The present invention relates to a hinge, and in particular, to a soft-closing hinge for use in furniture.
The Chinese Patent Application No. CN103590693A filed by the applicant of the present invention on Feb. 19, 2014 has disclosed a soft-closing hinge for use in furniture, which comprises a damper device, a hinge arm, and a metal hinge cup coupled via the hinge arm. The hinge is provided with a metal spring which at least exerts an opening or closing force to the metal hinge cup. One end of the metal spring is disposed on the metal hinge cup, and the other end of the metal spring is crimped on a rotation portion of the hinge arm. The area where the intermediate portion of the metal spring is in contact with the metal hinge cup is provided with a member made of a flexible material. When the hinge is opened and/or closed, the member made of the flexible material eliminates the noise generated by longitudinal movement of the metal spring relative to the metal hinge cup. However, the cross section of the metal spring of the hinge is circular, which may frequently cause point contact when being in contact with the member made of the flexible material, consequently shortening the service life thereof. Therefore, some improvements are desired.
To address the defects in the related art, an objective of the present invention is to provide a hinge device having the advantages of reasonable structure, reliable performance, flexible operation, long service life, smooth and stable opening and closing, little force, low noise, and high practicability, which is capable of relatively moving.
In view of the above, a soft-closing hinge for use in furniture, comprises a movable hinge cup coupled to a door panel, a securing member coupled to a wall panel and a hinge arm configured to couple the movable hinge cup to the securing member, a damper being disposed on the movable hinge cup, the damper acting on the hinge arm at least when the hinge is closed, a spring for at least exerting an opening or closing force to the movable hinge cup being disposed in the hinge; wherein: one end of the hinge arm is hinged to the movable hinge cup via a coupling unit; a cross section of at least one end of the spring is of a non-circular shape and provided with a sliding member, a concave chamber being disposed on the sliding member, and at least one end of the spring is disposed in the concave chamber; and a bottom surface of the sliding member acts on a rotation portion of the hinge arm via elasticity of the spring and moves relative to the rotation portion when the hinge is opened and/or closed to generate an opening force or a closing force.
The spring is a metal torsion spring; one end of the spring is disposed in the concave chamber of the sliding member and movably crimped on the rotation portion of the hinge arm via the sliding member when the hinge is opened and/or closed; and the other end of the spring is positioned and acts on the movable hinge cup.
One end of the sliding member is provided with the concave chamber and sleeved onto one end of the spring via the concave chamber, and the other end of the sliding member is positioned and acts on an intermediate portion of the spring or on the movable hinge cup.
The cross section of one end of the spring is at least a quadrangle, an ellipse, a triangle, a trapezoid, or a polygon; and a cross section of the concave chamber of the sliding member mates with the cross section of one end of the spring in terms of shape, one end of the spring is received in the concave chamber of the sliding member, or the cross section of the concave chamber of the sliding member is circular, and one end of the spring is received in the concave chamber of the sliding member.
The sliding member is made of plastic or rubber, and the rotation portion is made of metal; and the bottom surface of the sliding member linearly acts on the rotation portion of the hinge arm when the hinge is opened and/or closed.
The bottom surface of the sliding member acting on the rotation portion is a planar surface or an arc surface, and the cross section of the sliding member is at least partially linear.
One end of the sliding member is provided with the concave chamber and sleeved onto one end of the spring via the concave chamber, and the other end of the sliding member is provided with a buckle unit and is positioned on a chamber body in the intermediate portion of the spring via the buckle unit.
The movable hinge cup is made of metal, the sliding member is positioned on the spring via the buckle unit, the sliding member is further provided with an action portion and acts on the intermediate portion of the spring via the action portion, and the intermediate portion of the spring is pressed against the movable hinge cup via the action portion to eliminate the force applied by the intermediate portion of the spring onto the movable hinge cup and noise generated by longitudinal movement of the spring relative to the movable hinge cup.
The damper is a self-resetting oil damper or a self-resetting gas damper, and positioned on the movable hinge cup via a cover.
The cover is disposed on the damper and provided with a damper switch member in a rotation or swinging manner, and a buffer stroke of the damper is restricted or restored by rotating or swing the damper switch member when the hinge is opened and/or closed.
