CN114601368B

CN114601368B - Solid-liquid separation vacuum cleaner

Info

Publication number: CN114601368B
Application number: CN202210276224.XA
Authority: CN
Inventors: 陈康俊; 陈王亮
Original assignee: Yongkang Jienuo Industrial & Trade Co ltd
Current assignee: Yongkang Jienuo Industrial & Trade Co ltd
Priority date: 2022-03-21
Filing date: 2022-03-21
Publication date: 2022-12-30
Anticipated expiration: 2042-03-21
Also published as: CN114601368A

Abstract

The invention discloses a solid-liquid separation vacuum cleaner, which comprises a cleaner main body, a dust suction pipeline, a dust suction port, a cleaning device, a motive power part and a driving part, wherein one end of the dust suction pipeline is connected to the cleaner main body, the other end of the dust suction pipeline is connected to the dust suction port, the motive power part is arranged at an air outlet of the cleaner main body and is connected with the driving part, the driving part is connected with the cleaning device, so that the power of the motive power part is transmitted to the cleaning device, the dust suction pipeline is rotatably arranged on the cleaner main body, a channel and two channels are arranged in the dust suction pipeline, and the cleaning channel and the dust suction channel are arranged on the cleaner main body. The invention provides a solid-liquid separation vacuum cleaner which can automatically clean a dust suction pipe when in work, so that the dust suction pipe is kept clean all the time, dirt is not adhered to the dust suction pipe, the cleaner is cleaner and more sanitary to use, meanwhile, the air environment is fresher when in use, the use feeling of the cleaner is improved, and the product competitiveness of the cleaner is improved.

Description

Solid-liquid separation vacuum cleaner

Technical Field

The invention relates to the technical field of dust collectors, in particular to a solid-liquid separation vacuum dust collector.

Background

The dust collector is an essential electric appliance in our life, and is often used for dust collection and water absorption operations, after solid or liquid is sucked through a dust collection port, the solid or liquid is separated in the dust collector, but the used dust collection pipelines are the same, so that when liquid and solid are sucked, the liquid and the solid are easily adhered to the inner wall of a dust collection pipe after being mixed, but the dust collection pipelines cannot be effectively cleaned, bacteria are easily remained on the inner wall, and various bacteria are bred, so that when the dust collector is used, due to the fact that air flow of the dust collector is exchanged between the inside and the outside, the bred bacteria can be diffused into air along with the interaction of the air when the dust collector is used, and pollution to the surrounding environment is caused.

Disclosure of Invention

The invention provides a solid-liquid separation vacuum cleaner aiming at the defects in the prior art.

In order to solve the technical problems, the invention is solved by the following technical scheme: a solid-liquid separation vacuum cleaner comprises a cleaner main body, a dust suction pipeline, a dust suction port, a cleaning device, a driving part and a driving part, wherein one end of the dust suction pipeline is connected to the cleaner main body, the other end of the dust suction pipeline is connected to the dust suction port, the driving part is arranged at an air outlet of the cleaner main body and is connected with the driving part, the driving part is connected with the cleaning device, so that the power transmission of the driving part is realized to the cleaning device, the dust suction pipeline is rotationally arranged on the cleaner main body and is internally provided with a channel and two channels, the cleaner main body is provided with a cleaning channel and a dust suction channel, the dust suction pipeline rotates, the channels in the cleaner main body are alternately aligned with the channels in the cleaner main body, the cleaning device comprises a cleaning head and a hexagonal flexible shaft, the cleaning head is slidably arranged in the cleaning channel and comprises a middle bevel gear, a transmission gear set and a crawling wheel, the climbing wheel is rotatably arranged on the sweeping head, the surface of the climbing wheel is in top contact with the inner wall of the sweeping channel, the transmission gear set connects the middle bevel gear with the climbing wheel to enable the middle bevel gear to realize power transmission, the hexagonal flexible shaft is arranged on the middle bevel gear and rotates to drive the climbing wheel to rotate, so that the sweeping head ascends or descends in the sweeping channel, the driving portion comprises a first roller and a sliding block, the first roller is rotatably arranged on the dust collector body, the sliding block is slidably arranged inside the first roller, the hexagonal flexible shaft is slidably arranged on the sliding block, the driving portion comprises an impeller and a belt pulley set, the impeller is rotatably arranged at an air outlet of the dust collector body and is connected with the belt pulley set through a belt, and the belt pulley set is also connected with the first roller through a belt.

