CN213606152U

CN213606152U - Scalable brushless rotatory cleaning head

Info

Publication number: CN213606152U
Application number: CN202021700819.6U
Authority: CN
Inventors: 张石磊; 乔喜迎
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-15
Filing date: 2020-08-15
Publication date: 2021-07-06
Anticipated expiration: 2030-08-15

Abstract

The utility model discloses a scalable brushless rotation cleaning head, include to the mechanism of intaking that sprays water to the carpet, still including the vacuum adsorption mechanism who is used for adsorbing the sewage on the carpet, with the mechanism of taking off that vacuum adsorption mechanism is connected and contacts with the carpet, take off the mechanism and include the connecting plate of being connected with vacuum mechanism, with the lower fixed surface of connecting plate suction head mechanism, pass through coupling mechanism with suction head mechanism and be connected and gliding slider mechanism from top to bottom in suction head mechanism, the utility model discloses the setting of taking off the head subassembly is higher with carpet laminating degree in the cleaning operation, is convenient for wash the deep level of carpet, and mechanism and vacuum adsorption mechanism simultaneous working of intaking makes washing and soil pick-up water work go on simultaneously, makes the carpet wash cleaner, drives the rotating head function through actuating mechanism, and wash and soil pick-up and go on simultaneously for cleaning operation efficiency is higher, Faster and greatly saves the cost.

Description

Scalable brushless rotatory cleaning head

Technical Field

The utility model relates to a cleaning equipment technical field, concretely relates to scalable brushless spin cleaning head.

Background

Carpet and cloth art cleaning widely exists in the fields of hotels, guesthouses, sanitation, families and the like; most of the cleaning machines used in these fields are a brush plate with a brush at the bottom (hereinafter referred to as a brush plate of a single-wiping machine) and a carpet hand-hold. When the brush disc is used for cleaning the carpet for a long time, the brush disc can damage the wool fibers on the surface, especially the thick wool carpet and the real silk carpet, and the surface of the carpet becomes harder and harder after long-term use of the brush! The traditional brush disk carpet cleaning can not take away dirt, only the electronic frothing box and the rotary brush are used for beating the cleaning agent into foam, and the foam brings away some dirt, then the dust collector is used for sucking away the foam to achieve the aim of cleaning, the direct result caused by the cleaning principle is that the operation process is complicated and the cleaning is not clean, and the carpet can be polluted secondarily, at the same time, the carpet is particularly dirtied, and the main reason for this is that the cleaning and dirt pick-up of the single-wiping machine cannot be carried out simultaneously but there is a delay time difference, the time difference between cleaning and dirt suction can cause the sewage containing the cleaning agent to sink in the deep layer of the carpet or be absorbed by the sponge in the deep layer of the carpet under the action of gravity, the dust collector can only absorb the foam on the surface of the carpet, so that the carpet cannot be cleaned cleanly, the surface can be cleaned without washing the carpet, and secondary pollution can be caused to the carpet.

It can be known from the above points that the cleanliness of the cleaning machine is very low, the cleaning agent is seriously remained, the carpet is subjected to secondary pollution in the cleaning process, the effects of deep cleaning and carpet renovation cannot be achieved, meanwhile, the carpet can be greatly damaged, and in addition, because foam is beaten out and the dust collector cannot be completed at the same time, the cleaning process is more complicated, the cleaning efficiency is completely reduced, and the performance and the development of the cleaning machine are seriously influenced. The carpet hand-raking device adopts the working principle that a cleaning agent with dirt is cleaned while sewage is recycled, the defect that a single wiping machine cannot clean and suck the dirt simultaneously is overcome, but the cleaning effect can be achieved only by manually rubbing a raking head on a carpet back and forth in the whole cleaning process, a certain cleaning effect can be achieved, but the cleaning efficiency is very low because the cleaning is carried out by manually raking the carpet once, and more manpower and financial resources are consumed for large-area cleaning, so that the labor cost and the time cost are increased, and the defect is also great. The above description illustrates that the development of the cleaning industry is severely restricted by the traditional cleaning mode, namely the cleaning by a single-wiping machine or the cleaning by a carpet hand-raking.

Therefore, it is a problem to provide a retractable brushless rotary cleaning head and a cleaning machine using the same, which facilitates cleaning and sewage suction simultaneously.

Disclosure of Invention

To the not enough of above-mentioned prior art, the utility model aims at providing a be convenient for wash with inhale scalable brushless rotatory cleaning head that sewage goes on simultaneously and use the cleaning machine of this cleaning head.

