CN218669031U - Integrated micro-slit different-direction linkage door structure - Google Patents

Abstract

The utility model relates to a slit incorgruous linkage door structure of integrated form belongs to linkage door technical field. Including last track, first diaphragm, second diaphragm and link gear, go up inside the track groove that forms of track, go up orbital bottom surface and seted up the spout, track groove and spout intercommunication, the rail wheel is installed respectively to first diaphragm and second diaphragm, rail wheel and track groove cooperation, link gear sets up in the spout and is connected with first diaphragm and second diaphragm, the utility model discloses a set up track groove and spout on last track, set up link gear in the spout, let link gear direct mount reduce the space between last track and the diaphragm in the spout, let the great reduction in space that link gear's overall structure occupied, the space between last track and the diaphragm is more small moreover, and applicable use scene is big more, keeps the gap between the diaphragm narrow, can let whole outward appearance seem atmosphere, clean and tidy, still be difficult to fall the ash.

Description

Integrated micro-slit different-direction linkage door structure

Technical Field

The utility model belongs to the technical field of the linkage door, concretely relates to micro-crack incorgruous linkage door structure of integrated form.

Background

The linked door is generally applied to a partition door of a balcony and a kitchen or a shower door of a bathroom, the overall structure of the existing linked door is too complex, particularly on the linked structure, more parts need to be installed in order to keep synchronous linkage, so that the production cost is high, the overall space occupied by the linked structure is large, the width of the whole door is too wide, the existing linked door is in meshing transmission of gears and racks, the space occupied by the overall structure is large in the linked mode, the gears are main driving force, a starter motor needs to bear large torque or needs to utilize a speed change structure, the cost is increased, the assembly is not facilitated, the overall size is large, and thin walls are enabled to be perfect and cannot be installed.

For example, publication nos.: CN110778247A, a linkage door structure, including linkage piece, upper track and diaphragm, the lateral wall of linkage piece is equipped with the grooved pulley and is provided with the belt, the cover has the linkage setting element on the belt, the both ends of belt all are provided with the steel wire chuck. According to the linkage door structure, the two groups of pulleys at the top end of the large movable door move in the track by pulling the handle, the upper pulley is provided with the linkage positioning piece by the middle pulley, the linkage positioning piece drives the belt to be linked, and meanwhile, the belt also drives the linkage piece to move, and because the middle movable glass is arranged on the linkage piece, the large movable glass is pushed and pulled, the middle linkage door is linked to move, and the linkage effect is achieved.

Although the linkage positioning pieces on the two groups of pulleys on the top end of the large movable door are arranged in the linkage door structure, the belt is driven to be linked through the linkage positioning pieces, and meanwhile, the belt also drives the linkage piece to move, so that the large movable glass can be pushed and pulled, the linkage door moves in the middle of linkage, the linkage effect is achieved, the space occupied by the whole structure of the linkage mechanism is large, the linkage mechanism is installed between the upper rail and the movable door, the gap between the upper rail and the movable door is large, and the linkage door is not attractive.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned problem that exists among the prior art, the utility model provides a slit incorgruous linkage door structure of integrated form has solved the great problem in space that current link gear's overall structure occupied.

The purpose of the utility model can be realized by the following technical scheme: the utility model provides a slit incorgruous linkage door structure of integrated form, includes track, first diaphragm, second diaphragm and link gear, go up the inside track groove that forms of track, go up orbital bottom surface and seted up the spout, track groove and spout intercommunication, the rail wheel is installed respectively to first diaphragm and second diaphragm, the rail wheel with the cooperation of track groove, link gear set up in the spout and be connected with first diaphragm and second diaphragm.

This slit incorgruous linkage door structure of integrated form is through seting up track groove and spout on last track, set up link gear in the spout, let link gear direct mount reduce the space between track and the diaphragm in orbital spout, this not only can reduce the space between track and the diaphragm, the space between track and the diaphragm is more little in addition, the use scene that is suitable for is big more, keep the gap between the diaphragm narrow, can let whole outward appearance seem atmosphere, clean and tidy, still be difficult to the ash that falls.

