CN204627325U - Sliding door group - Google Patents

Abstract

The utility model discloses a kind of sliding door group, comprises framework, lower framework, vertical framework, the first sliding door, the second sliding door and linkage.Upper framework to have on first rail groove on rail groove and second.Lower framework has first time rail groove and second time rail groove.Vertical framework is connected upper framework and lower framework.First sliding door has rolling member on first.On first, rolling member is located at rail groove on first rotationally.Second sliding door has rolling member on second.On second, rolling member is located at rail groove on second rotationally.Linkage comprises 2 first interlock plates and one second interlock plate.The first sliding door is located at by 2 first interlock plates.One end of second interlock plate is located at the second sliding door.The other end makes the first sliding door can fold or launch by relative second sliding door slidably between 2 first interlock plates.Sliding door group of the present utility model can promote the ease of use of slide.

Description

Sliding door group

Technical field

The utility model relates to a kind of sliding door group, particularly a kind of can the sliding door group of interlock.

Background technology

Widely, its principle mainly operated is at the top of door-plate in conjunction with assembly pulley, and is combined with the track of corresponding assembly pulley in doorframe upper limb and lower edge in the utilization of slide (sliding door, cross sliding door).By this, door-plate is allowed to be able to sliding transfer.When slide cuts out, spatially there is inside and outside dividing and have the effect separating space.When slide is opened, can remove space region every effect and amplify spatial impression.

But whether in the design of slide except need considering the smooth degree of slip, also needing to consider each slide can contraposition accurately.For example, if can accurately contraposition between these slides, user then can fast and open or close to location by slide accurately, to promote the ease of use of slide.Therefore, how to promote the contraposition precision of slide, to promote the ease of use of slide, then one of problem that should solve for research staff.

Utility model content

The utility model is about a kind of sliding door group, uses the contraposition precision promoting slide, and promotes the ease of use of slide.

Sliding door group disclosed by the utility model, comprises framework on, once framework, two vertical frameworks, at least one first sliding door, at least one second sliding door and at least one linkage.Upper framework to have on one first rail groove on rail groove and one second.Lower framework has one first time rail groove and one second time rail groove.Two vertical frameworks are connected upper framework and lower framework, and two vertical frameworks toward each other.First sliding door has rolling member at least one first.On first, rolling member is connected to rail groove on first rotationally, relatively can go up framework slide to make the first sliding door.Second sliding door has rolling member at least one second.On second, rolling member is connected to rail groove on second rotationally, relatively can go up framework slide to make the second sliding door.Linkage comprises 2 first interlock plates and one second interlock plate.The first sliding door is located in 2 first interlock plate compartment of terrains.One end of second interlock plate is located at one second sliding door.The other end of the second interlock plate is slidably between 2 first interlock plates.Wherein, when the second interlock plate of linkage is resisted against one of 2 first interlock plates, the first sliding door is relative with the second sliding door to be folded.When the second interlock plate of linkage is resisted against another of 2 first interlock plates, the first sliding door is relative with the second sliding door to be opened.

Above-mentioned sliding door group, wherein, the downside of this first sliding door has at least one first time rolling member, and this first time rolling member group can be connected on this first time rail groove rotationally.

Above-mentioned sliding door group, wherein, the downside of this second sliding door has at least one second time rolling member, and this second time rolling member rollably group can be connected on this second time rail groove.

Above-mentioned sliding door group, wherein, this on first rolling member be positioned at the upside of this first sliding door, and this on first rolling member be a hanging wheel component.

Above-mentioned sliding door group, wherein, this on second rolling member be positioned at the upside of this second sliding door, and this on second rolling member be a hanging wheel component.

Sliding door group disclosed by the utility model, comprises framework on, once framework, two vertical frameworks, at least one first sliding door, at least one second sliding door and at least one linkage.Upper framework includes rail part on, and upper rail part has rail groove on one first.Two vertical frameworks are connected upper framework and lower framework, and two vertical frameworks toward each other.The upside of the first sliding door has rolling member at least one first.On first, rolling member is connected to rail groove rotationally, relatively can go up framework slide to make the first sliding door.Second sliding door is positioned at by the first sliding door.Linkage comprises one first rail part, one first rolling assembly, is connected rail part, one second rolling assembly and one second rail part.First rail part is incorporated into the first sliding door through this first rolling assembly.Second rail part is incorporated into the second sliding door through this second rolling assembly.Be connected rail part and be connected the first rail part and the second rail part slidably, to make the first sliding door and the second sliding door relative superposition or relatively to launch.