The purpose of the utility model is realized like this:

a scalable brushless rotatory cleaning head, includes the mechanism of intaking that sprays water to the carpet, its characterized in that: the carpet picking device comprises a carpet picking mechanism, a vacuum adsorption mechanism and a picking head mechanism, wherein the carpet picking mechanism is used for adsorbing sewage on a carpet, the picking head mechanism is connected with the vacuum adsorption mechanism and is in contact with the carpet, the picking head mechanism comprises a connecting plate connected with the vacuum adsorption mechanism, a suction head mechanism fixedly connected with the lower surface of the connecting plate, and a slider mechanism which is connected with the suction head mechanism through the connecting mechanism and slides up and down in the suction head mechanism.

The slider mechanism comprises a first strip-shaped block and a first suction port positioned in the first strip-shaped block, and the top and the bottom of the first suction port are respectively communicated with the top and the bottom of the first strip-shaped block.

The suction head mechanism comprises a supporting plate, a second strip-shaped block, a sliding groove and a second suction opening, wherein the supporting plate is located below the connecting plate and is fixedly connected with the connecting plate, the second strip-shaped block is fixedly connected with the lower surface of the supporting plate, the sliding groove is located in the second strip-shaped block, the opening of the sliding groove is downward, the second suction opening is located on the supporting plate and is communicated with the sliding groove, and the first strip-shaped block moves.

The connecting mechanism comprises a positioning bolt for connecting the first strip-shaped block and the second strip-shaped block, a spring sleeved on the positioning bolt, a first placing groove located on the upper surface of the first strip-shaped block and used for containing the spring, a through groove communicated with the bottom of the first placing groove and used for enabling the positioning bolt to pass through, a second placing groove communicated with the bottom of the through groove and used for preventing the end part of the positioning bolt, a threaded hole located on the lower surface of the second strip-shaped block and provided with a downward opening, the threaded hole is in threaded connection with the top of the positioning bolt, and the bottom of the positioning bolt moves up and down in the second placing groove so that the first strip-shaped block moves in the vertical.

The supporting plate is provided with a third placing groove, a nozzle baffle positioned in the third placing groove and a through hole positioned at the center of the nozzle baffle, the bottom of the third placing groove is communicated with the second suction port, and the center of the connecting plate is provided with a communicating hole communicated with the vacuum adsorption mechanism.

The vacuum adsorption mechanism comprises a vacuum cavity, a connecting hole positioned on the side face of the vacuum cavity and a vacuum pipeline fixedly connected with the connecting hole, the other end of the vacuum pipeline is fixedly connected with the upper surface of the connecting plate, and the vacuum pipeline is communicated with the second suction port through a communicating hole in the connecting plate.

The water inlet mechanism comprises a water inlet groove, a disc fixedly connected with the top of the water inlet groove, a central shaft fixedly connected with the disc, a pipeline fixedly connected with the side surface of the water inlet groove through a bolt assembly, and a spray head connected with the end part of the pipeline, the pipeline is positioned in the vacuum pipeline, and the spray head is positioned in the second suction port.

The central axis of the central shaft is provided with a water inlet hole which is communicated with the inside of the water inlet tank, and the bottom of the water inlet tank is fixedly connected with the inner surface of the vacuum cavity.

A cleaning machine using a retractable brushless rotary cleaning head as described above.

The utility model has the advantages that: the utility model discloses take off the setting of first subassembly, it is higher with carpet laminating degree in the cleaning operation, be convenient for wash the deep level of carpet, mechanism and the vacuum adsorption mechanism simultaneous working of intaking makes and washs and the work of soil pick-up goes on simultaneously, it is cleaner to make the carpet wash, drive the rotating head function through actuating mechanism, wash and soil pick-up go on simultaneously moreover for cleaning operation efficiency is higher, faster, the cost has been saved greatly simultaneously, built-in nozzle lets the water yield more concentrated, the region sprays more dynamics. Under the rotation state, the front and back action of the bottom and the outer side surface of the sliding block can enable hot water or cleaning liquid to be blended into the deep layer of the carpet.

