CN101899933A - Be used to swing the pivoting angle tolerance compensation fitting of door - Google Patents

Abstract

The present invention relates to a kind of pivoting angle tolerance compensation fitting (3) that is used to swing door, it comprises: first connector (1) and second connector (2), wherein, one in two connectors is configured to antitorque commentaries on classics ground and is connected with closing device/door opener rotating shaft, and another connector (1) is configured to antitorque commentaries on classics ground and is connected with the swing door, and wherein, first connector (1) is configured to admit swingably second connector (2); Adjusting device (4), it is used to adjust the angle of oscillation (α) between first connector (1) and second connector (2).This pivoting angle tolerance compensation fitting in manufacturing cost rationally and install and can guarantee to adjust effectively the angle of oscillation of swing door with respect to closing device/door opener rotating shaft under the simple condition.

Description

Be used to swing the pivoting angle tolerance compensation fitting of door

Technical field

The present invention relates to a kind of pivoting angle tolerance compensation fitting that is used to swing door, this pivoting angle tolerance compensation fitting is used to regulate angle of oscillation and is used in other words compensate in the position, angle of closing device/door opener rotating shaft and the tolerance between the swing door.

Background technology

Known in the prior art, alleged floor closing device is embedded in the groove in concrete surface or the seamless floor.So for example the glass swinging door can install in the closing device/door opener rotating shaft of protrusion.But because the groove in the floor has huge tolerance usually, so the swing door of having installed is usually accurately not closed with partition or doorframe in fastening position.Especially adopting thin partition for example when glass partition and glass swinging door,, then totally unfavorable if the swing door does not flush with partition down in off position.

Summary of the invention

Therefore, the purpose of this invention is to provide a kind of pivoting angle tolerance compensation fitting that is used to swing door, this pivoting angle tolerance compensation fitting in manufacturing cost rationally and install and can guarantee to adjust effectively the angle of oscillation of swing door with respect to closing device/door opener rotating shaft under the simple condition.

Above-mentioned purpose is achieved by independent claims 1 described feature.Appurtenance has write down favourable improvement project of the present invention.

Therefore, purpose of the present invention is achieved by a kind of pivoting angle tolerance compensation fitting that is used to swing door, this pivoting angle tolerance compensation fitting comprises first connector and second connector, wherein in two connectors is configured to antitorque commentaries on classics ground and is connected with closing device/door opener rotating shaft, and another connector is connected with swinging with being configured to antitorque commentariess on classics.In addition, first connector is configured to admit second connector swingably, and pivoting angle tolerance compensation fitting comprises the adjusting device that is used to adjust the angle of oscillation between first connector and second connector in addition in addition.This shows, utilize pivoting angle tolerance compensation fitting of the present invention after door has been installed, accurately to adjust the angle of oscillation between closing device/door opener rotating shaft and the swing door.For example when swing door has been installed and closed, utilize described adjusting device that the angle of oscillation between first connector and second connector is regulated, thereby make swing and doorframe and the partition that links to each other flushes.Term " closing device/door opener " relates to closing device, door opener or both combinations with " closing device/door opener rotating shaft ".

Advantageously, first connector has concave panel, and second connector has convex.So described concave panel and convex form sliding bearing together, guaranteed that thus second connector is received in first connector swingably.To this, convex and concave panel are preferred to extend like this, promptly makes their radius perpendicular to closing device/door opener rotating shaft.Form the swinging axle between first connector and second connector thus, wherein said swinging axle is parallel to closing device/door opener rotating shaft, so by first connector is regulated with respect to second connector, the angle of oscillation of whole door can be adjusted.

In the favourable design scheme of replacing concave panel and convex, first connector can be connected by bolt swingably with second connector, and wherein said bolt is arranged in the mode that is parallel to closing device/door opener rotating shaft.By first connector is swung around the axis of described bolt with respect to second connector, can adjust desirable angle of oscillation once more.

