CN114847827A

CN114847827A - Steam mop with self-cleaning capability

Info

Publication number: CN114847827A
Application number: CN202210251925.8A
Authority: CN
Inventors: 朱敏
Original assignee: Suzhou Clean Well Appliance Co ltd
Current assignee: Suzhou Clean Well Appliance Co ltd
Priority date: 2022-03-15
Filing date: 2022-03-15
Publication date: 2022-08-05
Anticipated expiration: 2042-03-15
Also published as: CN114847827B

Abstract

The invention relates to the field of cleaning tools, in particular to a steam mop with self-cleaning capability. Which comprises a mop rod, a mop head, a steam generator and a connecting device. The connecting device comprises a lower connector, a lower toothed ring, a lower fixed arc plate, an upper toothed ring, an upper fixed arc plate, a first transmission assembly, a second transmission assembly, an upper friction ring surface, a lower friction ring surface and an upper connector. The lower gear ring is rotatably and movably arranged in the lower connector up and down; the upper friction ring surface is arranged at the lower end of the upper connector to drive the first transmission assembly and the second transmission belt assembly; the lower friction ring surface is arranged in the lower connector in a way of moving up and down and is always contacted with the first transmission assembly and the second transmission assembly; the utility model provides an usable high pressure of automatically cleaning mop produces steam, can clean and disinfect, no matter clockwise revolving force or anticlockwise revolving force in the use, all can increase the fastness of hookup location for the connection of device is more reliable.

Description

Steam mop with self-cleaning capability

Technical Field

The invention relates to the field of cleaning tools, in particular to a steam mop with self-cleaning capability.

Background

The principle of the steam mop is that water is heated to generate pressure and high temperature, and high-temperature and high-pressure steam is directly used for disinfection and sterilization to clean the home environment. The steam mop generally has the functions of high-temperature sterilization, oil stain removal and the like. The steam is generated by high pressure, so that the cleaning and sterilization can be realized, and the dirt which is difficult to wind can be easily and loosely treated. The steam mop can quickly remove dirt, is time-saving and labor-saving, and is economical and practical. No detergent is needed to be added, and the economic principle is completely met.

However, the connecting position of the steam output end and the mop head of the existing steam mop is generally a detachable structure, so that the mop is convenient to replace and maintain when a certain part is damaged, but the detachable structure is easy to loose due to the fact that the connecting position is damaged by torsional force, and the use is affected by steam leakage. Therefore, how to solve the problem that the connection position is easy to loosen due to the torsional force of the detachable structure of the existing steam mop.

Disclosure of Invention

The invention provides a steam mop with self-cleaning capability, which aims to solve the problem that the detachable structure of the existing steam mop is easy to loosen the connection position due to torsional force, so that the use is affected by steam leakage.

The steam mop with the self-cleaning capability adopts the following technical scheme: a mop with self-cleaning capability comprises a mop rod, a mop head and a steam generator; the steam generator is connected with the mop rod and also comprises a connecting device; the connecting device comprises a lower connector, a lower gear ring, a lower fixed arc plate, an upper gear ring, an upper fixed arc plate, a first transmission assembly, a second transmission assembly, an upper friction ring surface, a lower friction ring surface and an upper connector; the lower connector is arranged along the vertical direction and is communicated with the mop head; the lower gear ring is rotatably and vertically arranged in the lower connector, and the lower fixed arc plate is fixedly connected with the lower gear ring so as to drive the lower gear ring to rotate; the upper gear ring is meshed with the lower gear ring and can move upwards relative to the lower gear ring; the upper fixed arc plate is fixedly connected with the upper toothed ring to drive the upper toothed ring to rotate; the first transmission component is connected with the upper fixed arc plate in a one-way sliding manner; the second transmission component is configured to drive the lower fixed arc plate to rotate; the rotating speed of the second transmission component is higher than that of the first transmission component; the upper friction ring surface is arranged at the lower end of the upper connector in a manner of moving up and down so as to drive the first transmission assembly and the second transmission belt assembly; the lower friction ring surface is arranged in the lower connector in a way of moving up and down and is always contacted with the first transmission assembly and the second transmission assembly; the upper connector is positioned at the upper end of the lower connector and forms a closed structure with the lower connector so as to drive the upper friction ring surface to rotate, and the upper connector is communicated with the steam generator.

Further, the first transmission assembly comprises a first friction wheel and a sliding hinge shaft; the sliding hinge shaft is connected with the upper fixed arc plate in a one-way sliding mode, and the first friction wheel is sleeved on the sliding hinge shaft so as to drive the first friction wheel to rotate in the axis direction of the sliding hinge shaft through friction transmission when the upper friction ring surface rotates.

