CN110206463A

CN110206463A - A kind of bilayer automatic overhead door

Info

Publication number: CN110206463A
Application number: CN201910622393.2A
Authority: CN
Inventors: 钟波
Original assignee: Deyi Intelligent Technology (yangzhou) Co Ltd
Current assignee: Deyi Intelligent Technology (yangzhou) Co Ltd
Priority date: 2019-07-10
Filing date: 2019-07-10
Publication date: 2019-09-06
Anticipated expiration: 2039-07-10
Also published as: CN110206463B

Abstract

It include the first column, the second column, first door leaf, the second door leaf the present invention provides a kind of double-deck automatic overhead door；The first door leaf and the second door leaf are parallel to each other, and arrange from top to bottom, and overlap；First column and the second column are located at the two sides of the first door leaf and the second door leaf, and the two sides with first door leaf and the second door leaf are slidably connected respectively；First door leaf and the second door leaf can be slided up and down along the first column and the second column；The movement of first door leaf drives the second door leaf motion, and the movement travel upward or downward of second door leaf is twice that first door leaf is moved upwardly or downwardly stroke.

Description

A kind of bilayer automatic overhead door

Technical field

The present invention relates to technical fields of mechanical processing, and in particular, to it is a kind of for be machined input and output material it is double-deck from Dynamic overhead door.

Background technique

With the development of modern mechanical processing industry, to the continuous improvement that the security protection of machining equipment requires, to mentioning High efficiency, reduction production cost, section space-efficient require also promoted.When a larger feeding gate of equipment needs, and do not have When having enough spaces, the demand of the double-deck automatic overhead door is just extremely urgent.Automatic overhead door used at present has using single Cylinder is in intermediate lifting and the scheme lifted using double cylinders in door two sides.

Wherein, the door lifted using single cylinder break, cylinder occupied space is big, and door opening height is smaller.And it adopts With the door of the double cylinders in two sides, because gas be it is compressible, double cylinders drive existing asynchronisms, long-play, side meeting Serious wear influences the service life.

Summary of the invention

For the defects in the prior art, the object of the present invention is to provide a kind of double-deck automatic overhead door, space is both saved, Interior in a limited space bigger door can be opened again, and only can switch gate with single cylinder.

A kind of bilayer automatic overhead door, including the first column, the second column, first door leaf, the second door leaf；Described first Fan and the second door leaf are parallel to each other, and arrange from top to bottom, and overlap；First column and the second column are located at The two sides of the first door leaf and the second door leaf, and the two sides with first door leaf and the second door leaf are slidably connected respectively；

First door leaf and the second door leaf can be slided up and down along the first column and the second column；

The movement of first door leaf drives the second door leaf motion, and the movement travel upward or downward of second door leaf is First door leaf is moved upwardly or downwardly twice of stroke.

Optionally, the first side of the first door leaf is provided with the first driving mechanism；First side of second door leaf is set It is equipped with the second driving mechanism；

First door leaf and the second door leaf pass through the first driving mechanism and the second driving mechanism respectively and first column is sliding Dynamic connection；

First driving mechanism drives first door leaf to slide up and down along the first column and the second column；

Second driving mechanism drives the second door leaf to slide up and down along the first column and the second column；

First driving mechanism is connected with second driving mechanism, and sliding up and down for first door leaf drives the second door leaf Slide up and down.

Optionally, first driving mechanism includes: First Line rail, gear, stationary rack, cylinder, gear is driven to fix Part；

The First Line rail, the stationary rack and the driving cylinder are all set on first column；

The first door leaf is connected with First Line rail, can slide up and down along First Line rail；The gear and first door leaf Connection；

The gear is engaged with the stationary rack, and can be scrolled up and down along the stationary rack；

The gear fixing piece is fixed in the first door leaf；The gear is set under the gear fixing piece The top in portion, the gear fixing piece is provided with a protrusion；

The tache motorice of the driving cylinder is fixed on the protrusion；

The movement travel of the first door leaf is the movement travel at the driving cylinder moving end；

When the driving cylinder operation, its tache motorice jacks up upwards, and the protrusion and then moves upwardly together, and band It moves the first door leaf to move upwards, while scrolling up with moving gear along stationary rack；

When the tache motorice of the driving cylinder is withdrawn, tache motorice is withdrawn downwards, and the protrusion is and then transported downwardly together It is dynamic, and the first door leaf is driven to move downward；It is scrolled down through simultaneously with moving gear along stationary rack.

