CN113069037B - Dust collector and system thereof - Google Patents

Abstract

The invention discloses a dust collector and a system thereof, wherein the dust collector comprises: the walking track is erected indoors; the dust sensors are arranged at indoor preset positions, and the travelling track passes through each preset position; and the dust collection device walks on the walking track. The invention provides a dust collector which is used for collecting dust in a room, wherein a dust sensor is arranged at a preset position in the room, a walking track passes through each preset position, when the dust sensor at the preset position detects that the dust exceeds the standard, a working instruction is sent to a dust collection device, the dust collection device moves to the position along the walking track and carries out dust collection operation, and the walking track can be of an annular structure connected end to end, so that patrol operation of the dust collection device on the walking track is realized.

Description

Dust collector and system thereof

Technical Field

The invention relates to the technical field of dust collectors, in particular to a dust collector and a system thereof.

Background

During operation in the industrial workshop, can produce the raise dust very easily, need place dust extraction in the raise dust region this time to reduce the harm of raise dust, the manual work removes these dust extraction and wastes time and energy.

Disclosure of Invention

In order to achieve the above object, the present invention discloses a dust collector, comprising:

the walking track is erected indoors;

the dust sensors are arranged at indoor preset positions, and the travelling track passes through the preset positions;

and the dust collection device walks on the walking track.

Preferably, the dust suction apparatus includes:

the moving seat is arranged on the walking track;

the dust collection seat is mounted at the bottom end of the movable seat;

the first dust suction chamber is arranged in the dust suction seat;

the dust collection port is formed in the bottom end of the dust collection seat and communicated with the first dust collection chamber;

the dust collection box is arranged in the first dust collection chamber, the dust collection port is connected in the dust collection box, and a plurality of through holes are formed in the surface of the dust collection box;

the first dust collection bag is arranged in the dust collection box and sleeved on the dust collection port;

the two turbine installation chambers are symmetrically arranged in the dust collection seat and are communicated with the first dust collection chamber;

an intake turbine mounted within the turbine mounting chamber;

the air outlet channel is arranged in the dust collection seat, and an air outlet of the air outlet channel is arranged at the side end of the dust collection seat;

the first channel is arranged in the dust collection seat, one end of the first channel is communicated with the worm wheel installation chamber, and the other end of the first channel is communicated in the air outlet channel;

the first transmission chamber is arranged in the dust collection seat;

the first rotating shaft penetrates through the first transmission chamber, extends into the turbine installation chamber and is connected with the air inlet turbine;

the rotating motor is arranged in the dust collection seat and is arranged on one first rotating shaft;

the two first belt wheels are arranged in the first transmission chamber and are arranged on the first rotating shaft in a one-to-one correspondence manner;

the first transmission belt is arranged in the first transmission chamber, and the first transmission belt is sleeved on the two first belt wheels.

Preferably, the inner wall of the dust suction port is arranged in a closing manner from bottom to top.

Preferably, the dust suction apparatus further comprises:

the dust collecting chamber is arranged in the dust collecting seat, the dust collecting chamber is positioned above the first transmission chamber, the two air outlet channels are symmetrically arranged by taking the dust collecting chamber as a center, and air inlets of the air outlet channels are communicated with the dust collecting chamber;

the two second transmission chambers are symmetrically arranged in the dust collection seat by taking the dust collection chamber as a center, the second transmission chambers are positioned above the air outlet channel, the end, far away from the air inlet turbine, of the first rotating shaft penetrates through the air outlet channel and extends into the second transmission chambers, and the rotating motor is a double-head motor;

the two third transmission chambers are symmetrically arranged in the dust collection seat by taking the dust collection chamber as a center, the third transmission chambers are positioned above the air outlet channel and positioned at the ends of the second transmission chambers far away from the dust collection chamber, and the cross sections of the third transmission chambers are of arc structures;

the power box is connected in the third transmission chamber in a sliding mode;

a pair of meshed helical gears, wherein the helical gears are arranged in the second transmission chamber, and one helical gear is arranged on the first rotating shaft;

one end of the second rotating shaft extends into the second transmission chamber and is connected with the other helical gear, and the other end of the second rotating shaft penetrates through the third transmission chamber and extends into the power box;

the two second belt wheels are arranged in the power box, and one of the second belt wheels is arranged on a second rotating shaft;

the second transmission belt is arranged in the power box and sleeved on the two second belt wheels;

the two second dust suction chambers are symmetrically arranged in the dust suction seat by taking the dust collection chamber as a center, the second dust suction chambers are positioned above the second transmission chamber, the second dust suction chambers are positioned between the third transmission chamber and the dust collection chamber, and the second dust suction chambers are communicated with the third transmission chamber;