Above-mentioned sliding door group, wherein, this lower framework has more one first time rail groove, and the downside of this first sliding door has at least one first time rolling member, and these 2 first times rolling members can be connected to this first time rail groove slidably.

Above-mentioned sliding door group, wherein, this lower framework has more 2 second times rail grooves, this first time rail slot is between these 2 second times rail grooves, the quantity of this at least one second sliding door is two, the downside of each this second sliding door has at least one second time rolling member, and these 2 second times rolling members can be connected to this 2 second times rail grooves slidably.

Above-mentioned sliding door group, wherein, this of the upside of this first sliding door on first rolling member be a hanging wheel component.

Above-mentioned sliding door group, wherein, on this, framework more comprises this covering, this covering group be located at this on first rail part form one and cover groove, this linkage is positioned at this and covers groove.

Sliding door group disclosed by above-described embodiment, be connected through linkages such as interlock plate or sliding components between each sliding door, the first sliding door can be launched and almost seamlessly be connected the first sliding door and the second sliding door relatively rapidly with the second sliding door.That is, through linkage, user can by sliding door group fast and be positioned to closure state accurately.Otherwise through linkage, user also can by sliding door group fast and be positioned to open mode accurately.Thus, the ease of use of slide can be promoted.

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail, but not as to restriction of the present utility model.

Accompanying drawing explanation

Fig. 1 is the front-view schematic diagram of the sliding door group according to the utility model first embodiment.

Fig. 2 is the partial exploded view of Fig. 1.

Fig. 3 is the upper schematic diagram of Fig. 2.

Fig. 4 is the schematic side view of Fig. 1.

Fig. 5 and Fig. 6 is the illustrative view of the sliding door group of Fig. 1.

Fig. 7 is the front-view schematic diagram of the sliding door group according to the utility model second embodiment.

Fig. 8 is the partial exploded view of Fig. 7.

Fig. 9 is the partial exploded view of Fig. 7.

Figure 10 is the decomposing schematic representation of the linkage of Fig. 9.

Figure 11 is the schematic side view of Fig. 7.

Figure 12 is the upper schematic diagram of the local element of Fig. 8.

Figure 13 and Figure 14 is the illustrative view of the sliding door group of Fig. 7.

Wherein, Reference numeral

1,2 sliding door groups

10,30 first sliding doors

Rolling member on 11 first

14 first times rolling members

Rolling member on 35 first

31 first times rolling members

20,40 second sliding doors

Rolling member on 21 second

24 second times rolling members

41 second times rolling members

25 linkages

12 first interlock plates

23 second interlock plates

30a first assembly

40a second assembly

45 linkages

452 first rail parts

456 are connected rail part

458 second rail parts

Framework on 100

Rail groove on 110a first

Rail groove on 110b second

130 vertical frameworks

200 times frameworks

210a first time rail groove

210b second time rail groove

Framework on 300

Rail part on 320 first

Rail groove on 320a first

325 coverings

325a covers groove

330 vertical frameworks

400 times frameworks

310b first time rail groove

410b second time rail groove

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, technical solutions of the utility model are described in detail, further to understand the purpose of this utility model, scheme and effect, but not as the restriction of the utility model claims protection domain.

Refer to Fig. 1 to Fig. 4.Fig. 1 is the front-view schematic diagram of the sliding door group according to the utility model first embodiment.Fig. 2 is the partial exploded view of Fig. 1.Fig. 3 is the upper schematic diagram of Fig. 2.Fig. 4 is the schematic side view of Fig. 1.

The sliding door group of the present embodiment is for three slides, but not as limit, and in other embodiments, sliding door group also can be more than two panels slide or four slides.

The sliding door group 1 of the present embodiment comprises framework 100 on, once framework 200, two vertical framework 130,2 first sliding door 10,1 second sliding door 20 and two linkages 25.

Upper framework 100 to have on 2 first rail groove 110b on rail groove 110a and one second.On second, rail groove 110b is on 2 first between rail groove 110a.

