Clean door with intelligent door lock
Technical Field
The invention relates to the field of clean doors, in particular to a clean door with an intelligent door lock.
Background
The clean door is generally easy to clean, environment-friendly and high in air tightness, is suitable for places with high requirements on cleanliness and air tightness, such as various hospital construction, biomedical laboratories, food processing factories and the like, and is formed by integrally molding a door body mold, and is seamless and high in corrosion resistance.
The cleaning door is provided with the high-quality sealing strip, the automatic lifting sweeping bar is used for effectively preventing external dust from invading to pollute the indoor environment, sealing, sound insulation, heat insulation, shock resistance and the like are achieved, better air tightness is guaranteed, the automatic lifting sweeping bar can only isolate dust which flows in along with wind from the external bottom surface and adheres to soles of workers, and the dust which adheres to wheels of the carrying vehicles such as trolleys, plate type forklifts and the like enters the indoor cargo equipment along with the workers, the other dust removing equipment is additionally used for dust treatment, if the indoor dust-free requirement of the cleaning door is high, a plurality of dust removing steps are needed to be carried out for each time in and out of the cleaning door, the treatment procedure is complicated, the working efficiency of the workers is affected, in addition, the sweeping bar does not have the functions of automatic dust collection and corresponding treatment, and if a large amount of dust accumulated on the sweeping bar is not treated in time, the dust accumulated on the sweeping bar is blown into the indoor environment along with the external airflow easily, and the indoor environment is polluted.
Disclosure of Invention
The invention provides a clean door with an intelligent door lock, which aims to overcome the defects that an automatically lifting sweeping bar cannot automatically remove dust for a worker and a portable trolley device, so that a processing procedure required for entering and exiting the clean door is complicated, dust accumulated on the sweeping bar is easy to blow into the clean door along with external airflow and pollute the indoor environment.
The clean door with the intelligent door lock comprises a door body, a buried frame, a ground lock assembly, a front gear assembly, a fixed cylinder, a linkage assembly and a dust collection assembly; a handle lock is arranged on the door body; the lower side of the door body is provided with a sweeping bar; a buried frame is arranged below the door body; the inner rear side of the buried frame is connected with a ground lock assembly; the ground lock component clings to the sweeping bar; the front side of the inner part of the buried frame is connected with a front gear component; two fixed barrels are fixedly connected to the inner bottom of the buried frame; a linkage assembly is connected between the upper sides of the two fixed cylinders; the linkage assembly is connected with the buried frame; the three-section switch arranged on the handle lock is regulated and controlled, the synchronous lifting degree of the ground lock component and the front gear component is respectively controlled by the indication linkage component, different in-out targets are adapted, and different requirements are met to respectively finish dust removal treatment; a dust collection assembly is connected between the two fixed cylinders; the dust collection assembly is connected with the buried frame; the dust collection assembly forms circulating air flow with the outside air through an air outlet and an air inlet which are respectively arranged at the left side and the right side of the buried frame; dust carried by the circulating air flow is intercepted by dust filtering nets respectively arranged in the air inlet and the air outlet.
As an improvement of the scheme, the ground lock assembly comprises a first sliding block, a fixed block and a rear baffle;
the inner rear part of the buried frame is connected with two first sliding blocks in a sliding way; the two first sliding blocks are connected with the linkage assembly; a fixed block is fixedly connected between the upper sides of the two first sliding blocks; the upper side of the fixed block is connected with a rear baffle; the rear baffle is closely attached to the sweeping bar.
As an improvement of the scheme, the rear baffle consists of an arc-shaped sliding block, a first spring and a rear baffle;
the upper side of the fixed block is slidingly connected with a plurality of arc-shaped sliding blocks; a first spring is fixedly connected between each arc-shaped sliding block and each fixed block; a rear baffle is fixedly connected between the upper ends of all the arc-shaped sliding blocks; the front side of the rear baffle is clung to the sweeping bar.
As an improvement of the scheme, the front side of the upper end of the rear baffle is provided with an inclined plane structure.
As an improvement of the scheme, the ground lock assembly is also provided with a scraping plate and a torsion spring;
the lower side of the fixed block is rotationally connected with a scraping plate through a rotating shaft; a torsion spring is fixedly connected between the two ends of the scraping plate and the fixed block respectively, and the torsion spring is sleeved on the outer surface of the rotating shaft of the scraping plate; the scraping plate is closely attached to the front gear assembly.
