阅读说明：本技术 清洁装置 (Cleaning device ) 是由 朱沛衡 范苏湘 于 2020-12-18 设计创作，主要内容包括：本发明涉及一种清洁装置,包括：地拖组件,包括壳体、设置在壳体的下方的至少两个清洁件、用以驱动清洁件工作的驱动机构；水箱,给清洁件提供清洁介质；和开关组件,用以启闭驱动机构,开关组件包括：按键板,安装在壳体上；按钮板,位于按键板外侧,按钮板可相对按键板移动；触压开关,包括至少两个触点和触压部,至少两个触点以按钮板的中心线为中轴线布置,触点、触压部其中之一设置在按键板上,另一设置在按钮板上,触压部的正投影覆盖或者至少部分覆盖触点；外力施加在按钮板上使按钮板朝按键板方向移动,直至触压部与其中一个触点接触后使驱动机构启动；及弹性件,推动按钮板朝外远离按键板的方向移动以使触压部与触点分离,灵敏度高。(The invention relates to a cleaning device comprising: the mop assembly comprises a shell, at least two cleaning pieces arranged below the shell and a driving mechanism used for driving the cleaning pieces to work; a water tank for supplying a cleaning medium to the cleaning member; and a switch assembly for opening and closing the drive mechanism, the switch assembly comprising: the key board is arranged on the shell; the button plate is positioned on the outer side of the key plate and can move relative to the key plate; the touch switch comprises at least two contacts and a touch portion, the at least two contacts are arranged by taking the central line of the button plate as a central axis, one of the contacts and the touch portion is arranged on the button plate, the other one of the contacts and the touch portion is arranged on the button plate, and the orthographic projection of the touch portion covers or at least partially covers the contacts; external force is applied to the button plate to enable the button plate to move towards the direction of the button plate until the touch and press part is contacted with one contact point, and then the driving mechanism is started; and the elastic piece pushes the button plate to move outwards in the direction away from the button plate so as to separate the touch pressing part from the contact, and the sensitivity is high.)

1. A cleaning device, comprising:

the mop assembly comprises a shell, at least two cleaning pieces arranged below the shell and a driving mechanism used for driving the cleaning pieces to work;

a water tank supplying a cleaning medium to the cleaning member; and

the switch module is used for opening and closing the driving mechanism, and the switch module comprises:

the key board mounting seat is fixed on the shell;

the key board is arranged on the key board mounting seat;

the button plate is positioned on the outer side of the key plate and can move relative to the key plate;

the touch switch comprises at least two contacts and a touch portion, the at least two contacts are arranged by taking the central line of the button plate as a central axis, one of the contacts and the touch portion is arranged on the button plate, the other one of the contacts and the touch portion is arranged on the button plate, and the orthographic projection of the touch portion covers or at least partially covers the contacts; external force is applied to the button plate to enable the button plate to move towards the direction of the button plate until the touch and press part is contacted with one of the contact points, and then the driving mechanism is started; and

and the elastic piece pushes the button plate to move outwards in the direction away from the button plate so as to separate the touch pressing part from the contact.

2. A cleaning device as claimed in claim 1, characterized in that the contact and/or the pressing portion are provided on a projection.

3. The cleaning device according to claim 2, wherein a first protrusion extending in the direction of the button plate is formed on the button plate, a second protrusion extending in the direction of the button plate is formed on the button plate, the contact point is formed on the first protrusion, and the pressing portion is formed on the second protrusion.

4. The cleaning apparatus as claimed in claim 3, wherein the pressing portion includes pressing points provided corresponding to the number of the contacts.

5. The cleaning apparatus defined in claim 4, wherein the resilient member is disposed adjacent the touch switch.

6. The cleaning apparatus as claimed in claim 5, wherein said elastic member is a spring provided corresponding to the number of said contacts, and each of said springs has one end fitted over said first projection and the other end fitted over said second projection.

