CN106724196B

CN106724196B - Furniture opening and closing mechanism

Info

Publication number: CN106724196B
Application number: CN201710011100.8A
Authority: CN
Inventors: 伍志勇
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-01-06
Filing date: 2017-01-06
Publication date: 2023-02-03
Anticipated expiration: 2037-01-06
Also published as: CN106724196A

Abstract

A furniture opening and closing mechanism comprises a turnover device, a rebound device, a damper and a buckling part, wherein the turnover device comprises a movable base, a connecting arm assembly and a fixed element, the movable base is movably opened and closed on the fixed element through the connecting arm assembly, the rebound device is arranged on the movable base or the connecting arm assembly, the buckling part is arranged on the fixed element, or the buckling part is arranged on the movable base or the connecting arm assembly, and the rebound device is arranged on the fixed element; the rebounding device at least comprises a positioning support, a pushing element, a telescopic element and an elastic piece, wherein the pushing element and the telescopic element are movably arranged on the positioning support, and the elastic piece is arranged on the positioning support and elastically acts on the telescopic element. Through the improvement of the structure, the invention has the characteristics of simple and reasonable structure, reliable performance, compact connection among all components, long service life, low manufacturing cost, quick and convenient disassembly and assembly, high flexibility, wide application range and the like, and has strong practicability.

Description

Furniture opening and closing mechanism

Technical Field

The invention relates to a furniture opening and closing mechanism.

Background

Chinese patent document No. CN 101224065a discloses a panel locking and adjusting device of a drawer with a slide rail in 23.7.2008, which includes a slide rail connected with the drawer, the panel of the drawer is connected with an adjusting seat through a connecting piece, a guide slot for the connecting piece to slide is provided in the adjusting seat, a panel locking mechanism is provided in the guide slot, the panel locking mechanism includes an eccentric cam provided on the adjusting seat, the other end of the eccentric cam is hinged with a guide block through a connecting rod, one end of a swing rod is hinged on the guide block through a pin shaft, a torsion spring is sleeved on the pin shaft, one end of the torsion spring is connected on the swing rod, the other end of the torsion spring is connected on the guide block or the adjusting seat, the guide block is slid in the adjusting seat, and the end of the connecting piece is connected with the other end of the swing rod. The guide block is sleeved in the positioning frame in a sliding mode, the rear portion of the guide block is connected with one end of the first spring, and the other end of the first spring is connected to the positioning frame. The drawer panel of this structure can't form effectively with the drawer main part when the pull is opened and is closed and lock the state, leads to the drawer panel to appear rocking extremely easily when closing, perhaps closes the back and opens because of the inertia of inside deposit article is automatic, can not satisfy user's daily user demand. Therefore, further improvement is necessary.

Disclosure of Invention

The invention aims to provide a furniture opening and closing mechanism which is simple and reasonable in structure, reliable in performance, compact in connection among components, long in service life, low in manufacturing cost, fast and convenient to disassemble and assemble, high in flexibility and wide in application range, so as to overcome the defects in the prior art.

The furniture opening and closing mechanism designed according to the purpose comprises a turnover device, a rebound device, a damper and a buckling part, and is characterized in that: the turnover device comprises a movable base, a connecting arm assembly and a fixed element, wherein the movable base is movably opened and closed on the fixed element through the connecting arm assembly, the rebounding device is arranged on the movable base or the connecting arm assembly, the buckling part is arranged on the fixed element, or the buckling part is arranged on the movable base or the connecting arm assembly, and the rebounding device is arranged on the fixed element; the rebounding device at least comprises a positioning support, a pushing element, a telescopic element and an elastic piece, wherein the pushing element and the telescopic element are movably arranged on the positioning support, and the elastic piece is arranged on the positioning support and elastically acts on the telescopic element.

