CN109072647A - mounting assembly - Google Patents

Abstract

The mounting assembly (10) that the present invention relates to a kind of for sliding door, sliding window or the like, the mounting assembly (10) have the guide rail (12) for being configured to be fixed on the elongation in fixation wall and the osculating element (16) being guided in the guide rail (12).Two guide surfaces (26,28) being aligned relative to one another are arranged on the guide rail (12), and the osculating element (16) includes two contact elements (22,24) being aligned relative to one another.One (22) in the contact element are configured to the contact being guided on a guide surface (26) wherein, another described contact element (24) is configured to the contact being guided on another guide surface (28), with the guidance osculating element (16) in the guide rail (12).Further, it is provided with pre-tensioning device (30), such as in the form of spring, pass through the pre-tensioning device (30), the contact element (22,24), can be towards the respective contact element (22 respectively on the direction longitudinally extended transverse to the guide rail (12), 24) the relevant guide surface (26,28) of institute is pre-tensioned.

Description

Mounting assembly

Technical field

The present invention relates to the mounting assemblies for sliding door, sliding window or homologue." homologue " is interpreted as being used for Close or cover all elements of the opening (such as hole) of building or means of transport.

Background technique

The known mounting assembly for sliding door usually have guide rail and by the rail guidance fixed-wing unit (usually For the form of slide mass), which is configured to be fixed in a fixation wall for top.It must match with guide rail This fixed-wing unit of manufacture in the very narrow margin of tolerance, to guarantee the gapless on guide rail, guide fixed-wing list in high quality Member.

Summary of the invention

From the known prior art, the object of the present invention is to provide a kind of mounting assemblies, it is in manufacture and guidance phase Bigger tolerance is allowed for when the component of pass, but wherein, the quality of guidance will not due to biggish tolerance and by negative It influences.

Purpose mounting assembly realization according to claim 1, and especially by following mode: it is set on guide rail Two guide surfaces being aligned relative to one another are set, and osculating element includes two contact elements being aligned relative to one another； One of contact element is configured to the contact being guided in a wherein guide surface, and another contact element quilt It is configured to the contact being guided in another guide surface, to guide these osculating elements in guide rail；Also, it is provided with pre- Tensioning apparatus, by the pre-tensioning device, contact element, can direction respectively on the direction longitudinally extended transverse to guide rail Respectively the relevant guide surface of contact element institute is pre-tensioned.Therefore, under assembled state, one of contact element is pressed against In the first guide surface, and another contact element is pressed against in the second guide surface.

As a result, contact element and guide surface against each other so that two contact elements and respective guide surface it Between there are lasting guidance contacts.For example, it is possible thereby to compensating the manufacturing tolerance of the spacing of guide surface by the pre-tensioning device Or the spacing of guide surface due to abrasion caused by change.Friction although tolerance is bigger, between contact element and guide rail Power is held essentially constant, and guiding effect is still high quality.

Advantageous embodiment is given in dependent claims, the description and the appended drawings.

According to an advantageous embodiment, pre-tensioning device is disposed on osculating element.However, pre-tensioning device can also To be disposed on guide rail, and for example the component with guide surface is pressed against on the contact members.In this case, it is not required to Two mutual moveable contact elements are set, but contact element are constructed integral or being securely connected to one another. Pre-tensioning device can also partly be disposed on osculating element and partly be disposed on guide rail.

Preferably, pre-tensioning device can be disposed between contact element.If contact element is disposed in inside simultaneously And guide surface is disposed in outside, then contact element can be pressed against by being disposed in the pre-tensioning device between contact element In guide surface.According to this embodiment, pre-tensioning device can be configured to particularly simple mode, and including such as pressure Spring.

Osculating element may include guiding piece, and by the guiding piece, at least one of two contact elements can be in cross It is guided on the direction in the main moving direction of osculating element.In this case, main moving direction is referred in the direction On, osculating element and the wing being connected under assembled state with contact order member can move together, to complete the opening of the wing And closing.

According to one embodiment, one in lucky two contact elements can be on the direction transverse to main moving direction It translationally moves, and another in two contact elements cannot be moved translationally, that is, be fixedly placed on osculating element On.In other words, second contact element can be fastened on osculating element in this way, it may be assumed that so that the contact element Opposite translational motion cannot be executed relative to remaining osculating element.This facilitates the manufacture and assembling of mounting assembly.

The guiding piece at least one contact element on osculating element can be structured as Linear guide.This meaning , the translational motion guided is along linear running.Guiding piece may be constructed such that the guide recess in such as osculating element Form.Guiding piece can also be by pre-tensioning device (such as by with compressive resilience but also with spring element of flexural rigidity) It constitutes.

