CN101144361A - Dispositif de guidage pour portail - Google Patents

Dispositif de guidage pour portail Download PDF

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Publication number
CN101144361A
CN101144361A CNA2007100803081A CN200710080308A CN101144361A CN 101144361 A CN101144361 A CN 101144361A CN A2007100803081 A CNA2007100803081 A CN A2007100803081A CN 200710080308 A CN200710080308 A CN 200710080308A CN 101144361 A CN101144361 A CN 101144361A
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CN
China
Prior art keywords
guiding device
plane
guardrail
slide block
base
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CNA2007100803081A
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Chinese (zh)
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CN101144361B (en
Inventor
J-M·戈蒂埃
L·维尔第耶
D·科尼尔
L·冯
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Dirickx Groupe SAS
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Dirickx Groupe SAS
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Publication of CN101144361A publication Critical patent/CN101144361A/en
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Publication of CN101144361B publication Critical patent/CN101144361B/en
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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/06Suspension arrangements for wings for wings sliding horizontally more or less in their own plane
    • E05D15/0621Details, e.g. suspension or supporting guides
    • E05D15/066Details, e.g. suspension or supporting guides for wings supported at the bottom
    • E05D15/0665Details, e.g. suspension or supporting guides for wings supported at the bottom on wheels with fixed axis
    • E05D15/0669Details, e.g. suspension or supporting guides for wings supported at the bottom on wheels with fixed axis with height adjustment
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/06Suspension arrangements for wings for wings sliding horizontally more or less in their own plane
    • E05D15/0617Suspension arrangements for wings for wings sliding horizontally more or less in their own plane of cantilever type
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING 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
    • E05Y2900/00Application of doors, windows, wings or fittings thereof
    • E05Y2900/40Application of doors, windows, wings or fittings thereof for gates
    • E05Y2900/402Application of doors, windows, wings or fittings thereof for gates for cantilever gates

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Refuge Islands, Traffic Blockers, Or Guard Fence (AREA)
  • Escalators And Moving Walkways (AREA)

Abstract

The invention relates to a guiding device of fence door including one guard bar. The said guiding device comprises a base fixed on the ground, a roller gruop cooperated with the fence door, a horizontal adjusting device fixed on the said base and adjusting the roller group which is perpendicular with the surface of the guard bar and a vertical adjusting device (208) fixed on the said horizontal adjusting device and for adjusting the roller group. The vertical adjusting device (208) comprises one base seat for fixing the vertical adjusting device on the horizontal adjusting device, a post (308) fixed at the roller group, at least one slider (510a, 510b) comprising one sliding surface common with the said post and one sliding surface common with the said base seat, wherein the angle of the said two sliding surfaces is not 0 and a drive device (512a,512b) for moving one or each slider (510a, 510b).