As a preferred technical scheme of the utility model, link gear includes belt, first setting element, second setting element, first linkage piece and second linkage piece all set up in the spout, first linkage piece and second linkage piece are located orbital both ends respectively, the bottom of first linkage piece and second linkage piece all is connected with the belt, first setting element and second setting element all are located between first linkage piece and the second linkage piece, first setting element and second setting element can be dismantled with the belt respectively and be connected, first setting element is connected with first diaphragm, the second setting element is connected with the second diaphragm.

As a preferred technical scheme of the utility model, the bottom of first linkage piece and second linkage piece all is provided with the pulley, two the pulley housing locates the both ends of belt inner ring, first setting element and second setting element pass through the belt and drive two diaphragms and remove.

As a preferred technical scheme of the utility model, first locating piece includes first constant head tank, two first locating pieces and first fixed block, the constant head tank has been seted up, two to a side wall surface of first constant head tank first locating piece is installed in the constant head tank, the both ends of belt all imbed the space between first locating piece and the constant head tank, the bottom plate of first constant head tank is provided with the bolt, first fixed block passes through the bolt and is connected with first constant head tank, first fixed block is located the recess of first diaphragm.

As an optimal technical scheme of the utility model, the second setting element includes second positioning seat, slider and second fixed block, the slider slides and sets up on the second positioning seat, the cambered surface has been seted up on a lateral wall surface at second positioning seat top, the second positioning seat passes through the slider and is fixed in the cambered surface with the belt extrusion, the second fixed block is connected with a lateral wall surface in the bottom of second positioning seat, the second fixed block is located the recess of second diaphragm.

As a preferred technical scheme of the utility model, the bottom of first linkage piece and second linkage piece all is provided with the subassembly that tightens, the one end and the pulley of the subassembly that tightens are connected, the subassembly that tightens carries out position adjustment to the pulley.

As a preferred technical scheme of the utility model, the subassembly that tightens includes fixing base and screw, the one end of fixing base is fixed in the pulley, a side surface of fixing base passes through the screw and is connected with arbitrary linkage piece.

The utility model has the advantages that: through seting up track groove and spout on last track, set up link gear in the spout, let link gear direct mount reduce the space between track and the diaphragm in the orbital spout, and the setting element that link gear includes and link plate reduce the space between track and the diaphragm in can installing orbital spout, let the great reduction in space that link gear's overall structure occupied, and the space between track and the diaphragm is more little, suitable use scene is big more, it is narrow to keep the gap between the diaphragm, can let whole outward appearance seem atmosphere, clean and tidy, still be difficult to the ash that falls.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a perspective view of the present invention;

fig. 2 is a schematic structural view of the first positioning member of the present invention;

fig. 3 is a schematic view of the first positioning seat of the present invention;

fig. 4 is a schematic view of a second positioning member according to the present invention;

FIG. 5 is a schematic view of the linkage mechanism of the present invention;

FIG. 6 is a schematic view of the tightening structure of the present invention;

description of the main elements

In the figure: 1. an upper rail; 11. a chute; 12. a pulley; 13. a belt; 14. a track groove; 2. a first transverse plate; 3. a second transverse plate; 4. a linkage mechanism; 5. a first positioning member; 51. a first positioning seat; 511. positioning a groove; 512. a bolt; 52. a first positioning block; 53. a first fixed block; 6. a second positioning member; 61. a second positioning seat; 62. a slider; 63. a second fixed block; 7. a first linkage piece; 8. a second linkage plate; 9. a tightening assembly; 91. a fixed seat; 92. and (4) screws.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the objects of the present invention, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1-6, the present embodiment provides an integrated micro-seam anisotropic linked door structure, including an upper track 1, a first transverse plate 2, a second transverse plate 3 and a linkage mechanism 4, wherein a track groove 14 is formed inside the upper track 1, a chute 11 is formed at the bottom of the upper track 1, the track groove 14 is communicated with the chute 11, track wheels (not shown in the drawings) are respectively installed on the first transverse plate 2 and the second transverse plate 3, the track wheels slide in the track groove 14, the linkage mechanism 4 is installed in the chute 11, the bottom end of the linkage mechanism 4 is connected to the first transverse plate 2 and the second transverse plate 3, the linkage mechanism 4 is installed in the chute 11 of the upper track 1 to reduce a gap between the upper track 1 and the transverse plates, and the linkage mechanism 4 connects the first transverse plate 2 and the second transverse plate 3 to complete an anisotropic linkage effect, and the gap between the upper track 1 and the transverse plates is smaller, the larger the applicable usage scenario is, the gap between the upper track 1 and the transverse plates is kept narrow, so that the overall appearance is large, neat, and dust is not easy to fall.