7. The cleaning device as claimed in claim 1, wherein the button plate has a pressing surface disposed opposite to the contact point, and an external force is applied to the pressing surface to drive the button plate to move toward the key sheet.

8. The cleaning apparatus as claimed in any one of claims 1 to 7, wherein the switch assembly further comprises a guide post and a guide groove engaged with the guide post, one of the guide post and the guide groove is provided on the button plate, the other is provided on the button plate, and a central axis of the guide post and the guide groove overlaps with a central axis of the button plate.

9. The cleaning device as claimed in any one of claims 1 to 7, wherein the switch assembly further includes a limiting structure for limiting the movement of the button plate and the key plate in the direction of the central axis of the button plate, the limiting structure includes a first limiting surface and a second limiting surface opposite to the first limiting surface, the first limiting surface is disposed on the key plate mounting seat, the second limiting surface is disposed on the button plate, the first limiting surface and the second limiting surface are abutted when the contact and the pressing portion are separated, and the first limiting surface and the second limiting surface are kept away when the contact and the pressing portion are in contact.

10. The cleaning device as claimed in claim 9, wherein the button plate is sleeved in the button plate, the button plate has a hook portion extending from two sides of the button plate toward the direction of the button plate, and the second limiting surface is located on the hook portion.

[ technical field ] A method for producing a semiconductor device

The present invention relates to a cleaning device.

[ background of the invention ]

With the continuous improvement of the living standard of people, the quality of daily household appliances is pursued to be higher and higher. Various cleaning device can replace people to carry out the cleaning activity, has agreed with people and has pursued the era of high-quality life, has wide market prospect, touches the press switch and generally includes the contact and touches the splenium, when touching splenium and contact, touches the press switch and is opened, and then makes cleaning device open, however, in the use that touches the press switch, if touch splenium and take place the skew a little, will lead to touching the splenium and touch the touch, sensitivity is low, brings inconvenience for the user. Accordingly, there is a need for improvements in the art that overcome the deficiencies in the prior art.

[ summary of the invention ]

The invention aims to provide a cleaning device with sensitive starting.

The purpose of the invention is realized by the following technical scheme: a cleaning device, comprising:

the mop assembly comprises a shell, at least two cleaning pieces arranged below the shell and a driving mechanism used for driving the cleaning pieces to work;

a water tank supplying a cleaning medium to the cleaning member; and

the switch module is used for opening and closing the driving mechanism, and the switch module comprises:

the key board mounting seat is fixed on the shell;

the key board is arranged on the key board mounting seat;

the button plate is positioned on the outer side of the key plate and can move relative to the key plate;

the touch switch comprises at least two contacts and a touch portion, the at least two contacts are arranged by taking the central line of the button plate as a central axis, one of the contacts and the touch portion is arranged on the button plate, the other one of the contacts and the touch portion is arranged on the button plate, and the orthographic projection of the touch portion covers or at least partially covers the contacts; external force is applied to the button plate to enable the button plate to move towards the direction of the button plate until the touch and press part is contacted with one of the contact points, and then the driving mechanism is started; and

and the elastic piece pushes the button plate to move outwards in the direction away from the button plate so as to separate the touch pressing part from the contact.

In an embodiment of the application, the contact and/or the pressing portion are provided on the protrusion.

In an embodiment of the present invention, the key sheet is formed with a first protrusion extending in the direction of the key sheet, the key sheet is formed with a second protrusion extending in the direction of the key sheet, the contact is formed on the first protrusion, and the pressing portion is formed on the second protrusion.

In an embodiment of the application, the pressing portion includes pressing points corresponding to the number of the contacts.

In an embodiment of the present application, the elastic member is disposed near the touch switch.

In an embodiment of the present application, the elastic member is a spring provided corresponding to the number of the contacts, and one end of each of the springs is fitted over the first protrusion and the other end is fitted over the second protrusion.

In an embodiment of the application, the button plate has a pressing surface disposed opposite to the touch point, and an external force is applied to the pressing surface to drive the button plate to move toward the key plate.