Drawings

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

FIG. 2 is a bottom view of FIG. 1;

fig. 3 is an exploded view of the present invention;

fig. 4 is an exploded schematic view of the raking head mechanism of the present invention;

FIG. 5 is an exploded view of the suction head mechanism and the slider of the present invention;

fig. 6 is a schematic structural view of the slider mechanism of the present invention;

FIG. 7 is a schematic structural view of the water inlet mechanism of the present invention;

in the figure: the device comprises a vacuum adsorption mechanism 1, a water inlet mechanism 2, a head raking mechanism 3, a vacuum cavity 4, a vacuum pipeline 5, a vacuum cavity 6, a connecting plate 7, a sucker mechanism 8, a sliding block 9, a first suction port 10, a nozzle 11, a nozzle baffle 12, a connecting hole 13, a first bar-shaped block 14, a positioning bolt 15, a spring 16, a first placing groove 17, a through groove 18, a second placing groove 19, a second suction port 20, a third placing groove 21, a supporting plate 22, a second bar-shaped block 23, a central shaft 24, a disc 25, a water tank 26, a pipeline 27 and a bolt assembly 28.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

as shown in fig. 1 to 6, a retractable brushless rotary cleaning head comprises a water inlet mechanism for spraying water to a carpet, a vacuum adsorption mechanism 1 for adsorbing sewage on the carpet, and a head-pulling mechanism 3 connected with the vacuum adsorption mechanism 1 and in contact with the carpet, wherein the arrangement of the head-pulling mechanism 3 is convenient for deep cleaning of the carpet, the working efficiency is high, the vacuum adsorption mechanism 1 is convenient for timely cleaning the sewage on the carpet to prevent the sewage from permeating into the carpet, the carpet cleaning effect is poor, the water inlet mechanism 2 is convenient for spraying liquid such as detergent and the like on the carpet, the operation is convenient, the cleaning effect is good, and the head raking mechanism 3 comprises a connecting plate 7 connected with the vacuum mechanism 1 through a bolt component, a suction head mechanism 8 fixedly connected with the lower surface of the connecting plate 7 through a bolt component, and a slider mechanism 9 connected with the suction head mechanism 8 through a connecting mechanism and capable of sliding up and down in the suction head mechanism 8. The slider mechanism 9 slides up and down in the suction head mechanism 8, so that the attaching degree of the suction head mechanism 8 and a carpet is high, sewage of the carpet can be absorbed conveniently in time, under the rotating state, hot water or cleaning liquid can be more blended into the deep layer of the carpet under the front and back action of the bottom and the outer side surface of the slider 9 the slider mechanism 9 comprises a first strip-shaped block 14 and a first suction port 10 positioned in the first strip-shaped block 14, the top and the bottom of the first suction port 10 are respectively communicated with the top and the bottom of the first strip-shaped block 14, and the first suction port 10 is a through hole in the vertical direction. The suction head mechanism 8 comprises a supporting plate 22 which is positioned below the connecting plate 7 and is fixedly connected with the connecting plate 7 through a bolt component, a second strip-shaped block 23 which is fixedly connected with the lower surface of the supporting plate 22 in a welding mode, a sliding groove which is positioned in the second strip-shaped block 23 and has a downward opening, and a second suction opening 20 which is positioned on the supporting plate 22 and is communicated with the sliding groove, wherein the first strip-shaped block 14 moves up and down in the sliding groove, the first suction opening 10 is communicated with the second suction opening 20, so that sewage can enter the vacuum cavity 4 from the first suction opening 10, the second suction opening 20 and the vacuum pipeline 5, and then the sewage is discharged out of the vacuum cavity 4 through a vacuum pump, the spray head 11 is positioned in the sliding groove, and the sliding groove is arranged to prevent high-temperature and high-pressure hot water or steam sprayed out of the spray nozzle from splashing into. The connecting mechanism comprises a positioning bolt 15 used for connecting a first strip-shaped block 14 and a second strip-shaped block 23, a spring 16 sleeved on the positioning bolt 15, a first placing groove 17 located on the upper surface of the first strip-shaped block 14 and used for containing the spring 14, a through groove 18 communicated with the bottom of the first placing groove 17 and enabling the positioning bolt 15 to pass through, a second placing groove 19 communicated with the bottom of the through groove 18 and used for placing the end part of the positioning bolt 15, and a threaded hole located on the lower surface of the second strip-shaped block 23 and provided with a downward opening, wherein the threaded hole is in threaded connection with the top of the positioning bolt 15, and the first strip-shaped block 14 moves in the vertical direction so that the bottom of the positioning bolt 15 moves up and down in the second placing. The central point of connecting plate 7 puts and is equipped with the intercommunicating pore with vacuum adsorption apparatus 1 intercommunication, the intercommunicating pore communicates with second suction inlet 20, the diameter that leads to groove 18 is greater than positioning bolt 15's diameter and is less than the diameter of positioning bolt 15 bottom nut, the bolt of positioning bolt 15 bottom reciprocates in second standing groove 19, when meetting higher carpet surface, then first bar 14 moves upwards, then the upper surface of first bar 14 promotes spring 16 and upwards moves in the spout, when meetting lower carpet surface, spring 16 promotes first bar 14 and downwards moves, thereby make the lower surface of first bar 14 and carpet contact, can stretch out and draw back according to the height unevenness on carpet surface, thereby make suction head mechanism 8 and slider mechanism 9 better laminate with the carpet, thereby better reach abluent effect.

