CN112196414A

CN112196414A - Automatic revolving door capable of automatically cleaning based on hydromechanics

Info

Publication number: CN112196414A
Application number: CN202010991115.7A
Authority: CN
Inventors: 顾辉
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-20
Filing date: 2020-09-20
Publication date: 2021-01-08

Abstract

The invention provides a hydrodynamics-based self-cleaning automatic revolving door, which comprises an underground supporting cylinder, a rotary adsorption mechanism and a negative adsorption grid paving mechanism, wherein the underground supporting cylinder is used for mounting and supporting equipment, the rotary adsorption mechanism is used for driving the automatic revolving door to rotate, the surface of the underground supporting cylinder is in a cylindrical shape, the bottom of the underground supporting cylinder is in a closed flat shape, and the top of the underground supporting cylinder is in an open shape, and relates to the field of revolving doors. This but autogiration door based on hydrodynamics automatically cleaning is according to the difficult clear problem of muddy water that current revolving door exists, design out can be along with autogiration door self-rotation in, utilize hydrodynamics to keep away from and design special callus on the sole structure and absorb water and handle, thereby effectual general autogiration door of having solved can be continuous rotates, run into rainwater weather, be stained with a large amount of muddy water on the earth's surface easily, these muddy water are difficult by clean in the revolving door, there is the potential safety hazard and the problem that influences pleasing to the eye problem.

Description

Automatic revolving door capable of automatically cleaning based on hydromechanics

Technical Field

The invention relates to the technical field of revolving doors, in particular to an automatic revolving door capable of self-cleaning based on hydromechanics.

Background

The automatic revolving door is a device for limiting people from entering a room, and can be seen in a public place frequently, when the automatic revolving door is used, the automatic revolving door can rotate at a constant speed along with the driving of a motor, in the rotating process, people enter an independent space and then enter the room, just because the automatic revolving door is always in a rotating state, the automatic revolving door is not very convenient to clean, when few people are needed, the motor is stopped, the automatic revolving door is cleaned, if in rainy days, muddy water on feet of people can stain foot pads, the attractiveness can be affected very much due to the inconvenience in cleaning, the muddy water is wet and smooth, larger potential safety hazards exist, most of the existing automatic revolving doors only use grids on the floor, the problem cannot be solved well due to the mode, because a door frame of a revolving door rotating system needs to be supported, a supporting structure at the bottom of the common grids can prevent water from losing, different from the common grating, the grating used on the revolving door is inconvenient to clean, the common automatic revolving door can continuously rotate, a large amount of muddy water is easily attached to the ground surface in rainy days, the muddy water is not easily cleaned in the revolving door, potential safety hazards exist, and the attractiveness is affected, so that the automatic revolving door capable of automatically cleaning based on hydromechanics is needed.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a hydrodynamics-based self-cleaning automatic revolving door, which solves the problems that a common automatic revolving door can continuously rotate, a large amount of muddy water is easily attached to the ground surface in rainy days, the muddy water is not easily cleaned in the revolving door, and potential safety hazards and attractiveness are caused.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an automatic revolving door that can automatically clean based on hydrodynamics, buries a supporting cylinder, is used for driving the rotatory adsorption device of automatic revolving door and is used for the bedding burden including being used for installation and support device and inhales the grid mechanism, bury the surface that supports a section of thick bamboo and be the drum shape, bury the bottom that supports a section of thick bamboo and be the flat form of sealing with, bury the top that supports a section of thick bamboo and be open form with, rotatory adsorption device sets up buries with on a supporting cylinder, burden is inhaled grid mechanism and sets up and buries with ground on a supporting cylinder.

Preferably, rotatory adsorption apparatus constructs including being used for the rotatory rotating electrical machines of actuating device, four dislocation stream aerofoil that are used for producing the burden and inhale wind-force, be used for protecting driving motor's motor case, be used for cutting apart four support door frames that advance the door space, bury the support section of thick bamboo and bury in the earth's surface below, bury the inner wall fixedly connected with motor case of a support section of thick bamboo, the inside fixed mounting of motor case has rotating electrical machines, rotating electrical machines's output shaft passes through shaft coupling fixedly connected with pivot, the fixed surface of pivot is connected with and supports the change, the bottom of supporting the change is inlayed and is had the first support ball of a plurality of, first support ring groove has been seted up at the top of motor case, the surface of first support ball and the inner wall sliding connection in first support ring groove.