Optionally, second driving mechanism, comprising: the second line rail, with carry-over bar；The second line rail is set to described On first column；It is described to be set on the second door leaf with carry-over bar；Second door leaf is connect with the second line rail；

The gear is located at the stationary rack and described between carry-over bar, and respectively with stationary rack and with carry-over bar Engagement；The position of the lower end of the stationary rack and the upper end with carry-over bar is corresponding；

When the driving cylinder operation, the protrusion of the gear fixing piece is pushed, band moving gear is along the fixed tooth Item scrolls up, and the protrusion of the gear fixing piece drives the first door leaf to move upwards；And the gear drives another Side is moved up with carry-over bar, and the second door leaf described in the servo-actuated rack drives moves upwardly together；

When the driving cylinder is withdrawn, the protrusion of the gear fixing piece is pulled, band moving gear is along the fixed tooth Item scrolls down through, and the first door leaf is driven to move downward；And the gear drives moving downwards with carry-over bar for the other side Dynamic, the second door leaf described in the servo-actuated rack drives moves downwardly together.

Optionally, first driving mechanism includes: First Line rail, gear, stationary rack, driving cylinder；

It is correspondingly arranged on a protruding part above the gear, which is fixed in the first door leaf；

The tache motorice of the driving cylinder is fixed on the protruding part；

When the driving cylinder operation, its tache motorice jacks up upwards, and the protruding part and then moves upwardly together, and band Dynamic first door leaf moves upwards；First door leaf moves upwards simultaneously, and band moving gear scrolls up along stationary rack

When the tache motorice of the driving cylinder is withdrawn, tache motorice is withdrawn downwards, and the protruding part is and then transported downwardly together It is dynamic, and the first door leaf is driven to move downward；The downward movement of first door leaf simultaneously, band moving gear are downward along stationary rack It rolls.

The gear is located at the stationary rack and described between carry-over bar, and respectively with stationary rack and with carry-over bar Engagement；The position of the lower end of the stationary rack and the upper end with carry-over bar is corresponding；When the driving cylinder operation, push away Dynamic protruding part, band moving gear scroll up along the stationary rack, and the protruding part drives the first door leaf to move upwards； And the gear drives moving up with carry-over bar for the other side, and the second door leaf described in the servo-actuated rack drives is upward together Movement；When the driving cylinder is withdrawn, protruding part is pulled, band moving gear is scrolled down through along the stationary rack, drives institute First door leaf is stated to move downward；And the gear drives moving down with carry-over bar for the other side, the servo-actuated rack drives Second door leaf moves downwardly together.

Optionally, the stroke of the driving cylinder is less than the length of the stationary rack.

Optionally, the length with carry-over bar is not less than the length of the stationary rack.

Optionally, second side of the first door leaf is provided with the first guiding mechanism, and second side of second door leaf is set It is equipped with the second guiding mechanism；First door leaf and the second door leaf pass through the first guiding mechanism and the second guiding mechanism and described the respectively Two columns are slidably connected, and second side of second side or the second door leaf for making first door leaf can be slided up and down along the second column.

Optionally, first guiding mechanism includes several guidance sets, and the guidance set includes idler wheel, with idler wheel The guide rail being harmonious；The guide rail is installed on second column, and the idler wheel is connect with the first door leaf.

Optionally, second guiding mechanism includes several guidance sets, and the guidance set includes idler wheel, with idler wheel The guide rail being harmonious；The guide rail is installed on second column, and the idler wheel is connect with second door leaf.

Optionally, the guidance set of first guiding mechanism or the second guiding mechanism includes bearing, is harmonious with bearing Guide groove；The guide groove is installed on second column, and the bearing is connect with the first door leaf or the second door leaf.

