 is used for driving the second elastic component 1721 to move toward the boss 1522 after the first elastic component 1711 moves away from the opening 122, so that the second conductive component 182 contacts with the first conductive component 181 on the boss 1522. Thus, when the boss 1522 does not extend out of the water storage tank 12 from the opening 122, at this time, the second elastic element 1722 is compressed under the abutting of the second snap ring 1721 on the first snap ring 1711, and after the first snap ring 1711 moves, the first snap ring 1711 no longer abuts on the second snap ring 1721, so that the second snap ring 1721 moves downwards to the boss 1522 under the elastic action of the second elastic element 1722, so that the second conductive element 182 contacts with the first conductive element 181 on the boss 1522, and the electromagnetic chuck 151 is electrically connected with the magnetic switch 16 b.

In one possible implementation manner, as shown in fig. 9, one side of the second elastic buckle 1721 facing the first elastic buckle 1711 is provided with a sliding slope 1721a, the other end of the first elastic buckle 1711 abuts against the sliding slope 1721a, and when the first elastic buckle 1711 moves towards the opening 122, the first elastic buckle 1711 slides on the sliding slope 1721a to drive the second elastic buckle 1721 to move away from the opening 122. The purpose of the first snap 1711 to drive the second snap 1721 to move away from the opening 122 can be achieved by providing the sliding slope 1721 a.

In a possible implementation manner, as shown in fig. 9, an end of the first snap 1711 located in the opening 122 is sleeved with a flexible element 174, and the flexible element 174 is disposed at an end of the first snap 1711 located in the opening 122, so that on one hand, when the boss 1522 contacts with the first snap 1711, the boss 1522 abuts against the flexible element 174, and thus the abrasion of the boss 1522 to the end of the first snap 1711 due to the abutment is reduced, and on the other hand, after the boss 1522 is removed from the opening 122, the flexible element 174 disposed at the end of the first snap 1711 can seal the opening 122, so that dust or impurities are not easy to enter the reservoir 12 from the opening 122 or to be accumulated in the opening 122. In this embodiment, the flexible member 174 may be a silicone member, or may also be a soft rubber.

In a possible implementation manner, as shown in fig. 8, the first conductive member 181 may be a metal sheet, two metal sheets corresponding to the positive electrode and the negative electrode are disposed at an interval, one end of the metal sheet is located on the boss 1522, and the other end of the metal sheet extends toward the electromagnetic chuck 151 along the outer wall of the water tank cover 152 and is electrically connected to the electromagnetic chuck 151. In this embodiment, in order to connect the electromagnetic chuck 151 in the water outlet cover with the first conductive member 181, a through hole 1523 is formed at a position of the water tank cover 152 close to the electromagnetic chuck 151, and a lead connected to the electromagnetic chuck 151 passes through the through hole 1523 to be electrically connected to the metal plate.

In one possible implementation, as shown in fig. 9, the second conductive member 182 may be a probe, one end of which is used to contact the first conductive member 181, and the other end of which is electrically connected to the water level control assembly 16, the probe being disposed on one end of the second latch 1721 outside the latch seat 173.

In one possible implementation, as shown in fig. 2-4, the occlusion component 13 may include: the water outlet cover 13b and the valve body structure 13a which is located in the water outlet cover 13b and is telescopic, for example, the valve body structure 13a can be telescopic in the water cover, the top end of the water outlet cover 13b is connected with the water tank 11, the bottom end of the water outlet cover 13b extends into the opening 1521 of the water tank cover 152, and the bottom end of the water outlet cover 13b is provided with the drain port 131b communicated with the water storage tank 12, so that water flowing out of the drain port 131b is not easy to enter the water tank cover 152 to damage the electromagnetic chuck 151, and it is ensured that water flowing out of the water outlet 111 enters the opening 1521 of the water tank cover 152 through the drain port 131b and enters the water storage tank 12. In this embodiment, the valve body structure 13a is used for plugging the water outlet 111 when the electromagnetic chuck 151 is disconnected from the power supply, and moving away from the water outlet 111 under the suction action of the electromagnetic chuck 151 when the electromagnetic chuck 151 is connected to the power supply, so as to open the water outlet 111.