Preferably, the last fixed surface who supports the swivel is connected with supports the door frame, the fixed surface who supports the surface of door frame and pivot is connected, bury the surface of a support section of thick bamboo and seted up the second and support the annular, the fixed surface who supports the door frame is connected with cowl, the bottom of supporting door frame and cowl all inlays and has a plurality of second support ball, the second supports the surface of ball and the inner wall sliding connection that the annular is supported to the second, the surface that supports the door frame inlays and has rectangle clear glass.

Preferably, support the lower fixed surface of conversion and be connected with dislocation stream aerofoil, the side of dislocation stream aerofoil buries the inner wall sliding connection who supports a section of thick bamboo with ground, the lower surface mosaic of dislocation stream aerofoil has a plurality of third support ball, the surface that the third supported the ball buries the inner diapire sliding connection who supports a section of thick bamboo with ground, dislocation stream aerofoil and four support door frame one-to-one, to the dislocation distribution about being between each pair of dislocation stream aerofoil and the support door frame, dislocation stream aerofoil is located the rear of supporting the door frame direction of rotation, dislocation stream aerofoil is located the below of supporting the door frame.

Preferably, the negative suction grille mechanism comprises an inner supporting ring, an outer supporting ring, a plurality of reinforcing supporting rods, a plurality of arc-shaped supporting rods, a plurality of movable bucket springs and a plurality of arc-shaped grille foot pads, the inner supporting ring is sleeved on the rotating shaft, a plurality of rotating balls are embedded at the bottom of the inner supporting ring, the surface of the rotating bead is connected with the upper surface of the supporting rotating ring in a sliding way, the surface of the outer supporting ring is fixedly connected with the inner wall of the buried supporting cylinder, the surface of the outer support ring is provided with a plurality of outer side lapping grooves, the surface of the inner support ring is provided with a plurality of inner side lapping grooves which are in one-to-one correspondence with the outer side lapping grooves, the inner wall in groove and the inner wall overlap joint in inboard groove are taken to the outside has the strengthening support pole, and the handing-over has a plurality of arc bracing piece between two adjacent strengthening support poles, and the dislocation distribution between two sets of arc bracing pieces between the adjacent three strengthening support pole.

Preferably, a movable bucket spring is fixedly connected between two adjacent reinforcing support rods, the movable bucket spring is located in a gap between the arc-shaped support rods, and the inner wall of each movable bucket spring is fixedly connected with a wind shield.

Preferably, the surface of arc grid callus on the sole is provided with the burden of a plurality of hexagon and inhales the aperture, each both ends all are under the narrow wide state about the aperture is inhaled to the burden, and adjacent two are inhaled and are provided with an arc lug between the aperture, the edge of arc lug and the edge coincidence that the aperture top was inhaled to the burden, the activity is fought the spring and is located the below of arc grid callus on the sole, the surface that the activity was fought the spring and the lower surface contact of arc grid callus on the sole.

(III) advantageous effects

(1) According to the invention, the negative suction grille mechanism is arranged, and when the rotary suction grille mechanism is used, the rotary suction mechanism generates negative suction wind power which sucks the arc grille foot pad downwards through the fluid mechanics principle when rotating, so that on one hand, the negative suction force can directly play a role in water suction, on the other hand, the movable bucket spring can play a role in water guide when contacting with the arc grille foot pad, and along with the generation of the wind power, the wind shield drives the movable bucket spring to shake, so that water can be discharged quickly.

(2) According to the invention, by arranging the staggered flow wind plate, on one hand, the staggered flow wind plate can generate a narrow gap between the supporting door frame and the rectangular transparent glass to guide wind power, so that the wind power is concentrated below the arc-shaped grid foot pad, and on the other hand, the narrow gap can generate stronger suction wind power, so that the negative suction pressure is enhanced, and the cleaning effect is convenient and rapid.

(3) According to the invention, the arc-shaped convex blocks are arranged, so that on one hand, the arc-shaped convex blocks can play a role in massaging the sole, and on the other hand, a narrow gap can be formed between the sole and the arc-shaped grid foot pad, so that the circulation of strong negative suction force is facilitated, and further, muddy water on the sole and the arc-shaped grid foot pad can be absorbed.