In an embodiment of this application, the switch module still include the guide post and with guide post complex guide way, one of them sets up of guide post and guide way on the button board, another setting is in on the keypad, the axis of guide post, guide way overlaps with the central line of button board.

In an embodiment of the application, the switch assembly further includes a limiting structure for limiting the button plate and the key plate to move in the central axis direction of the button plate, the limiting structure includes a first limiting surface and a second limiting surface arranged opposite to the first limiting surface, the first limiting surface is arranged on the key plate mounting seat, the second limiting surface is arranged on the button plate, the first limiting surface and the second limiting surface are supported when the contact and the pressing portion are separated, and the first limiting surface and the second limiting surface are kept away when the contact and the pressing portion are contacted.

In an embodiment of the application, the button plate is sleeved in the button plate, the button plate has a hook portion formed by extending from two sides of the button plate toward the direction of the button plate, and the second limiting surface is located on the hook portion.

Compared with the prior art, the invention has the following beneficial effects: through setting up two at least contacts and touching splenium, touch the orthographic projection of splenium and cover or at least partly cover the contact to, exert on the button board when external force and make the button board move towards the keypad direction back, touch splenium and contact with one of them contact at least, thereby, make actuating mechanism start, compare with prior art, this cleaning device starts sensitively.

[ description of the drawings ]

FIG. 1 is a schematic view of a cleaning device according to an embodiment of the present invention;

FIG. 2 is a schematic view showing the internal structure of the cleaning apparatus shown in FIG. 1;

FIG. 3 is an exploded view of the cleaning device shown in FIG. 2;

FIG. 4 is a schematic view of the structure shown in FIG. 2 from another perspective;

FIG. 5 is an enlarged view of a portion of the cleaning device shown in FIG. 4;

FIG. 6 is a cross-sectional view of a switch assembly of the cleaning apparatus shown in FIG. 1;

fig. 7 is a circuit schematic of the keypad of the switch assembly shown in fig. 5.

In the figure: 100-a cleaning device;

1-mop component, 11-shell, 111-base, 1111-drain hole, 1112-first gap, 1113-second gap, 1114-roller mounting hole, 1115-rotating shaft mounting seat, 1116-open slot, 1117-mudguard, 1118-low-lying surface, 112-roller, 1121-first roller, 1122-second roller, 113-front edge, 1131-water inlet, 114-rear edge, 1141-through hole, 115-water storage tank, 116-water outlet pipe, 117-outer shell, 118-inner shell, 119-bottom plate, 12-cleaning piece, 13-driving mechanism, 131-motor, 1311-motor shaft, 1312-positive wiring port, 1313-negative wiring port, 15-mounting seat, 16-transmission mechanism, 161-worm rod part, 162-worm wheel part, 1621-driving wheel, 1622-middle wheel and 1623-driven wheel;

3-switch component, 31-key board, 311-first protrusion, 32-button board, 321-second protrusion, 323-trip part, 324-pressing surface, 33-key board mounting seat, 34-touch switch, 341-touch part, 3411-touch point, 342-contact, 35-baffle, 36-guide column, 37-guide groove, 38-limit structure, 381-first limit surface, 382-second limit surface, and 39-insertion groove;

4-butt joint part, 41-adapter, 42-hose, 43-dust suction port.

[ detailed description ] embodiments

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. It should be further noted that, for the convenience of description, only some of the structures related to the present application are shown in the drawings, not all of the structures. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "comprising" and "having," as well as any variations thereof, in this application are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Referring to fig. 1, the cleaning apparatus 100 includes a mop assembly 1, a water tank (not numbered) for supplying a cleaning medium to the mop assembly 1, and a switch assembly 3 for controlling the operation of the mop assembly 1. In the present embodiment, the cleaning device 100 is described by taking a vacuum cleaner as an example, and specifically, by taking a hand-push type vacuum cleaner as an example. In other embodiments, the cleaning device 100 may also be a cleaning device that only implements a floor mopping function, or the cleaning device 100 may also be a self-moving device that can implement both dust collection and floor mopping functions, or only implement a floor mopping function, or add other functions (such as a disinfection function, etc.) on the basis of implementing a floor mopping function. The cleaner 100 comprises a main unit (not shown) on which the mop assembly 1 is mounted.

