CN219460699U - Flexibly-adjusted handrail - Google Patents

Abstract

The utility model discloses a flexibly-adjusted armrest, which comprises an adjusting piece, a bracket used for connecting a seat and a bracket used for supporting arms of a human body, wherein the adjusting piece is arranged between the bracket and is configured to enable the bracket to be movably arranged on the bracket; the adjusting piece is provided with a first adjusting shaft and a second adjusting shaft, the first adjusting shaft is arranged along the left-right direction, the second adjusting shaft is perpendicular to the first adjusting shaft, and the bracket selectively rotates around the first adjusting shaft and the second adjusting shaft; in contrast to the prior art, the movable connection of the bracket is achieved by providing an adjustment between the bracket and the bracket; the adjusting piece is provided with a first adjusting shaft and a second adjusting shaft, the first adjusting shaft is perpendicular to the second adjusting shaft, and the bracket can rotate around the first adjusting shaft or the second adjusting shaft respectively, so that the position and the posture of the bracket can be adjusted in multiple directions, and arms of a human body under more postures can be supported.

Description

Flexibly-adjusted handrail

Technical Field

The utility model relates to the field of furniture, in particular to a flexibly-adjustable armrest.

Background

In order to improve the comfort of the seat, the existing seat is generally provided with armrests so as to support the arms of a user and improve the sitting comfort. Generally, existing armrests of seats are mainly divided into a fixed armrest and a movable armrest, the fixed armrest is fixedly arranged on the seat to provide an arm supporting function, and the movable armrest can adjust the position and the posture of the armrest relative to the seat, so that the arms of a human body can be supported under different human body postures.

The movable armrest has various types, such as an armrest with a lifting function, a rotary armrest with a rotating function and the like, for the rotary armrest, the existing rotary armrest has a single function, the armrest can only rotate relative to the seat in the front-rear direction when in use, and the arm of a user can only be placed on the armrest according to a relatively fixed posture, but the arm of the user can present different postures in different use occasions, for example, the arm can have different most comfortable postures when the user looks at a mobile phone, knocks a keyboard, plays a game, reads books and the like, but the existing seat armrest can not provide adaptive comfortable support for various arm postures.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a flexibly adjustable armrest, which comprises a bracket for connecting a seat and a bracket for supporting arms of a human body, wherein an adjusting piece is arranged between the bracket and the bracket to realize movable connection of the bracket; the adjusting piece is provided with a first adjusting shaft and a second adjusting shaft, the first adjusting shaft is perpendicular to the second adjusting shaft, and the bracket can rotate around the first adjusting shaft or the second adjusting shaft respectively, so that the position and the posture of the bracket can be adjusted in multiple directions, and arms of a human body under more postures can be supported.

The technical scheme of the utility model is realized as follows:

a flexibly adjustable armrest comprising:

a bracket configured to be coupled to the seat and to support the bracket;

a bracket configured to support a human arm;

an adjusting member disposed between the bracket and configured to movably dispose the bracket on the bracket; the adjusting piece is provided with a first adjusting shaft and a second adjusting shaft, the first adjusting shaft is arranged along the left-right direction, the second adjusting shaft is perpendicular to the first adjusting shaft, and the bracket selectively rotates around the first adjusting shaft and the second adjusting shaft.

The bracket is movably arranged on the bracket through the adjusting piece and can rotate around the first adjusting shaft and the second adjusting shaft respectively, when the bracket rotates around the first adjusting shaft, one end of the bracket can rotate up and down, when the bracket rotates around the second adjusting shaft, one end of the bracket can rotate left and right, and the bracket can keep stable after each rotation; the bracket can rotate up and down around the first adjusting shaft after rotating left and right around the second adjusting shaft so as to present multiple postures, thus realizing more flexible adjustment and supporting arms under more human postures; when a user looks at the mobile phone, the brackets at the two sides of the seat can be folded inwards and tilted upwards after the structure is adjusted, so that the most comfortable support for the arms of the human body is provided.