As an improvement of the scheme, the front gear assembly comprises a second sliding block, a second spring, a front baffle and a dust removing piece;
the inner front side of the buried frame is slidingly connected with two second sliding blocks; a second spring is fixedly connected between the two second sliding blocks and the buried frame respectively; the two second sliding blocks are connected with the linkage assembly; a front baffle is fixedly connected between the upper sides of the two second sliding blocks; the rear side of the front baffle is connected with a dust removing piece; the scraping plate is closely attached to the dust removing piece.
As an improvement of the scheme, the upper end of the front baffle is provided with a supporting bar structure.
As an improvement of the scheme, the dust removing piece consists of a brush roller and a first motor;
the rear side of the front baffle is rotationally connected with a brush roller; the right side of the front baffle is fixedly connected with a first motor; the output shaft of the first motor is fixedly connected with a brush roller; the scraping plate is closely attached to the brush roller.
As an improvement of the scheme, the linkage assembly comprises an inner rotating plate, an outer sliding plate, a connecting rod, an electric push rod, a push block and a clamping block;
the upper sides of the two fixed cylinders are respectively connected with an inner rotation plate through rotation of a rotating shaft; an outer sliding plate is connected to each of the two inner rotating plates in a sliding manner; the two outer sliding plates are respectively connected with adjacent first sliding blocks through rotating shafts in a rotating way; a connecting rod is connected between the two inner rotating plates in a rotating way; the two second sliding blocks are both rotationally connected with the connecting rod; two electric push rods are fixedly connected in the buried frame; the telescopic ends of the two electric push rods are fixedly connected with a push block respectively; two clamping blocks are fixedly connected on the connecting rod; the lower sides of the two clamping blocks are respectively inserted with an adjacent pushing block.
As an improvement of the scheme, the dust collection assembly comprises an air duct, a spiral fan blade and a second motor;
an air duct is fixedly connected between the interiors of the two fixed cylinders; the inside of the air duct is rotationally connected with a spiral fan blade; the second motor is fixedly connected inside the buried frame; the output shaft of the second motor is fixedly connected with the spiral fan blade; a plurality of dust collection groove structures are arranged around the outer surface of the air duct.
The clean door with the intelligent door lock comprises a door body and an underground frame, wherein the underground frame is internally connected with an underground lock assembly and a front gear assembly through a linkage assembly, a dust collection assembly is further arranged in the underground frame, the linkage assembly is indicated to respectively control synchronous lifting degrees of the underground lock assembly and the front gear assembly through a three-section switch arranged on a handle lock of the door body, different in-out targets are adapted, different requirements are met, dust collection is respectively completed, meanwhile, the dust collection assembly forms a circulating air flow with outside air through an air outlet and an air inlet which are respectively arranged at the left side and the right side of the underground frame, dust carried by the circulating air flow is intercepted by dust filtering nets respectively arranged in the air inlet and the air outlet, and automatic dust collection treatment work is realized;
through the processing steps, the technical problems that the automatically lifting sweeping bar cannot automatically remove dust on the staff and the portable trolley equipment, the processing procedures needed for entering and exiting the clean door are complicated, and dust accumulated on the sweeping bar is easy to blow into the clean door along with external air flow, so that the indoor environment is polluted are effectively solved.
Drawings
Fig. 1 is a schematic perspective view illustrating a clean door with an intelligent door lock according to an embodiment of the present application;
FIG. 2 is a schematic view illustrating a partial perspective structure of a clean door with an intelligent door lock according to an embodiment of the present application;
FIG. 3 is a cross-sectional view depicting a buried frame of the present application, according to an embodiment;
FIG. 4 is a schematic perspective view illustrating a ground lock assembly and a buried frame according to an embodiment of the present application;
figure 5 is a partial perspective view illustrating a dust extraction assembly of the present application according to an embodiment;
FIG. 6 is a partial isometric view depicting a ground lock assembly of the present application according to an embodiment;
FIG. 7 is an exploded view depicting a ground lock assembly of the present application, according to an embodiment;
FIG. 8 is a schematic perspective view illustrating a front rail assembly and a buried frame according to an embodiment of the present application;
FIG. 9 is a schematic perspective view illustrating a front rail assembly and a linkage assembly according to an embodiment of the present application;
FIG. 10 is a schematic perspective view illustrating a front rail assembly according to an embodiment of the present application;
fig. 11 is a partial perspective view illustrating a linkage assembly according to an embodiment of the present application.