Compared with prior art, the present invention have it is following the utility model has the advantages that

1, unilateral cylinder driving, there is no the nonsynchronous problems in left and right；

2, speed double door designs, and in limited height space, makes a maximization；

3, installation and debugging are simple, and requirement on machining accuracy is low, save the cost.

Detailed description of the invention

Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other feature of the invention, Objects and advantages will become more apparent upon:

Fig. 1 is the positive structure schematic of the embodiment of the present invention；

Fig. 2 is the first door leaf and the second door leaf position view of the embodiment of the present invention；

Fig. 3 is the top view of the embodiment of the present invention；

Fig. 4 is the first column of the embodiment of the present invention and the attachment structure schematic diagram of first door leaf and the second door leaf；

Fig. 5 is the first driving mechanism of the embodiment of the present invention and the attachment structure schematic diagram of the second driving mechanism.

Specific embodiment

The present invention is described in detail combined with specific embodiments below.Following embodiment will be helpful to the technology of this field Personnel further understand the present invention, but the invention is not limited in any way.It should be pointed out that the ordinary skill of this field For personnel, without departing from the inventive concept of the premise, several changes and improvements can also be made.These belong to the present invention Protection scope.

Referring to Fig. 1 to Fig. 5, it is a kind of bilayer automatic overhead door include the first column 1, the second column 2, first door leaf 3, second Door leaf 4；The first door leaf 3 and the second door leaf 4 are parallel to each other, and arrange from top to bottom, and overlap.This, which partly overlaps, is In order to which the enclosure space of the inside in the state of shutdown, will not be influenced because of the seam between first door leaf and the second door leaf. In the present embodiment, first door leaf 3 is preceding, and the second door leaf 4 is rear, and it is only for citings, not to making restriction before and after two fan doors.

First column 1 and the second column 2 are located at the two sides of the first door leaf 3 and the second door leaf 4, and respectively It is slidably connected with the two sides of first door leaf 3 and the second door leaf 4；First door leaf 3 and the second door leaf 4 can be along 1 Hes of the first column Second column 2 slides up and down；The movement of first door leaf 3 drives the movement of the second door leaf 4, and second door leaf 4 upward or to Under movement travel be that first door leaf 3 is moved upwardly or downwardly twice of stroke.

First door leaf moves upwards certain altitude, and the second door leaf can be moved upwardly together and then, and cover first door leaf fortune 2 times of dynamic height, and because the two is staggered, therefore the second door leaf can go to going behind the door for first door leaf.It not will increase Space above.Therefore in the top of door, the height of first door leaf stroke is only stayed, and finally opens first door leaf and second The height for fanning the two realizes the requirement that bigger door is opened in a limited space.Here speed double door is applied to set Meter makes a maximization in limited height space.

First side of the first door leaf 3 is provided with the first driving mechanism；First side of second door leaf 4 is provided with Two driving mechanisms；First door leaf 3 and the second door leaf 4 are vertical by the first driving mechanism and the second driving mechanism and described first respectively Column 1 is slidably connected；First driving mechanism drives first door leaf 3 to slide up and down along the first column 1 and the second column 2；Second drives Motivation structure drives the second door leaf 4 to slide up and down along the first column 1 and the second column 2；First driving mechanism and described the Two driving mechanisms are connected, and sliding up and down for first door leaf 3 drives sliding up and down for the second door leaf 4.

In the present embodiment, first driving mechanism includes: First Line rail 31, gear 32, stationary rack 33, driving cylinder 34, gear fixing piece 321；First Line rail 31, stationary rack 33 and driving cylinder 34 are all set on first column 1； First door leaf 3 is connected by connecting plate 311 with First Line rail 31, can be slided up and down along First Line rail 311；Gear 32 passes through tooth Wheel fixing piece 321 is connect with first door leaf 3；The gear 32 is engaged with the stationary rack 33, and can be along the stationary rack 33 scroll up and down.

