CN215251852U - Hanging ironing machine - Google Patents

Abstract

The utility model provides a garment steamer. The utility model discloses a garment steamer, including base, garment steamer main part, coupling connector, locking unit and control subassembly, can dismantle the connection between base, coupling connector and the garment steamer main part, the locking unit is used for locking at least two in base, garment steamer main part and the coupling connector; the control assembly is connected to the locking unit and comprises a poking rod piece, and the poking rod piece can be poked to drive at least part of structures of the locking unit to move to different stroke positions relative to the mounting groove, so that the locking state among the base, the garment steamer body and the coupling connector is changed. The utility model discloses can be nimble be applied to different occasions.

Description

Hanging ironing machine

Technical Field

The utility model relates to the field of household appliances, especially, relate to a garment steamer.

Background

Along with the improvement of living standard, living electrical appliances such as handheld garment steamer and the like are more and more appeared in the life of people because of the convenience and rapidness of the use.

The structure of the hand-held garment steamer generally comprises a shell, a water tank, a steam generator and other parts, wherein the water tank supplies water to the steam generator, and the steam generator can heat the water into high-temperature steam through a heating unit inside the steam generator so as to realize an ironing function. In present garment steamer, in order to avoid garment steamer to pass through the power cord and be connected with supply socket, cause the limited problem of user application scope, some handheld garment steamer built-in have rechargeable battery to form wireless handheld garment steamer, when the user uses, can take wireless handheld garment steamer to the optional position, thereby iron the clothing in a flexible way.

However, the existing wireless garment steamer is limited by the heat storage capacity of the heating unit, the endurance time is short, and the use of the wireless garment steamer is limited.

SUMMERY OF THE UTILITY MODEL

The utility model provides a garment steamer, its can be nimble be applied to different occasions.

The utility model provides a garment steamer, including base, garment steamer main part, coupling connector, locking unit and control subassembly, can dismantle the connection between base, coupling connector and the garment steamer main part, the locking unit is arranged in locking at least both among base, garment steamer main part and the coupling connector.

The control assembly is connected to the locking unit and comprises a poking rod piece which can be poked to drive at least part of the structure of the locking unit to move to different stroke positions, so that the locking state among the base, the garment steamer body and the coupling connector is changed. The garment steamer can correspondingly select different states and modes according to actual use scenes, so that the garment steamer has good convenience and use flexibility, and is convenient and labor-saving to operate.

In some alternatives, the locking unit and the steering assembly are both disposed on the base. This allows the locking unit and steering assembly to be mounted by a bulky base, so that the garment steamer body and the coupling connector have a smaller volume and a more compact profile.

In some optional modes, the base comprises a first shell, a mounting groove is formed in the first shell, the coupling connector is detachably arranged in the mounting groove, and the garment steamer main body and the coupling connector are detachably connected.

In some optional embodiments, the manipulating assembly further includes a lever seat and a lever shaft, the lever seat is disposed on the first housing, the first end of the lever member is a handheld end, the second end of the lever member abuts against the locking unit, the lever member is rotatably connected to the lever shaft, and when the second end of the lever member abuts against different portions of the locking unit, the locking unit moves to different corresponding stroke positions. The poking rod piece can be rod-shaped structures and the like which are convenient to poke, and when a user needs to change the using state of the garment steamer, the poking rod piece can be controlled to rotate only by poking the handheld end of the poking rod piece, and the locking unit is driven to move.

In some alternative embodiments, the axial direction of the lever shaft and the moving direction of the locking unit are coincident, so that the lever member is shifted in a shifting plane perpendicular to the moving direction of the locking unit. When dialling the member like this and being dialled the user and stirring, the rotation direction of dialling the member is the same with the moving direction of locking unit, therefore the member of dialling can be directly with locking unit butt and contact to promote the locking unit and remove, and need not set up the middleware again, the structure of manipulating the subassembly is comparatively simple reliable.

In some optional embodiments, the second end of the toggle member has a protrusion extending from the toggle plane to the mounting groove, and a top end of the protrusion abuts against the locking unit.

In some optional embodiments, the locking unit includes a locking member and a first elastic member, the locking member is slidably disposed on the first housing, the first elastic member abuts between the locking member and the first housing, and an elastic force direction of the first elastic member is directed to the toggle member; the locking piece is provided with at least two abutting surfaces, the abutting surfaces are used for abutting against the second end of the poking rod piece under the action of the elastic force of the first elastic piece, and different abutting surfaces have different distances from the poking plane in the moving direction of the locking unit. Like this when dialling the member and stirring planar internal rotation to when moving to the position with the relative butt of different butt faces, because different butt faces and the plane distance of stirring of dialling the member are different, therefore can be under the effort of dialling the member by reverse promotion to keeping away from driving lever one side, thereby let the locking piece demonstrate different removal strokes.

In some optional embodiments, the at least two abutment surfaces comprise a first abutment surface and a second abutment surface, the first abutment surface being spaced from the dial plane by a distance greater than the second abutment surface. The first abutting surface and the second abutting surface can respectively correspond to different working states of the garment steamer.

In some optional embodiments, the at least two abutting surfaces further include a third abutting surface, the third abutting surface is located between the first abutting surface and the second abutting surface, and the distance between each of the first abutting surface and the second abutting surface and the toggle plane is greater than the distance between each of the third abutting surface and the toggle plane.

In some optional embodiments, edges of the first abutment surface, the second abutment surface and the third abutment surface are continuous with each other, and a step is provided at a position where the edges of the first abutment surface, the second abutment surface and the third abutment surface are continuous. When the poking rod piece rotates, the poking rod piece can freely move to the position abutted against different abutting surfaces, and the poking rod piece cannot freely slide to other abutting surfaces from the edge of the abutting surface.

In some optional embodiments, a first avoiding hole is disposed on a wall of the mounting groove, and a partial structure of the locking unit may extend into the mounting groove through the first avoiding hole to lock at least two of the base, the steamer body, and the coupling connector.

In some optional embodiments, the locking unit includes a first locking block, and when the locking unit moves relative to the mounting groove, the first locking block may extend into the mounting groove to lock the base and the coupling connector, or retract to the outside of the mounting groove to unlock the base and the coupling connector.

In some optional embodiments, the coupling connector includes a second housing, and the second housing is provided with a first limiting groove disposed opposite to the first locking block, and the first locking block can be engaged with the first limiting groove to lock the base and the coupling connector.

