CN204125568U - A kind of mechanism realizing fire door lifting and rotating integrated motion - Google Patents

Abstract

The utility model discloses a kind of mechanism realizing fire door lifting and rotating integrated motion, the motion thread of one section of corresponding cooperation is processed with at the outside surface of standing screw and the internal surface of moving screw outer tube of being with limited location and guide effect groove, drive unit drives the ridge of screw rod outer tube and screw flight groove to screw by bearing assembly, and screw rod outer tube is elevated along the groove of screw rod, screw rod outer tube drives fire door lifting by cantilever and rotates, thus realizes the accurate control of door opening and closing.The utility model is by means of only a drive source, what utilize one section of screw part that screw rod and screw rod outer tube design screws effect, and utilize the spacing of screw flutes and guide effect, just can simply control realization fire door lifting and rotate integrated motion, not only ensure that the reliability of motion, and shorten run duration, improve process efficiency, thus save cost.

Description

A kind of mechanism realizing fire door lifting and rotating integrated motion

Technical field

The utility model relates to a kind of fire door motion control mechanism of semi-conductor vertical thermal-processing device, more specifically, relate to a kind of realize semi-conductor vertical thermal-processing device fire door lifting and the controlling organization of rotating integrated motion.

Background technology

Semi-conductor vertical thermal-processing device can comprise such as vertical oxidation, LPCVD stove, vertical annealing furnace etc.Before semi-conductor vertical thermal-processing device starts to carry out technique, before namely quartz boat and silicon chip being sent into heated chamber, need to open fire door; After technique terminates, after namely quartz boat and silicon chip being shifted out heated chamber, need closed furnace door, to play the effects such as isolation heat.Its course of action refers to Fig. 1, and Fig. 1 is a kind of fire door installation site structural representation of semi-conductor vertical thermal-processing device process cavity region.As shown in Figure 1, before technique starts, door driving device 24 drives fire door 23 to move straight down; The fire door 23 after a segment distance that declines departs from fire door, and when not interfering with the getter device 210 being located at stove gate, then fire door 23 is horizontally rotated, open fire door, then just can carry out technique; When technique starts, be in silicon chip bearing area 25, carry the art and craft door 29 of quartz boat 26, insulated tank 28 and silicon chip 27, under the driving of drive unit, straight line moves upward, by the fire door that quartz boat 26, insulated tank 28 and silicon chip 27 shift-in have been opened, the quartz heating chamber 22 entered in heating furnace body 21 carries out technique.

At present, the fire door motion control of vertical stove, applying maximum in field is the mode such as pneumatic fire door, stepper-motor fire door.

In prior art, adopt stepper-motor mode control fire door lifting and rotate, be utilize two stepper-motors to connect synchronous pulleys and deceleration device, realize lifting and the rotation of fire door.In this fashion, stepper-motor needs the driving of synchronous belt, and after long-time, the phenomenons such as wearing and tearing, tension force deficiency and skidding easily appear in belt, affect the control of fire door motion.And its complex structure, needs to use two stepper-motors, step-down gear, a set of feed screw nut and an a set of slide block guide rail.Make cost very high like this, not only volume, weight greatly, and utilize driving stepper motor, easily occur that fire door swings situation not in place.

Chinese utility model patent CN102719805A mono-kind discloses a kind of fire door Pneumatic Control Technology for the auto stove-door mechanism of PECVD device, utilizes an X to straight line cylinder and linkage assembly, realizes the swing of fire door; And utilize a Y-direction straight line cylinder, realize the folding of fire door.This structure uses two straight line cylinders, a set of linkage assembly and the guide rail for orientation, needs at least two drive elements, causes that cost is higher, volume and weight is larger.

Above-mentioned prior art exists that cost is higher, volume and weight is larger, and the common defects of structure relative complex, this requirement that is strict to cost control relative to semicon industry, that equipment occupation space and maintainability are had to harshness restriction is very disadvantageous.

Utility model content

The purpose of this utility model is the above-mentioned defect overcoming prior art existence, the furnace door motion control mechanism that a kind of structure is simple, control is accurate, space hold is little, easy to maintenance is provided, by the principle utilizing threaded engagement to produce relative displacement and rotation in furnace door control mechanism, design a kind of control unit of uniqueness, the integrated motion that can realize fire door lifting and rotate, not only decrease drive source, ensure that the reliability that fire door moves, and shorten run duration, thus improve the process efficiency of semi-conductor vertical thermal-processing device.