Referring to fig. 1 and 2, the mop assembly 1 includes a housing 11, at least two cleaning members 12 disposed under the housing 11, and a driving mechanism 13 for driving the cleaning members 12. The housing 11 is surrounded by a housing chamber (not shown) in which the drive mechanism 13 is housed.

Referring to fig. 2 and 3, the housing 11 includes a base 111 and an upper case (not numbered) mounted on the base 111. The base 111 has a bottom plate 119 and an edge formed extending upward from the edge of the bottom plate 119, and the cleaning member 12 is disposed below the bottom plate 119. The edges include a front edge 113, a rear edge 114 disposed opposite the front edge 113, and side edges (not numbered) connecting the front edge 113 and the rear edge 114. Taking the normal mopping direction of the mop assembly 1 (the normal mopping direction is usually the forward direction of a person) as a reference direction, the direction indicated by an arrow a1 is a forward direction in fig. 2, and the direction indicated by an arrow a2 is a backward direction, it should be noted that the mop assembly 1 can also mop in a backward mode (the direction indicated by an arrow a2 is the backward direction of a person), and the mopping assembly 1 can realize a cleaning function regardless of whether the mopping is performed in a forward mode or a backward mode, and one side of the vacuum cleaner 100 used by a user is a rear edge.

The upper shell is supported by the edge, and the upper shell and the base 111 enclose to form a containing cavity. In the present embodiment, the water tank is disposed in the housing 11, specifically, the water tank is formed by enclosing an upper shell, the upper shell includes an inner shell 118 and an outer shell 117, which are enclosed to form the water tank, the inner shell 118 is located between the outer shell and the base 111, and the inner shell 118 and the base 111 are enclosed to form a receiving cavity. The cleaner 100 is made more compact by arranging the water tank within the housing 11 and by the inner casing 118 acting as a partition separating the water tank and the receiving chamber. Of course, in other embodiments, the water tank may be disposed on the host. In order to facilitate the water supply for the user, the housing 117 is provided with a water inlet 1131 for supplying water to the water tank. The bottom plate 119 has a water outlet (not shown) formed therein, and the water outlet is disposed above the cleaning member 12. Set up on the inner shell 118 and carry the through-hole 1141 to the apopore with cleaning medium, accomodate the intracavity and still be provided with the transport subassembly that is used for connecting through-hole and apopore. The transport assembly is known in the art and will not be described in detail herein.

It should be noted that in the present embodiment, the mop assembly 1 is further provided with a dust suction opening 43 for cleaning dirt, the dust suction opening 43 is opened on the bottom plate 119, the dust suction opening 43 is located at the front side of the cleaning member 12, and the dust suction opening 43 intersects the cleaning member 12 and is located near the front edge 113. Specifically, the number of the cleaning members 12 is two, and the dust suction port 43 and the two cleaning members 12 are arranged below the bottom plate in an equilateral triangle. Of course, in other embodiments, the cleaning members 12 may be provided in other numbers according to actual requirements, and are not particularly limited. By providing both the cleaning member 12 and the suction opening 43 in the mop assembly 1, both suction and mopping functions can be achieved. Indeed, in other embodiments, the mopping assembly 1 may not be provided with the dust suction port 43, and the mopping assembly 1 only performs the mopping function, and the vacuum cleaner 100 has two connectors, wherein one connector is the mopping assembly 1, and the other connector is the dust suction assembly with the dust suction port 43, and when in use, different connectors are replaced according to the actual required function (dust suction or mopping). In this embodiment, the mop assembly 1 is detachably connected to the host, and specifically, the mop assembly 1 is provided with a docking portion 4 for being plugged with the host. The central axis of the butt joint part 4 coincides with the transverse central axis of the mop assembly 1, and the butt joint part 4 comprises an adapter 41 connected with the host machine and a hose 42 for conveying dirt. The hose 42 is sleeved in the adapter 41, one end of the hose 42 is connected with the host, the other end of the hose 42 is connected with the dust suction port 43, and dirt enters the host through the dust suction port 43 and the hose 42. In this embodiment, the dust suction opening 43 is fan-shaped, so that the contact area between the dust suction opening 43 and the contact surface is large, and further more dirt is sucked, in other embodiments, the dust suction opening 43 may be provided in other shapes, which is not limited herein.