In some optional embodiments, the locking unit further comprises a second elastic member; the locking piece is provided with a sliding groove, one end of the sliding groove, facing the mounting groove, is provided with an opening, the first locking piece is arranged in the sliding groove in a sliding mode, protrudes out of the opening of the sliding groove and can extend into the mounting groove through the first avoidance hole; the second elastic piece is connected between the locking piece and the first locking block, the elastic direction of the second elastic piece is directed to the inner side of the mounting groove from the outer side of the mounting groove, and the sliding stroke of the first locking block in the sliding groove is smaller than the moving stroke of the locking unit relative to the mounting groove.

Like this, because first locking piece passes through second elastic component and locking piece swing joint, so first locking piece moves when the position with the tank bottom butt in first spacing groove, can not continue to move. At this time, even if the locking unit needs to be continuously moved in order to unlock the coupling connector and the garment steamer body, the first locking block does not move forwards again, but reversely presses the second elastic piece to compress, and the first locking block is still kept at a position contacting with the bottom of the first limiting groove relative to the coupling connector, so that interference on continuous movement of the locking unit is avoided.

In some optional embodiments, the locking member further comprises a locking part protruding to the inside of the mounting groove; the coupling connector further comprises a locking assembly located within the second housing;

when the locking part abuts against the sliding groove and extends into the mounting groove, the locking assembly is triggered by the locking part, so that the garment steamer main body and the coupling connector are unlocked.

In some alternative embodiments, the locking parts are two and symmetrically disposed at both sides of the first locking piece. Therefore, the two first locking blocks can respectively correspond to different first limiting grooves, so that the coupling connector and the base are more reliably connected and limited.

In some optional embodiments, the second housing has at least one second avoiding hole formed therein, and the locking assembly further includes a second locking block and a third elastic member; second locking block slidable sets up in the second casing, the second elastic component connect in the second locking block with between the second casing, just the second locking block is in via under the spring action of second elastic component the second dodge hole protrusion in the second casing outside, and with garment steamer main part joint.

In some optional embodiments, the locking assembly further includes a connecting block slidable relative to the second housing, a first end of the connecting block abuts against the locking portion, a second end of the connecting block abuts against the second locking block, and when the locking portion abuts against the sliding groove and extends into the mounting groove, the connecting block pushes the second locking block to retract into the opening under the action of the locking portion. The connecting block can transmit the displacement and the acting force from the locking part, so that the second locking block is pushed to the position retracted into the second avoidance hole, and the coupling connector and the garment steamer body are unlocked.

In some optional embodiments, a contact surface of the locking portion and the first end of the connecting block is an inclined surface, and a contact surface of the second locking block and the second end of the connecting block is an inclined surface, and a sliding direction of the connecting block, a sliding direction of the locking portion, and a sliding direction of the second locking block are both at an included angle. Thus, the moving direction of the locking part and the second locking block relative to the second shell can form an included angle with the sliding direction of the connecting block so as to transmit acting force between the locking part and the second locking block.

The garment steamer comprises a base, a steamer body, a coupling connector, a locking unit and a control assembly, wherein the base, the coupling connector and the steamer body are detachably connected, and the locking unit is used for locking at least two of the base, the steamer body and the coupling connector; the control assembly is connected to the locking unit and comprises a poking rod piece which can be poked to drive at least part of the structure of the locking unit to move to different stroke positions, so that the locking state among the base, the garment steamer body and the coupling connector is changed. The garment steamer can correspondingly select different states and modes according to actual use scenes, so that the garment steamer has good convenience and use flexibility, and is convenient and labor-saving to operate.

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 garment steamer provided by an embodiment of the present application;

FIG. 2 is a schematic view of the garment steamer of FIG. 1 with parts separated from each other;

FIG. 3 is an exploded schematic view of a garment steamer provided by an embodiment of the present application;

FIG. 4 is a schematic view of a lock in a garment steamer according to an embodiment of the present application;

FIG. 5 is a schematic view of the locking element of FIG. 4 at another angle;

FIG. 6 is a side view of a garment steamer provided by an embodiment of the present application;

FIG. 7 is a detailed position schematic view of the sections of the garment steamer of FIG. 6;

FIG. 8 is a schematic cross-sectional view A-A of the steamer of FIG. 6 in a cordless state;

FIG. 9 is an enlarged partial schematic view at E of the garment steamer of FIG. 8;

FIG. 10 is a schematic view of the garment steamer of FIG. 6 in section B-B in a cordless state;

FIG. 11 is an enlarged partial schematic view of the garment steamer of FIG. 10 at F;

FIG. 12 is a schematic cross-sectional C-C view of the garment steamer of FIG. 6 in a cordless state;

FIG. 13 is an enlarged partial schematic view at G of the garment steamer of FIG. 12;

FIG. 14 is a schematic section A-A of the garment steamer of FIG. 6 in a stationary state;

FIG. 15 is an enlarged partial schematic view at E of the garment steamer of FIG. 14;

FIG. 16 is a schematic view of the garment steamer of FIG. 6 in section B-B in a stationary state;

FIG. 17 is an enlarged partial schematic view at F of the garment steamer of FIG. 16;

FIG. 18 is a schematic cross-sectional C-C view of the garment steamer of FIG. 6 in a stationary state;

FIG. 19 is an enlarged partial schematic view at G of the garment steamer of FIG. 18;

FIG. 20 is a schematic section A-A of the steamer of FIG. 6 in a corded state;

FIG. 21 is an enlarged partial schematic view at E of the garment steamer of FIG. 20;

FIG. 22 is a schematic view of the garment steamer of FIG. 6 in section B-B in a corded state;

FIG. 23 is an enlarged partial schematic view at F of the garment steamer of FIG. 22;

FIG. 24 is a schematic cross-sectional C-C view of the steamer of FIG. 6 in a corded state;

FIG. 25 is an enlarged partial schematic view at G of the garment steamer of FIG. 24;

FIG. 26 is a schematic D-D section view of the steamer of FIG. 6 in a corded state;

FIG. 27 is a schematic D-D section view of the garment steamer of FIG. 6 in a stationary state;

figure 28 is a schematic D-D cross-sectional view of the steamer of figure 6 in a cordless state.