The gear fixing piece 321 is fixed in the first door leaf；The gear 32 is set to the gear fixing piece 321 lower part, the top of the gear fixing piece 321 are provided with a protrusion 5.

The fixing end of the driving cylinder 34 is fixed on the first column 1 by cylinder mounting plate 341, the driving cylinder 34 tache motorice is fixed on the protrusion 5 of the gear fixing piece 321.The driving cylinder and the gear are not contact 's.In the present embodiment, the driving cylinder is set to the front of the gear.The movement travel of the first door leaf 3 is described Drive the movement travel of 34 tache motorice of cylinder.

When the driving cylinder 34 works, its tache motorice jacks up upwards, and the protrusion 5 and then moves upwardly together, And the first door leaf 3 is driven to move upwards, while scrolling up with moving gear 32 along stationary rack 33.

When the tache motorice of the driving cylinder 34 is withdrawn, tache motorice is withdrawn downwards, and the protrusion 5 is followed downwardly together Movement, and the first door leaf 3 is driven to move downward；It is scrolled down through simultaneously with moving gear 32 along stationary rack 33.

Second driving mechanism, comprising: the second line rail 41, with carry-over bar 42；The second line rail 41 is set to described On first column 1；Second door leaf 4 using link block 421 and with carry-over bar 42 connect, while and pass through 401 He of back door connecting plate Subsequent second line rail 41 connects.

Gear 32 is located at the stationary rack 33 and described between carry-over bar 42, and respectively with stationary rack 33 and servo-actuated Rack gear 42 engages；The position of the lower end of the stationary rack 33 and the upper end with carry-over bar 42 is corresponding；Gear 32 is initial Position is stuck in the end of stationary rack 33 and the starting point with carry-over bar 42.

The stroke of the driving cylinder is less than the length of the stationary rack.The length with carry-over bar is not less than described The length of stationary rack.

Second side of the first door leaf 3 is provided with the first guiding mechanism 35, and second side of second door leaf 4 is provided with Second guiding mechanism 45；First door leaf 3 and the second door leaf 4 pass through the first guiding mechanism 35 and the second guiding mechanism 45 and institute respectively It states the second column 2 to be slidably connected, second side of second side or the second door leaf 4 for making first door leaf 3 can glide on the second column 2 It is dynamic.Here guiding mechanism also does front and back guiding and fixes in addition to the effect of sliding, prevents a sideslip and adapts to certain processing With the effect of installation error.

First guiding mechanism includes several guidance sets, and the guidance set includes idler wheel, the guide rail being harmonious with idler wheel； The guide rail is installed on second column 2, and the idler wheel is connect with the first door leaf 3.

Second guiding mechanism includes several guidance sets, and the guidance set includes idler wheel, is harmonious with idler wheel Guide rail；The guide rail is installed on second column 2, and the idler wheel is connect with second door leaf 4.

In the present embodiment, V-type rail, V-type is can be used in the guidance set of the first guiding mechanism and the second guiding mechanism Idler wheel.It is only for citing, the present invention makes restriction not to this.

In a further embodiment, the guidance set of first guiding mechanism or the second guiding mechanism can also include axis It holds, the guide groove being harmonious with bearing；The guide groove is installed on second column 2, the bearing and the first door leaf 3 Or second door leaf 4 connect.

Because first door leaf is different with the second door leaf front-rear position, therefore it is used for the guide rail or guiding of first door leaf and the second door leaf The front-rear position of slot is also different, can be by between the guide rail of first door leaf or guide groove and the guide rail or guide groove of the second door leaf It is connected by keel.

When the driving cylinder 34 works, the protrusion 5 of the gear fixing piece 321 is pushed, band moving gear 32 is along institute It states stationary rack 33 to scroll up, the protrusion 5 of the gear fixing piece 321 drives the first door leaf 3 to move upwards；And The gear 32 drives moving up with carry-over bar 42 for the other side, described to drive second door leaf 4 with carry-over bar 42 It moves upwards.Upward stroke is completed to first door leaf and the second door leaf, this is stated two fan doors and essentially coincides.