Referring to fig. 4 and 5, in order to reduce friction between the vacuum cleaner 100 and the contact surface and to save more labor when the vacuum cleaner 100 moves, rollers 112 for walking are mounted on the base 111. In this embodiment, half of the roller 112 is embedded in the receiving cavity, so that the overall structure of the vacuum cleaner 100 is more compact. In other embodiments, the rollers 112 may be disposed entirely below the base 111, and are not limited in this regard. The roller 112 includes a first roller 1121 and a second roller 1122. In the present embodiment, three rollers 112 are provided, the three rollers 112 are arranged in a triangle, the front edge 113 is provided with two first rollers 1121, the rear edge 114 is provided with one second roller 1122, and the transverse central axis of the second roller 1122 and the central axis of the dust suction port 43 are perpendicular to the middle point of the connection line of the two first rollers 1121, so that the structure is compact. In order to combine the arrangement of the cleaning member 12 and the dust suction port 43 to fully utilize the space on the bottom plate 119, two first rollers 1121 are respectively provided at the intersections of the front edge 113 and the two side edges, and the orthographic projections of the two first rollers 1121 do not overlap with the orthographic projection of the cleaning member 12. The contact area between the second roller 1122 and the contact surface is larger than the contact area between the first roller 1121 and the contact surface, so that the vacuum cleaner 100 is more stable and is less prone to toppling when in contact with the contact surface. In other embodiments, the number and arrangement positions of the first and second rollers 1121 and 1122 are not particularly limited.

The base 111 is provided with a water discharge hole 1111 and a roller mounting hole 1114 for mounting the roller 112, the water discharge hole 1111 and the roller mounting hole 1114 are communicated with the accommodating cavity, the water discharge hole 1111 and the roller mounting hole 1114 are at least partially overlapped, the roller 112 passes through the water discharge hole 1111 and is connected with the base 111 through a rotating shaft (not numbered), and the central axis of the rotating shaft is perpendicular to the longitudinal axis of the water discharge hole 1111. The first roller 1121 has an axis passing through the wheel surface, which coincides or substantially coincides with the perpendicular line of the water discharge hole 1111. The water discharging function of the dust collector 100 can be realized, the effect of no water discharging hole 1111 in the appearance is achieved, the occupied space is small, and the appearance is more attractive. The front edge 113 of the base 111 is concavely formed with a low-lying surface 1118, and a drain hole 1111 and a roller mounting hole 1114 are arranged on the low-lying surface 1118, so that water in the receiving cavity can flow out of the housing 11 through the drain hole 1111 of the low-lying surface 1118 more quickly, and the service life of the driving mechanism 13 in the receiving cavity and other components is prolonged.

In this embodiment, the base 111 further has a rotation shaft mounting seat 1115 located in the receiving cavity, the rotation shaft is fixedly mounted on the rotation shaft mounting seat 1115, the water discharge hole 1111 includes a first gap 1112 formed between the roller 112 and the base 111 and a second gap 1113 formed between the rotation shaft and the base 111, an open groove 1116 is formed in the rotation shaft mounting seat 1115 to communicate the second gap 1113 with the receiving cavity, and water in the receiving cavity enters the rotation shaft mounting seat 1115 through the open groove 1116, so that the water is discharged out of the housing 11 through the first gap 1112 and the second gap 1113.