For achieving the above object, the technical solution of the utility model is as follows:

Realize a mechanism for fire door lifting and rotating integrated motion, comprise fire door link gear, drive unit, it is characterized in that, described link gear comprises:

One screw rod, described screw rod is mounting block, and surface working has one section of thread groove and an axial vertical groove, the end of described thread groove and the end of described groove tangent;

One screw rod outer tube, described screw rod outer tube is movable part, and internal surface is processed with one section of ridge corresponding with described screw flight groove, and described screw rod outer tube and described screw rod are socketed; Wherein, the ridge of described screw rod outer tube can be contained in described screw flutes, and thread groove that can be corresponding with described screw rod screws formation screw thread pair; Described screw rod outer tube is fixedly connected with fire door, and described screw rod outer tube is also flexibly connected drive unit.

The technical program screws process by screw rod and screw rod outer tube two parts, just can realize synchronously carrying out of fire door lifting and rotation.Screw rod is mounting block, and when drive unit gives movable screw rod outer tube to lifting force by bearing assembly, due to screw rod and the socket of screw rod outer tube, corresponding threaded engagement forms screw thread pair, and screw thread is by the effect of radial component, and screw rod outer tube can rotate.Because of by axial component, make screw rod outer tube increase, when (height can according to demand designed, designed lead angle) after rising certain altitude, threaded engagement terminates (Design of length of screw thread determines the pivot angle of rotation), and screw thread is separated.Now, the protrusion ridge of screw rod outer tube terminates the groove contacts side surfaces on end face and screw rod, plays position-limiting action, therefore rotates stopping.Thus, screw rod outer tube only carries out upward movement along the groove on screw rod, when screw rod outer tube moves to qualifying bit postpone, terminates upward movement.In the process, screw rod outer tube drives fire door to realize rotating and rising by the cantilever connected.Drive unit drives link gear by fire door lifting, in the process of lifting, effect is screwed due to screw thread, fire door can produce rotation simultaneously, when rotating to the position concentric with fire door (pivot angle of rotation is determined by the length of thread designed), due to the position-limiting action of screw flutes, fire door just stops the rotation.Just carry out vertical motion after fire door stops the rotation, stop rising after rising to specified altitude assignment, complete closing of a fire door.

When fire door opened by needs, fallen by fire door by drive unit, as long as reactive force is now less than the power of jack-up, fire door will fall due to deadweight.Initial fall is translational motion, and after the angle limit of interface self-assembling formation is terminated hold with thread groove in the groove lower end arrived on screw rod, screw thread starts to screw, and fire door is also along with starting rotation decline.When arriving screw thread starting end, threaded engagement stops, and screw rod outer tube stops operating, and fire door is rotated in place simultaneously, completes opening of a fire door.

Further, the form of thread of described thread groove, ridge is trapezoidal or rectangle motion thread, the thrust needed during to reduce to screw.

Further, the lead angle of described thread groove, ridge is greater than Self-locking angle, like this, when threaded engagement, screw thread self-locking phenomenon would not occur.

Further, the end of described thread groove and the end of described groove tangent, wherein, the bottom surface of described groove and thread groove bottom surface coplanar, two sidewalls of described groove are tangent with the upper and lower side of thread groove respectively.

Further, the starting end of described thread groove is positioned at the lower end of described screw surface, and the starting end of described ridge is positioned at the lower end of the outer pipe internal surface of described screw rod.This design makes screw rod outer tube can be socketed with screw rod from the groove top of screw rod, or directly screws socket from screw rod lower end.

Further, the upper side starting end of described thread groove has a vertical end face, and in the same way, the extended surface of described recess sidewall passes through the axis of described screw rod to the corresponding sidewall of the end face of described ridge starting end, the end face of end end and described groove.When screw thread adds man-hour from screw rod lower end, at the end of fire door decline, threaded engagement, this vertical end face plays position-limiting action, and avoid the ridge of screw rod outer tube to skid off screw flight groove, the angle that fire door is rotated is precisely controlled.

