CN105816099A - Dust collector - Google Patents

Abstract

The invention discloses a dust collector. The dust collector comprises a rolling brush, a first transmission device, a second transmission device, a first side brush and a second side brush, wherein the first transmission device comprises a first worm rod and a first worm wheel which are engaged with each other; the first worm rod is connected with one end of the rolling brush; the second transmission device comprises a second worm rod and a second worm wheel which are engaged with each other; the second worm rod is connected with the other end of the rolling brush; the first side brush is connected with the first worm wheel; the second side brush is connected with the second worm wheel; and at least one of the first worm rod and the second worm rod is connected with a driving device. According to the dust collector, the driving devicees are arbitrarily mounted on the left and right sides of the dust collector and used for driving the rolling brush, the first side brush and the second side brush to clean dust and garbage, so that the structure of the dust collector can be simplified and the interchange, sharing and standardization of left and right parts of the dust collector are realized.

Description

Vacuum cleaner

Technical field

The present invention relates to cleaning appliance technical field, especially relate to a kind of vacuum cleaner.

Background technology

Along with the development of vacuum cleaner industry, people are more and more higher to the requirement of vacuum cleaner, more and more stricter to the experience requirements in using.But the vacuum cleaner in correlation technique is straight-through structure, parts are many and structure is complicated, reduce production efficiency and the efficiency of assembling of vacuum cleaner, add the production cost of vacuum cleaner.

Summary of the invention

It is contemplated that at least solve one of technical problem present in prior art.To this end, the invention reside in a kind of vacuum cleaner of proposition, described vacuum cleaner can realize sharing and the standardization of parts.

According to the vacuum cleaner of the present invention, including: round brush；First actuating device, described first actuating device includes that intermeshing first worm screw and the first turbine, described first worm screw connect one end of described round brush；Second actuating device, described second actuating device includes that intermeshing second worm screw and the second turbine, described second worm screw connect the other end of described round brush；First limit brush and the second limit brush, described first limit brush is connected with described first turbine, and described second limit brush is connected with described second turbine, and wherein, at least one connection in described first worm screw and described second worm screw has driving means.

Vacuum cleaner according to the present invention, by driving means being arbitrarily installed in the left and right sides of vacuum cleaner, and utilize driving means to drive round brush, the first limit brush and the second limit brush to clean dust and rubbish, such that it is able to simplify the structure of vacuum cleaner, it is achieved exchange, sharing and the standardization of vacuum cleaner left and right parts.

In some embodiments of the invention, described first actuating device also includes that the first motor and the first driving gear set, described first driving gear set are connected to transmit power with the motor shaft of described first motor and described first worm screw respectively.

Further, described first driving gear set includes: input gear, and described input gear is coaxially connected with the motor shaft of described motor；Output gear, described output gear is coaxially connected with described first worm screw；Idler gear, described idler gear includes coaxial and relatively-stationary first gear and the second gear, the reference diameter of described first gear is more than the reference diameter of described second gear, described first gear is in transmission connection with described input gear, and described second gear is in transmission connection with described output gear.

Further, described idler gear includes multiple, described input gear is positioned at the upstream of multiple described idler gear and described output gear is positioned at the downstream of multiple described idler gear, multiple described idler gears are from upstream to downstream and are sequentially connected with, first gear of each described idler gear engages with the second gear of input gear or the idler gear being positioned at upstream, and the second gear of each described idler gear engages with the first gear of output gear or the idler gear being positioned at downstream.

Preferably, described idler gear includes at least two.

Preferably, described input gear, described output gear, described first gear and described second gear are helical gear.

Alternatively, described input gear, described output gear, described idler gear it is integrated injection mo(u)lding at least partially.

In some embodiments of the invention, described second actuating device also includes that the second motor and the second driving gear set, described second driving gear set are connected to transmit power with the motor shaft of described second motor and described second worm screw respectively.