the sliding groove is arranged on the inner wall of the second dust collection chamber and close to the dust collection chamber, and the section of the sliding groove is of an arc-shaped structure and is matched with the third transmission chamber;

the sliding block is connected in the sliding groove in a sliding manner;

one end of the third rotating shaft penetrates through a third transmission chamber and extends into the power box, the other second belt wheel is mounted on the third rotating shaft, the other end of the third rotating shaft penetrates through a second dust collection chamber and extends into the sliding groove, and the sliding block is mounted on the third rotating shaft;

the first turbine is arranged in the second dust collection chamber and is arranged on the third rotating shaft;

the two air inlet channels are symmetrically arranged in the dust collection seat by taking the dust collection chamber as a center, the air inlet channels are positioned above the third transmission chamber, the air inlet of the air inlet channels is positioned at the side end of the dust collection seat, and the air outlet of the air inlet channels penetrates through the second dust collection chamber and is communicated with the dust collection chamber;

the three-way pipeline is arranged in the dust collecting chamber, and the air inlet end of the three-way pipeline is connected with the air outlet of the air inlet channel;

and the second dust bag is arranged in the dust collecting chamber and sleeved at the air outlet end of the three-way pipeline.

Preferably, the dust suction apparatus further comprises:

the two fourth transmission chambers are symmetrically arranged in the dust collection seat by taking the dust collection chamber as a center, and the fourth transmission chambers are positioned between the second dust collection chamber and the second transmission chamber;

the two third belt wheels are arranged in the fourth transmission chamber;

the third transmission belt is arranged in the fourth transmission chamber and sleeved on the two third belt wheels;

the first rotating disc is arranged in the second dust collection chamber;

one end of the fourth rotating shaft extends into the second dust collection chamber and is connected with the first rotating disc, the other end of the fourth rotating shaft extends into the fourth transmission chamber, and one third belt wheel is mounted on the fourth rotating shaft;

the two fixing frames are arranged on the first rotating disc, the first turbine is positioned between the two fixing frames, and the third rotating shaft penetrates through the fixing frames;

the L-shaped fixing frame is arranged in the second transmission chamber, one end of the L-shaped fixing frame is connected with the first rotating shaft, and the other end of the L-shaped fixing frame is connected with the second rotating shaft;

the fifth transmission chamber is arranged in the dust collection seat and is positioned above the first transmission chamber;

the transverse groove is formed in the inner wall of the fifth transmission chamber and close to the first transmission chamber, and the bottom end of the transverse groove is communicated with the first transmission chamber;

the sliding piece is connected in the transverse groove in a sliding mode and is of an annular runway-shaped structure;

the two rows of inner teeth are symmetrically arranged at the non-curved surface end of the inner ring of the sliding piece;

an incomplete gear rotationally connected within the slider, the incomplete gear meshing with the internal teeth;

one end of the fifth rotating shaft extends into the first transmission chamber, the other end of the fifth rotating shaft extends into the transverse groove, and the incomplete gear is mounted on the fifth rotating shaft;

the fourth belt wheel is arranged in the first transmission chamber, the fourth belt wheel is positioned between the two first belt wheels, and the first transmission belt is sleeved on the fourth belt wheel;

the vertical frame is arranged in the fifth transmission chamber and fixedly connected with the sliding piece;

the two sixth transmission chambers are arranged in the dust collection seat, and the sixth transmission chambers are positioned above the fifth transmission chambers;

one end of the sixth rotating shaft extends into the fifth transmission chamber and is connected with a second rotating disc, the second rotating disc is arranged in the fifth transmission chamber, and the other end of the sixth rotating shaft extends into the two sixth transmission chambers;

the sliding column is eccentrically arranged on the second turntable and is connected in the vertical frame in a sliding manner;

the two fifth belt wheels are arranged in a sixth transmission chamber;

the fifth transmission belt is arranged in the sixth transmission chamber, sleeved on the two fifth belt wheels, and one of the fifth belt wheels is arranged on a sixth rotating shaft;

and one end of the seventh rotating shaft extends into the fourth transmission chamber and is connected with the other third belt wheel, the seventh rotating shaft penetrates through the air outlet channel and extends into the sixth transmission chamber, and the other fifth belt wheel is arranged on the seventh rotating shaft.

Preferably, a filter screen is installed at the air outlet of the air outlet channel.

Preferably, the section of the traveling rail is designed to be an i-shaped structure, and the roller of the movable seat travels on the inner side of the flange of the traveling rail.

The invention discloses a dust collector which is provided with the dust collector.