When the movable base is movably closed relative to the fixed element, the movable base acts on the telescopic element through the buckling part and is closed on the fixed element through the damper in a damping mode, and a certain interval is kept between the movable base and the fixed element through the positioning effect of the pushing element when the movable base is closed in the damping mode.

When the movable base is movably opened relative to the fixed element, the movable base is pressed to drive the movable base to open for a section of stroke, the movable base drives the telescopic element to extend for a section of stroke through the buckling part when being opened, and the driving force of the pushing element is larger than the movable closing force of the movable base.

When the movable base is opened continuously after a certain stroke, the movable base drives the telescopic element to extend through the buckling part, the telescopic element drives the pushing element to reset to the initial position when extending, and the telescopic element is separated from the buckling part when the pushing element resets to the initial position and resets to the initial position through the elastic piece.

A conversion assembly is arranged between the pushing element and the telescopic element; when the movable base is opened continuously after a section of stroke, the movable base drives the telescopic element to extend out through the buckling part, and the telescopic element drives the pushing element to reset to an initial position through the conversion assembly when extending out.

The conversion assembly comprises a first gear and/or a second gear, the first gear and/or the second gear are/is rotationally arranged on the positioning bracket and are/is in linkage fit with the pushing element and/or the telescopic element and/or the elastic piece at least when the pushing element is reset to the initial position; the elastic piece is arranged on the positioning bracket, one end of the elastic piece elastically acts on the positioning bracket, and the other end of the elastic piece elastically acts on the first gear and/or the second gear; when the movable base is opened continuously after a certain stroke, the movable base drives the telescopic element to extend out through the buckling part, the telescopic element drives the pushing element to reset to an initial position through the first gear and/or the second gear when extending out, and the telescopic element is mutually separated from the buckling part when the pushing element resets to the initial position and resets to the initial position through the matching of the first gear and/or the second gear and the elastic element.

A spring is arranged between the positioning bracket and the pushing element, one end of the spring elastically acts on the positioning bracket, and the other end of the spring elastically acts on the pushing element; the positioning support is provided with a heart-shaped sliding groove, the pushing element is provided with a sliding part, the pushing element is in mutual sliding fit with the heart-shaped sliding groove of the positioning support through the sliding part, or the pushing element is provided with the heart-shaped sliding groove, the positioning support is provided with the sliding part, and the pushing element is in mutual sliding fit with the sliding part of the positioning support through the heart-shaped sliding groove.

The heart-shaped sliding groove is further provided with a stopping area and a limiting area, the sliding part stops in the stopping area when the movable base is movably closed relative to the fixed element, and the sliding part elastically slides out of the stopping area along a direction in sequence through the limitation of the spring and the limiting area when the movable base is movably opened relative to the fixed element.

The telescopic element is provided with a buckling part.

When the movable base is movably closed relative to the fixed element, the movable base acts on the buckling part of the telescopic element through the buckling part and is closed on the fixed element through the damping of the damper.

When the movable base is movably opened relative to the fixed element, the movable base is pressed to drive the movable base to open for a section of stroke, and the movable base drives the telescopic element to extend for a section of stroke through the matching of the buckling part and the buckling part when being opened.

When the movable base is opened continuously after a section of stroke is opened, the movable base drives the telescopic element to extend through the matching of the buckling part and the buckling part, the telescopic element drives the pushing element to reset to an initial position when extending, and the buckling part of the telescopic element is mutually separated from the buckling part and reset to the initial position through the elastic part when the pushing element resets to the initial position.

The damper is arranged on the movable base or the fixed element and is relatively independently arranged with the rebound device and/or the buckling part; when the movable base is movably closed relative to the fixed element, the movable base acts on the buckling part of the telescopic element through the buckling part and is closed on the fixed element through the damping of the damper.

The damper, the rebounding device and the buckling part are independently arranged, wherein the damper and the rebounding device are respectively arranged on the fixed element, and the buckling part is arranged on the connecting arm component; one end of the damper is positioned on the fixing element, and the other end of the damper is positioned on the connecting arm component.