The marks of the components in the drawings are as follows: the novel dust collector comprises a 1-door body, a 101-sweeping bar, a 11-handle lock, a 12-three-section switch, a 2-buried frame, a 21-air inlet, a 22-air outlet, a 23-dust filtering net, a 31-first sliding block, a 32-fixed block, a 33-arc sliding block, a 34-first spring, a 35-rear baffle, a 351-inclined plane, a 36-scraping plate, a 37-torsion spring, a 41-second sliding block, a 42-second spring, a 43-front baffle, a 431-supporting bar, a 51-brush roll, a 52-first motor, a 61-fixed cylinder, a 62-inner rotating plate, a 63-outer sliding plate, a 64-connecting rod, a 65-electric push rod, a 66-pushing block, a 67-clamping block, a 71-air duct, a dust collection groove, a 72-spiral fan blade and a 73-second motor.
Detailed Description
The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.
Examples
1-11, the clean door with intelligent door lock comprises a door body 1, a buried frame 2, a ground lock component, a front gear component, a fixed cylinder 61, a linkage component and a dust collection component; a handle lock 11 is arranged on the door body 1; the handle lock 11 is provided with a three-section switch 12; the lower side of the door body 1 is provided with a sweeping bar 101; a buried frame 2 is arranged below the door body 1; the right side of the buried frame 2 is communicated with an air inlet 21; the left side of the buried frame 2 is communicated with an air outlet 22; a dust filter net 23 is fixedly connected in each of the air inlet 21 and the air outlet 22; the inner rear side of the buried frame 2 is connected with a ground lock assembly; the ground lock assembly is closely attached to the sweeper bar 101; the front side of the inner part of the buried frame 2 is connected with a front gear assembly; two fixing cylinders 61 are connected with the inner bottom of the buried frame 2 through bolts; a linkage assembly is connected between the upper sides of the two fixed cylinders 61; the linkage assembly is connected with the buried frame 2; the linkage assembly is connected with the ground lock assembly; the linkage assembly is connected with the front gear assembly; a dust collection assembly is connected between the two fixed cylinders 61; the dust collection assembly is connected with the buried frame 2.
As shown in fig. 4 to 7, the ground lock assembly includes a first slider 31, a fixed block 32 and a rear stopper; the inner rear part of the buried frame 2 is connected with two first sliding blocks 31 in a sliding way; the two first sliding blocks 31 are connected with the linkage assembly; a fixed block 32 is welded between the upper sides of the two first sliding blocks 31; a rear stopper is connected to the upper side of the fixed block 32; the rear bumper is abutted against the sweeper strip 101.
As shown in fig. 6 and 7, the rear stopper is composed of an arc-shaped slider 33, a first spring 34, and a rear baffle 35; the upper side of the fixed block 32 is slidingly connected with a plurality of arc-shaped sliding blocks 33; a first spring 34 is fixedly connected between each arc-shaped sliding block 33 and each fixed block 32; a rear baffle 35 is welded between the upper ends of all the arc-shaped sliding blocks 33; the front side of the rear baffle 35 is closely attached to the sweeper strip 101; the upper front side of the tailgate 35 is provided in a slant 351 structure.
As shown in fig. 6 and 7, the ground lock assembly is also provided with a scraper 36 and a torsion spring 37; the lower side of the fixed block 32 is rotatably connected with a scraping plate 36 through a rotating shaft; a torsion spring 37 is fixedly connected between the two ends of the scraper 36 and the fixed block 32 respectively, and the torsion spring 37 is sleeved on the outer surface of the rotating shaft of the scraper 36; the scraper 36 is in close proximity to the front rail assembly.
As shown in fig. 8 to 10, the front rail assembly includes a second slider 41, a second spring 42, a front baffle 43 and a dust removing member; the inner front side of the buried frame 2 is slidingly connected with two second sliding blocks 41; a second spring 42 is fixedly connected between the two second sliding blocks 41 and the buried frame 2 respectively; both second sliding blocks 41 are connected with the linkage assembly; a front baffle 43 is welded between the upper sides of the two second sliding blocks 41; the rear side of the front baffle 43 is connected with a dust removing piece; the upper end of the front baffle 43 is provided with a supporting bar 431 structure; the scraper 36 is in close proximity to the dusting member.
As shown in fig. 8, the dust removing member is composed of a brush roller 51 and a first motor 52; the rear side of the front baffle 43 is rotatably connected with a brush roller 51; the right side of the front baffle 43 is bolted to the first motor 52; the output shaft of the first motor 52 is fixedly connected with the brush roller 51; the scraper 36 is in close contact with the brush roller 51.