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 some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a first schematic view of a dust collecting apparatus according to the present invention;

FIG. 3 is a second schematic view of the dust collector of the present invention;

FIG. 4 is a third schematic view of the dust collector of the present invention;

FIG. 5 is a schematic view of a slider according to the present invention;

FIG. 6 is a schematic view of the connection of the mullion and the second rotating disk in the present invention.

In the figure: 1. a traveling rail; 2. a dust sensor; 3. a dust collection device; 31. a movable seat; 32. a dust collection base; 33. a first dust suction chamber; 34. a dust suction port; 35. a dust collection box; 36. a turbine mounting chamber; 37. an air intake turbine; 38. an air outlet channel; 39. a first channel; 30. a first transmission chamber; 41. a first rotating shaft; 42. rotating the motor; 43. a first pulley; 44. a first drive belt; 45. a dust collecting chamber; 46. a second transmission chamber; 47. a third transmission chamber; 48. a power box; 49. a helical gear; 40. a second rotating shaft; 51. a second pulley; 52. a second belt; 53. a second dust collection chamber; 54. a chute; 55. a slider; 56. a third rotating shaft; 57. a first turbine; 58. an air intake passage; 59. a second dust collecting bag; 50. a fourth transmission chamber; 61. a third belt pulley; 62. a third belt; 63. a first turntable; 64. a support frame; 65. L-shaped fixing frame; 66. a fifth transmission chamber; 67. a transverse groove; 68. a slider; 69. internal teeth; 60. an incomplete gear; 71. a fourth pulley; 72. a mullion; 73. a sixth transmission chamber; 74. a sixth rotating shaft; 75. a second turntable; 76. a traveler; 77. a fifth belt pulley; 78. a fifth belt; 79. a seventh rotating shaft.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. 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.

Examples

The invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides a vacuum cleaner, including:

the walking track 1 is erected indoors;

the dust sensors 2 are arranged at indoor preset positions, and the travelling rail 1 passes through each preset position;

and the dust suction device 3 runs on the running track 1.

The working principle and the beneficial effects of the technical scheme are as follows:

the invention discloses a dust collector which is arranged indoors and used for collecting dust in a room, wherein a dust sensor 2 is arranged at a preset position in the room, a walking track 1 passes through each preset position, when the dust sensor 2 at the preset position detects that the dust exceeds the standard, a working instruction is sent to a dust collecting device 3, the dust collecting device 3 moves to the position along the walking track 1 and carries out dust collecting operation, for example, the dust sensors 2 are arranged in an area A, an area B, an area C and an area D in the room, the walking track 1 respectively passes through the area A, the area B, the area C and the area D, when the dust sensor at the area B detects that the dust exceeds the standard, the working instruction is sent to the dust collecting device 3, the dust collecting device crosses the area A along the walking track 1 to reach the area B and carries out dust collecting operation on the dust in the area B, the walking track 1 can be of an annular structure connected end to end, the dust collector provided by the invention replaces manual movement, and moves on the walking track 1 in a patrol mode, and automatically moves to a certain preset area to perform dust collection operation after dust in the area exceeds the standard, so that time and labor are saved.

As shown in fig. 2, in one embodiment, the dust suction device 3 includes:

a movable base 31, wherein the movable base 31 is mounted on the traveling rail 1;

a dust suction base 32, wherein the dust suction base 32 is mounted at the bottom end of the movable base 31;

a first dust suction chamber 33, wherein the first dust suction chamber 33 is arranged in the dust suction base 32;

a dust suction port 34, wherein the dust suction port 34 is opened at the bottom end of the dust suction base 32, and the dust suction port 34 is communicated with the first dust suction chamber 33;

the dust collection box 35 is installed in the first dust collection chamber 33, the dust collection port 34 is connected in the dust collection box 35, and a plurality of through holes are formed in the surface of the dust collection box 35;

the first dust bag is arranged in the dust collection box 35 and sleeved on the dust collection port 34;

the two turbine installation chambers 36 are symmetrically arranged in the dust suction base 32, and the turbine installation chambers 36 are communicated with the first dust suction chamber 33;

an intake turbine 37, the intake turbine 37 being installed in the turbine installation chamber 36;

the air outlet channel 38 is arranged in the dust suction base 32, and an air outlet of the air outlet channel 38 is arranged at the side end of the dust suction base 32;

a first channel 39, wherein the first channel 39 is arranged in the dust suction base 32, one end of the first channel 39 is communicated with the worm wheel mounting chamber 36, and the other end of the first channel 39 is communicated with the air outlet channel 38;

the first transmission chamber 30 is arranged in the dust collection seat 32, and the first transmission chamber 30 is arranged in the dust collection seat 32;

the first rotating shaft 41 penetrates through the first transmission chamber 30, extends into the turbine installation chamber 36 and is connected with the air inlet turbine 37;

the rotating motor 42 is arranged in the dust collection seat 32, and the rotating motor 42 is installed on one of the first rotating shafts 41;

the two first belt wheels 43 are arranged in the first transmission chamber 30 and are correspondingly arranged on the first rotating shaft 41 one by one;

the first transmission belt 44 is disposed in the first transmission chamber 30, and the first transmission belt 44 is sleeved on the two first belt wheels 43.