Further, described screw rod outer tube is that described bearing assembly comprises angular contact ball bearing, step cover with holes and bearing support by being socketed on its outer bearing assembly connecting drive device; Wherein, described angular contact ball bearing and screw rod outer tube are socketed, and are arranged in bearing support, are provided with step cover above described angular contact ball bearing, and described step cover is fixedly connected with bearing support, and described bearing support is fixedly connected with drive unit; Described screw rod and screw rod outer tube are socketed, and screw rod lower end connects a fixed support through described bearing support.In fire door lifting process, due to the cantilever design of fire door, radial upsetting moment can be produced.Utilize angular contact ball bearing to bear radial force in the technical program, make screw rod is only subject to axial force.

Further, described drive unit is for driving cylinder, the piston rod of described cylinder connects the upper end of the external corner slide unit of cylinder, the sidepiece of described corner slide unit is fixedly connected with the bearing support of bearing assembly by a mounting plate, and described cylinder block sidepiece is connected by slide block guide rail with between slide unit sidepiece.Slide block guide rail is utilized to carry out the radial force of role-taking on cylinder piston rod.Described cylinder block is also connected with screw rod lower end by fixed support.

In fire door moving process, can control cylinder stable movement, slowly, fire door is rotated also steadily slowly, fire door can be made to arrive reposefully so spacing, reduce to impact.

If increase T-valve in the gas circuit of cylinder, cylinder also can be made to realize automatic cut-off protection and hold, even if there is unexpected powering-off state, cylinder still can pressurize, withstands fire door, avoids something unexpected happened.

Further, described screw rod upper end connects a spacing apical ring, is used for limiting the lifting height of screw rod outer tube.Described spacing apical ring and equipment for Heating Processing inside fixedly mount; Described screw rod lower end connects a fixed support, and described support and equipment for Heating Processing inside fixedly mount.

Further, the shape of described screw rod outer tube is hubbed flange shape, the angular contact ball bearing shrink-fit of its neck and described bearing assembly, the pressured angular contact ball bearing of its flange portion.The upper surface of described screw rod outer tube connects fire door by cantilever.

Further, the neck of described hubbed flange shape screw rod outer tube has radial draw-in groove, and draw-in groove is provided with a circlip, and the lower end of the angular contact ball bearing of described bearing assembly pressed by described circlip card, is used for the movement of limit angles contact ball bearing.

As can be seen from technique scheme, the utility model is by means of only a drive source, utilize on screw rod with screw rod outer tube in design one section of screw part screw effect, and utilize the spacing of screw flutes and guide effect, realize driving fire door to rotate the function with lifting.The advantage of this design has:

1. add reliability of structure.Position limiting structure on screw rod and screw rod outer tube, makes the path of motion of fire door be limited, there will not be because control that fire door appears in reason cross motion; And adopting the type of drive of a cylinder that motion can not be stopped halfway, each motion all can put in place; When the design that automatic cut-off protection is held makes power-off occurs, fire door also can not fall because of deadweight, guarantees safety.

2. improve sport efficiency.Two actions are combined into an action carry out, decrease the time of motion.

3. cost-saving.A drive source and relative simple structure, make the cost of cost of the present utility model other structures more existing reduce.

4. control simple.Rotation, lifting two actions only need a given actuating signal to complete, and have the feedback that position limiting structure does not need sensor, make to control to simplify, also improve the reliability of mechanism.

Accompanying drawing explanation

Fig. 1 is a kind of fire door installation site structural representation of semi-conductor vertical thermal-processing device process cavity region;

Fig. 2 is a kind of mechanism's assembling schematic diagram realizing fire door lifting and rotating integrated motion of the utility model;

Fig. 3 is the screw-rod structure schematic diagram in fire door link gear of the present utility model;

Fig. 4 is the screw rod outer tube structure schematic diagram in fire door link gear of the present utility model;

Fig. 5 is screw rod in fire door link gear of the present utility model and screw rod outer tube assembled state schematic diagram;

View when Fig. 6 is the ridge screw-in screw flutes of screw rod outer tube in fire door link gear of the present utility model;

Fig. 7 is a kind of mechanism structure sectional view realizing fire door lifting and rotating integrated motion of the utility model;

Fig. 8 is a kind of mechanism's confined state decomposing schematic representation realizing fire door lifting and rotating integrated motion of the utility model.