When the driving cylinder 34 is withdrawn, the protrusion 5 of the gear fixing piece 321 is pulled, band moving gear 32 is along institute It states stationary rack 33 to scroll down through, the first door leaf 3 is driven to move downward；And the gear 32 drive the other side with Carry-over bar 42 moves down, described to drive second door leaf 4 to move downwardly together with carry-over bar 42.To first door leaf and second Door leaf completes downward stroke, this is stated two fan doors and returns to initial position, re-closes.

During above-mentioned two, the first guiding mechanism and the second guiding mechanism also guarantee second side of first door leaf respectively It is slided with second side of the second door leaf along the second column up and down direction, and front and back guiding is carried out to the two respectively and is fixed.

In another embodiment of the presently claimed invention, gear is fixed in the first door leaf, right above the gear It should be provided with a protruding part, which is fixed in the first door leaf, and the tache motorice of the driving cylinder is fixed on described On protruding part.In the implementation, first driving mechanism includes: First Line rail, gear, stationary rack, driving cylinder.

The first door leaf is connected with First Line rail, can slide up and down along First Line rail；The gear and first door leaf Connection；The gear is engaged with the stationary rack, and can be scrolled up and down along the stationary rack；Correspondence is set above the gear It is equipped with a protruding part, which is fixed in the first door leaf；The tache motorice of the driving cylinder is fixed on the protrusion On part；

Corresponding above-described embodiment, second driving mechanism, comprising: the second line rail, with carry-over bar；The second line rail is set It is placed on first column；It is described to be set on the second door leaf with carry-over bar；Second door leaf and the second line rail connect It connects；

Specific embodiments of the present invention are described above.It is to be appreciated that the invention is not limited to above-mentioned Particular implementation, those skilled in the art can make a variety of changes or modify within the scope of the claims, this not shadow Ring substantive content of the invention.In the absence of conflict, the feature in embodiments herein and embodiment can any phase Mutually combination.

Claims

1. a kind of bilayer automatic overhead door, which is characterized in that including the first column, the second column, first door leaf, the second door leaf； The first door leaf and the second door leaf are parallel to each other, and arrange from top to bottom, and overlap；First column and second is stood Column is located at the two sides of the first door leaf and the second door leaf, and connects respectively with two Slideslips of first door leaf and the second door leaf It connects；

2. a kind of double-deck automatic overhead door according to claim 1, which is characterized in that the first side of the first door leaf is set It is equipped with the first driving mechanism；First side of second door leaf is provided with the second driving mechanism；

First door leaf and the second door leaf pass through the first driving mechanism and the second driving mechanism respectively and first column sliding connects It connects；

First driving mechanism is connected with second driving mechanism, and sliding up and down for first door leaf drives the upper of the second door leaf Lower slider.

3. a kind of double-deck automatic overhead door according to claim 2, which is characterized in that first driving mechanism includes: First Line rail, gear, stationary rack, driving cylinder, gear fixing piece；

The first door leaf is connected with First Line rail, can slide up and down along First Line rail；The gear is connect with first door leaf；

The gear fixing piece is fixed in the first door leaf；The gear is set to the lower part of the gear fixing piece, institute The top for stating gear fixing piece is provided with a protrusion；

The tache motorice of the driving cylinder is fixed on the protrusion；

When the driving cylinder operation, its tache motorice jacks up upwards, and the protrusion and then moves upwardly together, and drives institute It states first door leaf to move upwards, while scrolling up with moving gear along stationary rack；

When the tache motorice of the driving cylinder is withdrawn, tache motorice is withdrawn downwards, and the protrusion and then moves downwardly together, and The first door leaf is driven to move downward；It is scrolled down through simultaneously with moving gear along stationary rack.