The dust collector has the advantages that when the dust collector is opened, the cleaning head can be driven to slide up and down to brush and clean the dust suction pipe in a rotating mode, dirt is pushed to the dust suction opening and then sucked into the main body of the dust collector, after cleaning is completed each time, the dust suction pipe can rotate, the positions of the inner one channel and the inner two channels are exchanged, and cleaning operation is conducted on the one channel and the two channels in a circulating mode.

In the above scheme, preferably, the upper end of the sweeping head is further rotatably provided with a rotating brush, and a rotating shaft on the rotating brush is arranged at the center of the middle bevel gear.

The novel sweeping machine has the beneficial effects that the sweeping can be carried out while scraping and sweeping, and the sweeping is cleaner.

In the above scheme, preferably, the sweeping head is provided with a plurality of groups of transmission gear sets and crawling wheels, and is uniformly arranged on the sweeping head.

The cleaning head has the beneficial effects that the cleaning head is more stable when moving forwards or backwards.

In the above scheme, preferably, the driving part further comprises a linkage rod, the linkage rod is provided with a guide rod, an upper ejector rod and a lower ejector rod, the linkage rod is arranged on the dust collector main body in a sliding mode through the guide rod, and the upper ejector rod and the lower ejector rod respectively push against and contact the upper plane and the lower plane of the sliding block.

The beneficial effect is that the sliding block can drive the linkage rod to move together.

In the above scheme, preferably, the impeller is provided with a levorotatory impeller, a dextrorotatory impeller and an impeller shaft, and the levorotatory impeller, the dextrorotatory impeller and the impeller shaft slide up and down to be arranged at an air outlet of the dust collector body, the driving part further comprises a linkage plate, one end of the linkage plate is rotatably arranged on the impeller shaft, and the other end of the linkage plate is arranged on the linkage rod.

The beneficial effects are that, through pulling the impeller, make the not equidirectional blade of its top aim at the air outlet, make its rotation direction change.

In the above scheme, it is preferred that the dust absorption pipeline still includes revolving stage, line wheel and spiral spring, line wheel unidirectional rotation sets up on the revolving stage, spiral spring one end sets up on line wheel, and the other end sets up on the dust catcher main part, just line wheel twines has the rope, and the other end setting of rope is on the gangbar.

In the above scheme, preferably, the pulley set includes a first pulley and a transmission, the first pulley is rotatably disposed in the cleaner body, the impeller shaft is slidably disposed in the first pulley and connected to the transmission input shaft through a belt, and the output shaft of the transmission is connected to the first roller through a belt.

The invention has the beneficial effects that: the invention provides a solid-liquid separation vacuum cleaner which can automatically clean a dust suction pipe during working, so that the dust suction pipe is kept clean all the time, dirt is not adhered to the dust suction pipe, the dust cleaner is enabled to be cleaner and more sanitary in use, meanwhile, the air environment is enabled to be fresher in use, the use feeling of the dust cleaner is improved, and the product competitiveness of the dust cleaner is improved.

Drawings

FIG. 1 is a schematic view of the present invention.

FIG. 2 is an internal view of the present invention.

Fig. 3 is a partial cross-sectional view of the present invention.

FIG. 4 is a cross-sectional view of the motive portion of the present invention.

Fig. 5 is a sectional view of the driving part of the present invention.

FIG. 6 is a schematic view of the inside of the cleaning apparatus of the present invention.

Fig. 7 is a schematic view of an impeller according to the present invention.

Detailed Description

The invention is described in further detail below with reference to the following detailed description and accompanying drawings: with reference to figures 1-7 of the drawings,

solid-liquid separation vacuum cleaner, including dust catcher main part 1, dust absorption pipeline 2, dust absorption mouth 3, cleaning device 4, prime mover 5 and drive division 6, 2 one ends of dust absorption pipeline are connected on dust catcher main part 1, and the other end is connected on dust absorption mouth 3, be provided with revolving stage 25 on the dust absorption pipeline 2, revolving stage 25 unidirectional rotation sets up on dust catcher main part 1, and still is provided with the one end of a passageway 21 and two passageways 22 on it, and the other end is connected on dust absorption mouth 3, cleaning channel 11 and dust absorption passageway 12 have been seted up on dust catcher main part 1, and its internal diameter size is unanimous with a passageway 21 and two passageways 22, wherein rotates revolving stage 25, enables a passageway 21 and two passageways 22 and cleans passageway 11 and dust absorption passageway 12 and aligns in turn.