In the swung admittance that utilizes bolt and another favourable design scheme of swung admittance of utilizing convex and concave panel, be set to, make adjusting device comprise that at least one is used to adjust the adjusting bolt of angle of oscillation, wherein said adjusting bolt is arranged perpendicular to closing device/door opener rotating shaft.Regulate bolt by adopting, the angle of oscillation between first connector and second connector can only be adjusted from an accessory side.Advantageously make at this and to regulate bolt and be located in the screwed hole in one of two connectors and press to another connector.

When connecting bolt extends in two connectors, if ball-and-socket joint is set in connector at least therein then is favourable.Guaranteed thus, regulated bolt and in the boring of aiming at, guide all the time, and therefore avoided the adjusting bolt to be stuck.

In favourable design scheme, be set to, make adjusting device comprise two adjusting bolts that are used to adjust angle of oscillation.At this moment, two to regulate bolts opposed in an advantageous manner, and can each adjust since one of two accessory sides.Therefore can accurately adjust and fixed the angle of oscillation between first connector and second connector.

In another favourable design scheme, described adjusting device has positioner, and lock bolt especially is so that fix the angle of oscillation of adjusting.Especially when only adopting one to regulate bolt, adopt positioner to be proved to be favourable by means of lock bolt.

In a favourable layout of the element of pivoting angle tolerance compensation fitting, be set to, closing device/door opener rotating shaft and the receptacle that is used for this closing device/door opener rotating shaft are arranged in adjusting device and can swing between the swinging axle of receptacle.At this, swinging axle or formed by concave panel and convex is perhaps formed by bolt.By this favourable layout, the adjusting device with big as far as possible lever arm makes thus the adjustment of angle of oscillation is simplified away from swinging axle.

In another favourable design scheme, pivoting angle tolerance compensation fitting has off-center adjustment apparatus, so that it is suitable with different door-plate thickness to be used in the helmet of pivoting angle tolerance compensation fitting.Thus, when being suitable for the pivoting angle tolerance compensation fitting of different door-plate thickness, use can guarantee to be used for the unified gap of helmet.

For a particularly advantageous application, pivoting angle tolerance compensation fitting according to the present invention is configured to swinging glass door and the ground closing device uses.The ground closing device is embedded in the groove in the ground usually, is noted that wherein described groove has very big tolerance.

Especially when adopting glass partition and glass swinging door, be apparent that especially that the swing door not have accurately and partition locking around described swing in fastening position.Therefore, what be particularly conducive to installation is after door is installed, can utilize pivoting angle tolerance compensation fitting according to the present invention that the angle of oscillation of the door in especially in the closed position is accurately adjusted.

Description of drawings

By means of accompanying drawing, embodiments of the invention are explained in more detail below.

Wherein:

Fig. 1 illustrates the exploded view according to the pivoting angle tolerance compensation fitting by first embodiment of the present invention,

Fig. 2 illustrates the vertical view according to the pivoting angle tolerance compensation fitting of first embodiment,

Fig. 3 illustrates the sectional view according to the pivoting angle tolerance compensation fitting of first embodiment,

Fig. 4 shows according to the pivoting angle tolerance compensation fitting by second embodiment of the present invention,

Fig. 5 illustrates the sectional view according to the pivoting angle tolerance compensation fitting of second embodiment,

Fig. 6 shows the pivoting angle tolerance compensation fitting according to the 3rd embodiment, and

Fig. 7 shows according to the pivoting angle tolerance compensation fitting by the 4th embodiment of the present invention.

The specific embodiment

Now, elaborate four different embodiment of pivoting angle tolerance compensation fitting 3 by means of Fig. 1 to 7.

Fig. 1 to 3 shows the pivoting angle tolerance compensation fitting 3 according to first embodiment.

Fig. 1 shows pivoting angle tolerance compensation fitting 3 with the form of exploded view, and it is made up of first connector 1 (also being known as the imbedding piece support) and second connector 2 (also being known as imbedding piece).For regulating angle of oscillation α (see figure 2), pivoting angle tolerance compensation fitting 3 comprises adjusting device 4.