Description of reference numerals:

1-a first housing; 2-an installation part; 3-a second housing;

10-a base; 20-garment steamer body; 30-a coupling connector; 11-mounting grooves; 21-a locking unit; 22-a steering assembly; 31-a first limit groove; 32-a locking assembly; 33-a second avoidance hole;

100-hanging ironing machine; 111-a first avoidance hole; 201-ironing part; 202-a handle; 211-a locking element; 212 — first locking block; 213-a first resilient member; 214-a second resilient member; 221-pulling rod piece; 222-a poker bar base; 223-a lever shaft; 321-a second locking block; 322-a third resilient member; 323-connecting block; 2111-abutment surface; 2111 a-first abutment surface; 2111 b-a second abutment surface; 2111 c-third abutment surface; 2112-step; 2114-chute; 2115-opening; 2113-locking portion; 2211-projection; 3231-first inclined plane; 3232-second inclined plane;

1 a-a housing; 1 b-a base body; 221 a-first end; 221 b-second end; 3 a-an upper shell; 3 b-a lower shell; 3 c-bottom cover.

Detailed Description

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

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

Furthermore, it should be noted that, in the description of the present application, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; there may be communication between the interiors of the two members. The specific meaning of the above terms in the present application can be understood by those skilled in the art as the case may be.

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

The handheld garment steamer has the advantages of small size and convenience in use and storage, and more appear in the life of people. Current hand-held garment steamer devices typically include two different types of cordless garment steamer devices and wired garment steamer devices. Wherein, wired garment steamer usually is connected with supply socket through the electric wire, and the user can hand wired garment steamer and drag the electric wire and iron the clothing, and is concrete, and the heating unit of hand garment steamer utilizes self to generate heat and heats water to supply water through the water supply subassembly, take out water to the heating unit in, thereby form steam. The wireless garment steamer is internally provided with the rechargeable battery, and the rechargeable battery supplies power to the water pump in the water supply assembly of the handheld garment steamer so as to pump water in the water pump into the heating unit, thereby generating steam. Like this, the user can hand the wireless garment steamer and iron the clothing, can charge on the charging seat with the wireless garment steamer grafting when the electric quantity exhausts.

However, the existing wireless garment steamer is limited by the battery power, has short endurance time, obviously causes inconvenience to the ironing operation of a user, and limits the use of the wireless garment steamer.

Therefore, the garment steamer can be flexibly switched between a wired mode and a wireless mode, the influence of the endurance time and the power position on the garment steamer is reduced, and the flexibility and the convenience of use are effectively improved.

Fig. 1 is a schematic structural diagram of a garment steamer provided by an embodiment of the present application. Figure 2 is a schematic view of the garment steamer of figure 1 with the parts separated from each other. Fig. 3 is an exploded view of a garment steamer provided in an embodiment of the present application. As shown in fig. 1, the garment steamer 100 provided herein includes a base 10, a steamer body 20, a coupling connector 30, a locking unit 21, and a manipulating assembly 22. Wherein the base 10, the steamer body 20 and the coupling connector 30 are detachably connected together. It should be noted that a rechargeable power source may be provided within the steamer body 20, and the coupling connector 30 has a power cord connectable to an electrical outlet. Thus, the steamer body 20 can be powered by either a rechargeable power source or by being connected to the coupler 30 and wired by coupling the coupler 30 to a power cord. While the base 10, the steamer body 20 and the coupling connector 30 can have a variety of different connections and fastening means therebetween. In some embodiments, the base 10 includes a first housing 1, and the first housing 1 is provided with a mounting groove 11. Thus, the coupling connector 30 is detachably disposed in the mounting groove 11; likewise, the steamer body 20 and the coupling connector 30 are removably connected. Wherein, the connection state between the coupling connector 30 and the mounting groove 11, and the connection state between the steamer body 20 and the coupling connector 30 can be changed accordingly by the adjustment of the locking unit 21.

Specifically, the locking unit 21 may be disposed between the base 10, the steamer body 20 and the coupling connector 30, or disposed on any one of the base 10, the steamer body 20 or the coupling connector 30, and the locking unit 21 may be used to lock at least two of the base 10, the steamer body 20 and the coupling connector 30. In this embodiment, the locking unit 21 may be used to lock one of the base 10 and the steamer body 20 and the coupling connector 30. Alternatively, in other embodiments, the locking unit 21 can also be used to lock the base 10 and the steamer body 20 together, and since the coupling connector 30 is generally located between the base 10 and the steamer body 20, the locking unit 21 can simultaneously lock the base 10, the steamer body 20, and the coupling connector 30 together. It should be noted that, in some embodiments, when the first housing 1 of the base 10 has the mounting groove 11 thereon, and the coupling connector 30 is detachably connected to the base 10 through the mounting groove 11, the locking or unlocking between the other components by the locking unit 21 may be achieved through the mounting groove 11. Specifically, at least a portion of the structure of the locking unit 21 is movable toward the mounting slot 11 and is extendable into the mounting slot 11 for locking at least two of the base 10, the steamer body 20, and the coupling connector 30.

To control the movement of the locking unit 21 to perform the locking or unlocking function, the operating assembly 22 and the locking unit 21 in the garment steamer are connected to each other, and further, the operating assembly 22 may be provided on any one of the base 10, the steamer body 20 or the coupling connector 30, similar to the locking unit 21. In the present embodiment, the operation member 22 and the locking unit 21 are disposed on the base 10.

Specifically, the operating assembly 22 includes a toggle member 221, and the toggle member 221 can be toggled to different positions and postures to drive part or all of the structure of the locking unit 21 to move to different stroke positions relative to the mounting groove 11, so as to change the locking state among the base 10, the garment steamer body 20 and the coupling connector 30. Optionally, the toggle member 221 may be disposed on the first housing 1 and toggled to different positions relative to the first housing 1. In addition, a mounting portion 2 may be further provided on the first housing 1 of the base 10, the locking unit 21 may be movably disposed on the mounting portion 2, and the mounting portion 2 may form a guide structure so that the locking unit 21 can slide relative to the mounting portion 2.

Thus, by toggling the toggle member 221, the locking unit 21 can be moved to different travel positions in the base 10. When the stroke positions of the locking unit 21 are different, the positions of the clamping structure or the limiting structure on the locking unit 21 are changed correspondingly, so that the original connection and clamping relation among the base 10, the garment steamer body 20 and the coupling connector 30 can be changed correspondingly.