Description

The guiding device that is used for lattice door
Technical field
The present invention relates to a kind of lattice door guiding device, a kind ofly comprise the lateral adjustment device in order to the device of realizing this guiding device, a kind of vertical adjusting device that comprises in order to the device of realizing this guiding device, and lattice door that this guiding device is housed.
Background technology
Known have a kind of lattice door that moves horizontally in perpendicular when opening or closing.This lattice door comprises a guardrail on the underbeam that is installed in the section configuration that is hollow, rectangle and downwardly facing opening.For when lattice door moves, guiding this lattice door, be spaced a distance and place two guiding devices.Each guiding device all comprise a pedestal that fixes on the ground (base) with one group be installed in a column being connected with this pedestal (
Figure A20071008030800051
) on roller set.Each roller all is mounted on described pedestal and freely rotates, and is placed on underbeam inside so that the guiding underbeam.In order to guide lattice door better, described guiding device is mounted to no matter where lattice door is in, and this guiding device all contacts with underbeam always.
When lattice door was closed, the end of guardrail was contained in the vertical post.Because the inaccuracy when lattice door is installed makes the end of guardrail correctly not to be contained in the vertical post.In order to address this problem, one of guiding device particularly from vertical post guiding device farthest, can be regulated at least.
In order to carry out this adjusting, described guiding device comprises first plate that is fixed on the base and second plate that is fixed on first plate.This moment, the column with roller was connected with second plate.
In order to carry out lateral adjustments with respect to the plane of guardrail, described first plate has 4 slotted holes that are horizontally set with the plane of guardrail.First plate is fixed on the pedestal and realizes by means of screw rod.Each screw rod all passes one of slotted hole, and is screwed in the base.Regulate according to following mode this moment: described screw rod is positioned in the slotted hole, and is screwed in lightly on the base, and manual lateral is regulated first plate, then 4 screw rods is screwed fully to fix first plate.
In order to allow vertical adjusting, with second plate by means of 4 screw rods and 8 fixed by nut on first plate.Each screw rod all is fixed in the screw of first plate, and one first nut of screwing on each screw rod then is assemblied in second plate on 4 screw rods then, and is positioned on 4 first nuts, and is last, second nut of screwing on each root screw rod.So, second plate holder is between 4 first nuts and 4 second nuts.This moment is by precession and screw out the height adjusting that 8 nuts have just been realized roller.
These different adjustment also are not easy to realize.
Especially, lateral adjustments is not stable, may cause moving of first plate because finally tighten screw rod, therefore causes the guiding device imbalance.
It is difficult vertically regulating, because must operate 8 nuts to reach this adjusting of optimization.
Summary of the invention
The purpose of this invention is to provide a kind of guiding device that does not have the lattice door of prior art shortcoming.
For this reason, proposed a kind of guiding device that is used to comprise the lattice door of a guardrail, this guiding device comprises:
-one pedestal fixes on the ground;
-one roller set is in order to cooperate with lattice door;
-one lateral adjustment device, in order to be fixed on this pedestal and on the direction vertical with the guardrail plane pair roller group regulate; And
-one vertical adjusting device, in order to being fixed on the lateral adjustment device and the pair roller group is vertically regulated,
Described guiding device is such:
Described vertical adjusting device comprises:
-one base (socle) is in order to be fixed on the described lateral adjustment device;
-one column, its upper end is fixed to roller set;
-at least one slide block, slide block comprise slidingsurface and with a described base total slidingsurface total with described column, and these two slidingsurfaces are in non-0 angle;
-drive unit is in order to move one or each slide block.
Advantageously, the described slidingsurface that has with base is an approximate horizontal.
Advantageously, the described slidingsurface that has with column is the shape of tipper.
Advantageously, described guiding device comprises check mechanism, prevents drive unit to move with respect to base.
According to a concrete Implementation Modes, described drive unit be one side from one or each slide block through another side with the screw rod on the wall that is resisted against base.
Advantageously, column and roller set fixing, by with pivotally connected realization of the axle of guardrail plane approximate vertical.
According to a concrete Implementation Modes, described one or each slide block all are included in the wing (ailes) that exceeds corresponding slidingsurface between column and the base.
According to a concrete Implementation Modes, described guiding device comprises two mobile slide blocks parallel to each other, with the corresponding angle of first slide block and with the corresponding angle of second slide block be opposite.
According to a concrete Implementation Modes, described lateral adjustment device comprises:
-one has at least two plates of regulating slotted hole, and its plane is perpendicular to the plane of guardrail;
-for each adjustment hole, a connecting screw rod that is screwed in order to pass corresponding adjustment hole on the pedestal;
-for each connecting screw rod, an adjusting screw(rod), it passes corresponding adjustment hole and is screwed in the hole of plate, so that: on the one hand, with respect to the plane on the guardrail plane that is parallel to the axis by corresponding connecting screw rod, one of adjusting screw(rod) is pressed against left on the described connecting screw rod, on the other hand at least, with respect to the plane on the guardrail plane that is parallel to the axis by corresponding connecting screw rod, another of connecting screw rod is pressed against to the right on the described adjusting screw(rod) at least.
Advantageously, described guiding device comprises that 4 are regulated slotted holes, regulates slotted hole for these four and distributes with symmetrical manner roughly with respect to the guardrail plane on the one hand, distributes with symmetrical manner roughly with respect to the plane vertical with the guardrail plane on the other hand.
Advantageously, described plate is made of two interconnective symmetrical parts.
Advantageously, described lateral adjustment device comprises an overall rounded hole, and described base comprises an overall rounded groove, and this groove is in order to be in this hole so that realize the pivotally connected of vertical axes.
The present invention also provides a kind of lateral adjustment device, and described lateral adjustment device comprises the device in order to the guiding device of one of embodiment that realizes the front.
The present invention also provides a kind of vertical adjusting device, and described vertical adjusting device comprises the device in order to the guiding device of one of embodiment that realizes the front.
The present invention also provides lattice door, and described lattice door is equipped with the guiding device of one of front embodiment.
Description of drawings
To the description of embodiment, above-mentioned feature of the present invention and further feature will be more clear below reading, and described description is carried out with reference to the accompanying drawings, wherein:
Fig. 1 represents to comprise the lattice door according to guiding device of the present invention;
Fig. 2 represents according to guiding device of the present invention;
Fig. 3 represents the exploded view according to lateral adjustment device of the present invention;
Fig. 4 represents the exploded view according to vertical adjusting device of the present invention;
Fig. 5 represents the sectional drawing of vertical guiding device by the plane vertical with the lattice door plane;
Fig. 6 a and Fig. 6 b represent the embodiment that moves horizontally according to guiding device of the present invention;
Fig. 7 a and Fig. 7 b represent according to the vertically mobile embodiment of guiding device of the present invention;
Fig. 8 is the sectional drawing along the straight line VIII-VIII of Fig. 7 a; And
Fig. 9 is the sectional drawing along the straight line IX-IX of Fig. 7 b.
The specific embodiment
Fig. 1 represents a kind of lattice door 100 that is installed in a guardrail 104 on the underbeam 102 that comprises.This lattice door 100 can flatly move in the plane of guardrail 104, with the opening and closing lattice door.When lattice door 100 is closed, the free end of guardrail 104 will be contained in the vertical column.
In order to guarantee guiding underbeam when underbeam 102 moves, two guiding devices 200 and 300 are installed in the inside of underbeam 102.Each guiding device 200,300 can be following guiding device of the present invention, but also can have only one of them to be.And another, particularly guiding device 300, promptly from nearest one of column, can be fix and be uncontrollable.This moment uncontrollable guiding device 300 generally include the pedestal that fixes on the ground be installed in column that pedestal is connected on one group of roller set.
Fig. 2 represents according to guiding device 200 of the present invention.
Described guiding device 200 comprises a pedestal 202, lateral adjustment device 206, a vertical adjusting device 208 and a roller set 204.
As at Fig. 6---Fig. 6 is the view of guiding device 200 in the axis of underbeam 102---be clear that roller set 204 is installed in the inside of underbeam 102, when moving with convenient lattice door 100, underbeam is cooperated with lattice door.In order to guarantee to guide underbeam, roller set 204 comprises vertical roller 212, horizontal roller 210 and underframe 214.Vertically roller 212 and horizontal roller 210 all are installed on the underframe 214, and roll on the inwall of underbeam 102.
At this, pedestal 202 is made of a plate that fixes on the ground by means of screw rod, and this screw rod passes the hole of for this reason leaving 216 on pedestal 202.
Lateral adjustment device 206 is fixed on the pedestal 202, can pair roller group 204 regulate on the direction vertical with guardrail 104 planes.Lateral adjustment device 206 fixing on pedestal 202 realizes that by means of 4 connecting screw rods 222 4 connecting screw rods 222 are screwed on the pedestal 202, is screwed in the hole that is provided with for this purpose.For this reason, lateral adjustment device 206 herein is by plate 224a, and 224b (Fig. 3) constitutes, and described plate 224a, 224b have 4 adjusting slotted holes 220 that supply connecting screw rod 222 to pass.The plane of regulating slotted hole 220 is with laterally parallel, and is promptly vertical with the plane of guardrail 104.
