CN109098584A - Revolving-door drive - Google Patents
Revolving-door drive Download PDFInfo
- Publication number
- CN109098584A CN109098584A CN201811185870.5A CN201811185870A CN109098584A CN 109098584 A CN109098584 A CN 109098584A CN 201811185870 A CN201811185870 A CN 201811185870A CN 109098584 A CN109098584 A CN 109098584A
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- space
- end wall
- fixedly connected
- slot
- rotation
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- 230000005540 biological transmission Effects 0.000 claims description 33
- 230000002146 bilateral effect Effects 0.000 claims description 9
- 230000003028 elevating effect Effects 0.000 claims description 4
- 230000009351 contact transmission Effects 0.000 claims description 3
- 239000007787 solid Substances 0.000 claims 3
- 230000005611 electricity Effects 0.000 claims 1
- 230000007423 decrease Effects 0.000 description 7
- 238000010586 diagram Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000001727 in vivo Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
Classifications
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05F—DEVICES FOR MOVING WINGS INTO OPEN OR CLOSED POSITION; CHECKS FOR WINGS; WING FITTINGS NOT OTHERWISE PROVIDED FOR, CONCERNED WITH THE FUNCTIONING OF THE WING
- E05F15/00—Power-operated mechanisms for wings
- E05F15/60—Power-operated mechanisms for wings using electrical actuators
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- E—FIXED CONSTRUCTIONS
- E05—LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
- E05Y—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
- E05Y2900/00—Application of doors, windows, wings or fittings thereof
- E05Y2900/10—Application of doors, windows, wings or fittings thereof for buildings or parts thereof
- E05Y2900/13—Type of wing
- E05Y2900/132—Doors
Landscapes
- Power-Operated Mechanisms For Wings (AREA)
Abstract
The invention discloses revolving-door drives, including wall, the rotation space of front and back end wall connection free surrounding space is provided in the wall, the driving space of lower end wall connection rotation space is provided in the rotation space upper end wall, the driven space in right end wall connection driving space is provided in the driving space left end wall, the parking space that a upper end wall is connected to driven space and right end wall connection rotation space is provided in the driven space lower end wall, the sliding groove of upper end wall connection parking space and rotation space is provided in the parking space lower end wall, driving space upper end wall is fixedly connected with a driving motor, the driving motor lower end surface has been connected by power a drive shaft.This apparatus structure is simple, and it is convenient to operate, and in present invention work, arbitrarily converts entrance size, increases the object range for passing in and out revolving door, to increase the practicability and convenience of revolving door.
Description
Technical field
The present invention relates to field of furniture, specially revolving-door drive.
Background technique
Currently, the size that revolving door at this stage opens the door mostly is all fixed with the development of science and technology, social progress, when
There is biggish object disengaging revolving door to make to be not easy mostly or separately channel cannot need to be looked for pass in and out by revolving door, greatly increases
It carries or the inconvenience of disengaging personnel.
Summary of the invention
The purpose of the present invention is to provide revolving-door drives, to solve the problems mentioned in the above background technology.
To achieve the above object, the invention provides the following technical scheme: revolving-door drive, including wall, the wall
It is provided with the rotation space of front and back end wall connection free surrounding space in vivo, is provided with a lower end wall in the rotation space upper end wall
It is connected to the driving space of rotation space, the driven sky in right end wall connection driving space is provided in the driving space left end wall
Between, the storage sky that a upper end wall is connected to driven space and right end wall connection rotation space is provided in the driven space lower end wall
Between, the sliding groove of upper end wall connection parking space and rotation space, the driving are provided in the parking space lower end wall
Space upper end wall is fixedly connected with a driving motor, and the driving motor lower end surface has been connected by power a drive shaft, the driving
A drive block is provided on the downside of axis lower end, the drive block lower end surface is fixedly connected with a lower end through end wall above and below rotation space
Rotation axis in sliding groove slidably connects a sliding shoe connecting with rotation axis bottom end bearing, institute in the sliding groove
It states and is provided with the transmission space that a upper end wall is connected to driving space with right end wall in drive block, in the transmission space lower end wall
It is provided with the connection space in left hand end wall connection driving space, it is empty to be provided with connection transmission in the upper end wall of the connection space
Between lifting space with connection space, be provided with right end wall connection lifting space and lower end wall in the wall of the lifting space left end
It is connected to the sliding space in connection space, sliding space left end wall is connected to free surrounding space, and the drive shaft lower end is through transmission
Space upper end wall and be located at transmission space in, the drive shaft lower end is fixedly connected with a drive block, the lifting space upper end
Bilateral symmetry is fixedly connected with a lifting spring on the right side of wall, and the lifting spring lower end is fixedly connected with a lifter plate, the liter
Drop plate left end is fixedly connected with a upper end through lifting space upper end wall and the driver plate in transmission space, and the lifting is empty
Between upper end wall be fixedly connected with the first electromagnet, the lifter plate upper surface is fixedly connected with the second electromagnet, and the sliding is empty
Between be provided with a lifting groove in upper end wall, a shifting chute is provided in the wall of the lifting groove left end, in the lifting groove right end wall
It is provided with the lifting slot of connection lifting groove on the upside of a left end wall, slidably connects an elevator, the lifting in the lifting groove
It is provided with the receiving slit of left end wall connection lifting groove in block, lower end wall connection lifting groove is provided in the elevator lower end