Further, the second transmission assembly comprises a fixed hinge shaft and a second friction wheel; the fixed articulated shaft is fixedly connected with the lower fixed arc plate; the second friction wheel is sleeved on the fixed hinged shaft so as to drive the second friction wheel to rotate in the axis direction of the fixed hinged shaft through friction transmission when the upper friction ring surface rotates.

Further, the screw shaft is also included; the screw shaft is arranged in the lower connector, the screw shaft is of a hollow structure, the outer wall surface of the screw shaft is provided with a spline groove, the inner wall surface of the upper gear ring is provided with a lug, and the lug is in meshing transmission with the spline groove so that the lug moves in the spline groove when the upper gear ring rotates to enable the upper gear ring to rotate and move downwards.

Furthermore, the friction wheel further comprises a pressing rod, wherein the pressing rod is arranged outside the lower connecting head, so that the pressing rod moves inwards to extrude the second friction wheel, and the rotating speed of the second friction wheel is greater than that of the first friction wheel.

Furthermore, a space which can enable the upper friction ring surface to move upwards is defined between the upper connector and the upper friction ring surface.

Furthermore, the first friction wheel and the sliding hinge shaft as well as the second friction wheel and the fixed hinge shaft are rotatably connected through a pressure spring.

Furthermore, a mounting opening is formed in the lower connecting head, the pressing rod penetrates through the mounting opening to be in contact with the second friction wheel, a socket is formed in the part, located outside the lower connecting head, of the pressing rod, and the socket is locked through the bolt.

Furthermore, the inner wall of the sliding hinge shaft is provided with one-way teeth, and the surface of the outer wall of the upper fixed arc plate, which is connected with the sliding hinge shaft, is provided with ratchets matched with the one-way teeth.

The invention has the beneficial effects that: when the steam mop with the self-cleaning capability is used, the upper connector is communicated with the lower connector and is ensured to be communicated with the steam generator, so that steam can be generated by the self-cleaning mop under the condition of high temperature, cleaning and sterilization can be realized, no matter clockwise rotating force or anticlockwise rotating force is generated in the using process, the upper fixing arc plate, the upper tooth ring, the lower fixing arc plate and the lower tooth ring can be driven to rotate through the friction transmission of the upper friction ring surface and the lower friction ring surface, the first transmission assembly and the second transmission assembly, so that the firmness of the connecting position is improved, and the connection of the device is more reliable.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of a steam mop with self-cleaning capability of the present invention;

FIG. 2 is an exploded pictorial illustration of the attachment structure of an embodiment of the steam mop with self-cleaning capability of the present invention;

FIG. 3 is a schematic view, partly in section, of an attachment device of an embodiment of the steam mop with self-cleaning capability of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at position A;

FIG. 5 is a partial schematic structural view of an embodiment of a steam mop with self-cleaning capability according to the present invention;

fig. 6 is a partial schematic view of a lower connecting head of an embodiment of the steam mop with self-cleaning capability of the present invention.

In the figure: 1. a mop rod; 2. a steam generator; 3. a mop head; 4. a connecting device; 211. an upper connector; 212. an upper friction ring surface; 213. a chute; 221. a first friction wheel; 222. an upper toothed ring; 223. an upper fixed arc plate; 224. a sliding hinge shaft; 225. a bump; 231. a second friction wheel; 232. a lower toothed ring; 233. a lower fixed arc plate; 234. fixing a hinged shaft; 241. a lower friction ring surface; 242. a spline; 251. a spline groove; 252. a screw shaft; 253. a lower connector; 254. a helical groove; 26. a pressure lever; 27. and (5) pressing a spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