See that as knowing in Fig. 5 vertically adjusting device 208 is fixed on the lateral adjustment device 206, pair roller group 204 is vertically regulated.For this reason, this vertical adjusting device 208 comprises a base 306 and a column 308, and the pedestal of this column 308 is mounted in this base 306 movable, and the upper end of column 308 is fixed to underframe 214.
In order to allow underframe 214 to have the play (d é battement angulaire) of an angle, column 308 to be fixed to roller set 204 is to realize by the pivotally connected of axis with the plane approximate vertical of guardrail 104.For this reason, the upper end of column 308 is stirrup (é trier) shape that has two coaxial apertures 310, and the axis of two coaxial apertures 310 is approximately perpendicular to the plane of guardrail 104, and this coaxial aperture 310 makes it possible to axle is placed between column 308 and the underframe 214.
Fig. 3 represents the exploded view according to an Implementation Modes of lateral adjustment device 206 of the present invention.
Described lateral adjustment device 206 is made of plate 224a, a 224b, has the hole 450 of Gong the mounting seat 306 of a band ribs onboard.The circumference in hole 405 of band ribs comprises the ribs 404 that will be inserted in the fitting recess 312 of base 306.Such insertion can remain on base 306 on the lateral adjustment device 206, therefore vertical adjusting device 208 can be remained on the lateral adjustment device 206.In addition, the hole 450 and the base 306 of band ribs all are circular generally, and this allows base 306 freely to rotate round a vertical axes, therefore allows vertical adjusting device 208 freely to rotate round a vertical axes.Fitting recess 312 is preferably opened on horizontal plane.
In the hole 450 that base 306 can be installed to easily the band ribs, the plate that constitutes lateral adjustment device 206 is the shape of two symmetrical parts 224a and 224b.Each symmetrical parts 224a, 224b have the overall shape of parallelepiped that is, one of its surface is rounded to constitute the part of hole 450 peripheries of being with ribs.Two symmetrical parts 224a, 224b are interconnected by two tongue piece 402a, 402b, and each in the middle of them all is fixed on two symmetrical parts 224a, the 224b simultaneously by means of standing screw 406.
At this, each symmetrical parts 224a, 224b comprise that two are regulated slotted hole 220, and the extending direction in each hole all has one to regulate through hole, and this adjusting through hole is in order to hold an adjusting screw(rod) 218.Each axis of regulating through hole all with the plane parallel of corresponding adjusting slotted hole 220, it passes the inside and relevant symmetrical parts 224a, the outside of 224b of regulating slotted hole 220 simultaneously.Preferably, each regulates through hole all with respect to corresponding adjusting slotted hole 220 centerings.
In general, described lateral adjustment device 206 comprises:
One has at least two plate 224a, 224b that regulate slotted hole 220, and its plane is vertical with the plane of guardrail 104;
One for 220, one connecting screw rods 222 of each adjustment hole, are screwed on the pedestal 202 in order to pass corresponding adjustment hole 220;
One for each connecting screw rod 222, adjusting screw(rod) 218 in hole that is screwed in plate 224a, 224b, it passes corresponding adjustment hole 220, so that: on the one hand, plane with respect to the guardrail plane 104 that is parallel to the axis by corresponding connecting screw rod 222, at least one of adjusting screw(rod) 218 is pressed against left on the described connecting screw rod 222, on the other hand, with respect to the plane on the guardrail plane 104 that is parallel to the axis by corresponding connecting screw rod 222, another of adjusting screw(rod) 218 is pressed against to the right on the described connecting screw rod 222 at least.
Certainly, the present invention can regulate slotted hole 220 with two works, but preferably uses aforesaid 4 to regulate slotted hole.This can balance roller set 204 the location.Especially, described four adjusting slotted holes 220 roughly are symmetrically distributed with respect to the plane of guardrail 104 on the one hand, roughly are symmetrically distributed with respect to the plane vertical with the plane of guardrail 104 on the other hand.
This moment the following lateral adjustments of carrying out.
After being placed on vertical adjusting device 208 in the lateral adjustment device 206, it is placed on the pedestal 202, be fixed on the pedestal 202 by connecting screw rod 222.Before connecting screw rod 222 was tightened fully, each adjusting screw(rod) 218 all was inserted in the corresponding adjusting through hole.Tighten each adjusting screw(rod) 218 then, so that on the connecting screw rod 222 that its support is leaned against pass corresponding adjusting slotted hole 220, so that make lateral adjustment device 206 be placed on the desired position.
In fact, when adjusting screw(rod) 218 supports lean against on the connecting screw rod 222, therefore lateral adjustment device 206 moves, and different adjusting screw(rod)s 218 is installed is resisted against and makes it possible to accurately, stablize, accurately locate lateral adjustment device 206 on the corresponding connecting screw rod 222.
Then, connecting screw rod 222 is tightened fully, and can not be disturbed the adjusting of lateral adjustment device 206.