According to the present invention, with the above improvements to the structure, a cross section of at least one end of the spring is of a non-circular shape and provided with a sliding member, a concave chamber is disposed on the sliding member, at least one end of the spring is received in the concave chamber, and a bottom surface of the sliding member acts on a rotation portion of the hinge arm via elasticity of the spring and moves relative to the rotation portion when the hinge is opened and/or closed to generate an opening force or a closing force. The bottom surface is a planar surface or an arc surface, and the cross section of the sliding member is at least partially linear, such that contact between the spring, the sliding member, and the hinge arm changes from point contact to linear contact. This enlarges the contact surface therebetween, and renders a more uniform force bearing surface and a more dispersed elastic force. In this way, mutual friction between the spring, the sliding member, and the hinge arm and loss thereof are reduced when the hinge is opened and/or closed, thereby prolonging the service life of the hinge. The intermediate portion of the spring is pressed against the movable hinge cup via the action portion of the sliding member to reduce the noise generated by friction between the spring and the movable hinge cup, such that the opening and closing of the hinge is smoother and the noise is lower. This enhances the user experience. In addition, a damper switch member capable of restricting the buffer stroke of the damper is disposed on the cover. When the hinge is opened, a user can rotate or swing the damp switch member manually or by using a tool to its locking position. The hinge is gradually closed, and the hinge arm acts on the damper, such that the buffer stroke of the damper is gradually reduced. In this case, the locking position of the damper is locked with the locking portion of the damper switch member, such that the buffer stroke of the damper is restricted within a specific range. Then the damper switch member is rotated or swung to its releasing position, such that the buffer stroke of the damper is restored, thereby effectively prolonging the service life of the damper. In addition, the user can adjust the buffer stroke of the buffer according to actual needs, to control the speed and force of closing the hinge, mitigate the collision between parts of the furniture, and reduce the noise. According to the present invention, the hinge has the advantages of reasonable structure, reliable performance, flexible operation, long service life, smooth and stable opening and closing, little force, low noise, and high practicability.
The present invention is further described with reference to the accompanying drawings and exemplary embodiments.
Referring to
The spring 3 is a metal torsion spring; one end of the spring 3 is disposed in the concave chamber 4.1 of the sliding member 4 and movably crimped on the rotation portion 2.1 of the hinge arm 2 via the sliding member 4 when the hinge is opened and/or closed; and the other end of the spring 3 is positioned and acts on the movable hinge cup 1. One end of the sliding member 4 is provided with the concave chamber 4.1 and sleeved onto one end of the spring 3 via the concave chamber 4.1, and the other end of the sliding member 4 is positioned and acts on an intermediate portion of the spring 3 or on the movable hinge cup 1.
Specifically, referring to
In this embodiment, the cross section of the spring 3 is preferably a square, the cross section of the concave chamber 4.1 of the sliding member 4 is correspondingly a square, such that there is an even larger contact area therebetween, the force bearing surface is more uniform, and the elastic force is more dispersed, thereby prolonging the service life of the hinge.
The sliding member 4 is made of plastic or rubber, and the rotation portion 2.1 is made of metal; and the bottom surface 4.2 of the sliding member 4 linearly acts on the rotation portion 2.1 of the hinge arm 2 when the hinge is opened and/or closed.
The bottom surface 4.2 of the sliding member 4 acting on the rotation portion 2.1 is a planar surface or an arc surface, and the cross section of the sliding member is at least partially linear.
One end of the sliding member 4 is provided with the concave chamber 4.1 and sleeved onto one end of the spring 3 via the concave chamber 4.1, and the other end of the sliding member 4 is provided with a buckle unit 4.3 and is positioned on a chamber body 3.1 in the intermediate portion of the spring 3 via the buckle unit 4.3. The movable hinge cup 1 is made of metal, the sliding member 4 is positioned on the spring 3 via the buckle unit 4.3, the sliding member 4 is further provided with an action portion 4.4 and acts on the intermediate portion of the spring 3 via the action portion 4.4, and the intermediate portion of the spring 3 is pressed against the movable hinge cup 1 via the action portion 4.4 to eliminate the force applied by the intermediate portion of the spring 3 onto the movable hinge cup 1 and noise generated by longitudinal movement of the spring 3 relative to the movable hinge cup 1.
In the above-described structure, the damper 5 is a self-resetting oil damper or a self-resetting gas damper, and positioned on the movable hinge cup 1 via a cover 6. The cover 6 is disposed on the damper 5 and provided with a damper switch member 9 in a rotation or swinging manner, and a buffer stroke of the damper 5 is restricted or restored by rotating or swing the damper switch member 9 when the hinge is opened and/or closed.
One end of the hinge arm 2 is hinged to the movable hinge cup 1 via a pin axle, and the other end of the hinge arm 2 is regulatably coupled to a regulating cover plate 7 via an off-center rivet, wherein the securing member 8 is disposed on the regulating cover plate 7, and a plurality of positioning portions 8.1 are disposed on the securing member 8. The securing member 8 is positioned on the wall panel via the positioning portions 8.1.
Referring to
For those not described herein, reference may be made to the first embodiment.
Described above are preferred solutions of the present invention. All simple variations or modifications made to the preferred solutions by persons of ordinary skill in the art shall be construed as falling within the protection scope of the present invention.
Number | Date | Country | Kind |
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2014 1 0183032 | Apr 2014 | CN | national |
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Number | Date | Country | |
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20150315832 A1 | Nov 2015 | US |