4. a kind of double-deck automatic overhead door according to claim 3, which is characterized in that second driving mechanism, comprising: Second line rail, with carry-over bar；The second line rail is set on first column；It is described to be set to the second door leaf with carry-over bar On；Second door leaf is connect with the second line rail；

The gear is located at the stationary rack and described between carry-over bar, and nibbles respectively with stationary rack and with carry-over bar It closes；The position of the lower end of the stationary rack and the upper end with carry-over bar is corresponding；

When the driving cylinder operation, push the protrusion of the gear fixing piece, band moving gear along the stationary rack to The protrusion of upper rolling, the gear fixing piece drives the first door leaf to move upwards；And the gear drives the other side Moved up with carry-over bar, the second door leaf described in the servo-actuated rack drives moves upwardly together；

When the driving cylinder is withdrawn, pull the protrusion of the gear fixing piece, band moving gear along the stationary rack to Lower rolling drives the first door leaf to move downward；And the gear drives moving down with carry-over bar for the other side, institute The second door leaf described in servo-actuated rack drives is stated to move downwardly together.

5. a kind of double-deck automatic overhead door according to claim 2, which is characterized in that first driving mechanism includes: First Line rail, gear, stationary rack, driving cylinder；

The tache motorice of the driving cylinder is fixed on the protruding part；

When the driving cylinder operation, its tache motorice jacks up upwards, and the protruding part and then moves upwardly together, and drives the One door leaf moves upwards；First door leaf moves upwards simultaneously, and band moving gear scrolls up along stationary rack

When the tache motorice of the driving cylinder is withdrawn, tache motorice is withdrawn downwards, and the protruding part and then moves downwardly together, and The first door leaf is driven to move downward；The downward movement of first door leaf simultaneously, band moving gear are scrolled down through along stationary rack.

6. a kind of double-deck automatic overhead door according to claim 5, which is characterized in that second driving mechanism, comprising: Second line rail, with carry-over bar；The second line rail is set on first column；It is described to be set to the second door leaf with carry-over bar On；Second door leaf is connect with the second line rail；

The gear is located at the stationary rack and described between carry-over bar, and nibbles respectively with stationary rack and with carry-over bar It closes；The position of the lower end of the stationary rack and the upper end with carry-over bar is corresponding；When the driving cylinder operation, push Protruding part, band moving gear scroll up along the stationary rack, and the protruding part drives the first door leaf to move upwards；And And the gear drives moving up with carry-over bar for the other side, the second door leaf described in the servo-actuated rack drives is transported upwards together It is dynamic；When the driving cylinder is withdrawn, protruding part is pulled, band moving gear is scrolled down through along the stationary rack, described in drive First door leaf moves downward；And the gear drives moving down with carry-over bar for the other side, the servo-actuated rack drives institute The second door leaf is stated to move downwardly together.

7. a kind of bilayer automatic overhead door according to claim 3 or 5, which is characterized in that the stroke of the driving cylinder Less than the length of the stationary rack.

8. a kind of bilayer automatic overhead door according to claim 4 or 6, which is characterized in that the length with carry-over bar Not less than the length of the stationary rack.

9. a kind of double-deck automatic overhead door according to claim 1, which is characterized in that second side of the first door leaf is set It is equipped with the first guiding mechanism, second side of second door leaf is provided with the second guiding mechanism；First door leaf and the second door leaf point It is not slidably connected by the first guiding mechanism and the second guiding mechanism with second column, makes second side or of first door leaf Second side of two door leafs can be slided up and down along the second column.

10. a kind of double-deck automatic overhead door according to claim 9, which is characterized in that first guiding mechanism includes Several guidance sets, the guidance set include idler wheel, the guide rail being harmonious with idler wheel；It is vertical that the guide rail is installed on described second On column, the idler wheel is connect with the first door leaf.

11. a kind of double-deck automatic overhead door according to claim 9, which is characterized in that second guiding mechanism includes Several guidance sets, the guidance set include idler wheel, the guide rail being harmonious with idler wheel；It is vertical that the guide rail is installed on described second On column, the idler wheel is connect with second door leaf.

12. a kind of bilayer automatic overhead door described in 0 or 11 according to claim 1, which is characterized in that first guiding mechanism Or second the guidance set of guiding mechanism include bearing, the guide groove being harmonious with bearing；The guide groove is installed on described second On column, the bearing is connect with the first door leaf or the second door leaf.