The mechanism also comprises a furniture cabinet body and a furniture upturning door, wherein the furniture cabinet body is connected with the fixed element in a matching way, the furniture upturning door is connected with the movable base in a matching way, and the furniture upturning door is movably opened and closed on the furniture cabinet body through a connecting arm component; the linking arm subassembly including the switching arm, first linking arm, the second linking arm, the third linking arm, fourth linking arm and fifth linking arm, wherein, first linking arm one end is articulated with fixed component, the middle part is articulated with switching arm middle part, the first linking arm other end is articulated with fifth linking arm one end, second linking arm one end is articulated with fixed component, the middle part is articulated with third linking arm one end, the second linking arm other end is articulated with switching arm one end, the third linking arm other end is articulated with fourth linking arm one end, the fourth linking arm other end rotates with fixed component to be connected, the fifth linking arm other end is articulated with the movable base middle part, the switching arm other end is articulated with movable base one end.

The rebounding device further comprises an adjusting element, the adjusting element is positioned and rotated on the positioning support and is provided with an adjusting action part, and the adjusting element is positioned and rotated and drives the positioning support to generate displacement through a tool or a manual action adjusting action part so as to adjust the position of the rebounding device relative to the damper and/or the buckling part.

Through the improvement of the structure, the automatic opening of the movable base can be realized by directly pressing any position of the movable base by any position of the body of a user by utilizing the pressing action of the rebounding device, so that the problems that the production cost is improved and the appearance attractiveness of furniture is influenced due to the fact that a handle is additionally arranged on the furniture are solved; when the movable base is movably closed relative to the fixed element, the movable base acts on the telescopic element through the buckling part, so that the problems that the movable base is easy to shake when closed or automatically opened due to inertia of articles stored in the movable base after being closed are effectively solved, the movable base can be truly closed on the fixed element in a sealing manner without swinging, when the movable base is continuously opened after being opened for a certain stroke, the movable base can drive the telescopic element to extend out, the telescopic element can drive the pushing element to reset to an initial position when extending out, the telescopic element can also reset to the initial position when the pushing element resets to the initial position, the problems that the rebound device cannot automatically reset after working is avoided, the rebound device is easily damaged due to easy touch when a user stores articles, the appearance of a product is influenced, and the use is safer and more convenient for the user; in addition, the damper is independently arranged relative to the rebounding device, and the movable base is closed on the fixed element through the damper, so that the problems that the movable base collides with the fixed element due to closing, the service life of a product is short, and the use experience of furniture is influenced are solved; moreover, the rebound device is also provided with an adjusting element, the position of the rebound device relative to the damper and/or the buckling part, namely the closing position of the movable base relative to the fixed element can be adjusted by adjusting the action part through a tool or a manual action adjusting element, and the use of a user is more convenient. The novel connecting structure has the characteristics of simple and reasonable structure, reliable performance, compact connection among all components, long service life, low manufacturing cost, high flexibility, wide application range and the like, and is fast and convenient to disassemble and assemble, and high in practicability.

Drawings

Fig. 1 and fig. 2 are schematic exploded views of a rebounding apparatus according to a first embodiment of the present invention.

Fig. 3 is a schematic view of the assembly structure of the rebounding apparatus according to the first embodiment of the present invention.

FIG. 4 is a schematic view of the assembly structure of the furniture cabinet, the furniture tilt-up door, the turnover device and the rebounding device according to the first embodiment of the present invention

Fig. 5 to 8 are schematic structural views illustrating an opening and closing process according to the first embodiment of the present invention.

Detailed Description

The invention is further described with reference to the following figures and examples.