The working principle and the beneficial effects of the technical scheme are as follows:

the rotating motor 42 works to further drive the first rotating shafts 41 connected with the rotating motor to rotate, the two first rotating shafts 41 are driven by the two first belt wheels 43 and the first transmission belt 44 which are positioned in the first transmission chamber 30, so as to drive the air inlet turbine 37 which is positioned in the turbine installation chamber 36 and connected with the first rotating shafts 41 to rotate, gas in the first dust collection chamber 33 is sent into the air outlet channel 38 through the turbine installation chamber 36 and the first channel 39 and is discharged through the air outlet of the air outlet channel 38, negative pressure is formed in the first dust collection chamber 33, indoor raised dust is sent into the dust collection box 35 through the dust collection port 34 and is collected into the first dust collection bag, and the filtered gas is discharged from the air outlet of the air outlet channel 38, so as to finish the dust collection operation.

In one embodiment, the inner wall of the dust suction opening 34 is closed from bottom to top.

As shown in fig. 3, in one embodiment, the dust suction device 3 further includes:

the dust collecting chamber 45 is arranged in the dust collecting seat 32, the dust collecting chamber 45 is positioned above the first transmission chamber 30, the two air outlet channels 38 are symmetrically arranged by taking the dust collecting chamber 45 as a center, and air inlets of the air outlet channels 38 are communicated in the dust collecting chamber 45;

the two second transmission chambers 46 are symmetrically arranged in the dust suction seat 32 by taking a dust collection chamber 45 as a center, the second transmission chambers 46 are positioned above the air outlet channel 38, the end, far away from the air inlet turbine 37, of the first rotating shaft 41 penetrates through the air outlet channel 38 and extends into the second transmission chambers 46, and the rotating motor 42 is a double-head motor;

two third transmission chambers 47 are symmetrically arranged in the dust suction seat 32 by taking the dust collection chamber 45 as a center, the third transmission chambers 47 are positioned above the air outlet channel 38, the third transmission chambers 47 are positioned at the ends of the second transmission chambers 46 far away from the dust collection chamber 45, the third transmission chambers 47 are communicated in the second transmission chambers 46, and the sections of the third transmission chambers 47 are of arc structures;

a power box 48, wherein the power box 48 is slidably connected in the third transmission chamber 47;

a pair of engaged bevel gears 49, said bevel gears 49 being disposed within said second transmission chamber 46, one of said bevel gears 49 being mounted on the first shaft 41;

one end of the second rotating shaft 40 extends into the second transmission chamber 46 and is connected with another bevel gear 49, and the other end of the second rotating shaft 40 penetrates through a third transmission chamber 47 and extends into a power box 48;

two second belt wheels 51, wherein the two second belt wheels 51 are arranged in the power box 48, and one of the second belt wheels 51 is mounted on the second rotating shaft 40;

the second transmission belt 52 is arranged in the power box 48, and the second transmission belt 52 is sleeved on the two second belt wheels 51;

two second dust suction chambers 53, the two second dust suction chambers 53 are symmetrically arranged in the dust suction seat 32 with the dust collection chamber 45 as the center, the second dust suction chamber 53 is positioned above the second transmission chamber 46, the second dust suction chamber 53 is positioned between the third transmission chamber 47 and the dust collection chamber 45, and the second dust suction chambers 53 are communicated in the third transmission chamber 47;

the sliding chute 54 is arranged on the inner wall of the second dust collection chamber 53 and close to the dust collection chamber 45, and the section of the sliding chute 54 is of an arc-shaped structure and is matched with the third transmission chamber 47;

the sliding block 55 is connected in the sliding groove 54 in a sliding manner;

a third rotating shaft 56, one end of the third rotating shaft 56 penetrates through the third transmission chamber 47 and extends into the power box 48, wherein another second belt pulley 51 is installed on the third rotating shaft 56, the other end of the third rotating shaft 56 penetrates through the second dust collection chamber 53 and extends into the chute 54, and the sliding block 55 is installed on the third rotating shaft 56;

a first turbine 57, wherein the first turbine 57 is arranged in the second dust chamber 53, and the first turbine 57 is mounted on the third rotating shaft 56;

the two air inlet channels 58 are symmetrically arranged in the dust collection seat 32 by taking the dust collection chamber 45 as a center, the air inlet channels 58 are positioned above the third transmission chamber 47, the air inlet of the air inlet channel 58 is positioned at the side end of the dust collection seat 32, and the air outlet of the air inlet channel 58 penetrates through the second dust collection chamber 53 and is communicated with the dust collection chamber 45;

the three-way pipeline is arranged in the dust collecting chamber 45, and the air inlet end of the three-way pipeline is connected with the air outlet of the air inlet channel 58;

and the second dust collecting bag 59 is arranged in the dust collecting chamber 45, and the second dust collecting bag 59 is sleeved at the air outlet end of the three-way pipeline.