Preferably, the bracket has a connecting end and a movement end, the adjusting element being connected to the connecting end, the movement end being configured to move the movement end such that the bracket rotates about the first adjustment axis and/or the second adjustment axis. The two ends of the bracket are respectively a connecting end and a moving end, so that the connecting end can only rotate but not move when the bracket rotates, and the moving end can both rotate and move, thereby realizing the change of the bracket posture.

Preferably, the armrest has an initial state in which the connecting end of the bracket is located on the front side and a movement end is located on the rear side; in the adjustment state, the moving end rotates upward or downward around the first adjustment axis, and the moving end rotates forward or backward around the second adjustment axis. The moving end in the initial state is positioned behind the connecting end, and is in a conventional armrest posture at the moment, namely, a user can place an arm on the bracket when sitting normally; in the adjusting state, the adjusting piece between the bracket and the bracket is similar to a joint, and only one end of the bracket is connected with the bracket, so that the bracket is similar to a flexibly movable support arm and can have more postures after rotating around the first adjusting shaft and the second adjusting shaft.

Preferably, a limiting table is arranged below the bracket and protrudes downwards from the bracket, and in an initial state, the limiting table is positioned at the rear side of the adjusting piece, and in the initial state, the limiting table is abutted against the bracket. The movement end of the bracket is prevented from being deflected downwards in the initial state by the limiting table.

Preferably, the bracket comprises a vertically arranged body and a horizontally arranged extension arm, wherein the extension arm is arranged at the upper end part of the body and extends forwards beyond the body.

Preferably, the front end of the extension arm is provided with two supports, the two supports are arranged at left and right intervals, and the adjusting piece is rotatably arranged between the two supports through a rotating shaft arranged along the left and right directions; the first adjusting shaft is the axis of the rotating shaft, and the bracket rotates around the rotating shaft along with the adjusting piece. The first adjusting shaft is the axis of the rotating shaft, and the bracket specifically rotates along with the adjusting piece around the rotating shaft.

Preferably, a friction element is arranged between the adjusting element and both the support seats, the friction element being configured to increase the friction force between the adjusting element and the support seats. The friction piece for increasing friction force can realize stepless adjustment by rotating the adjusting piece and the support, namely realize stepless adjustment of the up-and-down rotation of the bracket.

Preferably, the rotating shaft is a bolt, a nut is arranged in one of the friction pieces, the rotating shaft rotates through the two friction pieces and is locked with the nut, and the bolt and the nut are configured to enable the two friction pieces to hug the adjusting piece after being locked. The adjusting piece is tightly held by the two friction pieces through the bolts and the nuts, and the friction force is further increased, so that the bracket after stepless adjustment can be kept stable, and the arm of a human body can be supported without passively changing the posture.

Preferably, the friction member is soft rubber. The material has greater friction and does not crush the adjustment member.

Preferably, a limiting block is arranged at the lower end part of the adjusting piece, protrudes from the adjusting piece, and is configured to provide rotation limiting for the adjusting piece. The adjusting piece is limited by the limiting block, so that the bracket is prevented from rotating downwards excessively in the adjusting state.

Preferably, the adjusting member includes a rotating column perpendicular to the rotating shaft and protruding from the adjusting member, the bracket is rotatably disposed on the rotating column, and the second adjusting shaft is an axis of the rotating column. The bracket can also rotate around the rotating column after rotating around the rotating shaft, and the bracket does not simply rotate left and right any more at this time but rotates around the rotating column in an inclined manner.

The design starting point, the idea and the beneficial effects of the utility model adopting the technical scheme are as follows:

the existing movable armrests are often arranged on the seat in a T-shaped integral form, and the transverse parts for supporting the arms and the vertical parts serving as main body supports tend to move together, so that the flexibility required by the independent movement of the transverse parts is not achieved; so from the flexibility of the transverse component, the transverse component is separated from the vertical component as far as possible, thereby reducing the constraint of the vertical component to the transverse component and freeing the flexibility of the transverse component, and mainly comprising two points: firstly, an adjusting piece is arranged between the transverse component and the vertical component so as to enable the transverse component and the vertical component to move, and the transverse component can rotate around two perpendicular adjusting shafts of the adjusting piece, so that the movement direction of the transverse component is more, and the posture of the transverse component relative to the vertical component is more; secondly, the connection point of the transverse component and the vertical component is not in the middle of the transverse component but at one end of the transverse component, so that the transverse component can be flexibly changed towards the arm; therefore, after changing the thinking that the armrest is a whole, the transverse component and the longitudinal component have more definite functional positioning, namely, the longitudinal component is used as a main body support and can also be used for adjusting the height, and the transverse component is used as a component for supporting the arm and is flexibly and movably arranged on the longitudinal component, so that the arm can be reasonably and comfortably supported under more human postures.