For example, as shown in fig. 3, the valve body structure 13a is blocked at the water outlet 111, when the water level drops, the floating assembly 16a is close to the magnetic switch 16b, the magnetic switch 16b is closed, the electromagnetic chuck 151 is energized, the generated magnetic force attracts the valve body structure 13a, the valve body structure 13a moves away from the water outlet 111 under the action of the attractive force, so that the valve body structure 13a does not block the water outlet 111, the water in the water tank 11 enters the water storage tank 12 through the water outlet 111, the drain 131b and the opening 1521, when the water level rises, the floating assembly 16a is away from the magnetic switch 16b, the magnetic switch 16b is opened, the electromagnetic chuck 151 is de-energized, no magnetic force is generated, and the valve body structure 13a extends toward the water outlet 111 and is blocked at the.

In one possible implementation, as shown in fig. 2-4, the valve body structure 13a may include: the valve body 132, the third elastic member 133 and the valve core 131 are disposed on the valve body 132, the valve core 131 faces the water outlet 111, one end of the third elastic member 133 is connected to the inner wall of the water outlet cover 13b, the other end of the third elastic member 133 is connected to the valve body 132, the third elastic member 133 can drive the valve body 132 to drive the valve core 131 to extend and retract towards the water outlet 111, in this embodiment, the valve body 132 can be set to a structure that can be attracted by the electromagnetic chuck 151, for example, the valve body 132 can be an iron block or an iron block disposed in the valve body 132, and thus the electromagnetic chuck 151 can attract the valve body 132.

In one possible implementation, as shown in fig. 2-4, the valve body 132 may include: the upper valve cover 1321, the lower valve cover 1322 and the magnetic conducting member 1323 located between the upper valve cover 1321 and the lower valve cover 1322, the magnetic conducting member 1323 is used for being attracted by the electromagnetic chuck 151 after the electromagnetic chuck 151 is powered on, so as to drive the valve body 132 and the valve core 131 to move away from the water outlet 111, and the water outlet 111 is opened. In this embodiment, the magnetic conductive member 1323 may be made of iron plate or other materials that can attract each other under the action of magnetic force.

In one possible implementation, as shown in fig. 2 to 4, the method further includes: and a sealing member 14, wherein the sealing member 14 is positioned at the position where the water outlet cover 13b is connected with the water tank 11, so that the water outlet cover 13b is connected with the water tank 11 in a sealing way. For example, as shown in fig. 3, a groove is formed at the top end of the water outlet cover 13b, a protrusion 112 is formed on the bottom surface of the water tank 11 near the water outlet 111, when the water outlet cover 13b is connected to the water tank 11, the sealing member 14 may be first located in the groove at the top end of the water outlet cover 13b, the protrusion 112 on the bottom surface of the water tank 11 is snapped into the groove at the top end of the water outlet cover 13b, and the sealing member 14 seals between the water outlet cover 13b and the water tank 11. Wherein, the outlet cover 13b and the water tank 11 can be connected by fasteners (such as screws) or the like.

In some other examples, when the water tank 11 and the water storage tank 12 are independently arranged, the water tank 11 may also be taken down from the water storage tank 12 for water adding, wherein when the water tank 11 is taken down from the water storage tank 12, the electromagnetic chuck 151 does not attract the valve body 132 at this time, the elastic force of the third elastic member 133 causes the valve core 131 to be blocked at the water outlet 111, so that the water outlet 111 in the water tank 11 is blocked during the water adding process, the water in the water tank 11 does not flow out from the water outlet 111, after the water adding is completed, the water tank 11 is placed on the water storage tank 12, and the purpose of whether the water tank 11 stores water into the water storage tank 12 is achieved according to the water level change in the water storage tank 12.