1. screw rods in figure, 2. screw rod outer tube, 3. apical ring, 4. step cover, 5. angular contact ball bearing, 6. circlip, 7. bearing support, 8. cantilever, 9. fire door, 10. support, 11. mounting plates, 12. cylinders, 13. slide block guide rails, 14. corner slide units, 15. thread grooves, 16. grooves, 17. ridges, 18. thread groove upper side starting end end faces, 19. draw-in grooves, 21. bodies of heater, 22. heated chambers, 23. fire doors, 24. door driving devices, 25. silicon chip bearing areas, 26. quartz boats, 27. silicon chips, 28. insulated tanks, 29. art and craft doors, 210. getter devices.

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is described in further detail.

First introduce in common semi-conductor vertical thermal-processing device, the installation site of fire door and processing requirement.Semi-conductor vertical thermal-processing device can comprise such as vertical oxidation, LPCVD stove, vertical annealing furnace etc., and the effect of fire door is the heated chamber of provision for sealing, and is isolated from the outside.Before semi-conductor vertical thermal-processing device starts to carry out technique, before namely quartz boat and silicon chip being sent into heated chamber, need to open fire door; After technique terminates, after namely quartz boat and silicon chip being shifted out heated chamber, need closed furnace door, to play the effects such as isolation heat.

Refer to Fig. 1, Fig. 1 is a kind of fire door installation site structural representation of semi-conductor vertical thermal-processing device process cavity region.As shown in the figure, before technique starts, door driving device 24 drives fire door 23 to move straight down; The fire door 23 after a segment distance that declines departs from fire door, and when not interfering with the getter device 210 being located at stove gate, then fire door 23 is horizontally rotated, open fire door, then just can carry out technique; When technique starts, be in silicon chip bearing area 25, carry the art and craft door 29 of quartz boat 26, insulated tank 28 and silicon chip 27, under the driving of drive unit, straight line moves upward, by the fire door that quartz boat 26, insulated tank 28 and silicon chip 27 shift-in have been opened, the quartz heating chamber 22 entered in heating furnace body 21 carries out technique.

Start below to introduce embodiment of the present utility model.

In the present embodiment, refer to Fig. 2, Fig. 2 is a kind of mechanism's assembling schematic diagram realizing fire door lifting and rotating integrated motion of the utility model.As shown in the figure, in fire door mechanism of the present utility model, fire door 23 connects driving cylinder 12 by link gear.During work, drive cylinder 12 to drive link gear action, the moving parts in link gear rotates and is elevated, and drives the fire door 23 be attached thereto to move, realizes opening and closing and the rotation of fire door.

Introduce the design of part that the utility model rotates for realizing fire door and is elevated below.

Refer to Fig. 3, Fig. 3 is the screw-rod structure schematic diagram in fire door link gear of the present utility model.As shown in the figure, it is trapezoidal motion thread groove 15 that screw rod is inwardly processed with one section of tooth form on the outside surface that lower surface starts, and the quantity of thread groove is one, and this example adopts right-hand thread.The lift angle of required screw thread need calculate acquisition, and should be greater than Self-locking angle, prevents screw thread self-locking.In this example, screw thread self-locking angle is as calculated 8.83 degree, revolves ascending effect preferably for obtaining, and designs larger by lift angle, is 27.9 degree, the thrust needed during to reduce to screw.Trapezoidal motion thread intensity is higher, not easily self-locking.Screw rod side has a long recess 16 vertically, and lower end and the thread groove of groove are tangent; Wherein, the bottom surface of groove and thread groove bottom surface (at the bottom of tooth) coplanar, the end face that the sidewall of groove terminates to hold with thread groove two sides is respectively tangent to be overlapped; Thread groove upper side starting end end face 18 is processed into perpendicular end surface, plays position-limiting action.Top end face and the bottom face of screw rod are all processed with screw hole.

Refer to Fig. 4, Fig. 4 is the screw rod outer tube structure schematic diagram in fire door link gear of the present utility model.As shown in the figure, the shape of screw rod outer tube is hubbed flange shape, and screw rod outer tube is processed with one section of motion thread tooth 17 corresponding with the thread groove on screw rod on the internal surface that lower surface starts, and the quantity of ridge is one.The bottom starting end end face of ridge and top are terminated end end face and are vertical direction end face, and in the same way, the extended surface of recess sidewall passes through the axis of described screw rod to the corresponding sidewall of the end face of ridge starting end, the end face of end end and screw flutes.When screw thread adds man-hour from screw rod lower end, at the end of fire door decline, threaded engagement, this vertical end face plays position-limiting action, and avoid the ridge of screw rod outer tube to skid off screw flight groove, the angle that fire door is rotated is precisely controlled.The top end face of screw rod outer tube is processed with screw hole.