T-slot, a sliding block is slidably connected in the T-slot, the sliding block lower end surface is fixedly connected with a lower end through T shape
Slot lower end wall and lifting groove lower end wall and the sliding bar being located in sliding space are provided with left end wall connection in the sliding bar
The slide slot of lifting groove and sliding space, the sliding space upper end wall left side are fixedly connected with a fixed block, the slide slot
It is inside provided with a lifting block, the fixed block right side is fixedly connected with a right end through slide slot left end wall and connects with slide slot
The fixed spring of transmission connection is touched, the sliding bar lower end is fixedly connected with a right end through sliding space right end wall and is located at liter
The first trapezoid block in space is dropped, a right end is provided on the right side of the sliding bar positioned in lifting groove through lifting groove right end wall
And it is located at the second trapezoid block in lifting slot, third electromagnet, the third are fixedly connected on the downside of the lifting slot right end wall
A compressed spring, the second trapezoid block right end upper contact transmission are fixedly connected between electromagnet and the second trapezoid block right end
It is connected with third trapezoid block, a left end is provided on the upside of the third trapezoid block through lifting slot left end wall and is fixed with elevator
The elevating lever of connection slidably connects a movable plate in the shifting chute, is fixedly connected with one on the downside of the movable plate right side
Right end is fixedly connected with a right end on the upside of shifting chute right end wall and the jacking block in lifting groove, the movable plate right side
Through shifting chute right end wall and receiving slit left end wall and the 4th trapezoid block in receiving slit, the movable plate left side and shifting
It is symmetrical above and below between dynamic slot left end wall to be fixedly connected with a mobile spring, between the elevator upper surface and lifting groove upper end wall
Bilateral symmetry is fixedly connected with an adjustable spring, and the first belt pulley, the driven sky are fixedly connected on the drive shaft axis body
Between upper end wall be rotatably connected to a driven shaft, the driven shaft upper end be fixedly connected with one connect with the first pulley belt
Two belt pulleys, the driven shaft lower end are fixedly connected with first bevel gear, and the first bevel gear left end engagement is connected with second
Bevel gear, the second bevel gear center be fixedly connected with a left end and driven space left end wall rotation connection and right end run through from
Dynamic space right end wall and the transmission shaft in the left side for being located at drive block, the rotation axis in rotation space are fixedly connected with one
Rotor plate is provided with a rotating mechanism between first belt pulley and drive block.
Preferably, the rotating mechanism includes the first rotating disc, there are three outer end walls to be connected to for setting in the drive shaft
The annular groove in space is driven, outer end is slidably connected in the annular groove slot of top side through annular groove outer end wall and is located at driving space
The first interior rotating disc slidably connects outer end in intermediate annular groove slot through annular groove outer end wall and is located in driving space
Rotate gear, outer end is slidably connected in the annular groove slot of the downside through annular groove outer end wall and is located in driving space
The second rotating disc, first rotating disc outer end bilateral symmetry is fixedly connected with first connecting rod, and second rotation is faced left
The right side is symmetrically fixedly connected with the second connecting rod, and rotate gear outer end upper surface is fixedly connected with a upper end and the first rotating disc
It is close to be symmetrically set with one in first rotating disc centered on drive shaft for the link block that outer end lower end surface is fixedly connected
The end wall of drive shaft is connected to the electromagnetism slot of annular groove, slidably connects a gripping block, the gripping block upper end in the electromagnetism slot
Face is fixedly connected with the 4th electromagnet, and the electromagnetism slot is fixedly connected with the 5th electromagnet, institute far from the end wall upside of drive shaft
Electromagnetism slot is stated far from an electromagnetic spring is fixedly connected on the downside of the end wall of drive shaft, driving space aft bulkhead is fixedly connected with
One support rod, end bearing is connected with the support shaft that a upper and lower ends extend through support rod upper and lower end face before the support rod, institute
State support shaft upper end and be fixedly connected with a position-arresting disk, be provided on the upside of the position-arresting disk one be fixed to the support shaft connection and left end with
Rotate gear engages the rotation gear of connection, is provided with one in second rotating disc centered on drive shaft and upper end wall is connected to
The rack gear annular groove in space is driven, the support shaft lower end is through rack gear annular groove upper end wall and is located in rack gear annular groove, the support
Axis lower end wall is fixedly connected with the driven gear that a right end engages connection with rack gear annular groove far from the end wall of drive shaft, the wall
Front/rear end is symmetrically fixedly connected with a small arc plate, and the rotation space right end wall is fixedly connected with a rear and front end and extends through
End wall and it is located at the big arc plate of free surrounding space before and after rotation space, one is slidably connected in the rotation space with rotation axis is
First arc door of the heart, slidably connects the second arc door centered on rotation axis in the rotation space, in the second arc door
It is provided with the through slot of front and back end wall connection rotation space, the first connecting rod is fixedly connected with far from one end of drive shaft
One lower end is through the third connecting rod for driving space lower end wall and being fixedly connected with the first arc door upper surface, second connecting rod
One end far from drive shaft is fixedly connected with a lower end through driving space lower end wall and is fixedly connected with the second arc door upper surface
The 4th connecting rod.