Specifically, the garment steamer provided by the embodiment can comprise three different using states, namely a wired state, a wireless state and a fixed state. When the garment steamer is in a fixed state, the coupling connector 30 is locked in the mounting groove 11 of the base 10, and meanwhile, the garment steamer main body 20 and the coupling connector 30 are also in a relatively fixed locking state, so that the garment steamer can be integrally stored and placed conveniently, and the garment steamer main body 20 can also be reliably fixed and supported. When the steamer body 20 and the coupling connector 30 are unlocked and the coupling connector 30 and the base 10 are still in a relatively fixed locking state, the steamer is in a wireless state at the moment, the steamer body 20 can be taken out independently, and a wireless working mode is realized by using a power supply arranged in the steamer body 20, so that the working convenience is improved. And when the coupling connector 30 and the steamer body 20 are in a locked state and the base 10 and the coupling connector 30 are unlocked, the coupling connector 30 can be taken out together with the steamer body 20 and supplies power to the steamer body 20, so that the steamer is in a wired working mode.

Thus, the garment steamer 100 provided by the embodiment can correspondingly select different states and modes according to actual use scenes, so that the garment steamer has good convenience and use flexibility.

As an alternative embodiment, the steamer body 20 includes an ironing part 201 and a handle 202, the ironing part 201 is connected with one end of the handle 202, and the other end of the handle 202 abuts against the top of the coupling connector 30. In this way, the coupler 30 can be secured to the end of the steamer body 20 for the user to grasp the handle 202. The mounting slot 11 of the base 10 is sized and shaped to match the shape of the handle 202 and the coupler 30 of the steamer body 20 to accommodate at least or all of the structure of the coupler 30 and the handle 202.

In order to operate normally in a wireless mode, a rechargeable power source, such as a rechargeable battery, is provided in the steamer body 20, so that the rechargeable power source in the steamer body 20 can provide a certain duration when the steamer 100 operates in a wireless mode. The coupler 30 may be connected to an external power outlet via a power cord, such that the steamer 100, when operating in a wired mode, is connected to the external power outlet via the coupler 30 and is powered by an external power source. At the same time, the charging power source in the steamer body 20 can also be charged through the coupling connector 30.

As an alternative embodiment, the garment steamer body 20 and the coupling connector 30 are provided with electrical connectors, and when the end of the garment steamer body 20 is plugged into the coupling connector 30, the electrical connectors of the garment steamer body 20 and the coupling connector 30 can be coupled with each other, so that the garment steamer 100 can work in a wired state.

In order to change the connection relationship among the different components of the base 10, the steamer body 20, the coupling connector 30, etc. in the steamer 100, the toggle member 221 included in the operating assembly 22 can be toggled relative to the base 10 and rotated to different positions and angles, and the locking unit 21 can be driven to move to different stroke positions corresponding to different positions of the toggle member 221 and accordingly locked. Therefore, the position change of the shifting rod piece 221 relative to the base 10 is obvious when the shifting rod piece is shifted, a user can conveniently determine the corresponding use state of the current garment steamer, and the shifting rod piece 221 is labor-saving when being shifted.

In order to provide the components such as the locking unit 21 on the first housing 1, optionally, the first housing 1 may include a casing 1a and a base body 1b which are enclosed together, and the components such as the locking unit 21 may be accommodated in a cavity enclosed by the casing 1a and the base body 1 b.

In an alternative structure, the manipulating assembly 22 further includes a lever seat 222 and a lever shaft 223, the lever seat 222 is disposed on the first housing 1, the first end 221a of the lever 221 is a handheld end, the second end 221b of the lever 221 abuts against the locking unit 21, the lever 221 is rotatably connected to the lever shaft 223, and when the second end 221b of the lever 221 abuts against different portions of the locking unit 21, the locking unit 21 moves to different corresponding stroke positions. The poking rod piece 221 can be a rod-shaped structure and the like which is convenient to poke, when the use state of the garment steamer needs to be changed, a user only needs to poke the handheld end of the poking rod piece 221, the poking rod piece 221 can be controlled to rotate, and the locking unit 21 is driven to move.

In order to enable reliable linkage of the manipulating assembly 22 and the locking unit 21, optionally, the axial direction of the lever shaft 223 coincides with the moving direction of the locking unit 21, so that the lever member 221 is shifted in a shifting plane perpendicular to the moving direction of the locking unit 21. Thus, when the dialing member 221 is dialed by a user, the rotation direction of the dialing member 221 and the moving direction of the locking unit 21 are the same, so that the dialing member 221 can directly abut against and contact with the locking unit 21 and push the locking unit 21 to move without arranging an intermediate member, and the structure of the operating assembly 22 is simple and reliable.

Further, in an alternative structure, the second end 221a of the lever member 221 has a projection 2211, the projection 2211 extends from the lever plane to the mounting groove 11, and the tip of the projection 2211 abuts against the locking unit 21. Through set up the bulge on driving lever 221, driving lever 221 has longer working distance, can set up driving lever 221 in the position that has certain interval with mounting groove 11 of base 10 like this, avoids appearing the phenomenon of being difficult for stirring and operating because of driving lever 221 and garment steamer main part 20 are too close apart.

The locking unit 21 may have various different structures and forms in order to be moved to different stroke positions by the lever member 221, respectively, to perform locking and unlocking operations between the base 10, the steamer body 20 and the coupling connector 30, respectively.

In an alternative embodiment, the locking unit 21 includes a locking member 211 and a first elastic member 213, the locking member 211 is slidably disposed on the first housing 1, the first elastic member 213 abuts between the locking member 211 and the first housing, and an elastic direction of the first elastic member 213 points to the toggle member 221; the locking member 211 has at least two abutment surfaces 2111, the abutment surfaces 2111 are adapted to abut against the second end of the toggle lever 221 under the elastic force of the first elastic member 213, and different abutment surfaces 2111 have different distances from the toggle plane in the moving direction of the locking unit 21. In order to allow the locking member 211 to slide relative to the first housing 1, a sliding groove or a guide rail may be provided inside the first housing 1.

FIG. 4 is a schematic view of a lock in a garment steamer according to an embodiment of the present application. Fig. 5 is a schematic view of the locking element of fig. 4 at another angle. As shown in fig. 1 to 5, the locking member 211 of the locking unit 21 may be mounted in the first housing 1 by a sliding slot or a sliding rail, and is slidably connected to the first housing 1. Thus, the locking member 211 can abut against the shift lever 221 via the first elastic member 213. When the lever 221 moves, the locking member 211 can correspondingly slide relative to the first housing along with the position change of the lever 221. In order to allow the locking member 211 to have different sliding stroke positions when the toggle lever 221 is rotated, two or more abutment surfaces 2111 may be provided on the locking member 211, and these abutment surfaces 2111 have different positions in the moving direction of the locking unit 21, that is, the sliding direction of the locking member 211, thereby forming different distances from the toggle plane of the toggle lever 221. When the toggle member 221 rotates within the toggle plane and moves to a position opposite to the different abutting surfaces 2111, the distance between the different abutting surfaces and the toggle plane of the toggle member is different, so that the lock member 211 is pushed to a side away from the toggle member in a reverse direction under the action of the toggle member, thereby presenting different moving strokes.