Fig. 6 a and Fig. 6 b represent the example of lateral adjustment device 206 location.
In Fig. 6 a, tighten adjusting screw(rod) 218 so that lateral adjustment device 206 is placed in the middle, and in Fig. 6 b, tighten adjusting screw(rod) 218 so that lateral adjustment device 206 departs from a distance " db " to the right.In this second example, the adjusting screw(rod) 218 on the left side is twisted tightlyer than the adjusting screw(rod) 218 on the right, and therefore the adjusting screw(rod) 218 on the right is twisted De Gengsong than the adjusting screw(rod) 218 on the left side.
Fig. 4 represents the exploded view of a concrete Implementation Modes of vertical adjusting device 208, and Fig. 5 is the sectional drawings of vertical adjusting device 208 edges perpendicular to the plane on guardrail 104 planes.
Base 306 comprises base plate 506 and lid 504, and they interfix by screw rod 508.Base plate 506 has the part of reduced, in order to form fitting recess 312.
Have hole 532 on the base plate 506, availablely pass through for column 308.Similarly, lid 504 also has hole 530, uses for column 308 and passes through.Column 308 can vertically move, but can not move horizontally with respect to base 306.
Column 308 is the shape of parallelepiped, and its label is 546 the surface and the plane almost parallel of guardrail 104.All have a groove 514a, 514b in these surfaces 546 each.Each groove 514a, 514b tilts, and preferably opposite (inverse) of their gradient.
In hole 532, each surface 546 that faces toward column 308 all is provided with lower shoulder 518a and 518b.In hole 530, each surface 546 that faces toward column 308 all is provided with upper shoulder 520a and 520b.
Each shoulder 518a, 518b, 520a and 520b comprise horizontal surface and vertically surperficial, so that form a parallelepiped.
With respect to surface 546, between lower shoulder 518a, the 518b and upper shoulder 520a, 520b of the same side setting, form an openwork part (é videment).In other words, this openwork part by lower shoulder 518a, 518b, upper shoulder 520a, 520b and column 308 corresponding surperficial 546 limit.
In the inside of each openwork part that so forms, inserts a slide block 510a, 510b, its shape adapts with the shape of relevant openwork part, and described slide block also comprises one first projection 540 among embedding corresponding groove 514a, the 514b.Therefore first projection 540 is and the corresponding hexahedral shape of the corresponding dip-parallel of groove 514a, 514b.In a described Implementation Modes of the present invention, be provided with two slide block 510a and 510b, also be fine but only establish one.
Each slide block 510a, 510b are made of the main body that comprises first projection 540 and second projection 538, are embedded in the openwork part that forms between corresponding lower shoulder 518a, 518b and upper shoulder 520a, 520b.Therefore first projection 540 has a slidingsurface that has with column 308, and second projection 538 has a slidingsurface that has with base 306, and two slidingsurfaces have non-0 angle each other.Slide block 510a, the 510b length on the moving direction of guardrail 104 so makes slide block 510a, 510b slide on the moving direction of guardrail 104 in the inside of openwork part less than the length of openwork part.
The shape of second projection, 538 rectangular parallelepipeds.The total slidingsurface of this moment and base 306 is an approximate horizontal, and is the shape on the surface that constitutes tipper 514a, 514b with the total slidingsurface of column 308.
When guiding device 200 comprises two slide block 510a, 510b, they preferably move in parallel with each other, and with the corresponding angle of the first slide block 510a and with the corresponding angle of the second slide block 510b be opposite, promptly this each groove 514a, 514b all be tilt and also gradient opposite.
Projection 538 and 540 and the size of corresponding openwork part and groove 514a and 514b be such: make each slide block 510a, 510b all can move by flatly sliding, and do not remove relevant with geometric tolerances (tolfirances is jealous of omfitriques) vertically mobile vertically moving.
Each slide block 510a (or 51Ob) promptly is parallel to the moving direction of guardrail 104 in order to can move horizontally by the slip of second projection 538 between lower shoulder 518a (or 518b) and upper shoulder 520a (or 520b) in its openwork part.
Because the existence of tipper 514a, 514b and first inclined protrusions 540 also can not move horizontally owing to column 308, so mobile the vertical of this column 308 that cause of slide block 510a and 51Ob moves.
In the period of vertically regulating, move in order to allow column 308, slide block 510a and 510b should move simultaneously, are stuck to avoid column 308.Because the operating clearance that is provided with is, slide block 510a and 510b can move successively.
On the one hand, in order to improve the guiding function of column 308 with respect to slide block 510a and 510b, on the other hand, in order to improve slide block 510a and the 510b guiding function with respect to base 306, each slide block 510a, 51Ob comprise fin (ailette) 550 and 552.Each fin 550,552 extends with the below respectively upward, exceeds corresponding slidingsurface, lays respectively in the hole 532 of covering 504 hole 530 and base plate 506, promptly between column 308 and shoulder 520a, 520b, 518a and 518b.
In order to move each slide block 510a, 510b, be provided with drive unit.
In the invention process pattern described in each figure, drive unit take drive screw (visd '
Figure A20071008030800121