The working principle and the beneficial effects of the technical scheme are as follows:

the rotating motor 42 is a double-head motor, when the rotating motor 42 drives the first rotating shaft 41 to rotate, one of the bevel gears 49 located in the second transmission chamber 46 and mounted on the first rotating shaft 41 is driven to rotate, the engaged pair of bevel gears 49 drives the second rotating shaft 40 connected with the other bevel gear 49 to rotate, the second rotating shaft 40 drives the two second belt pulleys 51 and the second transmission belt 52 located in the power box 48 to rotate, thereby driving the third rotating shaft 56 connected with the second belt pulley 51 to rotate, further driving the first turbine 57 located in the second dust collection chamber 53 and mounted on the third rotating shaft 56 to rotate, the first turbine 57 forms a negative pressure environment in the second dust collection chamber 53, thereby sending the indoor raised dust from the air inlet channel 58, the second dust collection chamber 53 and the three-way pipeline into the second dust collection bag 59 located in the dust collection chamber 45, and discharging the filtered air from the air outlet channel 38, thereby completing the dust collection operation, the dust suction port 34 finishes dust suction of the dust with larger particle size, and the air inlet channel 58 finishes dust suction of the dust with smaller particle size.

As shown in fig. 4 to 6, in one embodiment, the dust suction device 3 further includes:

the two fourth transmission chambers 50 are symmetrically arranged in the dust collection seat 32 by taking the dust collection chamber 45 as a center, and the fourth transmission chambers 50 are positioned between the second dust collection chamber 53 and the second transmission chamber 46;

third belt wheels 61, two of the third belt wheels 61 are provided in the fourth transmission chamber 50;

the third transmission belt 62 is arranged in the fourth transmission chamber 50, and the third transmission belt 62 is sleeved on the two third belt wheels 61;

a first rotating disc 63, wherein the first rotating disc 63 is arranged in the second dust collection chamber 53;

one end of the fourth rotating shaft extends into the second dust collection chamber 53 and is connected with the first rotating disc 63, the other end of the fourth rotating shaft extends into the fourth transmission chamber 50, and one third belt wheel 61 is mounted on the fourth rotating shaft;

the two support frames 64 are mounted on the first rotating disc 63, the first turbine 57 is located between the two support frames 64, and the third rotating shaft 56 penetrates through the support frames 64;

the L-shaped fixing frame 65 is arranged in the second transmission chamber 46, one end of the L-shaped fixing frame 65 is connected with the first rotating shaft 41, and the other end of the L-shaped fixing frame 65 is connected with the second rotating shaft 40;

a fifth transmission chamber 66, wherein the fifth transmission chamber 66 is arranged in the dust suction base 32, and the fifth transmission chamber 66 is positioned above the first transmission chamber 30;

the transverse groove 67 is formed in the inner wall of the fifth transmission chamber 66 and close to the first transmission chamber 30, and the bottom end of the transverse groove 67 is communicated with the first transmission chamber 30;

a sliding piece 68, wherein the sliding piece 68 is slidably connected in the transverse groove 67, and the sliding piece 68 is provided with an annular runway-shaped structure;

inner teeth 69, two rows of inner teeth 69 are symmetrically arranged at the non-curved end of the inner ring of the sliding piece 68;

an incomplete gear 60, the incomplete gear 60 being rotatably connected within the slide 68, the incomplete gear 60 being in mesh with an internal tooth 69;

one end of the fifth rotating shaft extends into the first transmission chamber 30, the other end of the fifth rotating shaft extends into the transverse groove 67, and the incomplete gear 60 is mounted on the fifth rotating shaft;

a fourth pulley 71, wherein the fourth pulley 71 is disposed in the first transmission chamber 30, the fourth pulley 71 is disposed between the two first pulleys 43, and the first transmission belt 44 is sleeved on the fourth pulley 71;

the vertical frame 72 is arranged in the fifth transmission chamber 66, and the vertical frame 72 is fixedly connected with the sliding piece 68;

the sixth transmission chambers 73 are arranged in the dust collection seat 32, and the sixth transmission chambers 73 are positioned above the fifth transmission chamber 66;