The first elastic member 213 may be a spring or other conventional elastic elements, and the specific structure and form of the first elastic member 213 are not limited herein.

Optionally, the at least two abutment surfaces 2111 on the locking element 211 may comprise a first abutment surface 2111a and a second abutment surface 2111b, the distance between the first abutment surface 2111a and the dial plane being larger than the distance between the second abutment surface 2111b and the dial plane. When the toggle member 221 rotates from the position opposite to the first abutting surface 2111a to the position opposite to the second abutting surface 2111b, the distance between the second abutting surface 2111b and the toggle plane where the toggle member 221 is located is small, so that the locking member 211 is pushed by the toggle member 221 and moves to the side away from the toggle member 221; when the toggle member 221 rotates from the position where the second contact surface 2111b contacts to the first contact surface 2111a, the locking member 211 moves toward the toggle member 221 by the elastic force of the first elastic member 213 until the first contact surface 2111a contacts the toggle member 221. In this way, the first and second abutment surfaces 2111a, 2111b may correspond to different operating states of the garment steamer, respectively. For example, when the shifting lever 221 abuts against the first abutting surface 2111a of the locking piece 211, the garment steamer can be in a wireless state; when the lever 221 abuts against the second abutment surface 2111b of the locking member 211, the garment steamer can be in a fixed state.

In order to switch the garment steamer between the three different states, namely the fixed state, the wired state and the wireless state, optionally, the at least two abutting surfaces of the locking member 211 further include a third abutting surface 2111c, the third abutting surface 2111c is located between the first abutting surface 2111a and the second abutting surface 2111b, and the distance between the first abutting surface 2111a and the poking plane and the distance between the second abutting surface 2111b and the poking plane are both greater than the distance between the third abutting surface 2111c and the poking plane. At this time, the third abutment surface 2111c may correspond to a fixed state of the steamer. When the driving lever 221 abuts against the second abutting surface 2111b of the locking piece 211, the garment steamer can be in a wired state, at this time, the coupling connector 30 and the base 10 are in a mutually unlocked state, and the garment steamer body 20 and the coupling connector 30 are also in a locked state, so that the garment steamer body 20 can be freely taken and supplied with power through the coupling connector 30; when the dial bar 221 abuts against the third abutting surface 2111c of the locking piece 211, the locking piece 211 moves towards the mounting groove 11, the garment steamer is in a fixed state, the coupling connector 30 and the base 10 are locked and clamped through the locking structure on the locking piece 211, and meanwhile, the garment steamer main body 20 and the coupling connector 30 are still locked and connected with each other; when the driving lever 221 rotates to the position where it abuts against the first abutment surface 2111a, the locking member 211 moves a greater distance to the mounting slot 11, thereby driving the coupling connector 30 and the steamer body 20 to disengage from the locking, allowing the steamer body 20 to be taken out freely and operate in a wireless state.

In order to allow the lever 221 to freely move to a position where it abuts against a different abutment surface when rotating, as an alternative, the edges of the first abutment surface 2111a, the third abutment surface 2111c, and the second abutment surface 2111b are continuous with each other, and the edge where the first abutment surface 2111a, the third abutment surface 2111c, and the second abutment surface 2111b are continuous has a step 2112. Thus, when the second end of the toggle member 221 abuts against any one of the abutment surfaces 2111, the second end can be moved from the edge of the abutment surface to a position abutting against the other abutment surface by its own rotation. In this process, the lever 221 always abuts against the locking member 211. In order to avoid that the shift lever 221 slides freely from the edge of the abutting surface 2111 to another abutting surface when abutting against the abutting surface 2111, a step 2112 is arranged at the edge connection of adjacent abutting surfaces, so that the second end of the shift lever 221 can span the step 2112 between the adjacent abutting surfaces 2111 and move between different abutting surfaces 2111 only by applying a certain acting force to the shift lever 221.

In order to accomplish the locking or unlocking of the garment steamer between the various parts by movement of the various parts of the locking unit 21, there is a corresponding connection between the garment steamer 100 and the locking unit 21. Figure 6 is a side view of a garment steamer provided by an embodiment of the present application. Figure 7 is a detailed schematic view of the locations of the various sections of the garment steamer of figure 6. In fig. 6 and 7, in order to explain the internal structure of the garment steamer, the sectional structure of different positions is shown. It should be noted that only the base portion is shown in fig. 7 for convenience of showing the positions of the hatching.

In particular, FIG. 8 is a schematic cross-sectional view A-A of the steamer of FIG. 6 in a cordless state. Figure 9 is an enlarged partial schematic view at E of the garment steamer of figure 8. Figure 10 is a schematic view of the garment steamer of figure 6 in section B-B in a cordless state. Figure 11 is an enlarged partial schematic view at F of the garment steamer of figure 10. Figure 12 is a schematic view of the cross-section C-C of the steamer of figure 6 in a cordless state. Figure 13 is an enlarged partial schematic view at G of the garment steamer of figure 12.

Figure 14 is a schematic section A-A of the garment steamer of figure 6 in a stationary state. Figure 15 is an enlarged partial schematic view at E of the garment steamer of figure 14. Figure 16 is a schematic view of the garment steamer of figure 6 in section B-B in a stationary state. Figure 17 is an enlarged partial schematic view at F of the garment steamer of figure 16. Figure 18 is a schematic cross-sectional view C-C of the garment steamer of figure 6 in a stationary state. Figure 19 is an enlarged partial schematic view at G of the garment steamer of figure 18.

Figure 20 is a schematic section a-a of the steamer of figure 6 in a corded state. Figure 21 is an enlarged partial schematic view at E of the garment steamer of figure 20. Figure 22 is a schematic view of the garment steamer of figure 6 in section B-B in a corded state. Figure 23 is an enlarged partial schematic view at F of the garment steamer of figure 22. Figure 24 is a schematic view of the garment steamer of figure 6 in a wired state in section C-C. Figure 25 is an enlarged partial schematic view at G of the garment steamer of figure 24. Figure 26 is a schematic D-D section view of the steamer of figure 6 in a corded state. Figure 27 is a schematic view of the garment steamer of figure 6 in section D-D in a stationary state. Figure 28 is a schematic D-D cross-sectional view of the steamer of figure 6 in a cordless state. This will be described in detail below with reference to fig. 6 to 28.