Preferably, the driver plate upper left corner and the elevator upper left corner are inclined-plane.
Compared with prior art, the beneficial effects of the present invention are: in present invention work, when the object for exceeding arc door normal width
When body needs to pass in and out revolving door, if width is less than rotation axis and arrives the distance between rotor plate, the 4th electromagnet and the 5th electromagnetism
Ironworker makees, to drive gripping block to move towards the direction of drive shaft, so that drive shaft is clamped, so that drive shaft be made to drive first
Rotor plate rotation, so that the transmission by connecting rod drives the first arc door to rotate around rotation axis, while the rotation of the first rotating disc
The rotation of rotate gear is driven, to drive the rotation of rotation gear, driven gear rotation is driven by the rotation of support shaft, from
And the direction rotation for driving the second rotating disc opposite with the first rotating disc, by the rotation of connecting rod, thus drive the second arc plate with
First arc plate rotates towards each other, so that the first arc plate be made to enter one end distance in through slot, so that rotation door opening be made to become larger, works as width
When degree is greater than the distance between rotation axis to rotor plate, drive shaft turns are to drive rotation axis to rotate, to drive rotor plate
Rotation, thus keep rotor plate relatively parallel with parking space, drive shaft stops operating, at this time the first electromagnet and the second electromagnetism
Ironworker makees, so that lifter plate be made to decline, so that driver plate be driven to decline, lifting spring is drawn high, the decline of driver plate, drives the
One trapezoid block moves downward, and fixed spring is compressed, and the first trapezoid block, which moves downward, makes the first trapezoid block left end enter extraneous sky
Between, so that sliding bar be driven to move downward, so that jacking block be driven to move downward, mobile spring is compressed, thus make movable plate to
Left movement, to drive the 4th trapezoid block to leave receiving slit, so that elevator be made to transport downwards under the action of adjustable spring elastic force
It is dynamic, to make elevator move downward, so that making to move downward by sliding bar the first trapezoid block of drive makes under the first trapezoid block
End face is connect with transmission shaft right end threaded engagement, while moving downward with sliding bar, and the second trapezoid block is in compressed spring
It is moved downward under effect, so that third trapezoid block be made to decline, drive shaft turns, are driven by the transmission of belt and gear train at this time
Transmission shaft rotation, so that the first trapezoid block be driven to move downward, so that drive block be driven to move downward, thus drive rotation axis with
Rotor plate moves downward, and into parking space, after rotor plate right end enters parking space, rotating mechanism work is to make to rotate
The entrance of door expands, and passes in and out convenient for object, while rotor plate continues to move downward under the drive of the first trapezoid block, until going out
Enter and stops after being sufficiently large, when needing to restPose, driving motor reverse operation, so that drive shaft is driven to rotate backward,
Rotating mechanism stops transmission after restPosing, to drive the first trapezoid block to move right, so that rotor plate be made to return to original
Position, driving motor stop working, at this time third work of electromagnet, to make the second trapezoid block move right, to keep third terraced
Shape block moves upwards, to drive elevating lever to move upwards, to make elevator move upwards, so that sliding bar be made to transport upwards
It is dynamic, thus make the first trapezoid block travel upward and out transmission shaft, the first electromagnet and the second work of electromagnet drive lifter plate to
Upper movement, to make driver plate move upwards, to make driver plate offset with drive block, while the first trapezoid block is in fixed spring
Under the action of return in sliding space, and the 4th trapezoid block under the action of mobile spring enter receiving slit in, to make device
Original state is returned to, this apparatus structure is simple, and it is convenient to operate, and arbitrarily converts entrance size, makes the object model for passing in and out revolving door
Increase is enclosed, to increase the practicability and convenience of revolving door.