The cleaning device 4 comprises a cleaning head 41 and a hexagonal flexible shaft 42, the cleaning head 41 is slidably disposed in the cleaning channel 11, the outer diameter of the cleaning head is consistent with the inner diameter of the cleaning channel 11, a middle bevel gear 46, a transmission gear set 43 and a climbing wheel 44 are disposed in the cleaning channel, the middle bevel gear 46 is rotatably disposed in the middle of the cleaning head 41, the transmission gear set 43 comprises a first bevel gear shaft 431 and a second bevel gear shaft 432, bevel gears are disposed at two ends of the first bevel gear shaft 431, the bevel gear at one end of the first bevel gear shaft is meshed with the middle bevel gear 46, one end of the second bevel gear shaft 432 is provided with a bevel gear, the other end of the second bevel gear shaft is provided with a belt wheel, the bevel gear thereon is meshed with the bevel gear at the other end of the first bevel gear shaft 431, the climbing wheel 44 is designed by rubber material and is rotatably disposed on the cleaning head 41, a belt pulley is further disposed on the shaft of the first bevel gear shaft and is connected with the belt wheel on the second bevel gear shaft 432, the hexagonal flexible shaft 42 is disposed on the middle bevel gear 46, a plurality of transmission gear sets 43 and climbing wheels 44 are uniformly disposed on the cleaning head 41, so that when the cleaning head 42 is rotated, the hexagonal flexible shaft is disposed on the cleaning head, the upper end of the middle bevel gear 41, and the rotating shaft 45 of the cleaning head is disposed on which is rotatable shaft.

When the hexagonal flexible shaft 42 rotates, the middle bevel gear 46 is driven to rotate, so that the rotating brush 45 is driven to rotate, the pipe wall at the position where the rotating brush is limited is cleaned, meanwhile, the middle bevel gear 46 drives the crawling wheel 44 to rotate, the cleaning head 41 can ascend or descend, the cleaning channel 11 is aligned with the channel 21 or the two channels 22 at the moment, the cleaning head can walk forwards along the channel 21 or the two channels 22, in the walking process, the rotating brush 45 cleans the pipe wall along the way, meanwhile, the cleaning head 41 scrapes dirt on the inner wall, and due to the fact that the front ends of the channel 21 and the two channels 22 are connected with the dust suction opening 3, when the cleaning head 41 runs to the dust suction opening 3, all the dirt is pushed into the dust suction opening 3, and then enters the dust collector main body 1 through the dust suction channel.

The driving part 6 comprises a first roller 61, a sliding block 62, a linkage rod 63 and a protective tube 64, the first roller 61 is rotated and arranged on the cleaner main body 1, the sliding block 62 is slidably arranged inside the first roller 61, the hexagonal flexible shaft 42 is slidably arranged on the sliding block 62 in a damping manner, a guide rod 631, an upper ejector rod 632 and a lower ejector rod 633 are arranged on the linkage rod 63, the linkage rod 63 is slidably arranged on the cleaner main body 1 through the guide rod 631, the upper ejector rod 632 and the lower ejector rod 633 on the linkage rod respectively abut against the upper plane and the lower plane of the sliding block 62, an upper limiting block 421 and a lower limiting block 422 are arranged on the hexagonal flexible shaft 42, the protective tube 64 is arranged in the cleaner main body 1, and the hexagonal flexible shaft 42 is rotatably arranged in the protective tube 64 so as to be prevented from being swung randomly when rotating.