one end of the sixth rotating shaft 74 extends into the fifth transmission chamber 66 and is connected with a second rotating disc 75, the second rotating disc 75 is arranged in the fifth transmission chamber 66, and the other end of the sixth rotating shaft 74 extends into the two sixth transmission chambers 73;

a sliding column 76, wherein the sliding column 76 is eccentrically arranged on the second rotating disc 75, and the sliding column 76 is slidably connected in the vertical frame 72;

a fifth pulley 77, two of the fifth pulleys 77 being provided in the sixth transmission chamber 73;

a fifth transmission belt 78, wherein the fifth transmission belt 78 is disposed in the sixth transmission chamber 73, the fifth transmission belt 78 is sleeved on two fifth belt wheels 77, and one of the fifth belt wheels 77 is mounted on the sixth rotating shaft 74;

one end of the seventh rotating shaft 79 extends into the fourth transmission chamber 50 and is connected with the other third belt wheel 61, the seventh rotating shaft 79 penetrates through the air outlet channel 38 and extends into the sixth transmission chamber 73, and the other fifth belt wheel 77 is installed on the seventh rotating shaft 79.

The working principle and the beneficial effects of the technical scheme are as follows:

the fourth belt wheel 71 located in the first transmission chamber 30 rotates synchronously with the first belt wheel 43 under the action of the first transmission belt 44, so as to drive the fifth rotating shaft connected with the fourth belt wheel 71 to rotate, the fifth rotating shaft drives the incomplete gear 60 to rotate, the incomplete gear 60 drives the sliding piece 68 to move left and right in the transverse groove 67 through the meshed internal teeth 69, the sliding piece 68 drives the second rotating disc 75 located in the fifth transmission chamber 66 to periodically rotate in the forward and reverse directions through the cooperation of the vertical frame 72 and the sliding column 76, so as to drive the sixth rotating shaft 74 connected with the second rotating disc 75 to periodically rotate in the forward and reverse directions, so as to drive the two fifth belt wheels 77 and the fifth transmission belt 78 which are installed on the first rotating shaft 74 and located in the sixth transmission chamber 73 to rotate, the fifth belt wheels 77 drive the two third belt wheels 61 and the third transmission belt 62 located in the fourth transmission chamber 50 to rotate through the seventh rotating shaft 79, so as to drive the fourth rotating shaft connected with the third belt wheels 61, The first rotating disc 63 connected with the fourth rotating shaft and located in the second dust collection chamber 53 rotates, the first rotating disc 63 drives the third rotating shaft 56 to rotate through the supporting frame 64, the power box 48 connected with one end of the third rotating shaft 56 slides in the third transmission chamber 47, the sliding block 55 connected with the other end of the third rotating shaft 53 slides in the sliding groove 54, the sliding directions of the power box 48 and the sliding block 55 are the same, so that the first turbine 57 installed on the third rotating shaft 53 is driven to periodically rotate in the second dust collection chamber 53, and the dust collection area of the raised dust sent into the second dust collection chamber 53 from the air inlet channel 58 is increased.

In one embodiment, the air outlet of the air outlet channel 38 is provided with a filter screen.

In one embodiment, the section of the running rail 1 is formed in an i-shaped structure, and the roller of the moving seat 31 runs on the inner side of the flange of the running rail 1.

The embodiment provides a dust collection system, which is provided with the dust collector.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications therefrom are within the scope of the invention.

Claims (6)

1. A vacuum cleaner, comprising:

the walking track (1), the walking track (1) is erected indoors;

the dust sensors (2) are arranged at indoor preset positions, and the travelling rail (1) passes through each preset position;

the dust collection device (3) runs on the running track (1);

the dust suction device (3) comprises:

the moving seat (31), the moving seat (31) is installed on the walking track (1);

the dust collection seat (32), the dust collection seat (32) is installed at the bottom end of the movable seat (31);

a first dust suction chamber (33), wherein the first dust suction chamber (33) is arranged in the dust suction base (32);

the dust suction port (34) is formed in the bottom end of the dust suction seat (32), and the dust suction port (34) is communicated with the first dust suction chamber (33);

the dust collection box (35), the dust collection box (35) is installed in the first dust collection chamber (33), the dust collection port (34) is connected in the dust collection box (35), and a plurality of through holes are formed in the surface of the dust collection box (35);

the first dust collection bag is arranged in the dust collection box (35) and sleeved on the dust collection opening (34);

the two turbine installation chambers (36) are symmetrically arranged in the dust collection seat (32), and the turbine installation chambers (36) are communicated with the first dust collection chamber (33);

an intake turbine (37), said intake turbine (37) being mounted within said turbine mounting chamber (36);