Further, described round brush is divided into the first round brush portion and the second round brush portion in the axial direction, the one end in described first round brush portion is mutually pivotally connected with the one end in described second round brush portion, and two described driving means other end with the other end in described first round brush portion and described second round brush portion respectively is connected.

In some embodiments of the invention, described first actuating device includes the first housing, described second actuating device also includes the second housing, described first housing and described second housing are arranged in the two ends of described round brush, described first worm screw and described first turbine are positioned at the front end of described first housing, and described second worm screw and described second turbine are positioned at the front end of described second housing.

Further, described first housing and described second housing are all in laterally zygomorphic shape, and described first housing is symmetrical about described round brush with described second housing.

In some embodiments of the invention, there is on described first housing the first limit brush installing hole and the first motor axis hole, described first limit brush installing hole includes being positioned at the described first upper and lower both sides of turbine two coaxial with described first turbine, described first motor axis hole is positioned at the rear end of described first housing, there is on described second housing the second limit brush installing hole and the second motor axis hole, described second limit brush installing hole includes being positioned at the described second upper and lower both sides of turbine two coaxial with described second turbine, described second motor axis hole is positioned at the rear end of described second housing, described first motor axis hole is relative with described second motor axis hole.

The additional aspect of the present invention and advantage will part be given in the following description, and part will become apparent from the description below, or is recognized by the practice of the present invention.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of an angle of vacuum cleaner according to embodiments of the present invention；

Fig. 2 is the schematic diagram of another angle of the vacuum cleaner shown in Fig. 1；

Fig. 3 is the round brush shown in Fig. 1, the first actuating device and the schematic diagram of the second actuating device；

Fig. 4 is the schematic diagram of the second actuating device shown in Fig. 3.

Reference:

Vacuum cleaner 100,

Round brush 1,

First actuating device 2,

First worm screw 21, the first turbine 22, the first motor 23, the first encoder 24,

First housing 25, the first limit brush installing hole 251,

First driving gear set 26, input gear 261, output gear 262,

First order idler gear 263, second level idler gear 264,

Second actuating device 3,

Second housing 31, the second limit brush installing hole 311, the second motor axis hole 312,

First limit brush 4, the second limit brush 5.

Detailed description of the invention

Below with reference to Fig. 1-Fig. 4, vacuum cleaner 100 according to embodiments of the present invention is described.

As it is shown in figure 1, vacuum cleaner 100 according to embodiments of the present invention, including: round brush the 1, first actuating device the 2, second actuating device the 3, first limit brush 4 and the second limit brush 5.

Specifically, the first actuating device 2 includes intermeshing first worm screw 21 and the first turbine 22, and the first worm screw 21 connects one end (the such as left end of the round brush 1 shown in Fig. 3) of round brush 1；Second actuating device 3 includes that intermeshing second worm screw and the second turbine, the second worm screw connect the other end (the such as right-hand member of the round brush 1 shown in Fig. 3) of round brush 1；First limit brush 4 is connected with the first turbine 22, second limit brush 5 is connected with the second turbine, wherein, at least one connection in first worm screw 21 and the second worm screw has driving means, that is, first worm screw 21 can connect driving means, or the connection of the second worm screw has driving means, or the first worm screw 21 and the second worm screw are respectively connected with driving means.

When the first worm screw 21 connects and has driving means, driving means can drive round brush 1 and the first limit brush 4 to rotate by the first worm screw 21, and round brush 1 can drive the second limit brush 5 to rotate by the second worm screw and the second turbine further；When the second worm screw connects and has driving means, driving means can be rotated by the second worm drive round brush 1 and the second limit brush 5, and round brush 1 can drive the first limit brush 4 to rotate by the first worm screw 21 and the first turbine 22 further；When the first worm screw 21 and the second worm screw are respectively connected with driving means, two driving means can simultaneously drive round brush the 1, first limit brush 4 and the second limit brush 5 rotates, to clean dust and rubbish.