Detailed description of the invention
Fig. 1 is the schematic view of the front view of revolving-door drive entirety complete section of the present invention;
Fig. 2 is the overlooking structure diagram of revolving-door drive entirety complete section of the present invention;
Fig. 3 is the main view enlarged structure schematic diagram of revolving-door drive drive block partial cutaway of the present invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Fig. 1-3 is please referred to, a kind of embodiment provided by the invention: revolving-door drive, including wall 1, the wall 1
It is inside provided with the rotation space 74 of front and back end wall connection free surrounding space, is provided with a lower end in 74 upper end wall of rotation space
Wall is connected to the driving space 7 of rotation space 74, and right end wall connection driving space 7 is provided in the 7 left end wall of driving space
Driven space 2, a upper end wall is provided in driven 2 lower end wall of space and is connected to driven space 2 and the connection rotation of right end wall
The parking space 40 in space 74, upper end wall connection parking space 40 is provided in 40 lower end wall of parking space and rotation is empty
Between 74 sliding groove 38,7 upper end wall of driving space is fixedly connected with a driving motor 13,13 lower end surface of driving motor
It has been connected by power a drive shaft 14, has been provided with a drive block 39,39 lower end surface of drive block on the downside of 14 lower end of drive shaft
It is fixedly connected with a lower end and is located at rotation axis 36 in sliding groove 38 through about 74 end wall of rotation space, in the sliding groove 38
A sliding shoe 37 connecting with 36 bottom end bearing of rotation axis is slidably connected, a upper end wall and the right side are provided in the drive block 39
End wall is connected to the transmission space 27 in driving space 7, and left hand end wall connection is provided in 37 lower end wall of transmission space and is driven
The connection space 41 in space 7 is moved, a connection transmission space 37 and connection space 41 are provided in 41 upper end wall of connection space
Lifting space 29, right end wall connection lifting space 29 and lower end wall connection connection are provided in the 29 left end wall of lifting space
The sliding space 57 in logical space 41, the 57 left end wall of sliding space are connected to free surrounding space, and 14 lower end of drive shaft is through biography
It moves 27 upper end wall of space and is located in transmission space 27,14 lower end of drive shaft is fixedly connected with a drive block 28, the liter
Bilateral symmetry is fixedly connected with a lifting spring 30 on the right side of drop 29 upper end wall of space, and 30 lower end of lifting spring is fixedly connected with
One lifter plate 33,33 left end of lifter plate are fixedly connected with a upper end through lifting 29 upper end wall of space and are located at transmission space
Driver plate 75 in 27,29 upper end wall of lifting space are fixedly connected with the first electromagnet 31,33 upper surface of lifter plate
It is fixedly connected with the second electromagnet 32, a lifting groove 73 is provided in 57 upper end wall of sliding space, the lifting groove 73 is left
It is provided with a shifting chute 50 in end wall, the lift of connection lifting groove 73 on the upside of a left end wall is provided in the 73 right end wall of lifting groove
Slot 67 is risen, slidably connects an elevator 70 in the lifting groove 73, left end wall connection is provided in the elevator 70 and is risen
The receiving slit 72 of slot 73 is dropped, the T-slot 69 of lower end wall connection lifting groove 73, the T are provided in 70 lower end of elevator
A sliding block 68 is slidably connected in shape slot 69,68 lower end surface of sliding block is fixedly connected with a lower end under T-slot 69
End wall and 73 lower end wall of lifting groove and the sliding bar 60 being located in sliding space 57 are provided with a left end wall in the sliding bar 60
It is connected to the slide slot 55 of lifting groove 73 and sliding space 57, is fixedly connected with a fixed block on the left of 57 upper end wall of sliding space
54, it is provided with a lifting block 59 in the slide slot 55,54 right side of fixed block is fixedly connected with a right end through sliding
The fixed spring 58 slot 55 left end wall and connect with 55 Contact Transmission of slide slot, 60 lower end of sliding bar are fixedly connected with a right side
End is through 57 right end wall of sliding space and is located at the first trapezoid block 56 gone up and down in space 29, the cunning in lifting groove 73
It is provided with a right end on the right side of lever 60 through 73 right end wall of lifting groove and is located at the second trapezoid block 62 being lifted in slot 67, the lift
It rises and is fixedly connected with third electromagnet 63 on the downside of 67 right end wall of slot, between 62 right end of the third electromagnet 63 and the second trapezoid block
It is fixedly connected with a compressed spring 64, the 62 right end upper contact of the second trapezoid block is sequentially connected with third trapezoid block 65, institute
It states and is provided with the elevating lever that a left end slot 67 left end wall through lifting and is fixedly connected with elevator 70 on the upside of third trapezoid block 65