(4) According to the problem that muddy water is difficult to clean existing in the existing revolving door, the automatic revolving door can rotate automatically, and meanwhile, water absorption treatment is carried out by utilizing the hydromechanics to keep away and designing a special foot pad structure, so that the problems that a common automatic revolving door can rotate continuously, a large amount of muddy water is easily attached to the ground surface in rainy days, and the muddy water is difficult to clean in the revolving door, so that potential safety hazards exist and attractiveness is affected are effectively solved.

Drawings

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

FIG. 2 is a cross-sectional view of the underground support cylinder structure of the present invention;

FIG. 3 is a top view of a supporting doorframe structure of the present invention;

FIG. 4 is a bottom view of the inner support ring structure of the present invention;

FIG. 5 is a top view of the reinforcing support bar structure of the present invention;

FIG. 6 is a cross-sectional view of an arcuate grid foot pad structure of the present invention.

The device comprises a buried supporting cylinder 1, a rotary adsorption mechanism 2, a rotary motor 21, a staggered air flow plate 22, a motor box 23, a supporting door frame 24, a rotating shaft 25, a supporting swivel 26, a first supporting ball 27, a first supporting ring groove 28, a second supporting ring groove 29, an arc baffle 210, a second supporting ball 211, rectangular transparent glass 212, a third supporting ball 213, a negative suction grille mechanism 3, an inner supporting ring 31, an outer supporting ring 32, a reinforcing supporting rod 33, an arc supporting rod 34, an arc grille 35, a foot pad 36, an outer side lapping groove 37, an inner side lapping groove 38, a movable hopper spring 39, a wind blocking sheet 310, a negative suction small hole 311 and an arc convex block 312.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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.

As shown in fig. 1 to 6, the embodiment of the present invention provides a hydrodynamically-based self-cleaning automatic revolving door, which includes an underground supporting cylinder 1 for mounting and supporting equipment, a rotary adsorption mechanism 2 for driving the automatic revolving door to rotate, and a negative suction grille mechanism 3 for bedding, wherein the surface of the underground supporting cylinder 1 is in a cylindrical shape, the bottom of the underground supporting cylinder 1 is in a closed flat shape, the top of the underground supporting cylinder 1 is in an open shape, the rotary adsorption mechanism 2 is arranged on the underground supporting cylinder 1, and the negative suction grille mechanism 3 is arranged on the underground supporting cylinder 1.

The rotary adsorption mechanism 2 comprises a rotary motor 21 for driving equipment to rotate, four staggered air flow plates 22 for generating negative air suction force, a motor box 23 for protecting the drive motor, four supporting door frames 24 for dividing an entrance space, a buried supporting cylinder 1 is buried under the ground surface, the inner wall of the buried supporting cylinder 1 is fixedly connected with the motor box 23, the rotary motor 21 is fixedly installed inside the motor box 23, the output shaft of the rotary motor 21 is fixedly connected with a rotating shaft 25 through a coupler, the surface of the rotating shaft 25 is fixedly connected with a supporting rotating ring 26, the bottom of the supporting rotating ring 26 is embedded with a plurality of first supporting balls 27, the top of the motor box 23 is provided with a first supporting ring groove 28, the surface of the first supporting ball 27 is connected with the inner wall of the first supporting ring groove 28 in a sliding manner, the upper surface of the supporting rotating ring 26 is fixedly connected with a supporting door frame 24, the surface of the supporting door frame 24 is fixedly connected with the surface of the rotating shaft 25, the surface of the underground supporting cylinder 1 is provided with a second supporting ring groove 29, the surface of the supporting door frame 24 is fixedly connected with an arc baffle 210, the bottoms of the supporting door frame 24 and the arc baffle 210 are respectively embedded with a plurality of second supporting balls 211, the surface of the second supporting balls 211 is in sliding connection with the inner wall of the second supporting ring groove 29, the surface of the supporting door frame 24 is embedded with rectangular transparent glass 212, the lower surface of the supporting conversion is fixedly connected with a dislocation flow air plate 22, the side surface of the dislocation flow air plate 22 is in sliding connection with the inner wall of the underground supporting cylinder 1, the lower surface of the dislocation flow air plate 22 is embedded with a plurality of third supporting balls 213, the surface of the third supporting balls 213 is in sliding connection with the inner bottom wall of the underground supporting cylinder 1, the dislocation flow air plates 22 are in one-to-one correspondence with four supporting door frames 24, each pair of dislocation flow air plates 22 and the supporting door frame 24 are in up-down dislocation distribution, the dislocation flow air plate 22, the deflector vane 22 is positioned below the support frame 24.