According to preferred embodiment, in the assembled state, the guide surface being aligned relative to one another is substantially by vertically (i.e. flat Row is in wing plane) arrangement.However, especially for the simple sliding element of not elevating function, these guide surfaces can also be by cloth Be set to mutually have different from zero degree angle, and thus rather than each of be vertically arranged.It is also contemplated that These guide surfaces are arranged to parallel to each other, but are not parallel to wing plane.

The contact element that can be moved on the direction transverse to the main moving direction of osculating element of osculating element is especially Can be arranged with being guided in a direction such, it may be assumed that the direction perpendicular to osculating element main moving direction and/or perpendicular to Guide surface.If contact element is vertically pressed in guide surface, entire power can be used in guide surface and osculating element Between establish contact.

In order to reduce friction of the contact element in guide surface, at least one of contact element, preferably each contact Element can be rotationally coupled to osculating element.Therefore, the friction between contact element and guide surface can be reduced to roll Dynamic friction.

At least one of contact element can be rotatably disposed around rotation axis with osculating element, the contact list Member is arranged to be parallel at least one guide surface.Contact element can have contact surface, which can connect with guide surface Touching, and it is configured to the periphery of cylindrical body.

In particular, all contact elements of osculating element can be revolved around respective rotation axis and osculating element Turn ground setting, which is arranged to be parallel to guide surface.Each contact element can have contact surface, which can With with respective guidance face contact, and be configured to the periphery of cylindrical body.

In general, at least one of contact element can have the contact surface being bent outwardly.If contact element by it is non-can Rotatably it is arranged, then at least can reduce sliding friction.If contact element is rotatably disposed, the contact that is bent outwardly Face can preferably have constant radius.

The feature of at least one described contact element can also be realized on all or multiple contact elements.

According to a specific embodiment, at least one of contact element may be constructed such that roller.Roller at least with The mode of section has constant diameter, and rod is rotationally disposed center, and has outer circumference surface, the outer circumference surface Correspond to contact surface in the current situation.

Pre-tensioner in order to generate in a simple manner, pre-tensioning device may include spring element.For example, spring element can wrap Include following elements: one or more helical springs, leaf spring, torsionspring, elastomeric spring, air spring etc..According to one at This especially low technical solution, pre-tensioning device may include helical compression spring.As the alternative solution of above-mentioned spring element, in advance Tensioning apparatus may include such as wedge piece, which is pressed between contact element by gravity.

Spring element can directly or indirectly couple with the axis of the contact element of translatable movement.In addition, spring element Part can directly or indirectly couple with the axis of the contact element of translation fixation.Thus, it is possible in a simple manner at two It is generated between contact element pre-tensioner.

It may be constructed such that compression spring according to cost effective and reliable embodiment, spring element, the compression spring quilt It is arranged between contact element, and contact element is pressed up against in guide surface.By the embodiment, structure space can be with It is held very compact.

Preferably, mounting assembly is a part of lifting moving unit.Lifting moving unit (such as lifting carriage door or liter Drop sliding window) it can adjust from position is reduced to raised position and return.Wherein, in raised position, lifting moving unit can be It is moved on main moving direction.In contrast, position is being reduced, lifting moving unit can be immovable.

In order to mounting assembly can also be used for lifting moving element, gap can be formed in guide rail, in the gap, Osculating element can be moved into raised position from position (i.e. upwards) is reduced transverse to main moving direction along guide surface.It is preferred that Ground, guide surface are configured to be flat along stroke length to be done and parallel to each other, with the support when door leaf increases Contact element take advantage of a situation sliding and without inclination.

In order to ensure that osculating element relative to the self-centering of guide surface, can construct on osculating element when door leaf reduces Two axisymmetric inclined surface, the inclined surface contact in the reduction position of osculating element with the support unit of guide rail.Work as contact Unit from a moveable state be reduced to one they it is close to each other and no longer moveable state when, the osculating element It will be centered from there through inclined surface, and constitute the face between osculating element and support unit on each inclined surface Contact.

Preferably, support unit or at least its supporting surface are made of sealing material, so that osculating element is reducing The inner space of guide rail is closed and sealed when position.

In order to can be easily by osculating element and the door leaf being connected with osculating element when infield is installed It imports in guide rail, guide rail may include dismountable installation edge, which prolongs along the main moving direction of osculating element It stretches, and there is the scope of freedom under disassembly status, for installing osculating element transverse to main moving direction.The installation edge It may include a part of support unit, wherein preferably, installing edge and support unit being two independent portions being connected to each other Part.

Detailed description of the invention

The present invention is described according to purely illustrative embodiment below with reference to the accompanying drawings.In figure:

Fig. 1 shows the cross-sectional view of the mounting assembly according to the present invention in assembled state.

Fig. 2 shows the top views of the osculating element of the mounting assembly in Fig. 1.