Referring to fig. 1-8, the opening and closing mechanism for furniture comprises a turnover device, a rebound device, a damper 1 and a buckling part 2, wherein the turnover device comprises a movable base 13, a connecting arm assembly and a fixed element 14, the movable base 13 is movably opened and closed on the fixed element 14 through the connecting arm assembly, the rebound device is arranged on the movable base 13 or the connecting arm assembly, the buckling part 2 is arranged on the fixed element 14, or the buckling part 2 is arranged on the movable base 13 or the connecting arm assembly, and the rebound device is arranged on the fixed element 14; the rebounding device at least comprises a positioning support 3, a pushing element 4, a telescopic element 5 and an elastic piece 6, wherein the pushing element 4 and the telescopic element 5 are movably arranged on the positioning support 3, and the elastic piece 6 is arranged on the positioning support 3 and elastically acts on the telescopic element 5.

When the movable base 13 is movably closed relative to the fixed element 14, the movable base 13 acts on the telescopic element 5 through the snap-fit portion 2 and is damped to close on the fixed element 14 through the damper 1, wherein the movable base 13 is kept at a certain interval relative to the fixed element 14 through the positioning action of the pushing element 4 when the damping is closed.

When the movable base 13 is opened movably relative to the fixed element 14, the movable base 13 is pressed to drive the pushing element 4 to open the movable base 13 for a stroke, the movable base 13 drives the telescopic element 5 to extend for a stroke through the buckling part 2 when being opened, and the driving force of the pushing element 4 is greater than the movable closing force of the movable base 13.

When the movable base 13 is opened continuously after a certain stroke, the movable base 13 drives the telescopic element 5 to extend through the buckling part 2, the telescopic element 5 drives the pushing element 4 to reset to the initial position when extending, and the telescopic element 5 is mutually separated from the buckling part 2 when the pushing element 4 resets to the initial position and resets to the initial position through the elastic piece 6.

Furthermore, a conversion component is arranged between the pushing element 4 and the telescopic element 5; when the movable base 13 is opened continuously after a certain stroke, the movable base 13 drives the telescopic element 5 to extend through the buckling part 2, and the telescopic element 5 drives the pushing element 4 to reset to an initial position through the conversion component when extending.

Furthermore, the conversion assembly comprises a first gear 7 and/or a second gear 8, the first gear 7 and/or the second gear 8 being rotatably arranged on the positioning bracket 3 and cooperating with the pusher element 4 and/or the telescopic element 5 and/or the elastic member 6 at least when the pusher element 4 is reset to the initial position; the elastic piece 6 is arranged on the positioning bracket 3, one end of the elastic piece elastically acts on the positioning bracket 3, and the other end of the elastic piece elastically acts on the first gear 7 and/or the second gear 8; when the movable base 13 is opened continuously after a certain stroke, the movable base 13 drives the telescopic element 5 to extend out through the buckling part 2, the telescopic element 5 drives the pushing element 4 to reset to an initial position through the first gear 7 and/or the second gear 8 when extending out, and the telescopic element 5 is mutually separated from the buckling part 2 and resets to the initial position through the matching of the first gear 7 and/or the second gear 8 and the elastic element 6 when the pushing element 4 resets to the initial position.

Furthermore, a spring 9 is arranged between the positioning bracket 3 and the pushing element 4, one end of the spring 9 elastically acts on the positioning bracket 3, and the other end elastically acts on the pushing element 4; the positioning support 3 is provided with a heart-shaped sliding groove 10, the pushing element 4 is provided with a sliding part 11, the pushing element 4 is in sliding fit with the heart-shaped sliding groove 10 of the positioning support 3 through the sliding part 11, or the pushing element 4 is provided with the heart-shaped sliding groove 10, the positioning support 3 is provided with the sliding part 11, and the pushing element 4 is in sliding fit with the sliding part 11 of the positioning support 3 through the heart-shaped sliding groove 10.

Furthermore, the heart-shaped sliding chute 10 is further provided with a stopping area and a limiting area, the sliding part 11 stops at the stopping area when the movable base 13 is movably closed relative to the fixed element 14, and the sliding part 11 elastically slides out of the stopping area in sequence along a direction through the limitation of the spring 9 and the limiting area when the movable base 13 is movably opened relative to the fixed element 14.