The vacuum adsorption mechanism 1 comprises a vacuum cavity 4, a connecting hole 13 located on the side face of the vacuum cavity 4, and a vacuum pipeline 5 fixedly connected with the connecting hole 13, the other end of the vacuum pipeline 5 is fixedly connected with the upper surface of a connecting plate 7 through a bolt component, the vacuum pipeline 5 is communicated with a second suction port 20 through a communicating hole in the connecting plate 7, so that sewage can be sucked into the vacuum cavity 4 from the second suction port 20 conveniently, the vacuum cavity 4 is an octagonal vacuum cavity, a fixed bottom plate is arranged in the middle of the

vacuum cavity

4, 8 connecting holes 13 communicated with the vacuum pipeline 5 are formed in the periphery of the vacuum cavity 4, and threaded holes for fixing the vacuum pipeline 5 are formed in the periphery of the vacuum cavity 4, the number of the head-pulling mechanisms 3 is equal to that of the vacuum pipelines 5, and the first suction port 10 and the second suction port 20 in the head-pulling mechanisms 3 are arranged, so that the.

As shown in fig. 7, the water inlet mechanism 2 includes a water inlet tank 26, a disk 25 fixedly connected to the top of the water inlet tank 26, a central shaft 24 fixedly connected to the disk 25, a pipe 27 fixedly connected to the side of the water inlet tank 26 via a bolt assembly 28, and a nozzle 11 connected to the end of the pipe 27, wherein the pipe 27 is located in the vacuum pipe 5, and the nozzle 11 is located inside the second suction port 20. The central axis of the central shaft 24 is provided with a water inlet hole, the water inlet hole is communicated with the inside of the water inlet groove 26, the bottom of the water inlet groove 26 is fixedly connected with the inner surface of the vacuum cavity 4 through a fixed chassis, the support plate 22 is provided with a third placing groove 21, a nozzle baffle 12 positioned in the third placing groove 21 and a through hole positioned at the central position of the nozzle baffle 12, the bottom of the third placing groove 21 is communicated with the second suction port 20, the nozzle 11 is hermetically connected with the through hole on the nozzle baffle 12 to prevent the sewage positioned in the vacuum cavity from flowing back through a gap between the nozzle 11 and the support plate 22, the longitudinal section of the nozzle 11 is in a ladder shape, so that the high-temperature hot water or steam is sprayed in a fan shape instead of being directly sprayed in a water column in the cleaning process of the carpet, so that the high-temperature and high-pressure hot water can be more uniformly sprayed on the carpet in the rotary, the top of the water inlet groove 26 is provided with an O-shaped ring for placing the O-shaped ring groove 6-2, and the disk 25 and the water inlet groove 26 can be better sealed by the O-shaped ring; the disc 25 and the water inlet tank 26 are fixed through the bolt assembly, the opening of the spray head 11 is downward, two spray nozzles 11 are arranged, the two spray nozzles 11 are on the same straight line, and the design of only using the two spray nozzles 11 can ensure that the water temperature for cleaning is higher, the pressure is stronger, and the carpet is finally cleaned more cleanly; simultaneously because in operation process, it is rotatory to drive scalable rotatory cleaning head through the motor, washs moreover and soil pick-up goes on simultaneously, so make the cleaning operation efficiency higher, faster, has also saved cost of labor and time cost simultaneously greatly. The carpet cleaning machine overcomes various defects of the traditional cleaning machine, not only greatly improves the efficiency in carpet cleaning operation, but also enables the carpet to be cleaned more thoroughly, achieves the aim of renovation, saves a large amount of cost and promotes the updating and development of the cleaning industry.

Example 2:

the embodiment of the retractable brushless rotary cleaning head is the same as that of embodiment 1, and the details of this embodiment are not repeated.