An embodiment of the steam mop with self-cleaning capability of the invention, as shown in fig. 1 to 6, comprises a mop rod 1, a mop head 3 and a steam generator 2; the steam generator 2 is connected with the mop rod 1 and also comprises a connecting device 4. Specifically, the lower end of the connecting device 4 is connected with the mop head 3, the upper end of the connecting device 4 is connected with the lower end of the steam generator 2, and the upper end of the steam generator 2 is connected with the mop rod 1. The connecting device 4 comprises a lower connecting head 253, a lower gear ring 232, a lower fixed arc plate 233, an upper gear ring 222, an upper fixed arc plate 223, a first transmission assembly, a second transmission assembly, an upper friction ring surface 212, a lower friction ring surface 241 and an upper connecting head 211; the lower connecting head 253 extends along the vertical direction, and the lower end of the lower connecting head 253 is communicated with the mop head 3; the lower gear ring 232 is rotatably and vertically movably arranged in the lower connector 253, and the lower fixed arc plate 233 is fixedly connected to the lower gear ring 232 to drive the lower gear ring 232 to rotate; the upper gear ring 222 is meshed with the lower gear ring 232, and the upper gear ring 222 can move upwards relative to the lower gear ring 232; the upper fixed arc plate 223 is fixedly connected to the upper gear ring 222 to drive the upper gear ring 222 to rotate; the first transmission component is connected with the upper fixed arc plate 223 in a one-way sliding way; the upper fixed arc plate 223 is driven to rotate when the upper fixed arc plate rotates anticlockwise; the second transmission component is configured to drive the lower fixed arc plate 233 to rotate; the rotating speed of the second transmission component is higher than that of the first transmission component; the upper friction ring surface 212 is disposed at a lower end of the upper connecting head 211 to be movable up and down, and specifically, a space for moving the upper friction ring surface 212 up is defined between the upper connecting head 211 and the upper friction ring surface 212. To drive the first and second drive assemblies; the lower friction ring surface 241 is disposed in the lower connecting head 253 to be movable up and down and is always in contact with the first transmission assembly and the second transmission assembly; go up connector 211 and be located connector 253 upper end down and form the enclosed construction with connector 253 down to drive friction ring face 212 and rotate, go up connector 211 upper end and steam generator 2 intercommunication, go up connector 211 inner wall and seted up spout 213, go up fixed arc 223 and can slide down and seted up a plurality of spline grooves 251 in connector 253 in spout 213, friction ring face 241 periphery wall is provided with a plurality of splines 242 down, every spline 242 sets up in a spline groove 251.

When in use, the upper connector 211 is communicated with the lower connector 253 and is communicated with the steam generator 2, so that under the condition of high temperature, the self-cleaning mop can utilize high pressure to generate steam, thus being capable of cleaning and sterilizing, when the upper connector 211 is subjected to external force of clockwise rotation, the upper friction ring surface 212 synchronously rotates along with the upper connector 211 and simultaneously drives the first transmission component and the second transmission component, the rotating speed of the second transmission component is higher than that of the first transmission component, the lower fixed arc plate 233 is driven by the second transmission component to clockwise rotate, the lower fixed arc plate 233 drives the lower gear ring 232 to rotate clockwise, at the moment, because the rotating speed of the second transmission component is higher than that of the first transmission component, the upper gear ring 222 finally synchronously rotates clockwise under the drive of the lower gear ring 232 and synchronously moves downwards in the rotating process of the upper gear ring 222, the upper connector 211 is tightly coupled with the lower connector 253.

If the upper connector 211 rotates counterclockwise, the upper friction ring surface 212 rotates synchronously with the upper connector 211 and drives the first transmission assembly and the second transmission assembly simultaneously, because the upper fixed arc plate 223 is connected with the first transmission assembly in a one-way sliding manner, at this time, the first transmission assembly drives the upper fixed arc plate 223 to rotate counterclockwise synchronously, the second transmission assembly drives the lower fixed arc plate 233 to rotate counterclockwise, but because the rotating speed of the first transmission assembly is greater than the rotating speed of the second transmission assembly, the lower gear ring 232 can eject the upper gear ring 222 upwards in the rotating process, the upper gear ring 222 reversely rotates to exit from the lower connector 253, but the distance of pushing in reverse is less than the distance of ejecting the upper gear ring 222 by the lower gear ring 232, so that the device is connected more tightly.

In the present embodiment, the first transmission assembly includes a first friction wheel 221 and a sliding hinge shaft 224; the sliding hinge shaft 224 is connected with the upper fixed arc plate 223 in a one-way sliding manner, specifically, the inner wall of the sliding hinge shaft 224 is provided with one-way teeth, and the surface of the outer wall of the upper fixed arc plate 223 connected with the sliding hinge shaft 224 is provided with ratchets matched with the one-way teeth. The first friction wheel 221 is sleeved on the sliding hinge shaft 224, so that when the upper friction ring surface 212 rotates, the first friction wheel 221 is driven to rotate in the axial direction of the sliding hinge shaft 224 through friction transmission. The second transmission assembly includes a fixed hinge shaft 234 and a second friction wheel 231; the fixed hinge shaft 234 is fixedly connected with the lower fixed arc plate 233; the second friction wheel 231 is sleeved on the fixed hinge shaft 234, so that when the upper friction ring surface 212 rotates, the second friction wheel 231 is driven to rotate in the axial direction of the fixed hinge shaft 234 through friction transmission. The first friction wheel 221 and the sliding hinge shaft 224, and the second friction wheel 231 and the fixed hinge shaft 234 are rotatably connected by the compression spring 27. In the initial state, the first friction wheel 221 and the second friction wheel 231 are located at the outermost ends by the compression spring 27.