) form of 512a, 512b.Each drive screw 512a, 512b pass through to another side so that be resisted against on the wall of base 306 from one side of slide block 510a, 510b., all be provided with in each slide block 510a, 510b in order to tighten the drive hole 534 of drive screw 512a, 512b, each drive hole 534 all is break-through for this reason, and its axis is parallel to the moving direction of slide block 510a, 510b.
In order to operate each of described drive screw 534, all be provided with operating groove 516a, 516b at base plate 506 with in lid 504, facing to each head of drive screw 512a, 512b.
In general, described vertical adjusting device 208 comprises:
-base 306;
-column 308;
-at least one slide block 510a, 510b, it comprises the slidingsurface and the slidingsurface that has with base 306 that have with column 308, these two slidingsurfaces are in the angle of non-zero; And
- drive unit 512a, 512b are in order to move one or each slide block 510a, 510b.
Angle between the described slidingsurface should be able to guarantee the vertically reversibility of adjusting.Preferably, the angle between this slidingsurface is approximately 15 °.
Fig. 7 a represents an example, and wherein vertically adjusting device 208 is lower, and Fig. 7 b represents an example, and wherein vertical adjusting device 208 is in position intermediate.These two positions have a difference in height " hb ".
Two sectional drawings of Fig. 8 and Fig. 9 make us can find out the position of slide block 510a, 510b and the relation between the vertical discrepancy in elevation hb.
In Fig. 8, the first slide block 510a is placed on the left side, and the second slide block 510b then is placed on the right, and promptly slide block 510a, 510b are on the top of corresponding groove 514a, 514b.
In Fig. 9, the first slide block 510a and the second slide block 510b roughly mediate.
In the Implementation Modes of the present invention described here, each drive screw 512a, 512b are the hexagonal screw rods without a head of hollow, its length equals the length of shoulder 518a, 518b, 520a and 520b at least, promptly the length of openwork part with and the end be resisted against on the inwall of base plate 506.
Precession and back-out each drive screw 512a, 512b can moving slider 510a and 510b.306 deviate from rather than corresponding slide block 510a, 510b are moved for fear of drive screw 512a, 512b from base, and check mechanism should be set, to prevent drive unit---particularly drive screw 512a, 512b---move with respect to base 306.
Such as, if drive screw 521a, 512b have a head, then head in the inside of openwork part and the size of operating groove 516a, 516b just enough less than the size of this head.Drive screw 512a, 512b alignment restrictions are in operating groove 516a, 516b with between the block on the base plate 506 (but é e) at this moment.This concrete Implementation Modes can be applicable to the situation of two the groove 514a and the 514b reversed dip of column 308, but the situation that also can be applicable on column 308, to have only groove 514a, a 514b and two groove 514a and 514b to tilt in the same way.Prevent the check mechanism that moves this moment is to realize by the edge of base plate 506 and operating groove 516a, 516b.
The gradient of groove 514a and 514b is this opposite fact, makes it possible to the strict check mechanism of realizing that accurately these preventions are moved.In fact, from the position of Fig. 8, precession drive screw 512a meeting drives automatically---because facing to the event of the block (but é e) of base plate 506---, and slide block 510a is moved to the left.And back-out drive screw 512b can drive automatically, and---owing to the event of stress that slide block 510b is applied by skewed slot 514b---slide block 510b moves right, rather than drive screw 512b leaves (sortie).
But be provided with two groove 514a and 514b balance because of lattice door 100 so, can also form the braking point by the suffered power of guiding device 200.In fact, when one of slide block 510a was not mobile, the movable length that another slide block 510b can finish was by because wedge effect (effetdecoin) and slide block 510a and 510b are stuck in defined in corresponding groove 514a and the 514b.
Vertically adjusting device 208 makes it possible to regulate easily and accurately, therefore only needs one or two drive screw of operation 512a, 512b.
Certainly, the present invention is not limited to embodiment and the Implementation Modes describing and introduce, but the different embodiments that can have many those skilled in the art to expect.
Such as, have the surface 546 of the column 308 of groove 514a and 514b therein, be the surface with guardrail 104 plane almost parallels, but these grooves can be opened on the surface vertical with the plane of guardrail 104.
Described lateral adjustment device 206 and vertical adjusting device 208 in the mode of combination above, but they can use independently of one another.
Guiding device 200 of the present invention is to have in the situation of the underbeam that holds described guiding device 200 at lattice door more specifically to describe, but it also can be used for the lattice door of other type.
The levelness of the gradient of groove 514a and 514b and shoulder 518a, 518b, 520a and 520b can be opposite.This moment, first projection 540 taked the shape of rectangular parallelepiped protrusion part, second projection 538 then to take the shape of the parallelepiped that tilts.The total slidingsurface of this moment and base 306 tilts, and with slidingsurface that column 308 has be approximate horizontal.