In an alternative structure, a first avoiding hole 111 is provided on a wall of the mounting groove 11, and a part of the structure of the locking unit 21 may extend into the mounting groove 11 through the first avoiding hole 111 to lock at least two of the base 10, the steamer body 20 and the coupling connector 30.

Specifically, the first avoidance hole 111 may be plural, so that different portions of the locking unit 21 may pass through different first avoidance holes 111 to extend into the mounting groove 11. Different parts of the locking unit 21 can be in contact with the coupling connector 30 or the steamer body 20, respectively, to snap or trigger other structural movements to perform the unlocking or locking function.

In order to lock the base 10 and the coupling connector 30 together, the locking unit 21 may optionally include a first locking block 212, and when the locking unit 21 is moved relative to the installation slot 11, the first locking block 212 may be extended into the installation slot 11 to lock the base 10 and the coupling connector 30, or retracted outside the installation slot 11 to unlock the base 10 and the coupling connector 30.

Specifically, the first locking block 212 may be located at a side of the locking member 211 facing the mounting groove 11, and may extend into the mounting groove 11 through the first avoiding hole 111. Thereby abutting or engaging with corresponding structures on the coupling connector 30 to lock the coupling connector 30 in the mounting groove 11, and completing the locking between the base 10 and the coupling connector 30. The first locking block 212 can also be retracted out of the mounting groove 11 along with the locking member 211 to release the connection between the base 10 and the coupling connector 30.

A corresponding connection structure is required on the coupling connector 30 for mating connection with the first locking block 212. Alternatively, the coupling connector 30 may include a second housing 3, the second housing 3 is provided with a first limiting groove 31 opposite to the first locking block 212, and the first locking block 212 may be engaged with the first limiting groove 31 to lock the base 10 and the coupling connector 30. It will be appreciated that the shape of the second housing 3 may match the shape of the mounting groove 11 to be stably seated in the mounting groove 11. Further, in addition to the structure for connection such as the first stopper groove 31, an electrical connection structure such as a connection terminal in the coupling connector 30 may be fixed and housed in the second housing 3.

Specifically, the coupling connector 30 includes an electrical connector and the like in addition to the second housing 3. Thus, alternatively, the second housing 3 may include an upper housing 3a, a lower housing 3b, and a bottom cover 3c, the upper housing 3a, the lower housing 3b, and the bottom cover 3c collectively enclose the second housing 3 having a cavity, and electrical connection members or the like may be provided in the cavity of the second housing 3.

The sidewall of the second housing 3 may be provided with the first limiting groove 31, and the notch of the first limiting groove 31 faces the locking member 211. When the first locking block 212 on the locking member 211 moves toward the coupling connector 30 and extends into the first limiting groove 31, the first limiting groove 31 can fix and limit the first locking block 212. At this time, the coupling connector 30 cannot be separated upward from the mounting groove 11 by the fixing action of the first locking block 212 and the first limiting groove 31.

In order to reduce the shaking of the base 10 and the coupling connector 30 during locking, the shape of the first locking block 212 can be matched with the shape of the first limiting groove 31, so that when the first locking block 212 extends into the first limiting groove 31, the gap between the first locking block 212 and the first limiting groove 31 is small, the base 10 and the coupling connector 30 are connected reliably, and the shaking is less.

Optionally, the locking unit 21 further comprises a second elastic member 214; the locking piece 211 is provided with a sliding groove 2114, one end of the sliding groove 2114 facing the mounting groove 11 is provided with an opening 2115, the first locking piece 212 is slidably arranged in the sliding groove 2114, and the first locking piece 212 protrudes out of the opening 2115 of the sliding groove 2114 and can extend into the mounting groove 11 through the first avoidance hole 111; and the second elastic member 214 is connected between the locking member 211 and the first locking block 212, and the elastic direction of the second elastic member 214 is directed from the outside of the mounting groove 11 to the inside of the mounting groove 11, and the sliding stroke of the first locking block 212 in the sliding slot 2114 is smaller than the moving stroke of the locking unit 21 relative to the mounting groove 11.

Since the first locking piece 212 is movably connected to the locking piece 211 through the second elastic member 214, the first locking piece 212 does not move continuously when moving to a position where it abuts against the groove bottom of the first stopper groove 31. At this time, even if the locking unit 21 needs to be continuously moved in order to unlock the coupling connector 30 from the steamer body 20, the first locking piece 212 does not move forward again, but reversely presses the second elastic member 214 to compress, and keeps itself at a position contacting the bottom of the first stopper groove 31 with respect to the coupling connector 30, thereby not interfering with the continuous movement of the locking unit 21.

Here, like the first elastic member 213, the second elastic member 214 may be a spring, or other common elastic elements, and the specific structure and form of the second elastic member are not limited herein.

In order to unlock the garment steamer body 20 and the coupling connector 30 when the locking unit 21 is moved, a corresponding trigger unlocking structure may be provided on the locking unit 21.

To achieve locking and unlocking between the coupler connector 30 and the steamer body 20, optionally, the locking member 211 further includes a locking portion 2113, the locking portion 2113 protruding into the mounting slot 11; correspondingly, the coupling connector 30 further includes a locking assembly 32 located in the second housing 3, and when the locking portion 2113 abuts against the sliding slot 2114 and extends into the mounting slot 11, the locking assembly 32 is triggered by the locking portion 2113, so that the garment steamer main body 20 and the coupling connector 30 are unlocked.

Thus, the locking unit 21 is provided with not only the first locking block 212 for controlling the locking relationship between the base 10 and the coupling connector 30, but also a locking portion 2113 for controlling and triggering the unlocking of the coupling connector 30 from the steamer body 20. When the locking member 211 is pushed by the lever member 221 to move toward the mounting groove 11 and the first locking block 212 is engaged with the coupling connector 30, the locking member also extends into the mounting groove 11 from the first avoiding hole 111 along with the movement of the locking member 211. The locking portion can be used to apply a force to a component on the coupler connector 30 to trigger unlocking between the coupler connector 30 and the steamer body 20.

Among them, the locking portion 2113 may have various forms, for example, the locking portion 2113 may be a protrusion or a hook protruding toward the mounting groove 11 side on the locking member 211, or the like.