In this embodiment, a screw shaft 252 is further included; the screw shaft 252 is disposed in the lower connector 253, the screw shaft 252 is hollow, the screw shaft 252 has a spiral groove 254 on an outer wall surface thereof, the protrusion 225 is disposed on an inner wall surface of the upper gear ring 222, and the protrusion 225 is engaged with the spiral groove 254 for driving, so that the protrusion 225 moves in the spiral groove 254 when the upper gear ring 222 rotates, and the upper gear ring 222 rotates and moves downward. Specifically, the number of the protrusions 225 is plural, and the spiral grooves 254 are provided corresponding to the number of the protrusions 225. The friction plate further comprises a pressure lever 26, and the pressure lever 26 is arranged outside the lower connecting head 253, so that the pressure lever 26 moves inwards to press the second friction wheel 231, and the rotating speed of the second friction wheel 231 is greater than that of the first friction wheel 221. Specifically, the lower connecting head 253 is provided with a mounting opening, the pressure lever 26 passes through the mounting opening to contact with the second friction wheel 231, the inner end of the pressure lever 26 contacts with the lower part of the outer end of the second friction wheel 231, a part of the pressure lever 26, which is located outside the lower connecting head 253 and leaks out, is provided with a socket, and the socket is locked by a bolt. So that the second friction wheel 231 is locked after being pressed.

The working process is as follows: before use, the upper and lower toothed rings are aligned and pushed axially to secure the device in place. The second friction wheel 231 is pushed inwards by the pressure rod 26, and the pressure rod 26 is locked artificially, so that the transmission ratio of the second friction wheel 231 to the first friction wheel 221 is changed. When in use, the upper connector 211 is communicated with the lower connector 253 and is ensured to be communicated with the steam generator 2, so that steam can be generated by high pressure in the self-cleaning mop, the self-cleaning mop can be cleaned and sterilized, when the upper connector 211 is subjected to external force rotating clockwise in the use process, the upper friction ring surface 212 rotates synchronously with the upper connector 211, the first friction wheel 221 and the second friction wheel 231 are driven to rotate simultaneously, and the speed of the second friction wheel 231 is greater than that of the first friction wheel 221.

The first friction wheel 221 and the second friction wheel 231 are both in contact with the lower friction ring surface 241, the lower friction ring surface 241 does not rotate, the first friction wheel 221 rotates to drive the sliding hinge shaft 224 to rotate, the sliding hinge shaft 224 drives the upper fixed arc plate 223 to rotate, and the clockwise rotation of the upper fixed arc plate 223 drives the upper gear ring 222 to rotate. The second friction wheel 231 rotates to drive the fixed hinge shaft 234 to rotate clockwise, the fixed hinge shaft 234 rotates to drive the lower fixed arc plate 233 to rotate clockwise, the clockwise rotation of the lower fixed arc plate 233 drives the lower gear ring 232 to rotate, but because the revolution speed of the second friction wheel 231 is greater than that of the first friction wheel 221, the speed of the first friction wheel 221 driving the upper fixed arc plate 223 to rotate is less than the speed of the second friction wheel 231 driving the lower fixed arc plate 233 to rotate, finally, the upper gear ring 222 is driven by the lower gear ring 232 to synchronously rotate clockwise, and the lug 225 synchronously moves downwards in the spiral groove 254 in the rotating process of the upper gear ring 222, so that the upper connector 211 is tightly connected with the lower connector 253.

If the upper connecting head 211 is rotated counterclockwise, the upper friction ring 212 rotates synchronously with the upper connecting head 211, and drives the first friction wheel 221 and the second friction wheel 231 to rotate simultaneously, and the speed of the second friction wheel 231 is greater than that of the first friction wheel 221.