As shown in fig. 4, 5, 9 and 11, the linkage assembly includes an inner rotating plate 62, an outer sliding plate 63, a connecting rod 64, an electric push rod 65, a push block 66 and a clamping block 67; the upper sides of the two fixed cylinders 61 are respectively connected with an inner rotation plate 62 through rotation of the rotating shafts; an outer slide plate 63 is slidably connected to each of the two inner slide plates 62; the two outer sliding plates 63 are respectively connected with one adjacent first sliding block 31 through rotating shafts in a rotating way; a connecting rod 64 is connected between the two inner rotating plates 62 in a common rotating way; both second sliders 41 are rotatably connected to the connecting rod 64; two electric push rods 65 are connected with the inside of the buried frame 2 through bolts; the telescopic ends of the two electric push rods 65 are fixedly connected with a push block 66 respectively; two clamping blocks 67 are fixedly connected to the connecting rod 64; the undersides of the two clamping blocks 67 are respectively inserted into the adjacent pushing blocks 66.
As shown in fig. 3 and 5, the dust collection assembly comprises a wind guide tube 71, a spiral fan blade 72 and a second motor 73; an air duct 71 is fixedly connected between the interiors of the two fixed cylinders 61; the inside of the air duct 71 is rotationally connected with a spiral fan blade 72; the second motor 73 is connected to the inner bolt of the buried frame 2; the output shaft of the second motor 73 is fixedly connected with the spiral fan blade 72; a plurality of dust collection grooves 711 are formed around the outer surface of the air duct 71.
The conventional use steps of the clean door with the intelligent door lock comprise:
this clean door with intelligent lock is by the door body 1 with bury frame 2 and constitute, the door body 1 is installed in the door frame on the wall body, bury the frame 2 and install in the bottom surface of door body 1 below, bury the below of the left and right sides alignment door frame of frame 2, it has ground lock assembly and preceding shelves subassembly to bury to be connected with through the linkage subassembly in the frame 2, the sweep strip 101 of the initial AND gate body 1 of backplate 35 of ground lock assembly is mutually laminated, preceding baffle 43 and brush roll 51 all are located and bury the frame 2 inside, three-section switch 12 has three regulation and control gears, three-section switch 12 passes through circuit system and connects first motor 52 respectively, second motor 73 and two electric putter 65.
When the staff normally gets in and out, the three-stage switch 12 is located the normal gear in three regulation and control gears, and the staff opens door body 1 through handle lock 11 to outwards pull door body 1, simultaneously door body 1 drives the strip of sweeping floor 101 outwards to remove, and door body 1 is opened, later the staff just closes door body 1 through handle lock 11, and door body 1 drives strip of sweeping floor 101 and removes to reset, and the dust that follows strip of sweeping floor 101 and remove on the bottom surface is intercepted by backplate 35, prevents the dust to get into indoor, reduces the phenomenon emergence of indoor by external dust pollution.
This clean door's with intelligent lock first clean use step:
when the dust cleaning work is required to be carried out on the soles of the staff entering the room, the staff regulates and controls the three-section switch 12 firstly, the three-section switch 12 is located in the first cleaning gear among the three regulating and controlling gears, then the staff opens the door body 1 through the handle lock 11, the door body 1 drives the sweeping bar 101 to move outwards, and the door body 1 is opened.
After the worker regulates and controls the three-stage switch 12 to be located in the first cleaning gear and opens the door body 1, the three-stage switch 12 activates the first motor 52, the second motor 73 and the two electric push rods 65 respectively through the circuit system to start working.
Firstly, two electric push rods 65 push the connecting rod 64 synchronously through the push block 66 and the clamping block 67 to drive the inner rotary plate 62 to turn upwards, the inner rotary plate 62 drives the outer rotary plate 63 to pull the first sliding block 31 downwards to drive the whole ground lock assembly to move downwards, the height of the rear baffle 35 is lowered, meanwhile, the inner rotary plate 62 pushes the second sliding block 41 to drive the second spring 42 to stretch upwards, the second sliding block 41 drives the whole front baffle assembly to lift upwards to expose the ground burying frame 2, at the moment, the heights of the front baffle 43 and the brush roller 51 are higher than the rear baffle 35, then the output shaft of the first motor 52 drives the brush roller 51 to rotate anticlockwise at a right visual angle, a worker places shoes on the supporting bars 431 of the front baffle 43 and slowly moves the shoes forwards, and when the shoes pass through the upper surface of the brush roller 51, the rapidly rotating brush roller 51 brushes dust on soles into the ground burying frame 2.