The base 111 further has a mudguard 1117 located in the receiving cavity, the mudguard 1117 is disposed above the first roller 1121 to prevent muddy water from splashing into the receiving cavity when the first roller 1121 rotates, in this embodiment, the mudguard 1117 and the rotating shaft mounting seat 1115 are integrally formed, indeed, in other embodiments, the mudguard 1117 and the rotating shaft mounting seat 1115 may be separately disposed, which is not specifically limited herein, and is determined according to actual conditions.

Referring to fig. 2 and 3, the driving mechanism 13 includes two motors 131 disposed in the receiving cavity, in this embodiment, the number of the cleaning members 12 is two, and generally, one motor 131 corresponds to one cleaning member 12 and drives the corresponding cleaning member 12 to work, so the number of the motors 131 is two. The motors 131 are provided with motor shafts 1311 for outputting rotating force to drive the cleaning piece 12 to work, the directions of the motor shafts 1311 of the two motors 131 are consistent, specifically, the motor shafts 1311 of the two motors 131 are arranged towards one of the edges of the two sides, the extension line of each motor shaft 1311 is intersected with the central longitudinal axis of the mop assembly 1, and the included angle is an acute angle, so that the whole cleaning device is compact in structure, the motor shafts 1311 of the two motors 131 are arranged in parallel and are not overlapped, so that only one set of die is needed to be opened during production, and the cleaning device is convenient to install and low in cost. In this embodiment, two motors 131 are disposed near the rear edge 114, so that there is enough space on the bottom plate 119 to provide a dust suction opening, specifically, every two motors 131 are disposed in a row along the longitudinal direction of the mop assembly 1, and the two motors 131 on the same row are located at two sides of the transverse central axis of the mop assembly 1. Each motor 131 comprises a positive wiring port 1312 and a negative wiring port 1313, and the positive wiring ports 1312 and the negative wiring ports 1313 of two adjacent motors 131 in the same row are arranged at opposite positions, so that the rotating directions of two cleaning pieces 12 corresponding to the two adjacent motors 131 are opposite, and the contact surface can be cleaned better. In other embodiments, the number of the motors 131 may be other, and is not limited specifically herein, depending on the actual situation.

The mop assembly 1 further comprises a mounting seat 15 and a transmission mechanism 16 for connecting the motor 131 and the cleaning member 12 to transmit the rotating force of the motor 131 to the cleaning member 12, the mounting seat 15 is fixedly arranged on the base 111, the motor 131 is arranged on the mounting seat 15, each motor 131 corresponds to one mounting seat 15, in this embodiment, the number of the motors 131 is two, correspondingly, the number of the mounting seats 15 is two, the structures of the two mounting seats 15 are identical, and the mold opening is facilitated.

The transmission mechanism 16 includes a worm part 161 formed on the motor shaft 1311 and a worm wheel part 162 connected to the worm part 161, and an output shaft connecting the worm wheel part 162 and the cleaning member 12 through the base 111, the worm wheel part 162 being disposed at one side of the worm part 161. The worm part 161 is sleeved on the motor shaft 1311 and rotates with the motor shaft 1311 to drive the worm part 162 to rotate, the worm part 162 includes a driving wheel 1621 connected with the worm part 161 in a meshing manner, a middle wheel 1622 connected with the driving wheel 1621, and a driven wheel 1623 connected with the middle wheel 1622, wherein the driving wheel 1621 and the middle wheel 1622 are coaxial double-layer gears, the driven wheel 1623 is a single-layer gear, specifically, in the height direction of the vacuum cleaner 100, an upper wheel of the driving wheel 1621 is connected with the worm part 161 in a meshing manner, a lower wheel of the driving wheel 1621 is connected with an upper wheel of the middle wheel 1622 in a meshing manner, a lower wheel of the middle wheel 1622 is connected with the driven wheel 1623 in a meshing manner, when the worm part 161 rotates with the motor shaft 1311, the worm part 161 transmits the rotating force generated by the motor 131 to the upper wheel of the driving wheel 1621 to drive the rotating shaft, thereby driving the rotating shaft to rotate the lower wheel of the driving wheel 1621, and similarly, the lower wheel of the driving wheel 162, and then transmitted to the output shaft to drive the cleaning member 12 to work.