In order to better reduce the occupied space of the linkage mechanism 4, the linkage mechanism 4 comprises a belt 13, a first positioning piece 5, a second positioning piece 6, a first linkage piece 7 and a second linkage piece 8, the first linkage piece 7 and the second linkage piece 8 are respectively arranged at two ends of a chute 11, the bottoms of the first linkage piece 7 and the second linkage piece 8 are both connected with the belt 13, the first positioning piece 5 and the second positioning piece 6 are both arranged between the first linkage piece 7 and the second linkage piece 8 and fixed on the belt 13, the first positioning piece 5 and the second positioning piece 6 are both arranged in the chute 11, the bottom end of the first positioning piece 5 is connected with the first transverse plate 2, the second positioning piece 6 is connected with the second transverse plate 3, when any one door is moved, the transverse plate connected with the positioning piece drives the positioning piece to move, the positioning piece is fixed on the belt 13, the belt 13 is driven to rotate when the positioning piece moves, the second positioning piece 6 arranged on the belt 13 can move in the opposite direction, the effect of the different-direction effect can be achieved, the linkage mechanism can reduce the occupied space of the linkage mechanism 4, and the overall installation situation of the linkage mechanism is greatly reduced, and the linkage mechanism is suitable for the linkage mechanism.

For better effect of carrying out the incorgruous linkage, in an embodiment, the bottom of first linkage piece 7 and second linkage piece 8 all is provided with pulley 12, and belt 13 is fixed on two pulley 12, when first locating piece 5 moves toward the direction of opening the door, drives belt 13 and rotates, and belt 13 makes pulley 12 rotate, and this can reduce belt 13 frictional force when rotating, lets the pivoted more smooth, and the condition that can not have the card during the incorgruous linkage takes place.

In order to better enable the first transverse plate 2 to move, in an embodiment, the first positioning member 5 includes a first positioning seat 51, two first positioning blocks 52 and a first fixing block 53, the two first positioning blocks 52 are installed in a positioning groove 511 of the first positioning seat 51, the belt 13 passes through the positioning groove 511, the belt 13 is fixed by adjusting the vertical position of the first positioning block 52, the first positioning member 5 can drive the belt 13 to move together when moving, meanwhile, the bolt 512 arranged at the bottom of the first positioning seat 51 fixes the first fixing block 53, the first fixing block 53 can drive the first transverse plate 2 to move, the force for fixing the belt 13 is fixed by the installation position of the first positioning block 52, and the first transverse plate 2 can move along with the belt 13 to ensure the moving effect when moving.

In order to better enable the second transverse plate 3 to move, in an embodiment, the second positioning element 6 includes a second positioning seat 61, a sliding block 62 and a second fixing block 63, the sliding block 62 is installed on the second positioning seat 61, and a 7 ° self-locking angle is formed between the sliding block 62 and the second positioning seat 61, the belt 13 is fixed by adjusting the front and rear positions of the sliding block 62 and the 7 ° self-locking angle, so that the second transverse plate 3 can move along with the belt 13 through the second fixing block 63, the force of the belt 13 is fixed through the installation position of the second positioning block, and the moving effect can be ensured along with the movement of the belt 13 when the second transverse plate 3 moves.

In order to better install the belt 13, in an embodiment, the tightening assemblies 9 are arranged at the bottoms of the first linkage piece 7 and the second linkage piece 8, one ends of the tightening assemblies 9 are fixed in the pulleys 12, the positions of the pulleys 12 are adjusted through the tightening assemblies 9, when the anisotropic linkage door structure is installed, the first positioning piece 5 and the second positioning piece 6 are installed on the belt 13, the pulleys 12 are installed on the first linkage piece 7 and the second linkage piece 8, the first linkage piece 7 and the second linkage piece 8 are installed at the two ends of the upper rail 1 without being fixed, the belt 13 is sleeved on the two pulleys 12, the first linkage piece 7 and the second linkage piece 8 are fixed at the moment, the tension degree of the belt 13 is adjusted through the tightening assemblies 9, and finally the first transverse plate 2 and the second transverse plate 3 are installed below the first positioning piece 5 and the second positioning piece 6.