66, a movable plate 52 is slidably connected in the shifting chute 50, is fixedly connected with a right end on the downside of 52 right side of movable plate
Through 50 right end wall of shifting chute and the jacking block 53 in lifting groove 73, one is fixedly connected on the upside of 52 right side of movable plate
Right end is through 50 right end wall of shifting chute and 72 left end wall of receiving slit and the 4th trapezoid block 49 in receiving slit 72, the movement
It is symmetrical above and below between 50 left end wall of 52 left side of plate and shifting chute to be fixedly connected with a mobile spring 51,70 upper end of elevator
An adjustable spring 71, fixed company on 71 axis body of drive shaft are symmetrically fixedly connected between 73 upper end wall of face and lifting groove
It is connected to the first belt pulley 12, driven 2 upper end wall of space is rotatably connected to a driven shaft 4, and 4 upper end of driven shaft is fixed to be connected
It is connected to second belt pulley 3 connecting with 12 belt of the first belt pulley, 4 lower end of driven shaft is fixedly connected with first bevel gear
44,44 left end of the first bevel gear engagement is connected with second bevel gear 43, and 43 center of second bevel gear is fixedly connected with
One left end and driven 2 left end wall of space are rotatablely connected and right end is through driven 2 right end wall of space and positioned at the left side of drive block 39
Transmission shaft 42, the rotation axis 36 in the rotation space is fixedly connected with a rotor plate 35, first belt pulley 12
A rotating mechanism 76 is provided between drive block 39.
Valuably, the rotating mechanism 76 includes the first rotating disc 9, and there are three outer end walls to connect for setting in the drive shaft 14
Lead to the annular groove 18 in driving space 7, outer end is slidably connected in 18 slot of top side annular groove through 18 outer end wall of annular groove and position
In driving the first rotating disc 9 in space 7, outer end is slidably connected in intermediate 18 slot of annular groove through 18 outer end wall of annular groove
And it is located at the rotate gear 20 in driving space 7, outer end is slidably connected in 18 slot of annular groove of the downside through annular groove
18 outer end walls and the second rotating disc 5 being located in driving space 7,9 outer end of the first rotating disc bilateral symmetry are fixedly connected with
First connecting rod 9,5 bilateral symmetry of the second rotating disc are fixedly connected with the second connecting rod 25,20 outer end of rotate gear
Upper surface is fixedly connected with the link block 19 that a upper end is fixedly connected with 9 outer end lower end surface of the first rotating disc, first rotation
An electromagnetism slot close to the end wall connection annular groove 18 of drive shaft 14 is symmetrically set in disk 9 centered on drive shaft 14
15, a gripping block 16 is slidably connected in the electromagnetism slot 15, and 16 upper surface of gripping block is fixedly connected with the 4th electromagnet
11, for the electromagnetism slot 15 far from the 5th electromagnet 10 is fixedly connected on the upside of the end wall of drive shaft 14, the electromagnetism slot 15 is separate
It is fixedly connected with an electromagnetic spring 17 on the downside of the end wall of drive shaft 14,7 aft bulkhead of driving space is fixedly connected with a support
Bar 23, end bearing is connected with the support shaft 21 that a upper and lower ends extend through 23 upper and lower end face of support rod before the support rod 23,
21 upper end of support shaft is fixedly connected with a position-arresting disk 24, and one and the fixed company of support shaft 21 are provided on the upside of the position-arresting disk 24
It connects and left end engages the rotation gear 22 connected with rotate gear 20, be provided with one in second rotating disc 5 with drive shaft 14
Centered on and upper end wall connection driving space 7 rack gear annular groove 6,23 lower end of support shaft through 6 upper end wall of rack gear annular groove and
In rack gear annular groove 6,23 lower end wall of support shaft is fixedly connected with a right end and end of the rack gear annular groove 6 far from drive shaft 14
The driven gear 26 of wall engagement connection, 1 front/rear end of wall are symmetrically fixedly connected with a small arc plate 48, the rotation space
74 right end walls are fixedly connected with a rear and front end and extend through 74 front and back end wall of rotation space and be located at the big arc plate of free surrounding space
47, a first arc door 34 centered on rotation axis 36 is slidably connected in the rotation space 74, in the rotation space 74
The second arc door 46 centered on rotation axis 36 is slidably connected, front and back end wall connection is provided in the second arc door 46 and is turned
The through slot 45 in dynamic space 74, the first connecting rod 8 are fixedly connected with a lower end through driving far from one end of drive shaft 14
7 lower end wall of space and the third connecting rod 77 being fixedly connected with 34 upper surface of the first arc door, second connecting rod 25 is far from drive
One end of moving axis 14 is fixedly connected with a lower end through driving 7 lower end wall of space and is fixedly connected with 46 upper surface of the second arc door
4th connecting rod 78, effect are to drive the rotation of arc door.
