CN110916581B

CN110916581B - Rotary turnover type steam mop

Info

Publication number: CN110916581B
Application number: CN201911257087.XA
Authority: CN
Inventors: 刘素凤
Original assignee: Individual
Current assignee: Liu Sufeng
Priority date: 2019-12-10
Filing date: 2019-12-10
Publication date: 2021-04-13
Anticipated expiration: 2039-12-10
Also published as: CN110916581A

Abstract

The invention relates to the technical field of household appliance preparation, in particular to a rotary turnover type steam mop, which comprises: the steam diffusion plate comprises a handle, a host, a rotating assembly and a steam diffusion plate; the lower end of the handle is provided with a host which is connected with the steam diffusion plate through a rotating assembly; according to the invention, only one steam conveying pipeline is unblocked through the rotating assembly, so that the problem that power is lost due to the fact that steam flows out along the upper surface and the lower surface of the steam diffusion plate is effectively avoided, and meanwhile, the surface can be changed by pressing the key, so that the operation is simpler.

Description

Rotary turnover type steam mop

Technical Field

The invention relates to the technical field of household appliance preparation, in particular to a rotary turnover type steam mop.

Background

The mop is an indispensable living appliance in a home, the conventional mop needs certain humidity when cleaning the floor in the home so as to adsorb dust, the floor is wet after cleaning, but oil stains or viscous liquid cannot be well removed, the steam mop is a further improvement on the basis of the conventional mop, water is converted into steam through a steam generator, the high temperature of the steam dissolves the oil stains or the viscous liquid, meanwhile, the steam volatilization efficiency is high, the floor cannot form water quality, the existing steam mop in the market is roughly divided into a single-side steam mop and a double-side steam mop, only one surface of the single-side steam mop cleans the floor, when one surface of the double-side steam cannot be used, the other surface of the mop can be used only by turning over, the double-side steam mop is obviously superior to the single-side steam mop in use convenience, but the utilization rate of the single-side steam mop is greater than that of the double-side steam mop in steam utilization rate, because the upwardly facing side of the double-sided steam mop is constantly steaming, theoretically half of the steam is dissipated in the air, with greater losses.

Disclosure of Invention

Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a rotary-type reversible steam mop in which a steam delivery pipe is separated from a pipe on a previous side when rotating, and is connected to a pipe on the other side after the rotation is stopped.

A rotary flip-top steam mop comprising: the steam diffusion plate comprises a handle, a host, a rotating assembly and a steam diffusion plate;

the lower end of the handle is connected with the host;

the rotating assembly includes: the device comprises a crank connecting rod assembly, a button, a stop block, a transmission shaft, a first gear, a rotary drum, a second gear, a first cylindrical cam, a second cylindrical cam and a telescopic pipe;

the crank connecting rod assembly is arranged in the handle, one end of the button is connected with the crank connecting rod assembly through a shaft, the other end of the button is connected with the handle through a torsion spring, a convex block is arranged on the crank close to one side of the button, and two ends of the crank are respectively provided with a stop block;

when the handle of the transmission shaft is vertical, the transmission shaft is vertically arranged below the crank connecting rod assembly, one end of the transmission shaft is connected with the axis of a crank in the crank connecting rod assembly, the other end of the transmission shaft extends downwards into the main machine and is movably connected with a supporting plate in the main machine, and the end part of the other end of the transmission shaft is connected with a first gear through a one-way bearing;

one end of the rotary drum is positioned in the main machine and is connected with the rotary drum through a bearing in the main machine, the other end of the rotary drum is connected with one side of the steam diffusion plate through a shaft, three pipelines are arranged in the rotary drum, two ends of each pipeline are communicated with two end faces of the rotary drum, three silicone tubes are arranged on one face, close to the steam diffusion plate, of the rotary drum and are respectively communicated with the three pipelines, and the three silicone tubes are respectively communicated with two steam outlet tubes and one liquid outlet tube in the steam diffusion plate;

the second gear is nested on the rotary drum and meshed with the first gear;

the first circular cam is fixed on the top surface of the rotary drum;

the second cylindrical cam is meshed with the first cylindrical cam, a liquid outlet pipe penetrates through the axis of the second cylindrical cam, and the lower end of the liquid outlet pipe is connected with the middle pipeline;

the telescopic pipe is divided into an upper pipe and a lower pipe, the lower pipe of the telescopic pipe is embedded into the upper pipe, the upper pipe of the telescopic pipe is connected with the steam generator, and the lower pipe is fixed with the cylindrical cam and extends downwards to be inserted into a pipeline.

In one embodiment, the lower end of the telescopic pipe lower pipe is provided with a sealing ring.

In one embodiment, a spring is arranged between the upper pipe and the lower pipe of the telescopic pipe.

In one embodiment, the lower end of the liquid outlet pipe is movably connected with the middle pipe.