Refer to Fig. 5, Fig. 5 is screw rod in fire door link gear of the present utility model and screw rod outer tube assembled state schematic diagram.As shown in the figure, when screw rod outer tube 2 is socketed with screw rod 1, screw rod outer tube 2 forms screw thread pair with the threaded engagement corresponding to screw rod 1.

Refer to Fig. 6, view when Fig. 6 is the ridge screw-in screw flutes of screw rod outer tube in fire door link gear of the present utility model.As shown in the figure, screw rod 1 side has long recess vertically, and at the end of threaded engagement, the ridge 17 that can hold screw rod outer tube enters groove.

In this example, by the thread groove 15 of screw rod 1, the axis projection length be processed into along screw rod 1 circumference is 1/2 circumference, and groove and tangent rear 1/2 place at thread groove of thread groove, namely groove is quarter turn along the axis projection length of screw rod 1 circumference.The length of screw rod outer tube 2 ridge is axis projection length quarter turn circumferentially, and groove and screw rod outer tube 2 ridge form running fit.When ridge and thread groove screw, rotate an angle of 90 degrees time, ridge enters groove, and namely screw thread pivot angle is 90 degree.At this moment, the fire door also 90-degree rotation that connects of screw rod outer tube.Different pivot angles can be designed as required.

Screw rod 1 is fixed installation, when giving screw rod outer tube 2 to lifting force, due to the effect of radial component on screw thread, screw rod outer tube 2 can rotate, and axial component makes screw rod outer tube 2 rise, after screw rod outer tube 2 rises certain altitude (highly according to demand designed, designed), threaded engagement terminates (this example is half-twist), thread separation, the ridge top of screw rod outer tube 2 is terminated end vertical plane and is contacted with the long recess vertical plane of screw rod 1, rotates and stops.Screw rod outer tube 2 only carries out upward movement along the long recess on screw rod 1, and screw rod outer tube 2 moves to top qualifying bit postpone and terminates motion.Same, when screw rod outer tube 2 is subject to downward thrust decline, due to the position-limiting action of long recess on screw rod 1, screw rod outer tube 2 does translational motion downwards from top, when arriving threaded engagement place, owing to being subject to the spacing of long recess two sidewalls and screw rod 1 thread groove side, the radial component acted on screw thread makes screw rod outer tube 2 start to be rotated simultaneously.After rotating specified angle, in screw rod 1, the vertical plane of thread groove upper side starting end end face 18 contacts with the bottom starting end vertical plane of ridge in screw rod outer tube 2, and screw rod outer tube 2 stops the rotation and declines.

Refer to Fig. 7, Fig. 7 is a kind of mechanism structure sectional view realizing fire door lifting and rotating integrated motion of the utility model.As shown in the figure, the cantilever 8 of fire door is fixed by screws in hubbed flange shape screw rod outer tube 2 upper surface.Angular contact ball bearing 5 in bearing assembly is socketed in the neck of screw rod outer tube 2, and screw rod outer tube 2 is shrink-fit with the inner ring of angular contact ball bearing 5, can bear axis and radial loading simultaneously.Fire door and cantilever 8 act on screw rod outer tube 2 due to the upsetting moment that action of gravity produces, because screw rod outer tube 2 and the inner ring of angular contact ball bearing 5 are shrink-fit, pretend and be applied to angular contact ball bearing 5 for the radial force on screw rod outer tube 2, and screw rod 1 is only subject to the axial force from fire door and cantilever 8.

Refer to Fig. 7, angular contact ball bearing 5 is arranged in bearing support 7, and its outer ring and bearing support 7 are shrink-fit.The draw-in groove 19(that circlip for shaft 6 is connected on screw rod outer tube 2 outer wall that is positioned at below angular contact ball bearing 5 refers to Fig. 4 or 5), play the effect axially stopping bearing 5.Step cover 4 is connected with bearing support 7 by screw, plays the effect compressing bearing 5 outer ring.