Further, the telescopic element 5 is provided with a buckling part 12.

Specifically, when the movable base 13 is movably closed with respect to the fixed member 14, the movable base 13 acts on the engaging portion 12 of the telescopic member 5 through the engaging portion 2 and is damped and closed on the fixed member 14 through the damper 1.

When the movable base 13 is opened movably relative to the fixed element 14, the movable base 13 is pressed to drive the pushing element 4 to open the movable base 13 for a stroke, and when the movable base 13 is opened, the buckling part 2 and the buckling part 12 are matched to drive the telescopic element 5 to extend for a stroke.

When the movable base 13 is opened continuously after a certain stroke, the movable base 13 drives the telescopic element 5 to extend through the matching of the buckling part 2 and the buckling part 12, the telescopic element 5 drives the pushing element 4 to reset to the initial position when extending, and the buckling part 12 of the telescopic element 5 is mutually separated from the buckling part 2 and reset to the initial position through the elastic piece 6 when the pushing element 4 resets to the initial position.

Further, the damper 1 is arranged on the movable base 13 or the fixed element 14 and is arranged relatively independently of the rebound device and/or the buckling part 2; when the movable base 13 is movably closed relative to the fixed element 14, the movable base 13 acts on the buckling part 12 of the telescopic element 5 through the buckling part 2 and is damped and closed on the fixed element 14 through the damper 1.

Further, the damper 1, the rebounding device and the buckling part 2 are independently arranged, respectively, with each other, wherein the damper 1 and the rebounding device are arranged on the fixing element 14, respectively, and the buckling part 2 is arranged on the connecting arm assembly; one end of the damper 1 is positioned on the fixed element 14, and the other end is positioned on the connecting arm component; specifically, the damper 1 of the present embodiment has one end positioned and rotated on the fixing member 14, and the other end telescopically provided with the positioning sleeve 15 and telescopically positioned and rotated on the connecting arm assembly by the positioning sleeve 15.

Further, the mechanism also comprises a furniture cabinet body X and a furniture upward-turning door Y, wherein the furniture cabinet body X is in fit connection with the fixed element 14, the furniture upward-turning door Y is in fit connection with the movable base 13, and the furniture upward-turning door Y is movably opened and closed on the furniture cabinet body X through the connecting arm assembly; the connecting arm assembly comprises a transfer arm 30, a first connecting arm 31, a second connecting arm 32, a third connecting arm 33, a fourth connecting arm 34 and a fifth connecting arm 35, wherein one end of the first connecting arm 31 is hinged to the fixed element 14, the middle of the first connecting arm is hinged to the middle of the transfer arm 30, the other end of the first connecting arm 31 is hinged to one end of the fifth connecting arm 35, one end of the second connecting arm 32 is hinged to the fixed element 14, the middle of the second connecting arm is hinged to one end of the third connecting arm 33, the other end of the second connecting arm 32 is hinged to one end of the transfer arm 30, the other end of the third connecting arm 33 is hinged to one end of the fourth connecting arm 34, the other end of the fourth connecting arm 34 is rotatably connected with the fixed element 14, the other end of the fifth connecting arm 35 is hinged to the middle of the movable base 13, and the other end of the transfer arm 30 is hinged to one end of the movable base 13.