Example two

Fig. 11 is the utility model provides a garment steamer's spatial structure schematic diagram, fig. 12 is the utility model provides a garment steamer looks sideways at the schematic structure diagram.

As shown in fig. 12, a garment steamer may include: the garment steamer main body 10, the telescopic rod assembly 20, the ironing board 30 and the brush head 50, the brush head 50 can be hung on the ironing board 30 through the hanger 40, wherein two ends of the telescopic rod assembly 20 are respectively connected with the ironing board 30 and the garment steamer main body 10, for example, as shown in fig. 12, one end of the telescopic rod assembly 20 is connected with the garment steamer main body 10, and the other end of the telescopic rod assembly 20 is connected with the ironing board 30. Wherein, can be connected through joint, welding or screw thread mode between telescopic link assembly 20 and the garment steamer host computer 10, can be connected through welding, joint or can dismantle fixed between telescopic link assembly 20 and the ironing board 30, perhaps, can rotate between telescopic link assembly 20 and the ironing board 30 and link to each other, ironing board 30 can rotate arbitrary satisfying in the use like this to satisfy different ironing demands.

In the present application, the telescopic rod assembly 20 may include two telescopic rods as shown in fig. 12, for example, it should be noted that the number of telescopic rods included in the telescopic rod assembly 20 includes but is not limited to two telescopic rods as shown in fig. 12, and may also include three telescopic rods or more than three telescopic rods, for example. According to the use requirements of different users, the extension length of the telescopic rod assembly 20 can be adjusted, and then the height of the ironing board 30 can be adjusted to be within a proper range. Alternatively, the telescoping pole assembly 20 may be a non-telescoping pole in the present application.

In this application, in addition to the main unit 10 of the garment steamer including the water tank 11 and the water storage tank 12 of the above embodiment, as shown in fig. 12, the main unit 10 of the garment steamer may further include: the housing 19, the water tank 11 can be located above the housing and correspond to the water storage tank 12, wherein the water tank 11 and the housing 19 can be connected in a snap-fit manner, or the water tank 11 and the housing 19 are independent of each other, for example, the water tank 11 and the housing 19 are separated from each other, the water tank 11 is placed on the housing 19, and the water tank 11 can be taken down from the housing 19 when water needs to be added. The housing 19 may have a mounting cavity formed therein, and the reservoir 12 may be mounted in the mounting cavity of the housing 19, for example, the reservoir 12 may be connected to the housing 19 by a snap fit, a weld, or a fastener in the housing 19. Wherein the inlet of the reservoir 12 may be exposed to the housing 19 of the steamer, for example, the inlet of the reservoir 12 is open as shown in figure 8.

Wherein, a heating element assembly (not shown) is further provided in the housing 19, and the heating element assembly is used for heating and evaporating water to form steam for softening the clothes when ironing the clothes. The water outlet 121 of the water storage tank 12 can be communicated with the heating element assembly, the opening of the heating element assembly for steam outlet is communicated with a steam pipe 60 connected to the steamer main machine 10, the other end of the steam pipe 60 is provided with a brush head 40, water enters the water storage tank 12 from the water tank 11, the water in the water storage tank 12 enters the heating element assembly and is heated by the heating element assembly to form high-temperature steam, the high-temperature steam enters the steam pipe 60 and is sprayed outwards from the brush head 40, and a user holds one end of the brush head 40 by hand to enable the brush head 40 to spray steam towards clothes on the ironing board 30 so as to iron the clothes.

The garment steamer provided by the embodiment comprises the garment steamer main machine 10, so that the garment steamer can continuously work when water is added into the water tank 11, and automatic water storage between the water tank 11 and the water storage tank 12 is ensured. Meanwhile, the electromagnetic type plugging purpose between the water tank 11 and the water storage tank 12 is realized, the reliability of water outlet quantity control between the water tank 11 and the water storage tank 13 is improved, and the purpose of automatically and accurately storing water into the water storage tank 12 by the water tank 11 is fulfilled.