Vacuum cleaner 100 according to embodiments of the present invention, by driving means being arbitrarily installed in the left and right sides of vacuum cleaner 100, and utilize driving means to drive round brush the 1, first limit brush 4 and the second limit brush 5 to clean dust and rubbish, such that it is able to simplify the structure of vacuum cleaner 100, it is achieved exchange, sharing and the standardization of vacuum cleaner about 100 parts.

In one embodiment of the invention, as it is shown on figure 3, the first actuating device 2 can also include the first motor 23 and the first driving gear set 26, the first driving gear set 26 is connected to transmit power with motor shaft and first worm screw 21 of the first motor 23 respectively.Thus, kinetic energy can be transferred to the first worm screw 21 by the first driving gear set 26 by the first motor 23, and then drives round brush 1 and the first limit brush 4 to rotate to clean.

In one embodiment of the invention, as shown in Figure 4, first driving gear set 26 includes: input gear 261, output gear 262 and idler gear (the such as first order idler gear 263 shown in Fig. 4 and second level idler gear 264), wherein, input gear 261 is coaxially connected with the motor shaft of the first motor 23；Output gear 262 is coaxially connected with the first worm screw 21；Idler gear includes coaxial and relatively-stationary first gear and the second gear, and the reference diameter of the first gear is more than the reference diameter of the second gear, and the first gear is in transmission connection with input gear 261, and the second gear is in transmission connection with output gear 262.So, motor shaft coaxially drives input gear 261 to rotate, kinetic energy is transferred to the first gear and second gear of idler gear by input gear 261 successively, by the second gear, kinetic energy is transferred to output gear 262 again, owing to the reference diameter of the first gear of idler gear is more than the reference diameter of the second gear, therefore, the linear velocity of the second gear is less than the linear velocity of the first gear, thus, the rotating speed deceleration of motor shaft can be transferred to output gear 262 by the first driving gear set 26.

Further, as shown in Figure 4, idler gear can include multiple, input gear 261 is positioned at the upstream of multiple idler gear and output gear 262 is positioned at the downstream of multiple idler gear, multiple idler gears are from upstream to downstream and are sequentially connected with, first gear of each idler gear engages with the second gear of input gear 261 or the idler gear being positioned at upstream, and the second gear of each idler gear engages with the first gear of output gear 262 or the idler gear being positioned at downstream.Here, upstream refers to: in the bang path of kinetic energy, first passes through input gear 261, then through idler gear, finally reaches output gear 262.So, the kinetic energy of motor shaft can pass to the first gear and second gear of multiple idler gear successively by input gear 261, passes to output gear 262 the most again, thus, by arranging multiple idler gear, the speed reducing ratio of the first driving gear set 26 can be adjusted neatly.

Alternatively, with reference to Fig. 4, idler gear includes at least two, thus, it is possible to adjust the speed reducing ratio of the first driving gear set 26 the most neatly, to regulate round brush the 1, first limit brush 4 and the rotary speed of the second limit brush 5.

Preferably, as shown in Figure 4, input gear 261, output gear the 262, first gear and the second gear are helical gear, and helical gear engagement in engagement process is good, stable drive, noise are little, thus can improve the overall performance of the first driving gear set 26.

Preferably, input gear 261, output gear 262, idler gear it is integrated injection mo(u)lding at least partially.Thus can improve the reliability connected between input gear 261, output gear 262 and multiple idler gear, improve the service life of the first driving gear set 26.Such as, the first gear and second gear of every grade of idler gear all can be with integrated injection molding.

In some embodiments of the invention, the second actuating device 3 also includes the second motor and the second driving gear set, and the second driving gear set is connected to transmit power with motor shaft and second worm screw of the second motor respectively.So, kinetic energy can be transferred to the second worm screw by the second driving gear set by the second motor, and then drives round brush 1 and the second limit brush 5 to rotate, and thus can improve the cleaning efficiency of vacuum cleaner 100.