Referring to fig. 6 in conjunction with fig. 1, the switch assembly 3 is disposed on the rear edge 114 and clamped between the base 111 and the upper housing. The rear edge 114 of the base 111 and the upper shell are both provided with half slots (not numbered) for mounting the switch assembly 3. In use, a user applies pressure to the switch assembly 3 by foot to cause the switch assembly 3 to close. Of course, in other embodiments, the switch assembly 3 may be disposed in other locations to facilitate operation. The switch unit 3 includes a key sheet mounting seat 33 fixed to the base 111, a key sheet 31 mounted on the key sheet mounting seat 33, a button plate 32 provided outside the key sheet 31, an elastic member (not shown) located between the key sheet 31 and the button plate 32, and a touch switch 34. Except that the button plate 32 is partially positioned in the containing cavity, other parts of the switch component 3 are positioned in the containing cavity. The button plate 32 is movable relative to the key plate 31 in the front-rear direction of the cleaner 100 (the direction of arrow a1-a2 in fig. 2).

The touch switch 34 includes at least two contacts 342 and a touch portion 341, the at least two contacts 342 are arranged with the center line d-d of the button plate 32 as the central axis, the at least two contacts 342 are in parallel circuit, one of the contacts 342 and the touch portion 341 is disposed on the button plate 31, and the other is disposed on the button plate 32. Wherein the orthographic projection of the touch portion 341 covers or at least partially covers the contacts 342, the touch portion 341 includes touch points 3411 arranged corresponding to the number of the contacts 342, the button plate 32 has a pressing surface 324 arranged opposite to the touch points 3411, an external force is applied to the pressing surface 324 of the button plate 32 to move the button plate 32 in a direction toward the key sheet 31 until the touch portion 341 contacts one of the contacts 342 to activate the driving mechanism 13. Specifically, in the present embodiment, the number of the contacts 342 is two, two contacts 342 are symmetrically disposed on two sides of the center line d-d of the button plate 32, and correspondingly, the pressing portion 341 includes two pressing points 3411 disposed corresponding to the two contacts 342, as shown in fig. 7, the two pressing points 3411 and the two contacts 342 form two switches S1 and S2 connected in parallel. In other embodiments, the pressing portion 341 may be configured as a ring structure or a semi-ring structure that can be respectively contacted with the two contacts 342, or the pressing portion 341 may be configured as a ring structure or a semi-ring structure that respectively corresponds to the two contacts 342 to realize one-to-one contact. In addition, in other embodiments, the number of the contacts 342 may be two or more, such as a plurality of contacts arranged circumferentially or arranged in a scattered manner, so as to improve the sensitivity of the contact. In order to facilitate direct contact of the contact 342 with the pressing portion 341, the contact 342 and/or the pressing portion 341 are provided on the protrusion. Specifically, the key sheet 31 is formed with a first protrusion 311 extending in the direction of the button sheet 32, the button sheet 32 is formed with a second protrusion 321 extending in the direction of the key sheet 31, the contact 342 is formed on the first protrusion 311, and the contact point 3411 is formed on the second protrusion 321.