The negative suction grille mechanism 3 comprises an inner supporting ring 31, an outer supporting ring 32, a plurality of reinforcing supporting rods 33, a plurality of arc-shaped supporting rods 34, a plurality of movable bucket springs 39 and a plurality of arc-shaped grille foot pads 35, wherein the inner supporting ring 31 is sleeved on the rotating shaft 25, a plurality of rotating beads 36 are embedded at the bottom of the inner supporting ring 31, the surfaces of the rotating beads 36 are in sliding connection with the upper surface of the supporting rotating ring 26, the surface of the outer supporting ring 32 is fixedly connected with the inner wall of the underground supporting cylinder 1, a plurality of outer side lapping grooves 37 are formed in the surface of the outer supporting ring 32, a plurality of inner side lapping grooves 38 corresponding to the outer side lapping grooves 37 one by one are formed in the surface of the inner supporting ring 31, the reinforcing supporting rods 33 are lapped on the inner wall of the outer side lapping grooves 37 and the inner wall of the inner side lapping grooves 38, a plurality of arc-shaped supporting rods 34 are crossed between two adjacent reinforcing supporting rods 33, and two groups of arc-shaped supporting, fixedly connected with activity fill spring 39 between two adjacent strengthening support bars 33, activity fill spring 39 is located the space between each arc bracing piece 34, equal fixedly connected with windshield 310 of inner wall of each activity fill spring 39, arc grid callus on the sole 35's surface is provided with the burden of a plurality of hexagon and inhales aperture 311, each burden inhales the state that aperture 311 upper and lower both ends all are under the narrow width, adjacent two are inhaled and are provided with an arc lug 312 between the aperture 311, the edge and the burden of arc lug 312 inhale the edge coincidence on aperture 311 top, activity fill spring 39 is located the below of arc grid callus on the sole 35, activity fill spring 39's surface and the lower surface contact of arc grid callus on the sole 35.

When the device is used, a power supply is connected, the rotating motor 21 is started, the rotating motor 21 drives the rotating shaft 25 to rotate, the rotating shaft 25 drives the supporting rotating ring 26 to rotate, the supporting rotating ring 26 drives the supporting door frame 24, the rectangular transparent glass 212 and the arc-shaped baffle 210 to rotate, the effect of shunting people entering a door is achieved, meanwhile, the supporting rotating ring 26 drives the staggered flow air plate 22 to rotate, peripheral air can be driven to flow while the staggered flow air plate 22 rotates, negative suction pressure force is generated behind the staggered flow air plate 22 to generate suction force on the arc-shaped grid foot pad 35, people step on the arc-shaped bump 312 on the negative suction small hole 311, a narrow gap is generated between a sole and the second supporting ball 211, the wind power flow speed is high, peripheral muddy water quickly flows into the ground to be buried in the supporting cylinder 1 through the negative suction small hole 311 under the foot, meanwhile, the wind power drives the movable bucket spring 39 to shake through the wind shield 310, the movable bucket spring 39 contacts and guides muddy water at, the muddy water rapidly drops on the shaking movable bucket spring 39.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

Claims

1. Automatic revolving door that can self-clean based on hydrodynamics, including buried support cylinder (1) that is used for installation and support equipment, rotatory adsorption apparatus structure (2) that is used for driving automatic revolving door rotatory and be used for the bedding negative suction grille structure (3), characterized in that: the surface of the underground supporting cylinder (1) is in a cylindrical shape, the bottom of the underground supporting cylinder (1) is in a closed flat shape, the top of the underground supporting cylinder (1) is in an open shape, the rotary adsorption mechanism (2) is arranged on the underground supporting cylinder (1), and the negative adsorption grille mechanism (3) is arranged on the underground supporting cylinder (1).