Refer to Fig. 7, the top blind hole of screw rod 1 be transition fit as the screw hole on the apical ring 3 of locating part, be connected by screw; Apical ring 3 is again by the frame of screw or other mounting means and equipment or install top board and fix.Screw hole on the bottom blind hole of screw rod 1 and support 10 is transition fit, is connected by screw; Support 10 is fixed by screw or other modes and frame or top board.Need the right alignment that the screw hole on the screw hole of guarantee apical ring 3 and support 10 is higher, to ensure the stability of screw rod 1.

Refer to Fig. 7, bearing support 7 is connected with mounting plate 11 by screw, and mounting plate 11 is connected with the corner slide unit 14 of cylinder 12 by screw.Between cylinder 12 sidepiece and corner slide unit 14 sidepiece, slide block guide rail 13 is housed, can radial force be born, make the piston rod of cylinder 12 only be subject to axial force, effectively can protect cylinder piston rod.

Refer to Fig. 8, Fig. 8 is a kind of mechanism's confined state decomposing schematic representation realizing fire door lifting and rotating integrated motion of the utility model, more clearly can express the concrete assembly relation of each part of the utility model.As shown in the figure, screw rod 1 is fixedly connected by the frame of apical ring 3, support 10 and equipment for Heating Processing or mounting plate.Screw rod outer tube 2 and screw rod 1 spin, and connect fire door 23 by cantilever 8.The angular contact ball bearing 5 be arranged in bearing support 7 is socketed with outside screw rod outer tube 2 lower end.Step cover 4 is connected with bearing support 7 by screw, plays the effect compressing bearing 5 outer ring.Circlip for shaft 6 is connected to the draw-in groove 19 on screw rod outer tube 2 outer wall that is positioned at below bearing 5, plays the effect axially stopping bearing 5.Bearing support 7 is connected with mounting plate 11 by screw, and mounting plate 11 is connected with corner slide unit 14 sidepiece with slide block guide rail 13 of cylinder 12 by screw, and the cylinder body of cylinder 12 is fixedly connected by screw and support 10 or frame or mounting plate.Like this, cylinder 12 is fixed, and the piston rod of cylinder 12 then can drive corner slide unit 14, mounting plate 11, bearing support 7, bearing 5, screw rod outer tube 2, cantilever 8, fire door 23 etc. to move, thus realizes lifting and the rotation of fire door.

The utility model screws process by screw rod and screw rod outer tube two parts, just can realize synchronously carrying out of fire door lifting and rotation.Screw rod is mounting block, when driving cylinder to give movable screw rod outer tube to lifting force by bearing assembly, due to screw rod and the socket of screw rod outer tube, corresponding threaded engagement forms screw thread pair, screw thread is by the effect of radial component, and screw rod outer tube can rotate, and fire door can produce rotation simultaneously.Because being subject to axial component, screw rod outer tube is made to increase, when rotation rises to the position concentric with fire door (pivot angle of rotation is determined by the length of thread designed), the protrusion ridge top of screw rod outer tube is terminated end vertical plane and is contacted with the groove vertical plane on screw rod, due to the position-limiting action of screw flutes, fire door just stops the rotation.Thus, screw rod outer tube only carries out upward movement along the groove on screw rod, when screw rod outer tube moves to screw tip, after contact locating part, terminates upward movement.In the process, screw rod outer tube drives fire door to realize rotating and rising by the cantilever connected, and completes closing of a fire door.

When fire door opened by needs, by driving cylinder to be fallen by fire door, as long as reactive force is now less than the power of jack-up, fire door will fall due to deadweight.Initial fall is translational motion, and after the angle limit of interface self-assembling formation is terminated hold with screw thread in the groove lower end arrived on screw rod, screw thread starts to screw, and fire door is also along with starting rotation decline.When arriving bottom screw rod, after the angle limit of the vertical end face self-assembling formation of thread groove upper side starting end, screw rod outer tube stops operating, and fire door is rotated in place simultaneously, completes opening of a fire door.

T-valve can be increased in the gas circuit of cylinder, make cylinder can realize automatic cut-off protection and hold.Even if there is unexpected powering-off state, cylinder is pressurize still, withstands fire door, avoids something unexpected happened.

Fire door, in moving process, can also utilize speed-regulating valve to make the stable movement, slowly of cylinder, and fire door rotates and is also able to steadily, slowly, like this, fire door can be steadily arrived spacing, reduces to impact.