Specifically, the bracket is movably arranged on the bracket through the adjusting piece and can rotate around the first adjusting shaft and the second adjusting shaft respectively, when the bracket rotates around the first adjusting shaft, one end of the bracket can rotate up and down, when the bracket rotates around the second adjusting shaft, one end of the bracket can rotate left and right, and the bracket can keep stable after each rotation; the bracket can rotate up and down around the first adjusting shaft after rotating left and right around the second adjusting shaft so as to present multiple postures, thus realizing more flexible adjustment and supporting arms under more human postures; when a user looks at the mobile phone, the brackets at the two sides of the seat can be folded inwards and tilted upwards after the structure is adjusted, so that the most comfortable support for the arms of the human body is provided.

The moving end in the initial state is positioned behind the connecting end, and is in a conventional armrest posture at the moment, namely, a user can place an arm on the bracket when sitting normally; in the adjusting state, the adjusting piece between the bracket and the bracket is similar to a joint, and only one end of the bracket is connected with the bracket, so that the bracket is similar to a flexibly movable support arm and can have more postures after rotating around the first adjusting shaft and the second adjusting shaft.

The movement end of the bracket is prevented from downward deflection in the initial state by the limiting table; the adjusting piece is limited by the limiting block, so that the bracket is prevented from rotating downwards excessively in the adjusting state. Therefore, the bracket rotates around the rotating column in the rotating process, after the limiting platform rotates away from the extension arm, the bracket can rotate up and down around the rotating shaft, and at the moment, the bracket can still rotate around the rotating column, so that the bracket has more postures to support arms of a human body in different scenes.

Drawings

FIG. 1 is a perspective view of the handrail in an initial state according to an embodiment of the present utility model;

FIG. 2 is a second perspective view of the armrest in an initial state according to the present utility model;

FIG. 3 is an exploded view of the armrest in an embodiment of the present utility model;

FIG. 4 is a schematic perspective view showing a bracket rotating around a second adjusting axis according to an embodiment of the present utility model;

FIG. 5 is a schematic perspective view of the bracket rotated about the first adjustment axis in the state of FIG. 4;

FIG. 6 is a schematic diagram showing a second perspective structure of the bracket rotated around a second adjusting axis according to the embodiment of the utility model;

FIG. 7 is a schematic perspective view of the bracket rotated about the first adjustment axis in the state of FIG. 6;

FIG. 8 is a schematic perspective view of the armrest in an adjusted state according to an embodiment of the present utility model;

fig. 9 is a schematic perspective view of an adjusting member according to an embodiment of the present utility model.

The reference numerals are as follows: a bracket 1; an extension arm 11; an L-shaped rod 12; a housing 13; a support 14; a bracket 2; a connection end 21; a moving end 22; an adjusting member 3; a rotating section 31; a seat 32; a first adjustment shaft 4; a second adjustment shaft 5; a friction member 6; a bolt 7; a nut 8; a rotating column 9; a lock block 10; a limit table 15; and a stopper 16.

Description of the embodiments

In order that the above-recited objects, features and advantages of the present utility model will be more clearly understood, a more particular description of the utility model will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced in other ways than those described herein, and therefore the scope of the present utility model is not limited to the specific embodiments disclosed below.