The utility model discloses take off the setting of head subassembly, it is higher with the carpet laminating degree in the cleaning operation, be convenient for wash the more deep level of carpet, mechanism and the vacuum adsorption mechanism simultaneous working of intaking makes to wash and the work of soil pick-up goes on simultaneously, makes the carpet wash cleaner, drives the rotating head function through actuating mechanism, washs and soil pick-up goes on simultaneously moreover for cleaning operation efficiency is higher, faster, has saved the cost simultaneously greatly. The built-in nozzle lets the water yield more concentrated, and the region sprays more dynamics. Under the rotation state, the front and back action of the bottom and the outer side surface of the sliding block can enable hot water or cleaning liquid to be blended into the deep layer of the carpet.

Claims

1. A scalable brushless rotatory cleaning head, includes the mechanism of intaking that sprays water to the carpet, its characterized in that: the carpet picking device comprises a carpet picking mechanism, a vacuum adsorption mechanism and a picking head mechanism, wherein the carpet picking mechanism is used for adsorbing sewage on a carpet, the picking head mechanism is connected with the vacuum adsorption mechanism and is in contact with the carpet, the picking head mechanism comprises a connecting plate connected with the vacuum adsorption mechanism, a suction head mechanism fixedly connected with the lower surface of the connecting plate, and a slider mechanism which is connected with the suction head mechanism through the connecting mechanism and slides up and down in the suction head mechanism.

2. The retractable brushless rotary cleaning head of claim 1, further comprising: the slider mechanism comprises a first strip-shaped block and a first suction port positioned in the first strip-shaped block, and the top and the bottom of the first suction port are respectively communicated with the top and the bottom of the first strip-shaped block.

3. The retractable brushless rotary cleaning head of claim 2, further comprising: the suction head mechanism comprises a supporting plate, a second strip-shaped block, a sliding groove and a second suction opening, wherein the supporting plate is located below the connecting plate and is fixedly connected with the connecting plate, the second strip-shaped block is fixedly connected with the lower surface of the supporting plate, the sliding groove is located in the second strip-shaped block, the opening of the sliding groove is downward, the second suction opening is located on the supporting plate and is communicated with the sliding groove, and the first strip-shaped block moves.

4. The retractable brushless rotary cleaning head of claim 3 wherein: the connecting mechanism comprises a positioning bolt for connecting the first strip-shaped block and the second strip-shaped block, a spring sleeved on the positioning bolt, a first placing groove located on the upper surface of the first strip-shaped block and used for containing the spring, a through groove communicated with the bottom of the first placing groove and used for enabling the positioning bolt to pass through, a second placing groove communicated with the bottom of the through groove and used for preventing the end part of the positioning bolt, a threaded hole located on the lower surface of the second strip-shaped block and provided with a downward opening, the threaded hole is in threaded connection with the top of the positioning bolt, and the bottom of the positioning bolt moves up and down in the second placing groove so that the first strip-shaped block moves in the vertical.

5. The retractable brushless rotary cleaning head of claim 3 wherein: the supporting plate is provided with a third placing groove, a nozzle baffle positioned in the third placing groove and a through hole positioned at the center of the nozzle baffle, the bottom of the third placing groove is communicated with the second suction port, and the center of the connecting plate is provided with a communicating hole communicated with the vacuum adsorption mechanism.

6. The retractable brushless rotary cleaning head of claim 5 wherein: the vacuum adsorption mechanism comprises a vacuum cavity, a connecting hole positioned on the side face of the vacuum cavity and a vacuum pipeline fixedly connected with the connecting hole, the other end of the vacuum pipeline is fixedly connected with the upper surface of the connecting plate, and the vacuum pipeline is communicated with the second suction port through a communicating hole in the connecting plate.

7. The retractable brushless rotary cleaning head of claim 6, further comprising: the water inlet mechanism comprises a water inlet groove, a disc fixedly connected with the top of the water inlet groove, a central shaft fixedly connected with the disc, a pipeline fixedly connected with the side surface of the water inlet groove through a bolt assembly, and a spray head connected with the end part of the pipeline, the pipeline is positioned in the vacuum pipeline, and the spray head is positioned in the second suction port.

8. The retractable brushless rotary cleaning head of claim 7, further comprising: the central axis of the central shaft is provided with a water inlet hole which is communicated with the inside of the water inlet tank, and the bottom of the water inlet tank is fixedly connected with the inner surface of the vacuum cavity.