Lower framework 200 has 2 first times rail groove 210a and one second time rail groove 210b.Second time rail groove 210b is between 2 first times rail groove 210a.

Two vertical frameworks 130 are connected upper framework 100 and lower framework 200, and two vertical frameworks 130 toward each other.Upper framework 100, lower framework 200 and two vertical frameworks 130 form a framework jointly.

Opposite end on the upside of each first sliding door 10 respectively has rolling member 11 on one first.On 2 first, rolling member 11 is such as roller component, and be connected to rotationally framework 100 first on rail groove 110a.In addition, the opposite end on the downside of each first sliding door 10 respectively has one first time rolling member 14 (as roller), and 2 first times rolling members 14 rotationally group be connected on first time rail groove 210a of lower framework 200.By this, 2 first sliding doors 10 are made slidably between upper framework 100 and lower framework 200.

Two (left and right) end of the upside of each the second sliding door 20 has rolling member 21 at least one second.On second, rolling member 21 is such as roller component, and be connected to rotationally framework 100 second on rail groove 110b.In addition, the opposite end of the downside of the second sliding door 20 respectively has one second time rolling member 24 (as roller), and 2 second times rolling members 24 rollably group be connected on lower framework 200 second times rail groove 210b.By this, 2 second sliding doors 20 are made slidably between upper framework 100 and lower framework 200.

It should be noted that, in the present embodiment, on first on rolling member 11, first time rolling member 14, second quantity of rolling member 21 and second time rolling member 24 respectively for multiple, but not as limit, in other embodiments, on rolling member 11, first time rolling member 14, second, the quantity of rolling member 21 and second time rolling member 24 can also be one on first.

In addition, the width of second sliding door 20 of the present embodiment is same as the width of the first sliding door 10, seem comparatively neat to make the outward appearance of sliding door group, but not as limit, in other embodiments, the width of the second sliding door 20 also can differ from the width of the first sliding door 10, seems comparatively tool design sense to make the outward appearance of sliding door group 1.

Each linkage 25 comprises 2 first interlock plate 12 and one second interlock plates 23.The upside of the first sliding door 10 is located in 2 first interlock plate 12 compartment of terrains.Specifically, 2 first interlock plates 12 protrude from the upper limb of the second interlock plate 23, and 2 first interlock plates 12 lay respectively at the opposite end on the upside of the first sliding door 10.One end of second interlock plate 23 is located at the upside of one second sliding door 20.The other end of the second interlock plate 23 protrudes the lateral margin of the second sliding door 20, and can relative first sliding door 10 slidably between 2 first interlock plates 12.

It should be noted that the linkage 25 of the present embodiment is connected the first sliding door 10 and the second sliding door 20, but not as limit, in other embodiments, linkage 25 also can be connected 2 first sliding doors 10 or be connected 2 second sliding doors 20.

Refer to Fig. 5 and Fig. 6.Fig. 5 and Fig. 6 is the illustrative view of the sliding door group of Fig. 1.

First sliding door 10 and second sliding door 20 of sliding door group 1 relatively can be gone up framework 100, lower framework 200 and vertical framework 130 and slide and have an open mode (as shown in Figure 5) and a closure state (as shown in Figure 6).

Specifically, as shown in Figure 5, when sliding door group 1 is in open mode, one second interlock plate 23 of each linkage 25 is resisted against one first interlock plate 12 wherein (in the present embodiment, a first interlock plate 12 being positioned at the left side of one first sliding door 10, another is the first interlock plate 12 on the right side being positioned at another the first sliding door 10), the overlapping region of the first sliding door 10 and the second sliding door 20 is maximized, that is, the first sliding door 10 manifests part doorway with the second relative folding of sliding door 20.

As shown in Figure 6, when sliding door group 1 is in closure state, one second interlock plate 23 of each linkage 25 is resisted against 2 first interlock plates 12, one first interlock plate 12 wherein (in the present embodiment, one for being positioned at the first interlock plate 12 in the left side of the first sliding door 10, another is the first interlock plate 12 on the right side being positioned at the first sliding door 10), make the first sliding door 10 with relative expansion of the second sliding door 20 and closing openings.