Specific embodiment

Fig. 1 shows the mounting assembly 10 of sliding door, which has guide rail 12 and be arranged in the removable wing 14 On osculating element 16, which is connected to the frame 40 of the removable wing 14.Further there is illustrated be arranged as and movable wing 14 parallel fixed-wings 18, the fixed-wing 18 have frame 20.The removable wing 14 passes through traditional lifting not further illustrated Mechanism can be displaced to raised position from position (Fig. 1) is reduced, and move on main moving direction 36 in raised position.

The tool of osculating element 16 of the removable wing 14 there are two roller shape contact element 22,24, wherein first contact element 22 with 26 force-fitting of the first guide surface of guide rail 12 connects, and 28 force-fitting of the second guide surface of second contact element 24 and guide rail 12 connects It connects.This is realized by being configured to the pre-tensioning device 30 of pre-tensioner compression spring, and the pre-tensioning device is by contact element 22,24 Pressing is in respective guide surface 26,28.Contact element 22,24 is rotatably mounted around rotation axis 32,34 respectively, so that When moveable door leaf 14 is moved on main moving direction 36 with osculating element 16 together, contact element 22,24 is being guided It is rolled on face 26,28 and along guide surface 26,28.

Two contact elements 22,24 are all connected to the induction element 38 of osculating element 16.Wherein, 22 quilt of first contact element Translation is fixed, and only (that is rotatably) is connected to induction element to (as already mentioned) rotatable movement 38.Second contact element 24 extends translation along the longitudinal of induction element 38, and this is to say, it is installed in perpendicular to main movement Between the guide surface 26 and 28 in direction 36, and rotatably move.If between the first guide surface 26 and the second guide surface 28 Distance change (such as due to dimensional tolerance or abrasion) along the length of guide rail, then pre-tensioning device 30 will compensation should be away from Deviation is different.Contact element 22,24 always rests in guide surface 26,28 as a result,.

Osculating element 16 further includes frame 40, which encloses triplex glass aerofoil 42 in the example shown, and And front side U-shaped around all sides.There are two inclined surface 44,46 for the tool of frame 40, so that the width of frame 40 is in court Continuously reduce on the direction of glass aerofoil 42.When the removable wing 14 reduce when, by by inclined surface 44,46 with include two The support unit 72 of a sealing element 48,50 is in contact, and the wing 14 is centered by inclined surface 44,46 relative to guide surface 26,28. In the reduction position of the removable wing 14 (Fig. 1), inclined surface 44,46 contacts with sealing element 48,50 plane earths, thus seals and lead The inner space of rail 12.

Guide rail 12 is configured to the special-shaped shape and symmetrical relative to its longitudinal axis of elongation, and includes the firstth area Domain 49 is recessed in wall 51；It is prominent from wall 51 with the second relatively narrow region 53.Along main moving direction 36, removable peace Rim edge 52,54 is disposed in the inner side and outer side of guide rail 12, by means of the installation edge 52,54, so that fixed 18 He of door leaf The installation of removable door leaf 14 is simpler.Installation edge 52,54 is closed with flushing with the outer web 55,57 of guide rail 12, wherein In the plane for the bottom that contact surface between outer web 55,57 and installation edge 52,54 is located at wall 51.Therefore, install edge 52, 54 height corresponds to the height in the relatively narrow region 53 of guide rail 12.

Each door leaf 14,18 is respectively arranged with interior sealing element 48,48 ' and outer sealing element 50,50'.All sealing members Part 48,48', 50,50' respectively have the angular sealing surface for the inclined surface 44,46 for being matched with frame 40,20, and close with this It is fixed in groove 63,65 on the opposite side of cover by means of the holding part 60,62 of elasticity, the groove 63,65 forming In on installation edge 52,54, and the two sides on central web 64 are formed in.

Frame 40,20 and sealing element 48,48', 50,50' are configured to Structure is identical, so that saving cost due to using identical component.

It by the axially symmetric structure of guide rail 12, can also freely select, it should which the removable wing 14 is arranged in outside also It is inside, i.e. right side or left side in Fig. 1.

Guide rail 12 defines free space 66 inside it.The free space 66 is in guide rail 12 and in the contact of decline The top of unit 16, it is selected so consciously, i.e., so that another part in induction element 38 or osculating element 16 does not have Have in the case where being touched with guide rail 12, the removable wing 14 can be increased.Guide surface 26,28 be aligned in parallel with each other and Make following selection in height, i.e., when the removable wing 14 increases, contact element 22,24 can slide up along guide surface 26,28 It is dynamic, and when the removable wing 14 reduces, contact element 22,24 can slide still further below along guide surface 26,28.Increasing position It sets, frame 40 is not contacted with sealing element 48,50, and the entire wing 14 can be moved easily along main moving direction 36 very much It is dynamic.