It should be noted that, drive unit also can adopt other type of drive, such as, changes straight line cylinder into and the outside guide rail slide block that installs additional to topple the mode of power to bear radial direction; Or adopt straight line cylinder outside to install linear bearings additional to topple the mode of power to bear radial direction; Or air cylinder driven is changed into linear electric motors driving etc.

Above-describedly be only preferred embodiment of the present utility model; described embodiment is also not used to limit scope of patent protection of the present utility model; therefore the equivalent structure that every utilization specification sheets of the present utility model and accompanying drawing content are done changes, and in like manner all should be included in protection domain of the present utility model.

Claims (10)

1. can realize a mechanism for fire door lifting and rotating integrated motion, comprise fire door link gear, drive unit, it is characterized in that, described link gear comprises:

One screw rod, described screw rod is mounting block, and surface working has one section of thread groove and an axial vertical groove, the end of described thread groove and the end of described groove tangent;

One screw rod outer tube, described screw rod outer tube is movable part, and internal surface is processed with one section of ridge corresponding with described screw flight groove, and described screw rod outer tube and described screw rod are socketed; Wherein, the ridge of described screw rod outer tube can be contained in described screw flutes, and thread groove that can be corresponding with described screw rod screws formation screw thread pair; Described screw rod outer tube is fixedly connected with fire door, and described screw rod outer tube is also flexibly connected drive unit.

2. mechanism as claimed in claim 1, it is characterized in that, the form of thread of described thread groove, ridge is trapezoidal or rectangle, and the lead angle of described thread groove, ridge is greater than Self-locking angle.

3. mechanism as claimed in claim 1, it is characterized in that, the form of thread of described thread groove, ridge is trapezoidal or rectangle, the end of described thread groove and the end of described groove tangent, wherein, the bottom surface of described groove and thread groove bottom surface coplanar, two sidewalls of described groove are tangent with the upper and lower side of thread groove respectively.

4. the mechanism as described in claims 1 to 3 any one, is characterized in that, the starting end of described thread groove is positioned at the lower end of described screw surface, and the starting end of described ridge is positioned at the lower end of the outer pipe internal surface of described screw rod.

5. mechanism as claimed in claim 4, it is characterized in that, the upper side starting end of described thread groove has a vertical end face, and in the same way, the extended surface of described recess sidewall passes through the axis of described screw rod to the corresponding sidewall of the end face of described ridge starting end, the end face of end end and described groove.

6. mechanism as claimed in claim 1, is characterized in that, described screw rod outer tube is that described bearing assembly comprises angular contact ball bearing, step cover with holes and bearing support by being socketed on its outer bearing assembly connecting drive device; Wherein, described angular contact ball bearing and screw rod outer tube are socketed, and are arranged in bearing support, are provided with step cover above described angular contact ball bearing, and described step cover is fixedly connected with bearing support, and described bearing support is fixedly connected with drive unit; Described screw rod and screw rod outer tube are socketed, and screw rod lower end connects a fixed support through described bearing support.

7. the mechanism as described in claim 1 or 6, it is characterized in that, described drive unit is for driving cylinder, the piston rod of described cylinder connects the upper end of the external corner slide unit of cylinder, the sidepiece of described corner slide unit is fixedly connected with the bearing support of bearing assembly by a mounting plate, and described cylinder block sidepiece is connected by slide block guide rail with between slide unit sidepiece; Described cylinder block is also connected with screw rod lower end by fixed support.

8. the mechanism as described in claim 1 or 6, is characterized in that, described screw rod upper end connects a spacing apical ring, and described spacing apical ring and equipment for Heating Processing inside fixedly mount; Described screw rod lower end connects a fixed support, and described support and equipment for Heating Processing inside fixedly mount.

9. mechanism as claimed in claim 6, it is characterized in that, the shape of described screw rod outer tube is hubbed flange shape, the angular contact ball bearing shrink-fit of its neck and described bearing assembly, the pressured angular contact ball bearing of its flange portion, the upper surface of described screw rod outer tube connects fire door by cantilever.

10. mechanism as claimed in claim 9, it is characterized in that, the neck of described hubbed flange shape screw rod outer tube has radial draw-in groove, and draw-in groove is provided with a circlip, and the lower end of the angular contact ball bearing of described bearing assembly pressed by described circlip card.