Further, sliding door group 1 moves in the process of closure state (as shown in Figure 6) from open mode (as shown in Figure 5), and the overlapping region of the first sliding door 10 and the second sliding door 20 can reduce gradually.Then, when the first sliding door 10 and the second sliding door 20 overlap hardly, the second interlock plate 23 on the second sliding door 20 can be resisted against the first interlock plate 12 of the first sliding door 10 and make the first sliding door 10 interlock second sliding door 20.Thus, the first sliding door 10 can launch and almost seamlessly be connected, with closed doorway relatively rapidly with the second sliding door 20.That is, through linkage 25, user can by fast for sliding door group 1 fast and be positioned to closure state accurately.Otherwise through linkage 25, user also can by sliding door group 1 fast and be positioned to open mode accurately.

It should be noted that, in the present embodiment, on 2 first, on rolling member 11 and one second, rolling member 21 is all roller component, but not as limit, on in other embodiments 2 first, on rolling member 11 and one second, rolling member 21 all can be hanging wheel component, and be connected to rotationally framework 100 2 first on rail groove 110b on rail groove 110a and one second.In addition, if rolling member 11 is hanging wheel component on 2 first, the opposite end on the downside of each first sliding door 10 respectively can have one first time rolling member 14, and 2 first times rolling members 14 rotationally group be connected on first time rail groove 210a of lower framework 200.Certainly, if rolling member 11 is hanging wheel component on 2 first, opposite end on the downside of each first sliding door 10 also can not need first time rolling member 14, can arrange at least one correcting component on floor, makes the downside of the first sliding door 10 be installed with in the groove of correcting component movable.By this, the first sliding door 10 is made slidably between upper framework 100 and lower framework 200.

Refer to Fig. 7 to Figure 10.Fig. 7 is the front-view schematic diagram of the sliding door group according to the utility model second embodiment.Fig. 8 is the partial exploded view of Fig. 7.Fig. 9 is the partial exploded view of Fig. 7.Figure 10 is the decomposing schematic representation of the linkage of Fig. 9.Figure 11 is the schematic side view of Fig. 7.Figure 12 is the upper schematic diagram of the local element of Fig. 8.

The sliding door group of the present embodiment is for three slides, but not as limit, and in other embodiments, sliding door group also can be more than two panels slide or four slides.

The sliding door group 2 of the present embodiment comprises framework 300 on, once framework 400, two vertical framework 330,1 first sliding door 30,2 second sliding door 40 and two linkages 45.In addition, sliding door group 2 more comprises 2 first assembly 30a and 2 second assembly 40a.

Upper framework 300 includes rail part 320 and two coverings 325 on one first.On first, rail part 320 has rail groove 320a on one first.Two coverings 325 respectively group be located at rail part 320 on first relative both sides and with first on rail groove 320a form one and cover groove 325a.

Lower framework 400 has one first time rail groove 310b and 2 second time rail groove 410b.First time rail groove 310b is between 2 second times rail groove 410b.

Two vertical frameworks 330 are connected upper framework 300 and lower framework 400, and two vertical frameworks 330 toward each other.Upper framework 300, lower framework 400 and two vertical frameworks 330 form a framework jointly.

Opposite end on the upside of each first sliding door 30 respectively has rolling member 35 on one first.On 2 first, rolling member 35 is such as roller component, and be connected to rotationally framework 300 first on rail groove 320a.In addition, the opposite end on the downside of each first sliding door 30 respectively has one first time rolling member 31, and 2 first times rolling members 31 rotationally group be connected on first time rail groove 310b of lower framework 400.By this, the first sliding door 30 is made slidably between upper framework 300 and lower framework 400.

It should be noted that in the present embodiment, on 2 first, rolling member 35 is roller component, but not as limit, in other embodiments 2 first, rolling member 35 can be hanging wheel component, and be connected to rotationally framework 300 first on rail groove 320a.In addition, if rolling member 35 is hanging wheel component on 2 first, the opposite end on the downside of each first sliding door 30 respectively can have one first time rolling member 31, and 2 first times rolling members 31 rotationally group be connected on first time rail groove 310b of lower framework 400.Certainly, if rolling member 35 is hanging wheel component on 2 first, opposite end on the downside of each first sliding door 30 also can not need first time rolling member 31, can arrange at least one correcting component on floor, makes the downside of the first sliding door 30 be installed with in the groove of correcting component movable.By this, the first sliding door 30 is made slidably between upper framework 300 and lower framework 400.