In this embodiment, the closing of the switch assembly 3 is performed by applying an external force to the key sheet 31 to push the button sheet 32 to move toward the key sheet 31 (in the direction of arrow a2 in fig. 2), so that the at least one contact 342 contacts the touch point 3411, and the driving mechanism 13 is activated. The switch assembly 3 is separated by an elastic member, specifically, the elastic member pushes the button plate 32 to move away from the key sheet 31 (direction of arrow a1 in fig. 2) to separate the contact point 3411 from the contact 342, so that the switch assembly 3 is turned off and the driving mechanism 13 is turned off. The elastic member is disposed near the touch switch 34, and the elastic member is a spring corresponding to the number of the contacts 342, in this embodiment, the contacts 342 and the touch points 3411 are respectively disposed in two, and correspondingly, the springs are also disposed in two, one end of each spring is sleeved on the first protrusion 311, the other end of each spring is sleeved on the second protrusion 321, when the force applied to the pressing surface 324 is removed, the contacts 342 and the touch points 3411 are separated by the springs, the driving mechanism 13 is closed, and the operation of the vacuum cleaner 100 is stopped.

Referring to fig. 6, the switch assembly 3 further includes a guide post 36 and a guide groove 37 engaged with the guide post 36, one of the guide post 36 and the guide groove 37 is provided on the button plate 32, and the other is provided on the key sheet 31. The central axes of the guide post 36 and the guide groove 37 are overlapped with the central axis of the button plate 32, and the two first protrusions 311 and the second protrusions 321 are symmetrically arranged along the central axis of the guide post 36, so that the force application of an operator is more labor-saving, and the sensitivity is high. In this embodiment, the guide post 36 is disposed on the key sheet 31, and the guide groove 37 is disposed on the button sheet 32, and in other embodiments, the guide post 36 may be disposed on the button sheet 32, and the guide groove 37 may be disposed on the key sheet 31, which is not particularly limited herein and is determined according to the actual situation. When an external force is applied to the pressing surface 324, the button plate 32 moves toward the key sheet 31 (in the direction of arrow a2 in fig. 2), at least a portion of the guide post 36 is located in the guide groove 37, the distance from the guide post 36 to the pressing surface 324 is defined as a first distance, and the distance from each contact 342 to the touch point 3411 is defined as a second distance, wherein the first distance is not less than the second distance.

The switch component 3 further includes a limiting structure 38 for limiting the button board 32 and the key board 31 to move in the central axis direction of the button board 32, the limiting structure 38 includes a first limiting surface 381 and a second limiting surface 382 arranged opposite to the first limiting surface 381, the first limiting surface 381 is arranged on the key board mounting seat 33, when the contact 342 and the pressing portion 341 are separated, the first limiting surface 381 supports against the second limiting surface 382, when the contact 342 and the pressing portion 341 are contacted, the first limiting surface 381 and the second limiting surface 382 are far away from and form a distance, and the distance is equal to the second distance.

Specifically, the button plate 31 is sleeved in the button plate 32, the button plate 32 has a hook portion 323, the hook portion 323 extends from two sides of the button plate 32 toward the direction of the button plate 31 to form, the second limiting surface 382 is disposed on the hook portion 323 of the button plate 32, the base 111 extends upward to form two baffles 35, the two baffles 35 are disposed on two sides of the button plate 32 respectively, an insertion groove 39 is formed between the baffle 35 and the hook portion 323, the button plate mounting seat 33 is annular, and the annular button plate mounting seat 33 is sleeved in the insertion groove 39 to abut against the hook portion 323. In other embodiments, the keypad mounting seat 33 and the keypad 31 may be integrally formed, and are not limited in particular. By sleeving the key sheet 31 in the button sheet 32, on one hand, the key sheet 31 is prevented from shifting when contacting the button sheet 32, and on the other hand, the overall structure is compact.

Referring to fig. 4, in order to ensure that the first roller 1121 and the second roller 1122 can contact with the contact surface to facilitate the movement of the vacuum cleaner 100, the cleaning member 12 is made of an elastic material with good water absorption and compressibility, specifically, the cleaning member 12 may be made of a material such as collodion or fiber, and is not limited thereto.

The above description is only for the purpose of illustrating embodiments of the present invention and is not intended to limit the scope of the present invention, and all modifications, equivalents, and equivalent structures or equivalent processes that can be used directly or indirectly in other related fields of technology shall be encompassed by the present invention.