Specifically, the locking assembly 32 can be locked to the steamer body 20 by a variety of different structures, such as including a retractable snap tab in the locking assembly 32, and utilizing the snap tab to lock against the steamer body 20, for example. In an alternative structure, the second housing 3 is provided with at least one second avoiding hole 33, and the locking assembly 32 further includes a second locking block 321 and a third elastic member 322; the second locking block 321 is slidably disposed in the second housing 3, the third elastic member 322 is connected between the second locking block 321 and the second housing 3, and the second locking block 321 protrudes out of the second housing 3 through the second avoiding hole 33 under the elastic force of the third elastic member 322 and is connected with the garment steamer body 20 in a clamping manner.

In order to be engaged with the second locking block 321, a corresponding opening or engaging groove may be formed on the sidewall of the steamer body 20, and the second locking block 321 is engaged into the opening or engaging groove.

It will be appreciated that the connecting direction of the garment steamer body 20 and the coupling connector 30 may be at an angle to the direction of the spring force of the third spring 322, for example, such that the connecting direction of the garment steamer body 20 and the coupling connector 30 is perpendicular to the direction of the spring force of the third spring 322. The second locking block 321 can thus be extended outside the second housing 3 to abut or snap into a corresponding structure on the side wall of the steamer body 20 to limit the relative displacement of the steamer body 20 and the coupling connector 30 in the connecting direction. Wherein, since the coupling connector 30 is connected to the end position of the handle of the steamer body 20, the connection direction of the steamer body 20 and the coupling connector 30 and the length direction of the handle can be the same.

In order to enable the second locking block 321 to retract from the position where the second locking block is clamped with the steamer body 20 when the locked portion 2113 is abutted and triggered, optionally, the locking assembly 32 further comprises a connecting block 323 capable of sliding relative to the second housing 3, a first end of the connecting block 323 is abutted with the locking portion 2113, a second end of the connecting block 323 is abutted with the second locking block 321, and when the locking portion 2113 is abutted with the sliding groove 2114 and extends into the mounting groove 11, the connecting block 323 pushes the second locking block 321 to retract into the second avoiding hole 33 under the action force of the locking portion 2113.

Wherein, the connecting block 323 may be located between the locking portion 2113 and the second locking block 321, and opposite ends of the connecting block 323 respectively abut against the locking portion 2113 and the second locking block 321. The connecting block 323 can then transmit the displacement and force from the locking portion 2113 to push the second locking block 321 to a position retracted inside the second relief hole 33, so that the coupling connector 30 and the steamer body 20 are unlocked.

Since the second locking piece 321 needs to be retracted into the second escape hole 33 in the opposite direction when the locking portion 2113 is extended to the mounting groove 11, the connection block 323 needs to transmit the force from the locking portion 2113 to the other direction by its own shape. In order to realize the direction-changing transmission of the acting force, optionally, a contact surface of the locking portion 2113 and the first end of the connecting block 323 is an inclined surface, a contact surface of the second locking block 321 and the second end of the connecting block 323 is also an inclined surface, and a sliding direction of the connecting block 323, a sliding direction of the locking portion 2113 and a sliding direction of the second locking block 321 both have an included angle.

Among them, the locking portion 2113 and the second locking block 321 may be located at different positions in the axial direction of the coupling connector 30, and thus in order to transmit force between the locking portion 2113 and the second locking block 321, the moving direction of the locking portion 2113 and the second locking block 321 with respect to the second housing 3 may be angled with respect to the sliding direction of the connection block 323. For example, the moving direction of the locking portion 2113 and the second locking block 321 may be along the radial direction of the coupling connector 30, and the sliding direction of the connection block 323 may be along the axial direction of the coupling connector 30. Since the contact surfaces between the connecting block 323 and the locking portion 2113 and between the connecting block 323 and the second locking block 321 are inclined surfaces, it can be defined that the contact surface between the connecting block 323 and the locking portion 2113 is a first inclined surface 3231, and the contact surface between the connecting block 323 and the second locking block 321 is a second inclined surface 3232, and the inclined directions of the first inclined surface 3231 and the second inclined surface 3232 are opposite. When the locking portion 2113 moves in the radial direction of the coupling connector 30, that is, in the horizontal direction in the drawing, a component force of the locking portion 2113 in the vertical direction in the drawing can push the connecting block 323 to slide axially along the coupling connector 30 by the first inclined surface 3231; when the connecting block 323 slides axially along the coupling connector 30, a component force in the horizontal direction in the figure can be applied to the second locking block 321 by the second inclined surface 3232, and since the first inclined surface 3231 and the second inclined surface 3232 are disposed opposite to each other, the component force in the horizontal direction is opposite to the acting force of the locking portion 2113, and the second locking block 321 can be pushed to move radially along the coupling connector 30 and retract into the second housing 3 of the coupling connector 30.

In addition, in order to ensure the operational reliability of the first locking piece 212 when the unlocking is triggered, optionally, the first locking pieces 212 are two and symmetrically disposed at both sides of the locking portion 2113. Thus, the two first locking blocks 212 respectively correspond to different first limiting grooves 31, so that the connection limitation between the coupling connector 30 and the base 10 is reliable.

In this embodiment, the garment steamer comprises a base, a steamer body, a coupling connector locking unit, a control assembly and other components, wherein the base, the steamer body and the coupling connector are detachably connected; the locking unit is used for locking at least two of the base, the garment steamer main body and the coupling connector, the control assembly comprises a poking rod piece, and the poking rod piece can be poked to drive at least part of structures of the locking unit to move to different stroke positions, so that the locking state among the base, the garment steamer main body and the coupling connector is changed. The garment steamer can correspondingly select different states and modes according to actual use scenes, so that the garment steamer has good convenience and use flexibility, and is convenient and labor-saving to operate.

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 (19)

1. A garment steamer, characterized by comprising a base (10), a steamer body (20), a coupling connector (30), a locking unit (21) and a handling assembly (22), the base (10), the coupling connector (30) and the steamer body (20) being detachably connected, the locking unit (21) being for locking at least two of the base (10), the steamer body (20) and the coupling connector (30);

the operating assembly (22) is connected to the locking unit (21), the operating assembly (22) comprises a dial bar (221), and the dial bar (221) can be dialed to drive at least part of the structure of the locking unit (21) to move to different stroke positions so as to change the locking state among the base (10), the garment steamer body (20) and the coupling connector (30).

2. A garment steamer as claimed in claim 1, characterized in that the locking unit (21) and the operating assembly (22) are both provided on the base (10).