The first roller 61 rotates to drive the sliding block 62 to rotate, so as to drive the hexagonal flexible shaft 42 to rotate, and the sweeping head 41 slides forwards or backwards, so as to drive the hexagonal flexible shaft 42 to slide in the sliding block 62, and the sliding block 62 is arranged in the first roller 61 for damping sliding, so that the sliding block 62 does not slide when the hexagonal flexible shaft 42 slides, the sweeping head 41 moves forwards, and when the dust suction port 3 is reached, the lower limiting block 422 on the hexagonal flexible shaft 42 pushes against the sliding block 62, so as to drive the sliding block 62 to slide upwards together, and when the sweeping head 41 moves backwards, and when the channel 11 is cleaned, the upper limiting block 421 on the hexagonal flexible shaft 42 pushes against the sliding block 62, so as to drive the sliding block 62 to slide downwards together, and the sliding block 62 slides upwards and downwards, so as to drive the linkage rod 63 to slide upwards and downwards.

The dust collection pipeline 2 further comprises a reel 23 and a scroll spring 24, the reel 23 is arranged on the rotary table 25 in a one-way rotating mode, one end of the scroll spring 24 is arranged on the reel 23, the other end of the scroll spring is arranged on the dust collector main body 1, a rope is wound on the reel 23, and the other end of the rope is arranged on the linkage rod 63.

When the cleaning head 41 moves backwards to the cleaning channel 11, the sliding block 62 slides downwards to drive the linkage rod 63 to slide downwards, the rope is tensioned, the rope is wound on the pulley 23, the pulley 23 is driven to rotate when the rope is tensioned, the pulley 23 is a one-way rotating shaft on the rotary table 25, the rotary table 25 is driven to rotate together at the moment, the rotary table 25 is just rotated 180 degrees just after the pulling distance, the positions of the one channel 21 and the two channels 22 are interchanged, the scroll spring 24 is tightly stirred when the rotary table 25 rotates 180 degrees, when the cleaning head 41 moves forwards to the dust suction port 3, the sliding block 62 slides upwards to drive the linkage rod 63 to slide upwards, the rope is loosened, and the pulley 23 rotates relative to the rotary table 25 under the action of the scroll spring 24, so that the rope is wound on the pulley 23 again.

Motive power portion 5 includes impeller 51, band pulley group 52 and linkage plate 53, impeller 51 is including levogyration impeller 511, dextrorotation impeller 512 and impeller shaft 513, and the slip setting is at the air outlet of dust catcher main part 1 about it, and wherein levogyration impeller 511 is opposite with the blade orientation of dextrorotation impeller 512, and both all set up on impeller shaft 513, impeller 51 rotates and slides and sets up the air outlet department at dust catcher main part 1, linkage plate 53 one end rotates and upper and lower spacing setting is on impeller shaft 513, and the other end sets up on gangbar 63 simultaneously.

The sliding block 62 slides up and down to drive the linkage rod 63 to slide up and down, so as to drive the impeller 51 to slide up and down, and the left-handed impeller 511 or the right-handed impeller 512 is aligned with the air outlet, so that the rotation direction of the impeller 51 is changed.

The pulley set 52 comprises a first pulley 521 and a transmission 522, the first pulley 521 is rotatably arranged in the cleaner body 1, the impeller shaft 513 is slidably arranged in the first pulley 521 and is connected with an input shaft of the transmission 522 through a belt, and an output shaft of the transmission 522 is connected with the first roller 61 through a belt.

When the left-handed impeller 511 is aligned with the air outlet, the impeller 51 is driven to rotate forward, and the first roller 61 is driven to rotate forward through the power transmission of the belt pulley set 52, so that the hexagonal flexible shaft 42 rotates forward, the sweeping head 41 slides forward, when the sweeping head 41 moves forward to the dust suction port 3, the lower limiting block 422 on the hexagonal flexible shaft 42 is pressed against the sliding block 62, the sliding block 62 is driven to slide upward together, the impeller 51 is driven to slide upward, so that the right-handed impeller 512 is aligned with the air outlet, the impeller 51 rotates backward, the hexagonal flexible shaft 42 rotates backward, and the sweeping head 41 slides backward.