In the process that the brush roller 51 rises upwards along with the front baffle 43, the scraping plate 36 loses extrusion of the brush roller 51, the torsion spring 37 which is in a twisted state initially drives the scraping plate 36 to bounce forwards, the outer end of the scraping plate 36 is kept close to the brush roller 51, the brush roller 51 brushes dust on soles into the buried frame 2 in a rapid rotation mode, meanwhile, the scraping plate 36 scrapes dust adsorbed on the brush roller 51 in the process that the brush roller 51 passes through the scraping plate 36, the output shaft of the second motor 73 drives the spiral fan blade 72 to rotate, the rotating spiral fan blade 72 forms air flow conveyed leftwards in the air duct 71, the air flow is discharged through the air outlet 22, meanwhile, external air enters the buried frame 2 through the air inlet 21, a dust collection assembly forms circulating air flow in the buried frame 2 through the air outlet 22 and the air inlet 21, meanwhile, the dust scraped from the scraping plate 36 is sucked into the air duct 71 through the dust collection groove, the dust is collected along with the circulating air flow by the dust filter net 23 in the air outlet 22, and the external dust in the circulating air is collected by the dust filter net 23 in the circulating air flow before entering the buried frame 2 along with the circulating air flow, and the dust collector 21 automatically completes first dust collection treatment of a sole cleaning operation.
This clean use step of second of clean door with intelligent lock:
when the dust cleaning work is required to be carried out on handcart equipment carried by workers entering a room, the workers firstly regulate and control the three-section switch 12, the three-section switch 12 is positioned in a second cleaning gear among three regulating and controlling gears, then the workers open the door body 1 through the handle lock 11, and the door body 1 drives the sweeping bar 101 to move outwards, and the door body 1 is opened.
After the worker regulates that the three-stage switch 12 is positioned at the second cleaning gear and opens the door body 1, the three-stage switch 12 activates the first motor 52, the second motor 73 and the two electric push rods 65 respectively through the circuit system to start working.
Firstly, two electric push rods 65 synchronously push a connecting rod 64 to drive an inner rotating plate 62 to turn upwards, the inner rotating plate 62 drives an outer sliding plate 63 to pull a first sliding block 31 downwards to drive the whole ground lock assembly to move downwards, meanwhile, the inner rotation pushes a second sliding block 41 to drive a second spring 42 to stretch upwards, the second sliding block 41 drives the whole front baffle assembly to lift upwards to expose an underground frame 2, at the moment, the front baffle 43 and the rear baffle 35 are flush, a brush roll 51 is positioned between the front baffle 43 and the rear baffle 35, then an output shaft of a first motor 52 drives the brush roll 51 to rotate anticlockwise at a right visual angle, simultaneously a torsion spring 37 drives a scraper 36 to spring forwards to enable the outer end of the scraper 36 to keep close to the brush roll 51, a staff pushes a trolley device to clamp wheels of the trolley device between the front baffle 43 and the rear baffle 35, at the moment, the brush roll 51 is close to the wheels and drive the wheels to rotate, and as the rotating speed of the brush roll 51 is higher than that of the wheels is driven, the brush roll 51 continuously adsorbs dust on the surfaces of the wheels in the process, the brush roll 36 is automatically sucked into the dust through the air duct blades of the air duct channel 72, and the dust is sucked into the air duct channel 72 through the air duct channel 72, and the dust collector channel is cleaned by the dust collector blade assembly.
After the dust cleaning work of handcart equipment wheels is completed, the staff only needs to push the handcart equipment, let the handcart equipment wheels push the backplate 35 to move downwards through inclined plane 351, backplate 35 drives outer slide 63 and inner slide 62 and rotates, let inner slide 62 drive connecting rod 64 and fixture block 67 upwards move, connecting rod 64 drives preceding shelves subassembly upwards rise, make second spring 42 continue to be upwards stretched, make backplate 35 sink into buried frame 2, the staff can easily push handcart equipment in the room, after the handcart equipment wheels leave backplate 35, by stretched second spring 42 drive connecting rod 64 and fixture block 67 downwards, connecting rod 64 drives inner slide 62 and outer slide 63 reverse rotation, outer slide 63 is with backplate 35 back out buried frame 2 top again.
When a worker pushes out the handcart equipment from the room, dust cleaning work on wheels of the handcart equipment is not needed, at the moment, the worker directly pushes the wheels of the handcart equipment to pass through the rear baffle 35, the wheels push the rear baffle 35 to drive the arc-shaped sliding block 33 to turn forwards, the arc-shaped sliding block 33 drives the first spring 34 to stretch, the rear baffle 35 is overturned from an upright state to a transverse state, the lower surface of the transverse state rear baffle 35 is clung to the rotating brush roller 51, the dust accumulated on the surface of the rear baffle 35 is brushed by the brush roller 51, the worker directly pushes the handcart equipment to pass through the buried frame 2 through the transverse state rear baffle 35, the wheels of the handcart equipment cannot be clamped between the front baffle 43 and the rear baffle 35, and the worker smoothly pushes the handcart equipment out of the room.
It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.