the air outlet channel (38) is arranged in the dust collection seat (32), and an air outlet of the air outlet channel (38) is arranged at the side end of the dust collection seat (32);

the first channel (39) is arranged in the dust suction seat (32), one end of the first channel (39) is communicated with the worm wheel mounting chamber (36), and the other end of the first channel (39) is communicated with the air outlet channel (38);

the first transmission chamber (30), the said first transmission chamber (30) locates in the said dust absorption seat (32);

the first rotating shaft (41), the first rotating shaft (41) penetrates through the first transmission chamber (30), extends into the turbine installation chamber (36), and is connected with the air inlet turbine (37);

the rotating motor (42) is arranged in the dust collection seat (32), and the rotating motor (42) is arranged on one first rotating shaft (41);

the two first belt wheels (43) are arranged in the first transmission chamber (30) and are arranged on the first rotating shaft (41) in a one-to-one correspondence manner;

the first transmission belt (44) is arranged in the first transmission chamber (30), and the first transmission belt (44) is sleeved on the two first belt wheels (43);

the dust collecting chamber (45) is arranged in the dust collecting seat (32), the dust collecting chamber (45) is positioned above the first transmission chamber (30), the two air outlet channels (38) are symmetrically arranged by taking the dust collecting chamber (45) as a center, and air inlets of the air outlet channels (38) are communicated in the dust collecting chamber (45);

the two second transmission chambers (46) are symmetrically arranged in the dust collection seat (32) by taking a dust collection chamber (45) as a center, the second transmission chambers (46) are positioned above the air outlet channel (38), the end, away from the air inlet turbine (37), of the first rotating shaft (41) penetrates through the air outlet channel (38) and extends into the second transmission chambers (46), and the rotating motor (42) is a double-head motor;

the two third transmission chambers (47) are symmetrically arranged in the dust collection seat (32) by taking the dust collection chamber (45) as a center, the third transmission chambers (47) are positioned above the air outlet channel (38), the third transmission chambers (47) are positioned at the ends, far away from the dust collection chamber (45), of the second transmission chambers (46), and the sections of the third transmission chambers (47) are of arc structures;

a power box (48), wherein the power box (48) is slidably connected in the third transmission chamber (47);

a pair of engaged bevel gears (49), said bevel gears (49) being disposed within said second drive chamber (46), one of said bevel gears (49) being mounted on said first shaft (41);

one end of the second rotating shaft (40) extends into the second transmission chamber (46) and is connected with the other helical gear (49), and the other end of the second rotating shaft (40) penetrates through the third transmission chamber (47) and extends into the power box (48);

the two second belt wheels (51) are arranged in the power box (48), and one of the second belt wheels (51) is arranged on the second rotating shaft (40);

the second transmission belt (52) is arranged in the power box (48), and the second transmission belt (52) is sleeved on the two second belt wheels (51);

the two second dust suction chambers (53) are symmetrically arranged in the dust suction seat (32) by taking the dust collection chamber (45) as a center, the second dust suction chambers (53) are positioned above the second transmission chamber (46), the second dust suction chambers (53) are positioned between the third transmission chamber (47) and the dust collection chamber (45), and the second dust suction chambers (53) are communicated in the third transmission chamber (47);

the sliding chute (54) is formed in the position, close to the dust collection chamber (45), of the inner wall of the second dust collection chamber (53), the cross section of the sliding chute (54) is of an arc-shaped structure and is matched with the third transmission chamber (47) in arrangement;

the sliding block (55), the sliding block (55) is connected in the sliding groove (54) in a sliding way;

one end of the third rotating shaft (56) penetrates through the third transmission chamber (47) and extends into the power box (48), the other second belt wheel (51) is mounted on the third rotating shaft (56), the other end of the third rotating shaft (56) penetrates through the second dust collection chamber (53) and extends into the sliding groove (54), and the sliding block (55) is mounted on the third rotating shaft (56);

a first turbine (57), wherein the first turbine (57) is arranged in the second dust collection chamber (53), and the first turbine (57) is arranged on the third rotating shaft (56);

the two air inlet channels (58) are symmetrically arranged in the dust collection seat (32) by taking the dust collection chamber (45) as a center, the air inlet channels (58) are positioned above the third transmission chamber (47), the air inlet of the air inlet channels (58) is positioned at the side end of the dust collection seat (32), and the air outlet of the air inlet channels (58) penetrates through the second dust collection chamber (53) and is communicated with the dust collection chamber (45);

the three-way pipeline is arranged in the dust collecting chamber (45), and the air inlet end of the three-way pipeline is connected with the air outlet of the air inlet channel (58);

the second dust collecting bag (59), the second dust collecting bag (59) is arranged in the dust collecting chamber (45), and the second dust collecting bag (59) is sleeved at the air outlet end of the three-way pipeline.