In one embodiment of the invention, round brush 1 (the such as left and right directions shown in Fig. 3) in the axial direction is divided into the first round brush portion and the second round brush portion, the one end in the first round brush portion is mutually pivotally connected with the one end in the second round brush portion, and two driving means are connected with the other end in the first round brush portion and the other end in the second round brush portion respectively.Thus, when two driving means drive the first round brush portion and the second spin-cleaning ground, round brush portion respectively, first round brush portion and the direction of rotation in the second round brush portion and rotating speed all can differ, and to meet the different cleaning function of vacuum cleaner 100, improve the suitability of vacuum cleaner 100.

In one embodiment of the invention, with reference to Fig. 3, first actuating device 2 includes the first housing 25, second actuating device 3 also includes the second housing 31, first housing 25 and the second housing 31 are arranged in the two ends (the such as two ends, left and right of the round brush 1 shown in Fig. 3) of round brush 1, first worm screw 21 and the first turbine 22 are positioned at the front end of the first housing 25, and the second worm screw and the second turbine are positioned at the front end of the second housing 31.That is, first worm screw 21 and the first turbine 22 and the second worm screw and the second turbine are individually enclosed in the first housing 25 and the second housing 31, dust, impurity etc. thus can be avoided to affect the first turbine 22 and the first worm screw 21 engages and the second turbine and the engagement of the second worm screw, thus improve the service life of vacuum cleaner 100.

Further, the first housing 25 and the second housing 31 are all in laterally zygomorphic shape, and the first housing 25 and the second housing 31 are about round brush 1 symmetry.So, the position of the second housing 31 is may be mounted at after the first housing 25 turns over turnback, second housing 31 can also be arranged on the position of the first housing 25 after turning over turnback, thus can realize the first housing 25 and right and left mutually changing of the second housing 31, improves the versatility of vacuum cleaner 100 parts.

In one embodiment of the invention, with reference to Fig. 2 and Fig. 3, there is on first housing 25 first limit brush installing hole 251 and the first motor 23 axis hole, first limit brush installing hole 251 includes being positioned at the first turbine about 22 both sides two coaxial with the first turbine 22, first motor 23 axis hole is positioned at the rear end of the first housing 25, there is on second housing 31 second limit brush installing hole 311 and the second motor axis hole 312, second limit brush installing hole 311 includes being positioned at the second upper and lower both sides of turbine coaxial with the second turbine two, second motor axis hole 312 is positioned at the rear end of the second housing 31, first motor 23 axis hole and the second motor axis hole 312 are relative.So, when needs the first housing 25 turned over turnback be arranged on the second housing 31 position or the second housing 31 is turned over turnback be arranged on the first housing 25 position time, all can be with normal mounting the first limit brush the 4, second limit brush the 5, first motor 23 and the second motor, thus can realize the left and right of vacuum cleaner 100 parts public and exchange, realize standardization, reduce mould, reduce production cost.

Below with reference to Fig. 1-Fig. 4, the vacuum cleaner 100 according to one specific embodiment of the present invention is described.

With reference to Fig. 1, vacuum cleaner 100 includes: round brush the 1, first actuating device the 2, second actuating device the 3, first limit brush 4 and the second limit brush 5.

Specifically, round brush 1 includes the first round brush portion being positioned at left side and is positioned at the second round brush portion on right side, and the right-hand member in the first round brush portion and the left end in the second round brush portion are rotatably connected.

First actuating device 2 includes the first housing the 25, first worm screw the 21, first turbine the 22, first motor the 23, first driving gear set 26 and the first encoder 24, wherein, first encoder 24 is connected with the first motor 23 and is used for controlling the first motor 23 speed change, and the first motor 23 is connected with the first worm screw 21 to drive the first worm screw 21 to rotate by the first driving gear set 26.