The working principle or the using method is as follows:

in the initial state, the cleaning head 41 is located in the cleaning channel 11, the cleaning channel 11 is aligned with a channel 21, the cleaner starts to work, the air outlet starts to exhaust air, the left-handed impeller 511 is aligned with the air outlet, the left-handed impeller 511 is driven by the air exhausted by the cleaner to rotate, the impeller 51 is driven to rotate forward, the first roller 61 is driven to rotate forward through the power transmission of the belt pulley set 52, so that the hexagonal flexible shaft 42 rotates forward, the middle bevel gear 462 is driven to rotate forward, the rotating brush 45 is driven to rotate, the pipe wall at the position of the limit position is cleaned, the middle bevel gear 46 drives the crawling wheel 442 to rotate forward, the crawling wheel 442 crawls upwards along the pipe wall, the cleaning head 41 ascends, the cleaning channel 11 is aligned with a channel 21 to walk forwards along the channel 21, the two channels 22 are aligned with the dust suction channel 12, the two channels 22 start to perform dust suction operation, the cleaning brush 45 is rotated to clean the pipe wall along the pipe wall of the cleaning head 41, the dirt falling on the inner wall of the cleaning channel 41, the front channel 21 and the front channel 22 is connected with the two channels 22, and all dirt entering the dust suction port 3, so that all the dust suction channel 21 is cleaned, and all the dirt in the dust suction port 3 is pushed into the dust suction channel 21, and all the dust suction port 3.

The hexagonal flexible shaft 42 slides upwards together with the sweeping head 41, and because the sliding block 62 is arranged in the first roller 61 in a damping sliding manner, when the hexagonal flexible shaft 42 slides upwards, the sliding block 62 does not slide, when the sweeping head 41 moves forwards to the dust suction port 3, the lower limiting block 422 on the hexagonal flexible shaft 42 is pressed against the sliding block 62, the sliding block 62 is driven to slide upwards together, the impeller 51 is driven to slide upwards, so that the right-handed impeller 512 is aligned with the air outlet, the impeller 51 is rotated reversely, and the hexagonal flexible shaft 42 is rotated reversely.

The hexagonal flexible shaft 42 rotates reversely to make the crawling wheel 442 rotate reversely, so that the crawling wheel 442 crawls downwards along the pipe wall, thereby making the sweeping head 41 slide downwards, when the crawling wheel moves backwards to the sweeping channel 11, the upper limiting block 421 on the hexagonal flexible shaft 42 is pressed against the sliding block 62 to drive the sliding block 62 to slide downwards together, thereby driving the linkage rod 63 to slide downwards, thereby making the impeller 51 slide downwards, thereby making the left-handed impeller 511 align with the air outlet, making the impeller 51 rotate forwards, thereby making the hexagonal flexible shaft 42 rotate forwards, and thus completing the sweeping of the dust collection pipe by one-time circulation.

When the cleaning head 41 moves backwards to the cleaning channel 11, the sliding block 62 slides downwards to drive the linkage rod 63 to slide downwards, the rope is tensioned, the rope is wound on the reel 23, the reel 23 is driven to rotate when the rope is tensioned, the reel 23 is driven to rotate because the reel 23 is a one-way rotating shaft on the rotary table 25, the rotary table 25 is driven to rotate together at the moment, the pulling distance just enables the rotary table 25 to rotate 180 degrees, the positions of the one channel 21 and the two channels 22 are exchanged, the scroll spring 24 is tightly stirred when the rotary table 25 rotates 180 degrees, the sliding block 62 slides upwards to drive the linkage rod 63 to slide upwards when the cleaning head 41 moves forwards to the dust suction port 3, the rope is loosened, the reel 23 rotates relative to the rotary table 25 under the action of the scroll spring 24, the rope is rewound on the reel 23, and the position exchange between the channel 21 and the two channels 22 is automatically carried out when the cleaning head 41 moves backwards to the cleaning channel 11, so that the finished pipeline is used for cleaning the two channels 21 and the two channels 22.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. Solid-liquid separation vacuum cleaner, including dust catcher main part (1), dust absorption pipeline (2) and dust absorption mouth (3), dust absorption pipeline (2) one end is connected on dust catcher main part (1), and its characterized in that is connected on dust absorption mouth (3) to the other end: the vacuum cleaner further comprises a cleaning device (4), a driving portion (5) and a driving portion (6), wherein the driving portion (5) is arranged at an air outlet of the cleaner body (1) and connected with the driving portion (6), and the driving portion (6) is connected with the cleaning device (4), so that the power of the driving portion (5) is transmitted to the cleaning device (4);