2 second sliding doors 40 lay respectively at the relative both sides of the first sliding door 30.Each second sliding door 40 has 2 second times rolling members 41, and 2 second times rolling members 41 rotationally group be connected on second time rail groove 410b of lower framework 400.By this, 2 second sliding doors 40 are made slidably between upper framework 300 and lower framework 400.

It should be noted that, in the present embodiment, on first, the quantity of rolling member 35, first time rolling member 31 and second time rolling member 41 is respectively for two, but not as limit, in other embodiments, the quantity of rolling member 35, first time rolling member 31 and second time rolling member 41 can also be one on first.

In addition, the width of second sliding door 40 of the present embodiment is same as the width of the first sliding door 30, seem comparatively neat to make the outward appearance of sliding door group, but not as limit, in other embodiments, the width of the second sliding door 40 also can differ from the width of the first sliding door 30, the design sense seeming compared with tool gradually layer to make the outward appearance of sliding door group.

Two linkages 45 are positioned at two and cover groove 325a.Each linkage 45 comprises one first rail part 452,1 first rolling assembly 453, and is connected rail part 456,1 second rolling assembly 457 and one second rail part 458.First rail part 452 is incorporated into the first sliding door 30 through the first rolling assembly 453.Second rail part 458 moves assembly 457 through the second rail and is incorporated into the second sliding door 40.Be connected rail part 456 and be connected the first rail part 452 and the second rail part 458 slidably.Make the first rail part 452 can slide and allow the first sliding door 30 and the second sliding door 40 can relative superposition or relatively to launch by relative second rail part 458 by this.

It should be noted that the linking rail part 456 of the present embodiment is connected rail part 454 by one first and one second linking rail part 455 is back-to-back to form.But not as limit, in other embodiments, the first rail part 452, of linkage 45 is connected rail part 456 and one second rail part 458 can be inside and outside clad type structure or upper and lower clad type structure, and the first rail part 452 is incorporated into the first sliding door 30.Second rail part 458 is incorporated into the second sliding door 40.

It should be noted that the linkage 25 of the present embodiment is connected the first sliding door 10 and the second sliding door 20, but not as limit, in other embodiments, linkage 25 also can be connected 2 first sliding door 10 or 2 second sliding doors 20.

In addition, in the present embodiment, the first rail part 450 of linkage 45 and the second rail part 452 are all and are erectly located at above the first sliding door 30 and the second sliding door 40.But not as limit, in other embodiments, the first rail part 452 and the second rail part 458 also can for be flatly located at above the first sliding door 30 and the second sliding door 40.

As shown in Figure 9, in the present embodiment, sliding door group 2 more comprises one first assembly 30a and one second assembly 40a.On first, rolling member 35 is assembled in the first sliding door 30 upper limb, and the first rail part 452 of linkage 45 is assembled in the first assembly 30a, and the first rail part 452 is assembled in the first sliding door 30 through the first assembly 30a.That is, the first assembly 30a is connected the first rail part 452 of the first sliding door 30 and linkage 45.

Second rail part 458 of linkage 45 is installed in the upper limb of the second sliding door 40 through the second assembly 40a.That is, the second assembly 40a is connected the second rail part 458 of the second sliding door 40 and linkage 45.

Refer to Figure 13 and Figure 14.Figure 13 and Figure 14 is the illustrative view of the sliding door group of Fig. 7.

First sliding door 30 and second sliding door 40 of sliding door group 2 relatively can be gone up framework 300, lower framework 400 and vertical framework 330 and slide and have an open mode (as shown in figure 12) and a closure state (as shown in figure 13).

Specifically, as shown in figure 12, sliding door group 2 is in open mode.Under this state, 2 first rail parts 452 respectively relative 2 second rail part 458 retractions of two linkages 45, make the first sliding door 30 and the second relative folding of sliding door 40 and manifest part doorway.

As shown in figure 13, sliding door group 1 is in closure state.Under this state, 2 first rail parts 452 of two linkages 45 respectively relative 2 second rail parts 458 pull out, and make the first sliding door 10 with relative expansion of the second sliding door 20 and closing openings.