First friction pulley 221 and second friction pulley 231 all contact with lower friction ring surface 241, lower friction ring surface 241 does not rotate, first friction pulley 221 drives slip articulated shaft 224 and rotates, second friction pulley 231 will drive fixed articulated shaft 234 and rotate, because the revolution speed of second friction pulley 231 is greater than first friction pulley 221, fixed articulated shaft 234 rotates and drives down fixed arc plate 233 and rotates, the anticlockwise rotation of lower fixed arc plate 233 drives down ring gear 232 and rotates, slip articulated shaft 224 rotates and drives fixed arc plate 223 synchronous rotation, it drives up ring gear 222 and rotates to go up fixed arc plate 223 anticlockwise rotation. Therefore, the lower gear ring 232 rotates faster than the upper gear ring 222, and therefore, during the rotation process, the lower gear ring 232 will push the upper gear ring 222 upwards, and the upper gear ring 222 reversely rotates to exit the lower connector 253, but the distance of reverse rotation to exit is less than the distance of the lower gear ring 232 to push the upper gear ring 222 upwards, so that the device connection is tighter.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. A mop with self-cleaning capability comprises a mop rod, a mop head and a steam generator; steam generator and mop pole link to each other its characterized in that: also comprises a connecting device; the connecting device comprises a lower connector, a lower gear ring, a lower fixed arc plate, an upper gear ring, an upper fixed arc plate, a first transmission assembly, a second transmission assembly, an upper friction ring surface, a lower friction ring surface and an upper connector;

the lower connector is arranged along the vertical direction and is communicated with the mop head;

the lower gear ring is rotatably and movably arranged in the lower connecting head up and down,

the lower fixed arc plate is fixedly connected with the lower toothed ring to drive the lower toothed ring to rotate;

the upper gear ring is meshed with the lower gear ring and can move upwards relative to the lower gear ring;

the upper fixed arc plate is fixedly connected with the upper toothed ring to drive the upper toothed ring to rotate;

the first transmission component is connected with the upper fixed arc plate in a one-way sliding manner;

the second transmission component is configured to drive the lower fixed arc plate to rotate; the rotating speed of the second transmission component is higher than that of the first transmission component;

the upper friction ring surface is arranged at the lower end of the upper connector in a manner of moving up and down so as to drive the first transmission assembly and the second transmission belt assembly;

the lower friction ring surface is arranged in the lower connector in a way of moving up and down and is always contacted with the first transmission assembly and the second transmission assembly;

the upper connector is positioned at the upper end of the lower connector and forms a closed structure with the lower connector so as to drive the upper friction ring surface to rotate, and the upper connector is communicated with the steam generator.

2. The mop with self-cleaning capability of claim 1, wherein: the first transmission assembly comprises a first friction wheel and a sliding hinge shaft;

the sliding articulated shaft is connected with the upper fixed arc plate in a one-way sliding way,

first friction pulley cup joints in the slip articulated shaft to when last friction ring face rotated, drive first friction pulley and rotate at the axis direction of slip articulated shaft through friction drive.

3. The mop with self-cleaning capability of claim 1, wherein: the second transmission assembly comprises a fixed hinged shaft and a second friction wheel;

the fixed articulated shaft is fixedly connected with the lower fixed arc plate;

the second friction wheel is sleeved on the fixed hinged shaft so as to drive the second friction wheel to rotate in the axis direction of the fixed hinged shaft through friction transmission when the upper friction ring surface rotates.

4. The mop with self-cleaning capability of claim 1, wherein: also comprises a spiral shaft; the screw shaft is arranged in the lower connector, the screw shaft is of a hollow structure, the outer wall surface of the screw shaft is provided with a spline groove, the inner wall surface of the upper gear ring is provided with a lug, and the lug is in meshing transmission with the spline groove so that the lug moves in the spline groove when the upper gear ring rotates to enable the upper gear ring to rotate and move downwards.

5. The mop with self-cleaning capability of claim 1, wherein: the lower connector is provided with a pressing rod, so that the pressing rod moves inwards to extrude the second friction wheel, and the rotating speed of the second friction wheel is higher than that of the first friction wheel.

6. The mop with self-cleaning capability of claim 1, wherein: a space which can enable the upper friction ring surface to move upwards is defined between the upper connector and the upper friction ring surface.

7. The mop with self-cleaning capability of claim 3, wherein: the first friction wheel and the sliding articulated shaft as well as the second friction wheel and the fixed articulated shaft are rotatably connected through a pressure spring.

8. The mop with self-cleaning capability of claim 5, wherein: the lower connecting head is provided with a mounting opening, the pressure rod penetrates through the mounting opening to be in contact with the second friction wheel, and the part of the pressure rod, which is positioned outside the lower connecting head, is provided with a socket, and the socket is locked through a bolt.

9. The mop with self-cleaning capability of claim 2, wherein: the inner wall of the sliding articulated shaft is provided with one-way teeth, and the surface of the outer wall of the upper fixed arc plate, which is connected with the sliding articulated shaft, is provided with ratchets matched with the one-way teeth.