Advantageous effects

According to the invention, only one steam conveying pipeline is unblocked through the rotating assembly, so that the problem that power is lost due to the fact that steam flows out along the upper surface and the lower surface of the steam diffusion plate is effectively avoided, and meanwhile, the surface can be changed by pressing the key, so that the operation is simpler.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of a rotary assembly according to the present invention.

FIG. 3 is a schematic view of the internal structure of the drum according to the present invention.

FIG. 4 is a schematic view of the first pushing and opening assembly and the second cylindrical cam according to the present invention.

FIG. 5 is a schematic view of the vapor diffuser plate according to the present invention.

As shown in the figure: 1-handle, 2-main unit, 3-rotating unit, 4-steam diffusion plate, 31-crank connecting rod assembly, 32-button, 33-block, 34-transmission shaft, 35-gear I, 36-rotary drum, 37-gear II, 38-cylindrical cam I, 39-cylindrical cam II and 30-telescopic pipe.

Detailed Description

The present invention is further illustrated in the following description with reference to specific embodiments and the accompanying drawings, wherein the details are set forth in order to provide a thorough understanding of the present invention, but it is apparent that the present invention can be embodied in many other forms different from the description herein, and it will be readily appreciated by those skilled in the art that the present invention can be embodied in many different forms without departing from the spirit and scope of the invention.

As shown in fig. 1 and 2, a rotary-flip steam mop includes: the device comprises a handle 1, a host machine 2, a rotating assembly 3 and a steam diffusion plate 4;

the lower end of the handle 1 is connected with a main machine 2, and a water tank, a liquid accumulation tank, a filter, a water pump and a steam generator are arranged in the main machine 2;

as shown in fig. 2, the rotating assembly 3 includes: a crank connecting rod assembly 31, a button 32, a stop 33, a transmission shaft 34, a first gear 35, a rotary drum 36, a second gear 37, a first cylindrical cam 38, a second cylindrical cam 39 and a telescopic pipe 30;

the crank connecting rod assembly 31 is arranged in the handle 1, one end of the button 32 is connected with the crank connecting rod assembly 31 through a shaft, the other end of the button 32 is connected with the handle 1 through a torsion spring, wherein a convex block (not shown) is arranged on the crank close to one side of the button 32, two ends of the crank are respectively provided with a stop block 33, an initial stop block 33 is attached to the convex block on the crank, the button 32 is pressed to block the crank connecting rod assembly 31 to move along one direction through the stop blocks 33, when the other stop block 33 is reached, the convex block on the crank is attached to the other stop block 33, the crank connecting rod assembly 31 stops moving, the button 32 is released, the crank connecting rod assembly 31 is driven to move in the opposite direction through the torsion spring, when the torsion spring drives the crank connecting;

when the handle 1 is vertical to the transmission shaft 34, the transmission shaft 34 is vertically arranged below the crank connecting rod assembly 31, wherein one end of the transmission shaft 34 is connected with the axis of a crank in the crank connecting rod assembly 31, the other end of the transmission shaft extends downwards into the host machine 2 and is movably connected with a support plate (not shown) in the host machine 2, and the end part of the other end of the transmission shaft 34 is connected with a first gear 35 through a one-way bearing;

as shown in fig. 3, three pipelines 361 are arranged inside the rotating drum 36, two ends of each pipeline 361 are communicated with two end faces of the rotating drum 36, and three silicone tubes 362 are arranged on one side of the rotating drum 36 close to the steam diffusion plate 4, the silicone tubes 362 are respectively communicated with the three pipelines 361, wherein the three silicone tubes 362 are respectively communicated with two steam outlets and one liquid outlet of the steam diffusion plate 4;

the second gear 37 is nested on the rotary drum 36, and the second gear 37 is meshed with the first gear 35;

the first cylindrical cam 38 is fixed on the top surface of the drum 36;

the second cylindrical cam 39 and the first cylindrical cam 38 are engaged with each other, wherein a liquid outlet pipe 391 penetrates through the axis of the second cylindrical cam 39, one end of the liquid outlet pipe 391 is movably connected with the middle pipeline 361, the other end of the liquid outlet pipe 391 is communicated with the liquid accumulating box, and cleaning liquid stored in the liquid accumulating box flows downwards through the liquid outlet pipe 391;

telescopic tube 30 is divided into an upper tube and a lower tube, the lower tube of telescopic tube 30 is embedded into the upper tube, wherein the upper tube of telescopic tube 30 is connected with the steam generator, and the lower tube is fixed with the second cylindrical cam 39 and extends downwards to be inserted into a tube 361.

Preferably, as an embodiment, the lower end of the lower pipe of the telescopic pipe 30 is provided with a sealing ring to prevent steam from flowing out along a gap between a pipe 361 and the lower pipe of the telescopic pipe 30.

Preferably, as an implementation mode, a spring is arranged between the upper pipe and the lower pipe of extension pipe 30, so that when the lower pipe of extension pipe 30 is inserted into one of pipes 361, a sealing ring is prevented from rubbing against the inner wall of one of pipes 361, so that the lower pipe of extension pipe 30 cannot be inserted into one of pipes 361, and a downward force is applied to the lower pipe of extension pipe 30 by the spring, so that the lower pipe of extension pipe 30 is better inserted into one of pipes 361.