Sliding door group disclosed by above-described embodiment, is connected through linkages such as interlock plate or sliding components between each sliding door, the first sliding door can be launched and almost seamlessly be connected relatively rapidly with the second sliding door, with closed doorway.That is, through linkage, user can by fast for sliding door group fast and be positioned to closure state accurately.Otherwise, through linkage, user also can by fast for sliding door group fast and be positioned to open mode accurately.Thus, the ease of use of slide can be promoted.

Certainly; the utility model also can have other various embodiments; when not deviating from the utility model spirit and essence thereof; those of ordinary skill in the art are when making various corresponding change and distortion according to the utility model, but these change accordingly and are out of shape the protection domain that all should belong to the claim appended by the utility model.

Claims (10)

1. a sliding door group, is characterized in that, comprises:

Framework on one, to have on one first rail groove on rail groove and one second;

Framework once, has one first time rail groove and one second time rail groove;

Two vertical frameworks, are connected framework and this lower framework on this, and this two vertical framework toward each other;

At least one first sliding door, this first sliding door has rolling member at least one first, this on first rolling member can be connected to this rail groove on first rotationally, with make this first sliding door can relatively on this framework slide;

At least one second sliding door, the upside of this second sliding door has rolling member at least one second, this on second rolling member can be connected to this rail groove on second rotationally, with make this second sliding door can relatively on this framework slide; And

At least one linkage, comprise 2 first interlock plates and one second interlock plate, this the first sliding door is located in this 2 first interlock plates compartment of terrain, one end of this second interlock plate is located at this second sliding door, and the other end of this second interlock plate can slidably between this 2 first interlock plate;

Wherein, when this second interlock plate of this linkage is resisted against one of this 2 first interlock plate, the second sliding door is relative folds with this for this first sliding door, when this second interlock plate of this linkage is resisted against another of this 2 first interlock plate, the second sliding door is relative opens with this for this first sliding door.

2. sliding door group as claimed in claim 1, it is characterized in that, the downside of this first sliding door has at least one first time rolling member, and this first time rolling member group can be connected on this first time rail groove rotationally.

3. sliding door group as claimed in claim 2, it is characterized in that, the downside of this second sliding door has at least one second time rolling member, and this second time rolling member rollably group can be connected on this second time rail groove.

4. sliding door group as claimed in claim 1, is characterized in that, this on first rolling member be positioned at the upside of this first sliding door, and this on first rolling member be a hanging wheel component.

5. sliding door group as claimed in claim 4, is characterized in that, this on second rolling member be positioned at the upside of this second sliding door, and this on second rolling member be a hanging wheel component.

6. a sliding door group, is characterized in that, comprises:

Framework on one, includes rail part on, and on this, rail part has rail groove on one first;

Framework once;

Two vertical frameworks, are connected framework and this lower framework on this, and this two vertical framework toward each other;

At least one first sliding door, the upside of this first sliding door has rolling member at least one first, this on first rolling member can be connected to this rail groove on first rotationally, with make this first sliding door can relatively on this framework slide;

At least one second sliding door, is positioned at by this first sliding door; And

At least one linkage, comprise one first rail part, one first rolling assembly, is connected rail part, one second rolling assembly and one second rail part, this the first rail part is incorporated into this first sliding door through this first rolling assembly, this the second rail part is incorporated into this second sliding door through this second rolling assembly, this linking rail part can be connected this first rail part and this second rail part slidably, by this this first sliding door and this second sliding door relative superposition or relatively to launch.

7. sliding door group as claimed in claim 6, it is characterized in that, this lower framework has more one first time rail groove, and the downside of this first sliding door has at least one first time rolling member, and this first time rolling member can be connected to this first time rail groove slidably.

8. sliding door group as claimed in claim 7, it is characterized in that, this lower framework has more 2 second times rail grooves, this first time rail slot is between these 2 second times rail grooves, the quantity of this at least one second sliding door is two, the downside of each this second sliding door has at least one second time rolling member, and these 2 second times rolling members can be connected to this 2 second times rail grooves slidably.

9. sliding door group as claimed in claim 6, is characterized in that, this of the upside of this first sliding door on first rolling member be a hanging wheel component.

10. sliding door group as claimed in claim 6, it is characterized in that, on this, framework more comprises a covering, this covering group be located at this on first rail part form one and cover groove, this linkage is positioned at this and covers groove.