2. A vacuum cleaner according to claim 1, characterized in that the inner wall of the suction opening (34) is closed from bottom to top.

3. A vacuum cleaner according to claim 1, characterized in that the suction device (3) further comprises:

the two fourth transmission chambers (50) are symmetrically arranged in the dust collection seat (32) by taking the dust collection chamber (45) as a center, and the fourth transmission chambers (50) are positioned between the second dust collection chamber (53) and the second transmission chamber (46);

third belt wheels (61), two of the third belt wheels (61) are arranged in the fourth transmission chamber (50);

the third transmission belt (62) is arranged in the fourth transmission chamber (50), and the third transmission belt (62) is sleeved on the two third belt wheels (61);

a first rotating disc (63), wherein the first rotating disc (63) is arranged in the second dust collection chamber (53);

one end of the fourth rotating shaft extends into the second dust collection chamber (53) and is connected with the first rotating disc (63), the other end of the fourth rotating shaft extends into the fourth transmission chamber (50), and one third belt wheel (61) is installed on the fourth rotating shaft;

the two support frames (64) are arranged on the first rotating disc (63), the first turbine (57) is positioned between the two support frames (64), and the third rotating shaft (56) penetrates through the support frames (64);

the L-shaped fixing frame (65) is arranged in the second transmission chamber (46), one end of the L-shaped fixing frame (65) is connected with the first rotating shaft (41), and the other end of the L-shaped fixing frame (65) is connected with the second rotating shaft (40);

a fifth transmission chamber (66), wherein the fifth transmission chamber (66) is arranged in the dust collection seat (32), and the fifth transmission chamber (66) is positioned above the first transmission chamber (30);

the transverse groove (67) is formed in the inner wall of the fifth transmission chamber (66) and is close to the first transmission chamber (30), and the bottom end of the transverse groove (67) is communicated with the first transmission chamber (30);

the sliding piece (68) is connected in the transverse groove (67) in a sliding mode, and the sliding piece (68) is of an annular runway-shaped structure;

inner teeth (69), two rows of inner teeth (69) are symmetrically arranged at the non-curved surface end of the inner ring of the sliding piece (68);

an incomplete gear (60), the incomplete gear (60) being rotationally connected within the slide (68), the incomplete gear (60) being in mesh with internal teeth (69);

one end of the fifth rotating shaft extends into the first transmission chamber (30), the other end of the fifth rotating shaft extends into the transverse groove (67), and the incomplete gear (60) is arranged on the fifth rotating shaft;

the fourth belt wheel (71), the fourth belt wheel (71) is arranged in the first transmission chamber (30), the fourth belt wheel (71) is positioned between the two first belt wheels (43), and the first transmission belt (44) is sleeved on the fourth belt wheel (71);

the vertical frame (72) is arranged in the fifth transmission chamber (66), and the vertical frame (72) is fixedly connected with the sliding piece (68);

the two sixth transmission chambers (73) are arranged in the dust collection seat (32), and the sixth transmission chambers (73) are positioned above the fifth transmission chamber (66);

one end of the sixth rotating shaft (74) extends into the fifth transmission chamber (66) and is connected with a second rotating disc (75), the second rotating disc (75) is arranged in the fifth transmission chamber (66), and the other end of the sixth rotating shaft (74) extends into the two sixth transmission chambers (73);

the sliding column (76), the sliding column (76) is eccentrically arranged on the second rotating disc (75), and the sliding column (76) is connected in the vertical frame (72) in a sliding mode;

the fifth belt wheels (77), two of the fifth belt wheels (77) are arranged in a sixth transmission chamber (73);

the fifth transmission belt (78), the fifth transmission belt (78) is arranged in the sixth transmission chamber (73), the fifth transmission belt (78) is sleeved on the two fifth belt wheels (77), and one of the fifth belt wheels (77) is arranged on a sixth rotating shaft (74);

the fourth transmission chamber (50) is extended into one end of the seventh rotating shaft (79), the seventh rotating shaft (79) is connected with the third belt wheel (61), the seventh rotating shaft (79) penetrates through the air outlet channel (38) and extends into the sixth transmission chamber (73), and the fifth belt wheel (77) is arranged on the seventh rotating shaft (79).

4. A vacuum cleaner according to claim 1, wherein the outlet of the air outlet channel (38) is provided with a filter screen.

5. A vacuum cleaner according to claim 1, characterized in that the cross-section of the running rail (1) is formed as an i-shaped structure, and the rollers of the moving base (31) run inside the flange of the running rail (1).

6. A vacuum cleaner system, characterized by having a vacuum cleaner as claimed in any one of claims 1 to 5.

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