In the description of the present invention, it is to be noted that, unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, an indirect connection via an intermediary, a connection between two elements, or an interaction between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless specifically stated otherwise.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims

1. A garment steamer host computer which characterized by at least includes:

the water storage tank (12) is positioned below the water tank (11), and the water tank (11) is provided with a water inlet and a water outlet (111) for communicating the water tank (11) with the water storage tank (12);

further comprising: the electromagnetic suction component (15) and the blocking component (13), the blocking component (13) is positioned on one side of the water tank (11) facing the water storage tank (12) and is arranged close to the water outlet (111), and the electromagnetic suction component (15) is positioned in the water storage tank (12) and is arranged close to the blocking component (13);

the electromagnetic attraction component (15) is used for being connected with a power supply and attracting the plugging component (13) to move away from the water outlet (111) when the water level in the water storage tank (12) is lower than a preset value so as to open the water outlet (111), and is disconnected with the power supply when the water level in the water storage tank (12) is higher than the preset value so as to plug the plugging component (13) at the water outlet (111).

2. The garment steamer host machine according to claim 1, further comprising: one end of the water level control component (16) is electrically connected with the electromagnetic attraction component (15), and the other end of the water level control component (16) is electrically connected with the power supply;

the water level control assembly (16) is used for connecting the electromagnetic attraction assembly (15) with the power supply when the water level in the water storage tank (12) is lower than a preset value, and disconnecting the electromagnetic attraction assembly (15) with the power supply when the water level in the water storage tank (12) is higher than the preset value.

3. The garment steamer host machine according to claim 2, wherein the water level control assembly (16) comprises:

a float assembly (16a) and a magnetic switch (16b), the float assembly (16a) being located within the reservoir (12), the magnetic switch (16b) being located outside the reservoir (12);

and when the floating component (16a) is close to the magnetic switch (16b), the magnetic switch (16b) is closed so as to enable the electromagnetic attraction component (15) to be connected with the power supply, and when the floating component (16a) is far away from the magnetic switch (16b), the magnetic switch (16b) is disconnected so as to enable the electromagnetic attraction component (15) to be disconnected with the power supply.

4. A garment steamer host according to claim 3, characterized in that the float assembly (16a) comprises: a float and a magnetic member (163) located within the float, the magnetic member (163) for driving the magnetic switch (16b) closed when the float is proximate to the magnetic switch (16 b).

5. The garment steamer host machine according to claim 4, wherein the float comprises: the floater comprises an upper floater cover (161) and a lower floater cover (162), the upper floater cover (161) and the lower floater cover (162) enclose a floater with a hollow inner part, and the magnetic part (163) is arranged on the lower floater cover (162).

6. The garment steamer host machine according to claim 4, wherein the water level control assembly (16) further comprises: the limiting part (16c) is positioned in the water storage tank (12), the interior of the limiting part (16c) is communicated with the water storage tank (12), and the floating component (16a) is arranged in the limiting part (16 c).

7. The garment steamer host machine according to claim 6, wherein the limiting part (16c) comprises: the floating type water storage tank is characterized by comprising at least two spacing ribs (165) arranged at intervals and a spacing cover (164) covered on the spacing ribs (165), a spacing space communicated with the water storage tank (12) is defined by the spacing ribs (165) and the spacing cover (164), and the floating assembly (16a) is movably arranged in the spacing space.

8. The host machine of a garment steamer according to any one of claims 2 to 7, wherein the electromagnetic attraction assembly (15) comprises: electromagnetic chuck (151) and be used for bearing basin lid (152) of electromagnetic chuck (151), the top of basin lid (152) with the top of catch basin (12) links to each other, the bottom of basin lid (152) is unsettled to be established in catch basin (12), just the bottom of basin lid (152) set up with opening (1521) of catch basin (12) intercommunication, electromagnetic chuck (151) with water level control subassembly (16) electricity is connected.