First driving gear set 26 includes input gear 261, output gear 262, first order idler gear 263 and second level idler gear 264.First order idler gear 263 and second level idler gear 264 all include co-axially fixed first gear and the second gear, and the reference diameter of the first gear is more than the reference diameter of the second gear.First housing 25 is symmetrical above and below, and the first housing 25 is provided with the first motor 23 axis hole and two laterally zygomorphic first limit brush installing holes 251.

nullFirst housing 25 is located at the left side of round brush 1，The motor shaft of the first motor 23 is coaxially fixed with input gear 261 in stretching into the first housing 25 through the first motor 23 axis hole，Input gear 261 engages (formation speed reducing gear pair) with the first gear 263a of first order idler gear 263，Second gear 263b of first order idler gear 263 engages (formation speed reducing gear pair) with the first gear 264a of second level idler gear 264，Second gear 264b of second level idler gear 264 engages (formation speed reducing gear pair) with output gear 262，Output gear 262 is coaxially fixed with the first worm screw 21，First worm screw 21 engages with the first turbine 22，First limit brush 4 is coaxially fixed with the first turbine 22 in stretching into the first housing 25 through the first limit brush installing hole 251，The left end in the first round brush portion and the right-hand member of the first worm screw 21 are connected.

Second actuating device 3 includes second housing the 31, second worm screw, the second turbine, the second motor, the second driving gear set and the second encoder, wherein, second encoder and the second motor are connected and are used for controlling the second electrical motor gearshift, and the second motor is connected with the second worm screw to drive the second worm screw to rotate by the second driving gear set.

Second driving gear set includes input gear, output gear, first order idler gear and second level idler gear.First order idler gear and second level idler gear all include co-axially fixed first gear and the second gear, and the reference diameter of the first gear is more than the reference diameter of the second gear.Second housing 31 is symmetrical above and below, and the second housing 31 is provided with the second motor axis hole 312 and two laterally zygomorphic second limit brush installing holes 311.

Second housing 31 is located at the right side of round brush 1, the motor shaft of the second motor is coaxially fixed with input gear in stretching into the second housing 31 through the second motor axis hole 312, input gear engages with the first gear of first order idler gear, second gear of first order idler gear engages with the first gear of second level idler gear, second gear of second level idler gear engages with output gear, output gear and the second worm screw are coaxially fixed, second worm screw engages with the second turbine, second limit brush 5 is coaxially fixed with the second turbine in stretching into the second housing 31 through the second limit brush installing hole 311, the right-hand member in the second round brush portion and the left end of the second worm screw are connected.

Preferably, input gear 261, output gear the 262, first gear and the second gear are helical gear, and co-axially fixed first gear and the second gear one-body molded.

During vacuum cleaner 100 works, first motor 23 drives input gear 261 to rotate by motor shaft, kinetic energy is slowed down and is transferred to first order idler gear 263 and second level idler gear 264 by input gear 261 successively, kinetic energy is passed to output gear 262 by second level idler gear 264 again, output gear 262 coaxially drives the first worm screw 21 and the first round brush 1 rolling, and kinetic energy is transferred to the first turbine 22 and drives the first limit brush 4 to rotate by the first worm screw 21 more simultaneously.Second motor drives input gear to rotate by motor shaft, kinetic energy is slowed down and is transferred to output gear by input gear successively, output gear coaxially drives the second worm screw and the second round brush portion to roll, and kinetic energy is transferred to the second turbine and drives the second limit brush 5 to rotate by the second worm screw more simultaneously.Thus realize the cleaning of vacuum cleaner 100.

Vacuum cleaner 100 according to the present invention, left and right is full symmetric, thus can realize the right and left mutually changing of parts, that is, can will be located in first turbine the 22, first worm screw the 21, first driving gear set 26 and the right side to vacuum cleaner 100 installed by the first motor 23, in like manner, second turbine on right side, the second worm screw, the second driving gear set and the second motor can also be installed to left side, such that it is able to the versatility of parts, it is achieved publicization of parts and standardization.At the same time it can also be improve production efficiency and efficiency of assembling, reduce production cost.

In describing the invention, it will be appreciated that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "front", "rear", "left", "right", " interior ", " outward ", " axially " be based on orientation shown in the drawings or position relationship; be for only for ease of the description present invention and simplifying and describe; rather than instruction or imply indication device or element must have specific orientation, with specific azimuth configuration and operation, be therefore not considered as limiting the invention.