First connector 1 is configured to microscler slightly piece basically, wherein, is provided with the groove that is used for swinging admittance second connector 2 at the middle part.This receptacle has concave panel 5 and microscler slightly groove 15.For with the 1 antitorque commentaries on classics of first connector be fixed on the swing door, on first connector 1, be configured with two door receptacles 12, wherein, each receptacle 12 is made up of protrusion and groove.

Second connector 2 is configured to be received in swingably in first connector 1.For this reason, second connector 2 has the convex 6 suitable with concave panel 5.In addition, second connector 2 comprises projection 14, and this projection is coupled to its outline in the groove 15 of first connector 1, and the thickness d 1 of wherein said projection 14 is significantly less than clean (lichte) width d2 of described groove 15, thereby forms slit (seeing Fig. 2 and Fig. 3).Between projection 14 and convex 6, second connector 2 comprises closing device/door opener rotating shaft receptacle 13, admits closing device/door opener rotating shaft to be used for antitorque commentaries on classics ground.

Adjusting device 4 comprise regulate bolt 7, lock bolt 8, first screwed hole 9 in the projection 14 of second connector 2, in first connector 1 and on the height of groove 15 perpendicular to second screwed hole 10 of closing device/door opener rotating shaft and the instrument fitting portion 11 that is parallel to second screwed hole 10 and aims at first screwed hole 9.

Like this, the adjusting bolt 7 that is configured to countersunk bolt promptly is arranged in first screwed hole 9 of projection 14 inside, and can be got at by instrument fitting portion 11.Lock bolt 8 is arranged in second screwed hole 10.The definite operating principle of adjusting device 4 will illustrate by means of Fig. 3.

Fig. 2 shows pivoting angle tolerance compensation fitting 3 according to first embodiment state after installing in the mode of vertical view.From figure, can know and see, thereby concave panel 5 and convex 6 are how to be fitted to each other to form sliding bearing.In addition, can see, be how to reserve the gap between the projection 14 of second connector 2 and the groove 15 of first connector 1.This gap is produced by the difference of thickness d 1 with width d2.Because this gap, second connector 2 can be with respect to first connector 1 with angle of oscillation α activity.Therefore, the sliding bearing, closing device/door opener rotating shaft receptacle 13 and the projection 14 that are formed by concave panel 5 and convex 6 are located substantially on the straight line, and described straight line is perpendicular to closing device/door opener rotating shaft and be located immediately under the mounted swing door.

Fig. 3 shows instrument Embedded Division 11 and according to first screwed hole 9 of the pivoting angle tolerance compensation fitting 3 of first embodiment and the sectional view of second screwed hole 10.Just as apparent in sectional view, the adjusting bolt 7 that is embodied as countersunk bolt is arranged in the projection 14 of second connector 2, and can for example get at by instrument Embedded Division 11 with screwdriver.If bolt 7 is regulated in operation, it will press to first connector 1 so, just regulate the angle of oscillation α between first connector 1 and second connector 2 thus.The lock bolt 8 that is embodied as countersunk bolt equally is arranged in second screwed hole 10 of first connector 1 under the instrument receptacle 11, and can twist towards the projection 14 of second connector 2.By correspondingly regulating described adjusting bolt 7 and lock bolt 8, can thus pivoting angle tolerance compensation be fixed with first connector 1 with respect to 2 tensionings of second connector.

Fig. 4 to 5 shows the pivoting angle tolerance compensation fitting 3 according to second embodiment.Identical or member that function is identical in first embodiment and second embodiment all with identical designated.

Fig. 4 shows the 3-D view according to the pivoting angle tolerance compensation fitting 3 of second embodiment.Here appreciable first difference is that opposite with first embodiment, door receptacle 12 does not design protrusion and groove, but door can be installed on first connector 1 by means of two borings.