Claims (15)

1. be used to comprise the guiding device (200) of the lattice door (100) of a guardrail (104), this guiding device (200) comprising:
-one pedestal (202) fixes on the ground;
-one roller set (204) is in order to cooperate with lattice door (100);
-one lateral adjustment device (206), in order to be fixed on that described pedestal (202) is gone up and on the direction vertical with guardrail (104) plane pair roller group (204) regulate; And
-one vertical adjusting device (208), lateral adjustment device (206) goes up and pair roller group (204) is vertically regulated in order to be fixed on,
Described guiding device (200) is characterised in that:
Described vertical adjusting device (208) comprising:
-one base (306) is in order to be fixed on the described lateral adjustment device (206);
-one column (308), its upper end are fixed to roller set (204);
-at least one slide block (510a, 510b), slide block (510a, 510b) comprise slidingsurface and with described base (306) total slidingsurface total with described column (308), and these two slidingsurfaces are one non-0 angle mutually;
-drive unit (512a, 512b) is in order to move one or each slide block (510a, 510b).
2. according to the guiding device (200) of claim 1, it is characterized in that the total slidingsurface of described and described base (306) is an approximate horizontal.
3. according to the guiding device (200) of one of claim 1 or 2, it is characterized in that the total slidingsurface of described and described column (308) is the shape of tipper (514a, 514b).
4. according to the guiding device (200) of one of claim 1 to 3, it is characterized in that described guiding device (200) comprises check mechanism, prevent drive unit (512a, 512b) mobile with respect to base (306).
5. according to the guiding device (200) of one of claim 1 to 4, it is characterized in that, described drive unit (512a, 512b) be from one or each slide block (510a, 510b) one side pass through to another side with the screw rod on the wall that is resisted against base (306).
6. according to the guiding device (200) of one of claim 1 to 5, it is characterized in that described column (308) is fixed to the pivotally connected realization that roller set (204) is a axle by a plane that is approximately perpendicular to described guardrail (104).
7. according to the guiding device (200) of one of claim 1 to 6, it is characterized in that described one or each slide block (510a, 510b) all are included in the wing (550,552) that exceeds corresponding slidingsurface between column (308) and the base (306).
8. according to the guiding device (200) of one of claim 1 to 7, it is characterized in that described guiding device comprises two mobile slide blocks parallel to each other (510a, 510b); Its feature also is, with the corresponding angle of this first slide block (510a) and with the corresponding angle of this second slide block (510b) be opposite.
9. according to the guiding device (200) of one of claim 1 to 8, it is characterized in that described lateral adjustment device (206) comprising:
-one has at least two plates (224a, 224b) of regulating slotted hole (220), and its plane is vertical with the plane of guardrail (104);
-for each adjustment hole (220), a connecting screw rod (222) is screwed on the pedestal (202) in order to pass corresponding adjustment hole (220);
-for each connecting screw rod (222), an adjusting screw(rod) (218), it passes corresponding adjustment hole (220) and is screwed in plate (224a, in hole 224b), so that: on the one hand, plane with respect to guardrail (104) plane that is parallel to the axis by corresponding connecting screw rod (222), at least one of adjusting screw(rod) (218) is pressed against left on the described connecting screw rod (222), on the other hand, with respect to the plane on guardrail (104) plane that is parallel to the axis by corresponding connecting screw rod (222), another of adjusting screw(rod) (218) is pressed against to the right on the described connecting screw rod (222) at least.
10. according to the guiding device (200) of claim 9, it is characterized in that, described guiding device (200) comprises that 4 are regulated slotted hole (220), regulate slotted hole for these four and distribute with symmetrical manner roughly with respect to guardrail (104) plane on the one hand, distribute with symmetrical manner roughly with respect to the plane vertical on the other hand with guardrail (104) plane.
11. the guiding device (200) according to claim 9 or 10 is characterized in that, described plate is made of two interconnective symmetrical parts (224a, 224b).
12. the guiding device (200) according to one of claim 1 to 11 is characterized in that described lateral adjustment device (206) comprises an overall rounded hole (450); Its feature is that also described base (306) comprises an overall rounded groove (312); Its feature is that also described groove (312) is in order to be in the described hole (450) so that realize the pivotally connected of vertical axes.
13. lateral adjustment device (206) comprises the device in order to the guiding device of realizing one of claim 1 to 12.
14. vertically adjusting device (208) comprises the device in order to the guiding device of realizing one of claim 1 to 12.
15. lattice door (100) is equipped with the guiding device of one of claim 1 to 12.
CN2007100803081A 2006-09-13 2007-02-27 Guiding device for barrier Expired - Fee Related CN101144361B (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
FR06/08053 2006-09-13
FR0608053A FR2905721B1 (en) 2006-09-13 2006-09-13 GUIDING DEVICE FOR PORTAL