In order to better adjust the tension of the belt 13, in an embodiment, the tightening assembly 9 includes a fixing seat 91 and a screw 92, one end of the fixing seat 91 is fixed in the pulley 12, the front and rear positions of the fixing seat 91 are adjusted by the screw 92, the pulley 12 is adjusted along with the position of the fixing seat 91, the distance between the two pulleys 12 is changed to adjust the tension of the belt 13, and the different-direction linkage can be more smooth.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention has been disclosed by the preferred embodiment, it is not limited to the present invention, and any person skilled in the art can make modifications or changes equivalent to the equivalent embodiments by utilizing the above disclosed technical contents without departing from the technical scope of the present invention, but all the modifications, changes and changes of the technical spirit of the present invention made to the above embodiments are also within the scope of the technical solution of the present invention.

Claims (7)

1. The utility model provides a slit incorgruous linkage door structure of integrated form which characterized in that: including last track (1), first diaphragm (2), second diaphragm (3) and link gear (4), go up inside track groove (14) that forms of track (1), spout (11) have been seted up to the bottom surface of going up track (1), track groove (14) and spout (11) intercommunication, the rail wheel is installed respectively to first diaphragm (2) and second diaphragm (3), the rail wheel with track groove (14) cooperation, link gear (4) set up in spout (11) and are connected with first diaphragm (2) and second diaphragm (3).

2. An integrated micro-slit counter-linkage door structure as claimed in claim 1, wherein: link gear (4) include belt (13), first setting element (5), second setting element (6), first linkage piece (7) and second linkage piece (8) all set up in spout (11), first linkage piece (7) and second linkage piece (8) are located the both ends of track (1) respectively, the bottom of first linkage piece (7) and second linkage piece (8) all is connected with belt (13), first setting element (5) and second setting element (6) all are located between first linkage piece (7) and second linkage piece (8), first setting element (5) and second setting element (6) can be dismantled with belt (13) respectively and be connected, first setting element (5) are connected with first diaphragm (2), second setting element (6) are connected with second diaphragm (3).

3. An integrated micro-slit counter-linkage door structure as claimed in claim 2, wherein: the bottom of first linkage piece (7) and second linkage piece (8) all is provided with pulley (12), two the both ends of belt (13) inner ring are located to pulley (12) cover, first setting element (5) and second setting element (6) drive two diaphragms through belt (13) and remove.

4. An integrated micro-slit anisotropic linkage door structure according to claim 2, wherein: first locating piece (5) include first constant head tank (51), two first locating piece (52) and first fixed block (53), constant head tank (511), two have been seted up to a lateral wall surface of first constant head tank (51) first locating piece (52) are installed in constant head tank (511), the both ends of belt (13) all imbed the space between first locating piece (52) and constant head tank (511), the bottom plate of first constant head tank (51) is provided with bolt (512), first fixed block (53) are connected with first constant head tank (51) through bolt (512), first fixed block (53) are located the recess of first diaphragm (2).

5. An integrated micro-slit counter-linkage door structure as claimed in claim 2, wherein: second setting element (6) include second positioning seat (61), slider (62) and second fixed block (63), slider (62) slide and set up on second positioning seat (61), the cambered surface has been seted up on a lateral wall surface at second positioning seat (61) top, second positioning seat (61) are fixed in the cambered surface through slider (62) with belt (13) extrusion, second fixed block (63) are connected with a lateral wall surface in the bottom of second positioning seat (61), second fixed block (63) are located the recess of second diaphragm (3).

6. An integrated micro-slit anisotropic linkage door structure according to claim 2, wherein: the bottom of the first linkage piece (7) and the bottom of the second linkage piece (8) are both provided with a tightening assembly (9), one end of the tightening assembly (9) is connected with a pulley (12), and the tightening assembly (9) adjusts the position of the pulley (12).

7. An integrated micro-slit counter-linkage door structure as claimed in claim 6, wherein: the tightening assembly (9) comprises a fixed seat (91) and a screw (92), one end of the fixed seat (91) is fixed in the pulley (12), and one side surface of the fixed seat (91) is connected with any linkage piece through the screw (92).

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