3. The steamer according to claim 2, wherein the base (10) comprises a first housing (1), a mounting groove (11) is provided on the first housing (1), the coupling connector (30) is detachably disposed in the mounting groove (11), and the steamer body (20) and the coupling connector (30) are detachably connected.

4. The garment steamer of claim 3, wherein the operating assembly (22) further comprises a lever seat (222) and a lever shaft (223), the lever seat (222) is disposed on the first housing (1), the first end (221a) of the lever member (221) is a hand-held end, the second end (221b) of the lever member (221) abuts the locking unit (21), the lever member (221) is rotatably connected to the lever shaft (223), and the locking unit (21) moves to different corresponding stroke positions when the second end (221b) of the lever member (221) abuts different portions of the locking unit (21).

5. The garment steamer according to claim 4, characterized in that the axial direction of the lever shaft (223) coincides with the direction of movement of the locking unit (21) so that the lever member (221) is toggled in a toggle plane perpendicular to the direction of movement of the locking unit (21).

6. The garment steamer according to claim 5, characterized in that the second end (221b) of the toggle bar (221) has a projection (2211), the projection (2211) extends from the toggle plane to the mounting slot (11), and the top end of the projection (2211) abuts the locking unit (21).

7. The garment steamer according to claim 5 or 6, characterized in that the locking unit (21) comprises a locking member (211) and a first elastic member (213), the locking member (211) is slidably arranged on the first housing (1), the first elastic member (213) abuts between the locking member (211) and the first housing (1), and the elastic direction of the first elastic member (213) is directed to the toggle member (221); the locking piece (211) is provided with at least two abutting surfaces (2111), the abutting surfaces (2111) are used for abutting against the second end (221b) of the poking rod piece (221) under the action of the elastic force of the first elastic piece (213), and different abutting surfaces (2111) have different distances from the poking plane in the moving direction of the locking unit (21).

8. The garment steamer according to claim 7, characterized in that the at least two abutment surfaces (2111) comprise a first abutment surface (2111a) and a second abutment surface (2111b), the distance between the first abutment surface (2111a) and the striking plane being larger than the distance between the second abutment surface (2111b) and the striking plane.

9. The garment steamer according to claim 8, characterized in that the at least two abutment surfaces (2111) further comprise a third abutment surface (2111c), the third abutment surface (2111c) being located between the first abutment surface (2111a) and the second abutment surface (2111b), and the distance between the first abutment surface (2111a) and the second abutment surface (2111b) and the striking plane being larger than the distance between the third abutment surface (2111c) and the striking plane.

10. The garment steamer according to claim 9, characterized in that the edges of the first abutment surface (2111a), the second abutment surface (2111b) and the third abutment surface (2111c) continue one another, and that the first abutment surface (2111a), the second abutment surface (2111b) and the third abutment surface (2111c) have a step (2112) where the edges continue.

11. The steamer according to claim 7, wherein a first avoiding hole (111) is provided on a wall of the mounting slot (11), and a part of the structure of the locking unit (21) can extend into the mounting slot (11) through the first avoiding hole (111) to lock at least two of the base (10), the steamer body (20) and the coupling connector (30).

12. The garment steamer as claimed in claim 11, characterized in that the locking unit (21) comprises a first locking block (212), and when the locking unit (21) moves relative to the mounting slot (11), the first locking block (212) can be extended into the mounting slot (11) to lock the base (10) and the coupling connector (30) or retracted outside the mounting slot (11) to unlock the base (10) and the coupling connector (30).

13. A garment steamer according to claim 12, characterized in that the coupling connector (30) comprises a second housing (3), the second housing (3) being provided with a first limiting groove (31) arranged opposite to the first locking block (212), the first locking block (212) being snappable with the first limiting groove (31) for locking the base (10) and the coupling connector (30).

14. A garment steamer according to claim 13, characterized in that the locking unit (21) further comprises a second resilient member (214); a sliding groove (2114) is formed in the locking piece (211), an opening (2115) is formed in one end, facing the mounting groove (11), of the sliding groove (2114), the first locking block (212) is slidably arranged in the sliding groove (2114), the first locking block (212) protrudes out of the opening (2115) of the sliding groove (2114), and can extend into the mounting groove (11) through the first avoidance hole (111);

the second elastic piece (214) is connected between the locking piece (211) and the first locking block (212), the elastic force direction of the second elastic piece (214) is from the outer side of the mounting groove (11) to the inner side of the mounting groove (11), and the sliding stroke of the first locking block (212) in the sliding groove (2114) is smaller than the moving stroke of the locking unit (21) relative to the mounting groove (11).

15. The steamer according to claim 14, wherein the locking member (211) further comprises a locking portion (2113), the locking portion (2113) protruding into the mounting slot (11); the coupling connector (30) further comprises a locking assembly (32) located within the second housing (3);

when the locking part (2113) abuts against the sliding groove (2114) and extends into the mounting groove (11), the locking assembly (32) is triggered by the locking part (2113), so that the garment steamer main body (20) and the coupling connector (30) are unlocked.

16. The garment steamer as claimed in claim 15, characterized in that the locking portions (2113) are two and are symmetrically arranged on both sides of the first locking block (212).

17. The garment steamer according to claim 16, wherein the second housing (3) is provided with at least one second relief hole (33), and the locking assembly (32) further comprises a second locking block (321) and a third elastic member (322); second locking block (321) slidable sets up in second casing (3), third elastic component (322) connect in second locking block (321) with between second casing (3), just second locking block (321) are in under the spring action of third elastic component (322) via hole (33) protrusion in the second casing (3) outside is dodged to the second, and with garment steamer main part (20) joint.

18. The steamer according to claim 17, wherein the locking assembly (32) further comprises a connecting block (323) slidable relative to the second housing (3), a first end of the connecting block (323) abuts against the locking portion (2113), a second end of the connecting block (323) abuts against the second locking block (321), and when the locking portion (2113) abuts against the chute (2114) and extends into the mounting slot (11), the connecting block (323) pushes the second locking block (321) to retract into the opening (2115) under the action of the locking portion (2113).

19. The steamer according to claim 18, wherein the contact surface of the locking part (2113) and the first end of the connecting block (323) is a slope, and the contact surface of the second locking block (321) and the second end of the connecting block (323) is a slope, and the sliding direction of the locking part (2113) and the sliding direction of the second locking block (321) both have an angle with the sliding direction of the connecting block (323).

Images