Fig. 2 shows the detailed view of osculating element 16 in top view.It can be identified from figure, be configured to roller Contact element 22,24 from the side of induction element 38 and frame 40 stretch out so that only contact element 22,24 they The guide surface 26,28 of (Fig. 1) on guide rail 12 contacts periphery 68,70 (i.e. their contact surface) with construction.By compression or The spacing of rotation axis 32,34 of contact element 22,24 can changeably be adjusted by loosening pre-tensioning device 30, wherein rotary shaft The spacing of line 32,34 is automatically matched with the spacing of guide surface 26,28 (Fig. 1).For this purpose, pre-tensioning device 30 directly or Ground connection connect with two rotation axis 32,34, and the pressing force of pre-tensioning device 30 is transmitted on contact element 22,24.

Multiple similar osculating elements 16 can be arranged along main moving direction 36, restrictively to guide in guide rail 12 The removable wing 14.

Reference signs list

10 mounting assemblies

12 guide rails

The 14 removable wings

16 osculating elements

18 fixed-wings

20 frames

22,24 contact elements

26,28 guide surfaces

30 pre-tensioning devices

32,34 rotation axis

36 main moving directions

38 induction elements

40 frames

42 aerofoils

44,46 inclined surface

48,50 sealing elements

49,53 regions

51 walls

52,54 installation edges

55,57 outer webs

60,62 holding parts

63,65 grooves

64 central webs

66 free spaces

68,70 peripheries

72 support units

Claims (12)

1. a kind of mounting assembly (10) is used for sliding door, sliding window or the like, comprising:

The guide rail (12) of elongation, the guide rail (12) are configured to be fixed on fixation wall (51), and

Osculating element (16), the osculating element (16) are guided on guide rail (12),

Wherein, two guide surfaces (26,28) being aligned relative to one another are arranged on the guide rail (12), and the contact Unit (16) includes two contact elements being aligned relative to one another (22,24),

Wherein, what one (22) in the contact element were configured to be guided on a guide surface (26) wherein connects Contact element, another described contact element (24) are configured to the contact being guided on another guide surface (28), with The guidance osculating element (16) in the guide rail (12),

And pre-tensioning device (30) wherein, are provided with, by the pre-tensioning device (30), the contact element (22,24) It, can be towards respective contact element (22, the 24) institute respectively on the direction longitudinally extended transverse to the guide rail (12) The relevant guide surface (26,28) is pre-tensioned.

2. mounting assembly according to claim 1, which is characterized in that the pre-tensioning device (30) is disposed in described connect It touches on unit (16), in particular, is disposed between the contact element (22,24).

3. mounting assembly according to claim 1 or 2, which is characterized in that the osculating element (16) includes guiding piece (38), it by least one of the guiding piece (38), two contact elements (22,24), is especially connect described in two Touch element in what a proper (24), can on the direction transverse to the main moving direction (36) of the osculating element (16) quilt Guidance.

4. mounting assembly according to claim 3, which is characterized in that in two contact elements (22,24) at least What a proper (24) in the contact element of one, especially two, are arranged to, be guided it is single perpendicular to the contact Member the main moving direction (36) and perpendicular to the guide surface (26,28).

5. the mounting assembly according at least one of preceding claims, which is characterized in that one in the contact element A (22) are fixedly placed on the osculating element (16).

6. the mounting assembly according at least one of preceding claims, which is characterized in that the contact element (22,24) At least one, the especially described contact element (22,24) each, by rotatably with the osculating element (16) join It connects.

7. the mounting assembly according at least one of preceding claims, which is characterized in that the contact element (22,24) At least one, especially all contact elements (22,24) have the contact surface (68,70) that is bent outwardly.

8. the mounting assembly according at least one of preceding claims, which is characterized in that the contact element (22,24) At least one, especially all contact elements (22,24) are configured to roller.

9. the mounting assembly according at least one of preceding claims, which is characterized in that the pre-tensioning device (30) Including spring element.

10. mounting assembly according to claim 9, which is characterized in that the spring element is configured to compression spring simultaneously And it is disposed between the contact element (22,24).

11. the mounting assembly according at least one of preceding claims, which is characterized in that the shape in the guide rail (12) At free space (66), in the free space (66), the osculating element (16) is lateral along the guide surface (26,28) It is moveable in the main moving direction (36) of the osculating element (16).

12. the mounting assembly according at least one of preceding claims, which is characterized in that in the osculating element (16) On be configured with inclined surface (44,46), the inclined surface (44,46) is led in the reduction position of the osculating element (16) with described The support unit (72) of rail (12) contacts, it is preferable that and it is in sealing contact with the support unit (72) of the guide rail (12), in particular, The support unit (72) has sealing element (48,50).