Publications (2)

Publication Number Publication Date
CN101144361A true CN101144361A (en) 2008-03-19
CN101144361B CN101144361B (en) 2012-03-07

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FR (1) FR2905721B1 (en)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102505914A (en) * 2011-07-25 2012-06-20 红门智能科技股份有限公司 Door body structure of suspended translation door
CN102889040A (en) * 2012-10-26 2013-01-23 宁波欧德意自动门有限公司 Electric vertical hinged door capable of being opened and closed in double directions
CN104453523A (en) * 2013-09-18 2015-03-25 哈瓦有限公司 Adjustable mounting device for a sliding element and sliding device

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CN105587195A (en) * 2015-12-29 2016-05-18 苏州升德精密电气有限公司 Lower fixing seat for hanging door

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US4372006A (en) * 1979-10-17 1983-02-08 Harbor Tool Mfg. Inc. Freight door roller housing
DE3536554C2 (en) * 1985-10-12 1997-02-27 Wego System Sportstaetteneinri Sliding gate
DE4236962A1 (en) * 1992-11-02 1994-05-05 Huegle Pfullendorf Kipptor Cantilever sliding gate
US5620039A (en) * 1995-02-10 1997-04-15 Rytec Corporation Apparatus for providing a slidingly-separable connection between a movable barrier and a means for guiding the barrier
AT404963B (en) * 1996-02-29 1999-04-26 Brix Zaun & Tor Gmbh SLIDING GATE WITH ELECTRIC OPERATOR
FR2843993B1 (en) * 2002-08-30 2005-02-25 Mantion Sa SLIDING DOOR GUIDING DEVICE

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102505914A (en) * 2011-07-25 2012-06-20 红门智能科技股份有限公司 Door body structure of suspended translation door
CN102505914B (en) * 2011-07-25 2014-04-09 红门智能科技股份有限公司 Door body structure of suspended translation door
CN102889040A (en) * 2012-10-26 2013-01-23 宁波欧德意自动门有限公司 Electric vertical hinged door capable of being opened and closed in double directions
CN102889040B (en) * 2012-10-26 2015-06-17 宁波欧德意自动门有限公司 Electric vertical hinged door capable of being opened and closed in double directions
CN104453523A (en) * 2013-09-18 2015-03-25 哈瓦有限公司 Adjustable mounting device for a sliding element and sliding device
CN104453523B (en) * 2013-09-18 2017-04-12 哈瓦有限公司 Adjustable mounting device for a sliding element and sliding device
TWI649491B (en) * 2013-09-18 2019-02-01 哈瓦有限公司 Adjustable mounting device and sliding device for sliding elements

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Publication number Publication date
CN101144361B (en) 2012-03-07
FR2905721A1 (en) 2008-03-14
FR2905721B1 (en) 2011-03-04

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