But an important difference between first and second embodiment is to resemble appreciable ball-and-socket joint 16 in sectional drawing shown in Figure 5.Have spherical parts 16 within the projection 14 of second connector 2, it is made up of the spheroid with the 3rd screwed hole 17.As substituting of the instrument Embedded Division 11 among first embodiment, this second embodiment has first screwed hole 9 within first connector 1, thereby adjusting bolt 7 is screwed in first connector 1 by first screwed hole 9, and is screwed in by the projection 14 of the 3rd screwed hole 17 within the spheroid of ball-and-socket joint 16 with second connector 2.Because in first swing of connector 1 with respect to second connector 2, under the situation that does not have ball-and-socket joint 16, then first screwed hole 9 and the 3rd screwed hole 17 will no longer can be aimed at, so need ball-and-socket joint 16, regulate the operation of bolt 7 held stationaries and are not stuck thereby make.

By this layout with ball-and-socket joint 16 among second embodiment, angle of oscillation α can have no obstacle ground and be able to accurate adjustment along both direction.But, for fixing angle of oscillation α reliably, also need be as disclosed in first embodiment, additional setting lock bolt 8.

Also need point out in addition, different with first embodiment, the door receptacle that has changed 12 in a second embodiment has nothing to do with the use of ball-and-socket joint 16, thus fully can with according to the ball-and-socket joint 16 of second embodiment with according to the composite design of the door receptacle 12 of first embodiment together.

Fig. 6 shows the exploded view according to the pivoting angle tolerance compensation fitting 3 of the 3rd embodiment.Here, parts identical or that function is identical with previous embodiment in identical designated.

In addition, Fig. 6 also shows door-plate 18, the contact chip 19a on pivoting angle tolerance compensation fitting 3 both sides and 19b, bolt 20 and eccentric part 21.

In two initial embodiment, second connector 2 is received in swingably in first connector 1 and realizes by concave panel 5 and convex 6.Here, be set to now in the 3rd embodiment, first connector 1 and second connector 2 are connected together by tying, wherein, described bolt constitutes swinging axle, and can adjust angle of oscillation α thus.In addition, the 3rd embodiment illustrates eccentric part 21, so the thickness that the constant clearance of contact plate 19a and 19b can not rely on door-plate 18 obtains adjusting.

According to its meaning, described eccentric part 21 obviously also can be applied to the embodiment front and subsequently.

Fig. 7 shows the 4th embodiment of pivoting angle tolerance compensation fitting 3.Member identical or that function is identical among the 4th embodiment with previous embodiment in identical designated.

First connector 1 shown in the 4th embodiment is implemented as two-piece type, and it has the first parts 1a and the second parts 1b.In addition, be provided with the gap between the first parts 1a and the second parts 1b, the function of a receptacle 12 is played in this gap.

Similar with the 3rd embodiment, the admitting swingably in first connector 1 of second connector 2 here utilizes bolt 20 to form, and wherein, is configured with the first bolt receptacle 22 to replace convex 6 on second connector 2.In addition, the second parts 1b of first connector 1 has the second bolt receptacle 23, therefore, the bolt 20 that is parallel to closing device/door opener rotating shaft can be pivotably connected first connector 1 and second connector 2 by the first bolt receptacle 22 and the second bolt receptacle 23.

Another special character of the 4th embodiment is that second connector 2 has fork-shaped portion 24 to replace projection 14.Another projection 25 on the second parts 1b of this fork-shaped portion 24 ring embeddings, first connector 1.The screwed hole that exist to connect in this another projection 25 is screwed with respectively from both sides in this screwed hole and regulates bolt 7a, 7b.Because described another projection 25 and adjusting bolt 7a, 7b are encircled embeddings by fork-shaped portion 24, described adjusting bolt 7a, 7b can only operate by instrument Embedded Division 11a, the 11b of the recessed crack form in the fork-shaped portion 24.

Therefore, second connector 2 is regulated bolt 7a, 7b with respect to first connector 1 by means of two and is adjusted, and is fixed by regulating bolt 7a, 7b tensioning angle of oscillation α with two.