Furthermore, the rebounding device further comprises an adjusting element 21, the adjusting element 21 is positioned and rotated on the positioning bracket 3 and is provided with an adjusting action part, and through a tool or a manual action of the adjusting action part, the adjusting element 21 is positioned and rotated and drives the positioning bracket 3 to generate displacement so as to adjust the position of the rebounding device relative to the damper 1 and/or the buckling part 2.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and the invention is intended to be protected by the following claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A furniture opening and closing mechanism comprises a turnover device, a rebound device, a damper (1) and a buckling part (2), wherein the turnover device comprises a movable base (13), a connecting arm assembly and a fixed element (14), the movable base (13) is movably opened and closed on the fixed element (14) through the connecting arm assembly, the rebound device is arranged on the movable base (13) or the connecting arm assembly, the buckling part (2) is arranged on the fixed element (14), or the buckling part (2) is arranged on the movable base (13) or the connecting arm assembly, and the rebound device is arranged on the fixed element (14); the rebounding device at least comprises a positioning support (3), a pushing element (4), a telescopic element (5) and an elastic piece (6), wherein the pushing element (4) and the telescopic element (5) are movably arranged on the positioning support (3), and the elastic piece (6) is arranged on the positioning support (3) and elastically acts on the telescopic element (5);

when the movable base (13) is movably closed relative to the fixed element (14), the movable base (13) acts on the telescopic element (5) through the buckling part (2) and is damped and closed on the fixed element (14) through the damper (1), wherein the movable base (13) keeps a certain interval relative to the fixed element (14) through the positioning action of the pushing element (4) when the movable base is damped and closed;

when the movable base (13) is movably opened relative to the fixed element (14), the movable base (13) is pressed to enable the pushing element (4) to drive the movable base (13) to open for a section of stroke, the movable base (13) drives the telescopic element (5) to extend for a section of stroke through the buckling part (2) when being opened, and the driving force of the pushing element (4) is greater than the movable closing force of the movable base (13);

when the movable base (13) is continuously opened after being opened for a certain stroke, the movable base (13) drives the telescopic element (5) to extend through the buckling part (2), the telescopic element (5) drives the pushing element (4) to reset to an initial position when extending, and the telescopic element (5) is mutually separated from the buckling part (2) and reset to the initial position through the elastic piece (6) when the pushing element (4) resets to the initial position;

the method is characterized in that: a conversion component is arranged between the pushing element (4) and the telescopic element (5); when the movable base (13) is opened continuously after a certain stroke, the movable base (13) drives the telescopic element (5) to extend out through the buckling part (2), and the telescopic element (5) drives the pushing element (4) to reset to an initial position through the conversion component when extending out;

the conversion assembly comprises a first gear (7) and/or a second gear (8), the first gear (7) and/or the second gear (8) are/is rotatably arranged on the positioning bracket (3) and are/is in linkage fit with the pushing element (4) and/or the telescopic element (5) and/or the elastic piece (6) at least when the pushing element (4) is reset to the initial position; the elastic piece (6) is arranged on the positioning bracket (3), one end of the elastic piece elastically acts on the positioning bracket (3), and the other end of the elastic piece elastically acts on the first gear (7) and/or the second gear (8); when the movable base (13) is continuously opened after being opened for a certain stroke, the movable base (13) drives the telescopic element (5) to extend out through the buckling part (2), the telescopic element (5) drives the pushing element (4) to reset to an initial position through the first gear (7) and/or the second gear (8) when extending out, and the telescopic element (5) is mutually separated from the buckling part (2) when the pushing element (4) resets to the initial position and resets to the initial position through the matching of the first gear (7) and/or the second gear (8) and the elastic element (6);

a spring (9) is arranged between the positioning support (3) and the pushing element (4), one end of the spring (9) elastically acts on the positioning support (3), and the other end elastically acts on the pushing element (4); the positioning support (3) is provided with a heart-shaped sliding groove (10), the pushing element (4) is provided with a sliding part (11), the pushing element (4) is in sliding fit with the heart-shaped sliding groove (10) of the positioning support (3) through the sliding part (11), or the pushing element (4) is provided with the heart-shaped sliding groove (10), the positioning support (3) is provided with the sliding part (11), and the pushing element (4) is in sliding fit with the sliding part (11) of the positioning support (3) through the heart-shaped sliding groove (10);