9. The garment steamer host machine according to claim 8, wherein the electromagnetic attraction assembly (15) further comprises: a conductive structure (18), the conductive structure (18) comprising a first conductive member (181) located on an outer surface of the sump cover (152) and a second conductive member (182) located outside of the reservoir (12);

one end of the first conductive piece (181) is electrically connected with the electromagnetic chuck (151), the other end of the first conductive piece (181) extends out of the water storage tank (12) and is abutted against one end of the second conductive piece (182), and the other end of the second conductive piece (182) is electrically connected with the water level control assembly (16).

10. The garment steamer main unit according to claim 9, wherein a boss (1522) is provided on an outer edge of a top end of the water tank cover (152), a part of the first conductive member (181) is located on the boss (1522), an opening (122) through which the boss (1522) extends outward is provided on the water storage tank (12), and when the boss (1522) extends from the opening (122), the first conductive member (181) located on the boss (1522) abuts against the second conductive member (182).

11. The garment steamer host machine according to claim 10, wherein the electromagnetic attraction assembly (15) further comprises: a telescopic structure (17), wherein one end of the telescopic structure (17) is located at the opening (122), and the second conductive member (182) is arranged at the other end of the telescopic structure (17) and close to the opening (122);

one end of the telescopic structure (17) is used for moving under the driving of the boss (1522), so that the other end of the telescopic structure (17) drives the second conductive piece (182) to be in contact with the first conductive piece (181) on the boss (1522).

12. The garment steamer host according to claim 11, wherein the telescopic structure (17) comprises: a first telescopic structure (171) and a second telescopic structure (172), wherein one end of the first telescopic structure (171) is located at the opening (122), a partial region of the first telescopic structure (171) abuts against the second telescopic structure (172), and the second conductive member (182) is arranged on the second telescopic structure (172);

the first telescopic structure (171) is used for moving under the driving of the boss (1522), and the second telescopic structure (172) is used for moving towards the boss (1522) after the first telescopic structure (171) moves, so that the second conductive member (182) is in contact with the first conductive member (181).

13. The garment steamer host machine according to claim 12, wherein the telescoping direction of the first telescoping structure (171) and the telescoping direction of the second telescoping structure (172) are perpendicular to each other.

14. The garment steamer host according to claim 12, wherein the telescopic structure (17) further comprises: the elastic buckle seat (173), the elastic buckle seat (173) is located outside the water storage tank (12) and is connected with the water storage tank (12), an accommodating cavity is formed in the elastic buckle seat (173), and at least part of the region of the first telescopic structure (171) and the region of the second telescopic structure (172) are located in the accommodating cavity.

15. The garment steamer host machine according to claim 14, wherein the first telescoping structure (171) comprises: the elastic buckle comprises a first elastic buckle (1711) and a first elastic piece (1712), one end of the first elastic buckle (1711) is located at the position of the opening (122), the other end of the first elastic buckle (1711) abuts against the second telescopic structure (172), and two ends of the first elastic piece (1712) are respectively connected with the elastic buckle seat (173) and the first elastic buckle (1711);

the first elastic piece (1712) is used for driving the first elastic buckle (1711) to stretch and contract along the direction towards the opening (122).

16. The garment steamer host machine according to claim 15, wherein the second telescoping structure (172) comprises: a second elastic buckle (1721) and a second elastic member (1722), wherein one end of the second elastic buckle (1721) is close to the opening (122), the other end of the second elastic buckle (1721) is connected to one end of the second elastic member (1722), the other end of the second elastic member (1722) is connected to the elastic buckle seat (173), the other end of the first elastic buckle (1711) abuts against the second elastic buckle (1721), and the second conductive member (182) is disposed at one end of the second elastic buckle (1721) close to the opening (122);

the second elastic piece (1722) is used for driving the second elastic buckle (1721) to move towards the boss (1522) after the first elastic buckle (1711) moves away from the opening (122), so that the second conductive piece (182) is in contact with the first conductive piece (181) on the boss (1522).