2. The hydrodynamically self-cleanable automatic revolving door according to claim 1, wherein: the rotary adsorption mechanism (2) comprises a rotary motor (21) for driving equipment to rotate, four staggered air flow plates (22) for generating negative air suction force, a motor box (23) for protecting the drive motor, and four supporting door frames (24) for dividing a door entering space, the underground supporting cylinder (1) is buried under the ground surface, the inner wall of the underground supporting cylinder (1) is fixedly connected with a motor box (23), a rotating motor (21) is fixedly arranged in the motor box (23), an output shaft of the rotating motor (21) is fixedly connected with a rotating shaft (25) through a coupling, the surface of the rotating shaft (25) is fixedly connected with a supporting rotating ring (26), a plurality of first supporting balls (27) are embedded at the bottom of the supporting rotating ring (26), first support annular (28) have been seted up at the top of motor case (23), the surface of first support ball (27) and the inner wall sliding connection of first support annular (28).

3. The hydrodynamically self-cleanable automatic revolving door according to claim 2, wherein: support the last fixed surface of swivel (26) and be connected with support door frame (24), the fixed surface that supports the surface and pivot (25) of door frame (24) is connected, bury the surface that supports a section of thick bamboo (1) and seted up second support ring groove (29), the fixed surface that supports door frame (24) is connected with cowl (210), the bottom of supporting door frame (24) and cowl (210) is all inlayed and is had a plurality of second support ball (211), the surface that second support ball (211) and the inner wall sliding connection of second support ring groove (29), the surface mosaic that supports door frame (24) has rectangle transparent glass (212).

4. A hydrodynamically self-cleanable automatic revolving door according to claim 3, wherein: support lower surface fixedly connected with dislocation stream aerofoil (22) of conversion, the side of dislocation stream aerofoil (22) buries the inner wall sliding connection who supports a section of thick bamboo (1) with ground, the lower surface of dislocation stream aerofoil (22) is inlayed and is had a plurality of third support ball (213), the surface that third supported ball (213) buries the inner diapire sliding connection who supports a section of thick bamboo (1) with ground, dislocation stream aerofoil (22) and four support door frame (24) one-to-one, every dislocation stream aerofoil (22) and support door frame (24) between be upper and lower dislocation distribution, dislocation stream aerofoil (22) are located the rear of supporting door frame (24) direction of rotation, dislocation stream aerofoil (22) are located the below of supporting door frame (24).

5. The hydrodynamically self-cleanable automatic revolving door according to claim 4, wherein: the negative suction grille mechanism (3) comprises an inner supporting ring (31), an outer supporting ring (32), a plurality of reinforcing supporting rods (33), a plurality of arc-shaped supporting rods (34), a plurality of movable bucket springs (39) and a plurality of arc-shaped grille foot pads (35), wherein the inner supporting ring (31) is sleeved on a rotating shaft (25), a plurality of rotating beads (36) are embedded at the bottom of the inner supporting ring (31), the surface of each rotating bead (36) is in sliding connection with the upper surface of a supporting rotating ring (26), the surface of the outer supporting ring (32) is fixedly connected with the inner wall of a buried supporting cylinder (1), a plurality of outer side lapping grooves (37) are formed in the surface of the outer supporting ring (32), a plurality of inner side lapping grooves (38) which correspond to the outer side lapping grooves (37) one by one are formed in the surface of the inner supporting ring (31), and the reinforcing supporting rods (33) are lapped on the inner walls of the outer side lapping grooves (37) and the inner side lapping grooves (38), a plurality of arc-shaped supporting rods (34) are connected between two adjacent reinforcing supporting rods (33), and two groups of arc-shaped supporting rods (34) between three adjacent reinforcing supporting rods (33) are distributed in a staggered mode.

6. An automatic revolving door based on hydrodynamically self-cleanable according to claim 5, wherein: the movable bucket spring (39) is fixedly connected between every two adjacent reinforcing support rods (33), the movable bucket spring (39) is located in a gap between every two arc-shaped support rods (34), and the inner wall of each movable bucket spring (39) is fixedly connected with a wind shield sheet (310).

7. The hydrodynamically self-cleanable automatic revolving door according to claim 6, wherein: the surface of arc grid callus on the sole (35) is provided with negative absorption aperture (311) of a plurality of hexagon, each the negative is inhaled both ends and all is under the narrow wide state about aperture (311), and adjacent two negatives are inhaled and are provided with one arc lug (312) between aperture (311), the edge and the negative edge coincidence of inhaling aperture (311) top of arc lug (312), the activity is fought spring (39) and is located the below of arc grid callus on the sole (35), the surface of activity fill spring (39) and the lower surface contact of arc grid callus on the sole (35).