Valuably, 75 upper left corner of driver plate and 70 upper left corner of elevator are inclined-plane.
Specifically used mode: in present invention work, when the object beyond arc door normal width needs to pass in and out revolving door, if
Width is less than rotation axis 36 and arrives the distance between rotor plate 34, then the 4th electromagnet 11 and the 5th electromagnet 10 work, thus band
Dynamic gripping block 16 is moved towards the direction of drive shaft 14, so that drive shaft 14 is clamped, so that drive shaft 14 be made to drive the first rotation
Plate 9 rotates, so that the transmission by connecting rod drives the first arc door 34 to rotate around rotation axis 36, while turn of the first rotating disc 9
The dynamic rotation for driving rotate gear 20 drives driven tooth by the rotation of support shaft 21 to drive the rotation of rotation gear 22
26 rotation of wheel, thus the direction rotation for driving the second rotating disc 5 opposite with the first rotating disc 9, by the rotation of connecting rod, thus band
Dynamic second arc plate 46 is rotated towards each other with the first arc plate 34, so that the first arc plate 34 is made to enter one end distance in through slot 45, thus
Rotation door opening is set to become larger, when width, which is greater than rotation axis 36, arrives the distance between rotor plate 34, the rotation of drive shaft 14 is to band
Turn moving axis 36 rotates, so that rotor plate 35 is driven to rotate, thus keep rotor plate 35 relatively parallel with parking space 40, driving
Axis 14 stops operating, and the first electromagnet 31 and the second electromagnet 32 work at this time, to make lifter plate 33 decline, to drive biography
Movable plate 75 declines, and lifting spring 30 is drawn high, the decline of driver plate 75, drives the first trapezoid block 56 to move downward, fixed spring
58 are compressed, and the first trapezoid block 56, which moves downward, makes 56 left end of the first trapezoid block enter free surrounding space, to drive sliding bar 60
It moves downward, so that jacking block 53 be driven to move downward, mobile spring 51 is compressed, so that movable plate 52 is moved downward, thus
The 4th trapezoid block 49 is driven to leave receiving slit 72, thus move downward elevator 70 under the action of 71 elastic force of adjustable spring,
To make elevator 70 move downward, so that making to move downward by the first trapezoid block 56 of drive of sliding bar 60 makes the first trapezoid block
56 lower end surfaces are connect with 42 right end threaded engagement of transmission shaft, while moving downward with sliding bar 60, and the second trapezoid block 62 exists
Moved downward under the action of compressed spring 64, thus make third trapezoid block 65 decline, at this time drive shaft 14 rotate, by belt with
The transmission of gear train drives transmission shaft 42 to rotate, so that the first trapezoid block 56 be driven to move downward, thus drive drive block 39 to
Left movement, into parking space 40, is deposited so that rotation axis 36 be driven to move downward with rotor plate 35 when 35 right end of rotor plate enters
After 40 between emptying, the work of rotating mechanism 76 is passed in and out to make the entrance of revolving door expand convenient for object, while rotor plate 35 exists
Continue to move downward under the drive of first trapezoid block 56, until discrepancy stops after being sufficiently large, when needing to restPose, drive
Dynamic 13 reverse operation of motor, so that drive shaft 14 be driven to rotate backward, rotating mechanism 76 stops transmission after restPosing, from
And the first trapezoid block 56 is driven to move right, so that rotor plate 35 be made to return to original position, driving motor 13 stops working, at this time third
Electromagnet 63 works, to make the second trapezoid block 62 move right, to make third trapezoid block 65 move upwards, to drive liter
Drop bar 66 moves upwards, to make elevator 70 move upwards, to make sliding bar 60 move upwards, to make the first trapezoid block
56 travel upward and out transmission shaft 42, and the first electromagnet 31 works with the second electromagnet 32 drives lifter plate 33 to move upwards, from
And driver plate 75 is moved upwards, to make driver plate 75 offset with drive block 28, while the first trapezoid block 56 is in fixed spring
It is returned under the action of 58 in sliding space 57, and the 4th trapezoid block 49 enters under the action of mobile spring 51 in receiving slit 72,
To make device return to original state, this apparatus structure is simple, and it is convenient to operate, and arbitrarily converts entrance size, rotates disengaging
The object range of door increases, to increase the practicability and convenience of revolving door.