Additionally, in the case of the most conflicting, the feature of the different embodiments described in this specification or example and different embodiment or example can be combined and combine by those skilled in the art.

Claims (12)

1. a vacuum cleaner, it is characterised in that including:

Round brush；

First actuating device, described first actuating device includes that intermeshing first worm screw and the first turbine, described first worm screw connect one end of described round brush；

Second actuating device, described second actuating device includes that intermeshing second worm screw and the second turbine, described second worm screw connect the other end of described round brush；

First limit brush and the second limit brush, described first limit brush is connected with described first turbine, and described second limit brush is connected with described second turbine,

Wherein, at least one connection in described first worm screw and described second worm screw has driving means.

Vacuum cleaner the most according to claim 1, it is characterized in that, described first actuating device also includes that the first motor and the first driving gear set, described first driving gear set are connected to transmit power with the motor shaft of described first motor and described first worm screw respectively.

Vacuum cleaner the most according to claim 2, it is characterised in that described first driving gear set includes:

Input gear, described input gear is coaxially connected with the motor shaft of described first motor；

Output gear, described output gear is coaxially connected with described first worm screw；

Idler gear, described idler gear includes coaxial and relatively-stationary first gear and the second gear, the reference diameter of described first gear is more than the reference diameter of described second gear, described first gear is in transmission connection with described input gear, and described second gear is in transmission connection with described output gear.

Vacuum cleaner the most according to claim 3, it is characterized in that, described idler gear includes multiple, described input gear is positioned at the upstream of multiple described idler gear and described output gear is positioned at the downstream of multiple described idler gear, multiple described idler gears are from upstream to downstream and are sequentially connected with, first gear of each described idler gear engages with the second gear of input gear or the idler gear being positioned at upstream, and the second gear of each described idler gear engages with the first gear of output gear or the idler gear being positioned at downstream.

Vacuum cleaner the most according to claim 4, it is characterised in that described idler gear includes at least two.

Vacuum cleaner the most according to claim 3, it is characterised in that described input gear, described output gear, described first gear and described second gear are helical gear.

Vacuum cleaner the most according to claim 3, it is characterised in that be integrated injection mo(u)lding at least partially in described input gear, described output gear, described idler gear.

8. according to the vacuum cleaner according to any one of claim 2-7, it is characterized in that, described second actuating device also includes that the second motor and the second driving gear set, described second driving gear set are connected to transmit power with the motor shaft of described second motor and described second worm screw respectively.

Vacuum cleaner the most according to claim 8, it is characterized in that, described round brush is divided into the first round brush portion and the second round brush portion in the axial direction, the one end in described first round brush portion is mutually pivotally connected with the one end in described second round brush portion, and two described driving means other end with the other end in described first round brush portion and described second round brush portion respectively is connected.

10. according to the vacuum cleaner according to any one of claim 1-7, it is characterized in that, described first actuating device includes the first housing, described second actuating device also includes the second housing, described first housing and described second housing are arranged in the two ends of described round brush, described first worm screw and described first turbine are positioned at the front end of described first housing, and described second worm screw and described second turbine are positioned at the front end of described second housing.

11. vacuum cleaners according to claim 10, it is characterised in that described first housing and described second housing are all in laterally zygomorphic shape, and described first housing is symmetrical about described round brush with described second housing.

12. vacuum cleaners according to claim 10, it is characterized in that, there is on described first housing the first limit brush installing hole and the first motor axis hole, described first limit brush installing hole includes being positioned at the described first upper and lower both sides of turbine two coaxial with described first turbine, described first motor axis hole is positioned at the rear end of described first housing, there is on described second housing the second limit brush installing hole and the second motor axis hole, described second limit brush installing hole includes being positioned at the described second upper and lower both sides of turbine two coaxial with described second turbine, described second motor axis hole is positioned at the rear end of described second housing, described first motor axis hole is relative with described second motor axis hole.