Make under the swing Men Zaiyi installment states according to the pivoting angle tolerance compensation fitting 3 of all four embodiment and can be adjusted subtly with respect to the angle of oscillation of the closing device/door opener rotating shaft of for example ground closing device.Guaranteed thus particularly the glass swinging door accurately to be alignd in off position using down with adjacent partition.

Reference numerals list

1 first connector

2 second connectors

3 pivoting angle tolerance compensation fittings

4 adjusting devices

5 concave panels

6 convexs

7,7a, 7b adjusting bolt

8 clamping screws

9 first screwed holes

10 second screwed holes

11,11a, 11b instrument Embedded Division

12 receptacles

13 closing devices/door opener rotating shaft receptacle

14 projections

15 grooves

16 ball-and-socket joints

17 the 3rd screwed holes

18 door-plates

19a, 19b contact chip

20 bolts

21 eccentric parts

22 first bolt receptacles

23 second bolt receptacles

24 fork-shaped portions

25 another projections

The α angle of oscillation

D1 thickness

The d2 span width

Claims (10)

1. pivoting angle tolerance compensation fitting (3) is used for the swing door, and described pivoting angle tolerance compensation fitting comprises:

First connector (1) and second connector (2), wherein, one in two described connectors is configured to antitorque commentaries on classics ground and is connected with closing device/door opener rotating shaft, and another described connector (1) is configured to antitorque commentaries on classics ground and is connected with the swing door, and wherein, described first connector (1) is configured to swingingly to admit described second connector (2);

Adjusting device (4), described adjusting device are used to adjust the angle of oscillation (α) between described first connector (1) and described second connector (2).

2. pivoting angle tolerance compensation fitting according to claim 1, it is characterized in that, described first connector (1) has concave panel (5), and described second connector (2) has convex (6), wherein, described concave panel (5) is formed for swinging the sliding bearing of admitting with described convex (6) jointly.

3. pivoting angle tolerance compensation fitting according to claim 1, it is characterized in that, described first connector (1) can swingingly be connected by bolt (20) with described second connector (2), and wherein said bolt (20) is arranged in the mode that is parallel to described closing device/door opener rotating shaft.

4. according to the described pivoting angle tolerance compensation fitting of one of aforementioned claim, it is characterized in that, described adjusting device (4) comprises that at least one is used to adjust the adjusting bolt (7) of described angle of oscillation (α), wherein, described adjusting bolt (7) is to arrange perpendicular to the mode of described closing device/door opener rotating shaft.

5. pivoting angle tolerance compensation fitting according to claim 4 is characterized in that, described first connector (1) and/or described second connector (2) comprise the ball-and-socket joint (16) that is used to admit described adjusting bolt (7).

6. according to the described pivoting angle tolerance compensation fitting in one of claim 4 or 5, it is characterized in that described adjusting device (4) comprises two adjusting bolts (7a, 7b) that are used to adjust described angle of oscillation (α).

7. according to the described pivoting angle tolerance compensation fitting of one of aforementioned claim, it is characterized in that described adjusting device (4) comprises positioner, lock bolt (8) especially is so that the described angle of oscillation of fixedly adjusting (α).

8. according to the described pivoting angle tolerance compensation fitting of one of aforementioned claim, it is characterized in that, described closing device/door opener rotating shaft be arranged in described adjusting device (4) and the swinging axle of the receptacle that can swing between.

9. according to the described pivoting angle tolerance compensation fitting of one of aforementioned claim, it is characterized in that, described pivoting angle tolerance compensation fitting (3) comprises off-center adjustment apparatus (21), so that it is suitable with different door-plate thickness to be used in the helmet of described pivoting angle tolerance compensation fitting (3).

10. according to the described pivoting angle tolerance compensation fitting of one of aforementioned claim, it is characterized in that described pivoting angle tolerance compensation fitting (3) is configured to swinging glass door and the ground closing device uses.

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