It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie
In the case where without departing substantially from spirit or essential attributes of the invention, the present invention can be realized in other specific forms.Therefore, no matter
From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power
Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims
Variation is included within the present invention.Any reference signs in the claims should not be construed as limiting the involved claims.
Claims (3)
1. revolving-door drive, including wall, it is characterised in that: it is extraneous empty to be provided with front and back end wall connection in the wall
Between rotation space, the driving space of lower end wall connection rotation space, the drive are provided in the rotation space upper end wall
It is provided with the driven space in right end wall connection driving space in dynamic space left end wall, is provided in the driven space lower end wall
One upper end wall is connected to the parking space in driven space and right end wall connection rotation space, is provided in the parking space lower end wall
One upper end wall is connected to the sliding groove of parking space and rotation space, and driving space upper end wall is fixedly connected with driving electricity
Machine, the driving motor lower end surface has been connected by power a drive shaft, has been provided with a drive block on the downside of the drive shaft lower end, described
Drive block lower end surface is fixedly connected with a lower end, and through rotation space, end wall is located at the rotation axis in sliding groove, the sliding up and down
A sliding shoe connecting with rotation axis bottom end bearing is slidably connected in slot, is provided with a upper end wall and right end in the drive block
Wall is connected to the transmission space in driving space, and left hand end wall connection driving space is provided in the transmission space lower end wall
Connection space is provided with the lifting space of a connection transmission space Yu connection space, the liter in the upper end wall of the connection space
The sliding space in right end wall connection lifting space and lower end wall connection connection space, the cunning are provided in drop space left end wall
Dynamic space left end wall is connected to free surrounding space, and the drive shaft lower end is through transmission space upper end wall and is located in transmission space, institute
It states drive shaft lower end and is fixedly connected with a drive block, bilateral symmetry is fixedly connected with a lifting on the right side of the upper end wall of the lifting space
Spring, the lifting spring lower end are fixedly connected with a lifter plate, and the lifter plate left end is fixedly connected with a upper end through liter
The driver plate for dropping space upper end wall and being located in transmission space, lifting space upper end wall are fixedly connected with the first electromagnet,
The lifter plate upper surface is fixedly connected with the second electromagnet, and a lifting groove is provided in the sliding space upper end wall, described
It is provided with a shifting chute in the wall of lifting groove left end, connection lifting groove on the upside of a left end wall is provided in the lifting groove right end wall
It is lifted slot, slidably connects an elevator in the lifting groove, left end wall connection lifting groove is provided in the elevator
Receiving slit is provided with the T-slot of lower end wall connection lifting groove in the elevator lower end, slidably connects in the T-slot
One sliding block, the sliding block lower end surface are fixedly connected with a lower end through T-slot lower end wall and lifting groove lower end wall and are located at
Sliding bar in sliding space is provided with the slide slot of left end wall connection lifting groove and sliding space, institute in the sliding bar
It states and is fixedly connected with a fixed block on the left of sliding space upper end wall, a lifting block, the fixed block are provided in the slide slot
Right side is fixedly connected with the fixed spring that a right end runs through slide slot left end wall and connect with slide slot Contact Transmission, the cunning
Lever lower end is fixedly connected with a right end through sliding space right end wall and is located at the first trapezoid block gone up and down in space, institute's rheme
It is provided with a right end on the right side of the sliding bar in lifting groove through lifting groove right end wall and is located at the second trapezoid block being lifted in slot,
It is fixedly connected with third electromagnet on the downside of the lifting slot right end wall, it is solid between the third electromagnet and the second trapezoid block right end
Surely it is connected with a compressed spring, the second trapezoid block right end upper contact is sequentially connected with third trapezoid block, the third ladder
It is sliding in the elevating lever for being lifted slot left end wall and being fixedly connected with elevator, the shifting chute that a left end is provided on the upside of shape block
It is dynamic to be connected with a movable plate, it is fixedly connected with a right end on the downside of the movable plate right side through shifting chute right end wall and is located at liter
The jacking block in slot is dropped, a right end is fixedly connected on the upside of the movable plate right side through shifting chute right end wall and receiving slit left end
Wall and the 4th trapezoid block being located in receiving slit, fixed company symmetrical above and below between the movable plate left side and shifting chute left end wall
It is connected to a mobile spring, a flexible bullet is symmetrically fixedly connected between the elevator upper surface and lifting groove upper end wall
Spring is fixedly connected with the first belt pulley on the drive shaft axis body, and the driven space upper end wall is rotatably connected to a driven shaft,
The driven shaft upper end is fixedly connected with second belt pulley connecting with the first pulley belt, and the driven shaft lower end is fixed
It is connected with first bevel gear, the first bevel gear left end engagement is connected with second bevel gear, and the second bevel gear center is solid
Surely a left end and the rotation connection of driven space left end wall and right end are connected with through driven space right end wall and is located at drive block
The transmission shaft in left side, the rotation axis in rotation space are fixedly connected with a rotor plate, first belt pulley and drive
A rotating mechanism is provided between motion block.