Preferably, as an embodiment, the lower end of the liquid outlet pipe 391 is movably connected to the intermediate pipe 361, and the intermediate pipe 361 rotates along the outer wall of the liquid outlet pipe 391 when the drum 36 rotates, so as to avoid knotting of the liquid outlet pipe 391 caused by rotation of the drum 36.

The working principle of the invention is as follows:

firstly, taking up the steam mop, one end of the steam diffusion plate 4 naturally droops, pressing a button 32, enabling a crank connecting rod assembly 31 to move along one direction, enabling the crank connecting rod assembly 31 to drive a gear I35 to rotate through a transmission shaft 34, enabling the gear I35 to drive a gear II 37 to rotate, enabling a rotary drum 36 to drive a cylindrical cam I38 to rotate, as shown in figure 4, driving a cylindrical cam II 39 to lift upwards when the cylindrical cam I38 rotates, enabling a cylindrical cam II 39 to drive a lower pipe of a telescopic pipe 30 to move upwards, after the rotary drum 36 rotates, enabling the cylindrical cam II 39 to be meshed with the cylindrical cam I39 again, enabling the lower pipe of the telescopic pipe 30 to be inserted into another pipeline 361 again, as shown in figure 5, enabling the rotary drum 36 to drive the steam diffusion plate 4 to rotate, realizing surface changing, when the steam mop cleans the ground, enabling steam to enter the steam diffusion plate 4 along the telescopic pipe 30, the pipeline 361 and, the ground is cleaned.

Claims

1. A rotary flip-top steam mop comprising: the steam diffusion plate comprises a handle (1), a main machine (2), a rotating assembly (3) and a steam diffusion plate (4);

the lower end of the handle (1) is connected with the host (2);

it is characterized in that; the rotating assembly (3) comprises: the device comprises a crank connecting rod assembly (31), a button (32), a stop block (33), a transmission shaft (34), a first gear (35), a rotary drum (36), a second gear (37), a first cylindrical cam (38), a second cylindrical cam (39) and a telescopic pipe (30);

the crank connecting rod assembly (31) is arranged in the handle (1), one end of the button (32) is connected with the crank connecting rod assembly (31) through a shaft, the other end of the button is connected with the handle (1) through a torsion spring, a convex block is arranged on the crank close to one side of the button (32), and two ends of the crank are respectively provided with a stop block (33);

when the handle (1) of the transmission shaft (34) is vertical, the transmission shaft (34) is vertically arranged below the crank connecting rod component (31), wherein one end of the transmission shaft (34) is connected with the axis of a crank in the crank connecting rod component (31), the other end of the transmission shaft extends downwards into the host (2) and is movably connected with a support plate in the host (2), and the end part of the other end of the transmission shaft (34) is connected with a first gear (35) through a one-way bearing;

one end of the rotary drum (36) is positioned in the main machine (2) and is connected with the rotary drum (36) through a bearing in the main machine (2), the other end of the rotary drum is connected with one side of the steam diffusion plate (4) through a shaft, three pipelines (361) are arranged in the rotary drum (36), two ends of each pipeline (361) are communicated with two end faces of the rotary drum (36), three silica gel tubes (362) are arranged on one face, close to the steam diffusion plate (4), of the rotary drum (36), the silica gel tubes (362) are respectively communicated with the three pipelines (361), and the three silica gel tubes (362) are respectively communicated with two steam outlet tubes and one liquid outlet tube in the steam diffusion plate (4);

the second gear (37) is nested on the rotary drum (36), and the second gear (37) is meshed with the first gear (35);

the first cylindrical cam (38) is fixed on the top surface of the rotary drum (36);

the second cylindrical cam (39) and the first cylindrical cam (38) are mutually meshed, a liquid outlet pipe (391) penetrates through the axis of the second cylindrical cam (39), one end of the liquid outlet pipe (391) is movably connected with the middle pipeline (361), and the other end of the liquid outlet pipe (391) is communicated with the liquid accumulating box;

the telescopic pipe (30) is divided into an upper pipe and a lower pipe, the lower pipe of the telescopic pipe (30) is embedded into the upper pipe, the upper pipe of the telescopic pipe (30) is connected with the steam generator, and the lower pipe is fixed with the second cylindrical cam (39) and extends downwards to be inserted into a pipeline (361).

2. The rotary flip steam mop of claim 1, wherein: the lower end of the lower pipe of the telescopic pipe (30) is provided with a sealing ring.

3. The rotary flip steam mop of claim 1, wherein: a spring is arranged between the upper pipe and the lower pipe of the telescopic pipe (30).

4. The rotary flip steam mop of claim 1, wherein: the lower end of the liquid outlet pipe (391) is movably connected with the middle pipeline (361).