17. The steamer body as claimed in claim 16, wherein the second snap button (1721) has a sliding slope (1721a) on one side facing the first snap button (1711), and the other end of the first snap button (1711) abuts on the sliding slope (1721 a);

and when the first elastic buckle (1711) moves towards the opening (122), the first elastic buckle (1711) drives the second elastic buckle (1721) to move away from the opening (122) by sliding on the sliding inclined surface (1721 a).

18. The steamer body according to claim 16, wherein a flexible member (174) is sleeved on an end of the first snap (1711) at the opening (122).

19. The garment steamer main unit according to claim 10, wherein the first conductive member (181) is a metal sheet, one end of the metal sheet is located on the boss (1522), and the other end of the metal sheet extends along the outer wall of the water tank cover (152) towards the electromagnetic chuck (151) and is electrically connected with the electromagnetic chuck (151).

20. The garment steamer host machine according to claim 19, wherein the trough cover (152) is provided with a through hole (1523) at a position close to the electromagnetic chuck (151), and a lead connected with the electromagnetic chuck (151) passes through the through hole (1523) to be electrically connected with the metal sheet.

21. The steamer body as claimed in claim 10, wherein the second conductive member (182) is a probe, one end of the probe is used for contacting the first conductive member (181), and the other end of the probe is electrically connected to the water level control assembly (16).

22. A garment steamer host according to claim 8, characterized in that the plugging assembly (13) comprises: a water outlet cover (13b) and a telescopic valve body structure (13a) positioned in the water outlet cover (13 b);

the top end of the water outlet cover (13b) is connected with the water tank (11), the bottom end of the water outlet cover (13b) extends into the opening (1521) of the water tank cover (152), and the bottom end of the water outlet cover (13b) is provided with a water outlet (131b) communicated with the water storage tank (12);

the valve body structure (13a) is used for plugging the water outlet (111) when the electromagnetic chuck (151) is disconnected with the power supply, and the electromagnetic chuck (151) is far away from the water outlet (111) to move under the suction effect of the electromagnetic chuck (151) when the power supply is connected, so that the water outlet (111) is opened.

23. A garment steamer host according to claim 22, characterized in that the valve body arrangement (13a) comprises: the water outlet cover comprises a valve body (132) capable of being sucked by the electromagnetic chuck (151), a third elastic piece (133) and a valve core (131) arranged on the valve body (132), wherein the valve core (131) faces the water outlet (111), one end of the third elastic piece (133) is connected with the inner wall of the water outlet cover (13b), and the other end of the third elastic piece (133) is connected with the valve body (132).

24. The garment steamer host according to claim 23, wherein the valve body (132) comprises: the water outlet valve comprises an upper valve cover (1321), a lower valve cover (1322) and a magnetic conducting piece (1323) located between the upper valve cover (1321) and the lower valve cover (1322), wherein the magnetic conducting piece (1323) is used for being attracted by the electromagnetic chuck (151) after the electromagnetic chuck (151) is electrified so as to drive the valve body (132) and the valve core (131) to move away from the water outlet (111) and open the water outlet (111).

25. The garment steamer host machine according to claim 22, further comprising: a sealing member (14), wherein the sealing member (14) is positioned at the position where the water outlet cover (13b) is connected with the water tank (11) so as to enable the water outlet cover (13b) to be connected with the water tank (11) in a sealing mode.

26. A garment steamer, comprising: a telescopic rod assembly (20), an ironing board (30), a brush head (50) and the garment steamer main body (10) of any one of the claims 1 to 25, wherein two ends of the telescopic rod assembly (20) are respectively connected with the garment steamer main body (10) and the ironing board (30), and the brush head (50) is connected with the garment steamer main body (10) through a steam pipe (60).