2. revolving-door drive according to claim 1, it is characterised in that: the rotating mechanism includes the first rotation
Disk, the interior setting of the drive shaft are connected to the annular groove for driving space there are three outer end wall, are slidably connected in the annular groove slot of top side
There is outer end through annular groove outer end wall and be located at the first rotating disc driven in space, is slidably connected in intermediate annular groove slot
Outer end is through annular groove outer end wall and is located at the rotate gear driven in space, slidably connects in the annular groove slot of the downside
Outer end is through annular groove outer end wall and is located at the second rotating disc driven in space, and first rotating disc outer end bilateral symmetry is solid
Surely it is connected with first connecting rod, the second rotating disc bilateral symmetry is fixedly connected with the second connecting rod, outside the rotate gear
End upper surface is fixedly connected with the link block that a upper end is fixedly connected with the first rotating disc outer end lower end surface, first rotating disc
The interior electromagnetism slot that an end wall connection annular groove close to drive shaft is symmetrically set with centered on drive shaft, the electromagnetism slot
A gripping block is inside slidably connected, the gripping block upper surface is fixedly connected with the 4th electromagnet, and the electromagnetism slot is far from driving
The 5th electromagnet is fixedly connected on the upside of the end wall of axis, the electromagnetism slot is electric far from being fixedly connected with one on the downside of the end wall of drive shaft
Magnetic spring, driving space aft bulkhead are fixedly connected with a support rod, and end bearing is connected with about one two before the support rod
End extends through the support shaft of support rod upper and lower end face, and the support shaft upper end is fixedly connected with a position-arresting disk, the position-arresting disk
Upside be provided with one be fixed to the support shaft connection and left end engaged with rotate gear connection rotation gear, second rotating disc
One is inside provided with centered on drive shaft and upper end wall connection drives the rack gear annular groove in space, rack gear is run through in the support shaft lower end
Annular groove upper end wall and it is located in rack gear annular groove, the support shaft lower end wall is fixedly connected with a right end and rack gear annular groove far from driving
The driven gear of the end wall engagement connection of axis, the wall front/rear end are symmetrically fixedly connected with a small arc plate, and the rotation is empty
Between right end wall be fixedly connected with a rear and front end and extend through end wall before and after rotation space and be located at the big arc plate of free surrounding space, institute
It states and slidably connects a first arc door centered on rotation axis in rotation space, slidably connected in the rotation space to turn
The second arc door centered on moving axis is provided with the through slot of front and back end wall connection rotation space in the second arc door, described
First connecting rod far from one end of drive shaft be fixedly connected with a lower end through driving space lower end wall and with the first arc door upper end
The third connecting rod that face is fixedly connected, second connecting rod are fixedly connected with a lower end through driving far from one end of drive shaft
Space lower end wall and the 4th connecting rod being fixedly connected with the second arc door upper surface.
3. revolving-door drive according to claim 1, it is characterised in that: the driver plate upper left corner and elevator are left
Upper angle is inclined-plane.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811185870.5A CN109098584A (en) | 2018-10-11 | 2018-10-11 | Revolving-door drive |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201811185870.5A CN109098584A (en) | 2018-10-11 | 2018-10-11 | Revolving-door drive |
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Publication Number | Publication Date |
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CN109098584A true CN109098584A (en) | 2018-12-28 |
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Family Applications (1)
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CN201811185870.5A Withdrawn CN109098584A (en) | 2018-10-11 | 2018-10-11 | Revolving-door drive |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112257126A (en) * | 2020-11-17 | 2021-01-22 | 陈亚 | Safety protection interface device for cloud computing platform |
CN117020563A (en) * | 2023-10-10 | 2023-11-10 | 广东创昇智能制造有限公司 | Welding device |
-
2018
- 2018-10-11 CN CN201811185870.5A patent/CN109098584A/en not_active Withdrawn
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112257126A (en) * | 2020-11-17 | 2021-01-22 | 陈亚 | Safety protection interface device for cloud computing platform |
CN117020563A (en) * | 2023-10-10 | 2023-11-10 | 广东创昇智能制造有限公司 | Welding device |
CN117020563B (en) * | 2023-10-10 | 2023-12-15 | 广东创昇智能制造有限公司 | Welding device |
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Application publication date: 20181228 |