the dust collection pipeline (2) is rotatably arranged on the dust collector main body (1), a channel (21) and a two-channel (22) are arranged in the dust collector main body (1), a cleaning channel (11) and a dust collection channel (12) are formed in the dust collector main body (1), the dust collection pipeline (2) rotates, and the channel in the dust collection pipeline and the channel in the dust collector main body (1) are alternately aligned;

the cleaning device (4) comprises a cleaning head (41) and a hexagonal flexible shaft (42), the cleaning head (41) is arranged in a cleaning channel (11) in a sliding mode, the cleaning head (41) comprises a middle bevel gear (46), a transmission gear set (43) and a crawling wheel (44), the crawling wheel (44) is arranged on the cleaning head (41) in a rotating mode, the surface of the crawling wheel is in jacking contact with the inner wall of the cleaning channel (11), the transmission gear set (43) connects the middle bevel gear (46) with the crawling wheel (44) to enable the crawling wheel to achieve power transmission, the hexagonal flexible shaft (42) is arranged on the middle bevel gear (46), the hexagonal flexible shaft (42) rotates to drive the crawling wheel (44) to rotate, and the cleaning head (41) is made to ascend or descend in the cleaning channel (11);

the driving part (6) comprises a first roller (61) and a sliding block (62), the first roller (61) is rotatably arranged on the cleaner body (1), the sliding block (62) is slidably arranged inside the first roller (61), and the hexagonal flexible shaft (42) is slidably arranged on the sliding block (62);

the motive power portion (5) comprises an impeller (51) and a belt pulley set (52), the impeller (51) is rotatably arranged at an air outlet of the dust collector main body (1), the impeller is connected with the belt pulley set (52) through a belt, and the belt pulley set (52) is also connected with the first roller (61) through the belt.

2. The solid-liquid separation vacuum cleaner according to claim 1, wherein: the upper end of the sweeping head (41) is also rotatably provided with a rotating brush (45), and a rotating shaft on the rotating brush is arranged on the center of a middle bevel gear (46).

3. The solid-liquid separation vacuum cleaner according to claim 1, characterized in that: the cleaning head (41) is provided with a plurality of groups of transmission gear sets (43) and crawling wheels (44), and the transmission gear sets and the crawling wheels are uniformly arranged on the cleaning head (41).

4. The solid-liquid separation vacuum cleaner according to claim 3, characterized in that: the driving part (6) further comprises a linkage rod (63) which is provided with a guide rod (631), an upper ejector rod (632) and a lower ejector rod (633), the linkage rod (63) is arranged on the dust collector main body (1) in a sliding mode through the guide rod (631), and the upper ejector rod (632) and the lower ejector rod (633) respectively push against and touch the upper plane and the lower plane of the sliding block (62).

5. The solid-liquid separation vacuum cleaner according to claim 4, characterized in that: the impeller (51) is provided with a left-handed impeller (511), a right-handed impeller (512) and an impeller shaft (513), the left-handed impeller, the right-handed impeller and the impeller shaft are arranged at an air outlet of the dust collector body (1) in a sliding mode, the driving part (5) further comprises a linkage plate (53), one end of the linkage plate is rotatably arranged on the impeller shaft (513), and the other end of the linkage plate is arranged on a linkage rod (63).

6. The solid-liquid separation vacuum cleaner according to claim 4, characterized in that: dust absorption pipeline (2) still include revolving stage (25), line wheel (23) and spiral spring (24), line wheel (23) unidirectional rotation sets up on revolving stage (25), spiral spring (24) one end sets up on line wheel (23), and the other end sets up on dust catcher main part (1), just line wheel (23) twines has the rope, and the other end setting of rope is on gangbar (63).

7. The solid-liquid separation vacuum cleaner according to claim 6, characterized in that: the belt pulley set (52) comprises a first belt pulley (521) and a transmission (522), the first belt pulley (521) is rotatably arranged in the dust collector main body (1), the impeller shaft (513) is slidably arranged in the first belt pulley (521) and is connected with an input shaft of the transmission (522) through a belt, and an output shaft of the transmission (522) is connected with the first roller (61) through a belt.