the heart-shaped sliding groove (10) is further provided with a stopping area and a limiting area, the sliding part (11) stops in the stopping area when the movable base (13) is movably closed relative to the fixed element (14), and the sliding part (11) elastically slides out of the stopping area along one direction in sequence through the limitation of the spring (9) and the limiting area when the movable base (13) is movably opened relative to the fixed element (14);

the telescopic element (5) is provided with a buckling part (12);

when the movable base (13) is movably closed relative to the fixed element (14), the movable base (13) acts on the buckling part (12) of the telescopic element (5) through the buckling part (2) and is closed on the fixed element (14) through the damper (1) in a damping way;

when the movable base (13) is movably opened relative to the fixed element (14), the movable base (13) is pressed to enable the pushing element (4) to drive the movable base (13) to be opened for a section of stroke, and the movable base (13) drives the telescopic element (5) to extend for a section of stroke through the matching of the buckling part (2) and the buckling part (12) when being opened;

when the movable base (13) is continuously opened after a section of stroke is opened, the movable base (13) drives the telescopic element (5) to extend out through the matching of the buckling part (2) and the buckling part (12), the telescopic element (5) drives the pushing element (4) to reset to an initial position when extending out, and the buckling part (12) of the telescopic element (5) is mutually separated from the buckling part (2) and reset to the initial position through the elastic piece (6) when the pushing element (4) resets to the initial position.

2. The furniture opening and closing mechanism according to claim 1, wherein: the damper (1) is arranged on the movable base (13) or the fixed element (14) and is relatively and independently arranged with the rebound device and/or the buckling part (2); when the movable base (13) is movably closed relative to the fixed element (14), the movable base (13) acts on the buckling part (12) of the telescopic element (5) through the buckling part (2) and is closed on the fixed element (14) through the damper (1) in a damping mode.

3. The furniture opening and closing mechanism of claim 2, wherein: the damper (1), the rebounding device and the buckling part (2) are mutually independently arranged, wherein the damper (1) and the rebounding device are respectively arranged on the fixed element (14), and the buckling part (2) is arranged on the connecting arm component; one end of the damper (1) is positioned on the fixing element (14), and the other end of the damper is positioned on the connecting arm component.

4. The furniture opening and closing mechanism according to claim 3, wherein: the mechanism also comprises a furniture cabinet body (X) and a furniture upturning door (Y), wherein the furniture cabinet body (X) is connected with the fixed element (14) in a matching way, the furniture upturning door (Y) is connected with the movable base (13) in a matching way, and the furniture upturning door (Y) is movably opened and closed on the furniture cabinet body (X) through a connecting arm component; the linking arm subassembly include switching arm (30), first linking arm (31), second linking arm (32), third linking arm (33), fourth linking arm (34) and fifth linking arm (35), wherein, first linking arm (31) one end is articulated with fixed component (14), the middle part is articulated with switching arm (30) middle part, first linking arm (31) other end is articulated with fifth linking arm (35) one end, second linking arm (32) one end is articulated with fixed component (14), the middle part is articulated with third linking arm (33) one end, the second linking arm (32) other end is articulated with switching arm (30) one end, the third linking arm (33) other end is articulated with fourth linking arm (34) one end, the fourth linking arm (34) other end is connected with fixed component (14) rotation, the fifth linking arm (35) other end is articulated with movable base (13) middle part, the switching arm (30) other end is articulated with movable base (13) one end.

5. The furniture opening and closing mechanism according to any one of claims 1 to 4, wherein: the rebounding device further comprises an adjusting element (21), the adjusting element (21) is positioned and rotated on the positioning support (3) and is provided with an adjusting action part, the adjusting element (21) is positioned and rotated and drives the positioning support (3) to generate displacement through a tool or a manual action adjusting action part, and therefore the position of the rebounding device relative to the damper (1) and/or the buckling part (2) can be adjusted.