In the description of the present utility model, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The specific embodiments of the present utility model are as follows:

the existing movable armrests are often arranged on the seat in a T-shaped integral form, and the transverse parts for supporting the arms and the vertical parts serving as main body supports tend to move together, so that the flexibility required by the independent movement of the transverse parts is not achieved; so from the flexibility of the transverse component, the transverse component is separated from the vertical component as far as possible, thereby reducing the constraint of the vertical component to the transverse component and freeing the flexibility of the transverse component, and mainly comprising two points: firstly, an adjusting piece 3 is arranged between a transverse component and a vertical component so as to enable the transverse component and the vertical component to move, and the transverse component can rotate around two perpendicular adjusting shafts of the adjusting piece 3, so that the movement direction of the transverse component is more, and the posture of the transverse component relative to the vertical component is more; secondly, the connection point of the transverse component and the vertical component is not in the middle of the transverse component but at one end of the transverse component, so that the transverse component can be flexibly changed towards the arm; therefore, after changing the thinking that the armrest is a whole, the transverse component and the longitudinal component have more definite functional positioning, namely, the longitudinal component is used as a main body support and can also be used for adjusting the height, and the transverse component is used as a component for supporting the arm and is flexibly and movably arranged on the longitudinal component, so that the arm can be reasonably and comfortably supported under more human postures.

As shown in fig. 1, 3, 7 and 8, the present utility model provides a flexibly adjustable armrest, which comprises a bracket 1, a bracket 2, and an adjusting member 3, wherein the bracket 1 is configured to be connected to a seat and support the bracket 2, the bracket 2 is configured to support an arm of a human body, and the adjusting member 3 is disposed between the bracket 1 and the bracket 2 and is configured to movably dispose the bracket 1 on the bracket 2; the adjusting member 3 has a first adjusting shaft 4 and a second adjusting shaft 5, the first adjusting shaft 4 is disposed along a left-right direction, the second adjusting shaft 5 is perpendicular to the first adjusting shaft 4, and the bracket 2 selectively rotates around the first adjusting shaft 4 and the second adjusting shaft 5.

The bracket 2 in this embodiment is the above transverse component, the bracket 1 is the above longitudinal component, the bracket 2 is movably disposed on the bracket 1 through the adjusting member 3 and can rotate around the first adjusting shaft 4 and the second adjusting shaft 5 respectively, when the bracket 2 rotates around the first adjusting shaft 4, one end of the bracket 2 can rotate up and down, when the bracket 2 rotates around the second adjusting shaft 5, one end of the bracket 2 can rotate left and right, and the bracket 2 can keep stable after each rotation; namely, after the bracket 2 rotates left and right around the second adjusting shaft 5, the bracket can rotate up and down around the first adjusting shaft 4 again so as to present multiple postures, thus realizing more flexible adjustment and being capable of supporting arms under more human postures; when a user looks at the mobile phone, after the structure is adjusted, the brackets 2 at the two sides of the seat can be folded inwards and tilted upwards, so that the most comfortable support for the arms of the human body is provided.

As shown in fig. 1 to 3, in particular, the bracket 1 comprises a vertically arranged body and a horizontally arranged extension arm 11, the extension arm 11 being arranged at the upper end of the body and extending forward beyond the body; the body comprises an L-shaped rod 12 and a shell 13 sleeved outside the L-shaped rod 12, and a lifting assembly is arranged between the shell 13 and the L-shaped rod 12 so as to realize lifting of the shell 13 on the L-shaped rod 12; the rear end part of the extension arm 11 is arranged on the upper end part of the shell 13, and the extension arm 11 and the shell 13 are also L-shaped; the lifting assembly is not important in this embodiment, and is not described in detail herein.

As shown in fig. 3 and 4, the front end of the extension arm 11 is provided with two supports 14, the two supports 14 are arranged at left and right intervals, and the adjusting piece 3 is rotatably arranged between the two supports 14 through a rotating shaft arranged along the left and right direction; the first adjusting shaft 4 is the axis of the rotating shaft, and the bracket 2 rotates around the rotating shaft along with the adjusting piece 3; the adjusting piece 3 comprises a rotating part 31 and a seat part 32, the left side and the right side of the adjusting piece 3 are thinned inwards to form a flat rotating part 31, the rotating part 31 is positioned between the two supports 14, the seat part 32 is exposed out of the two supports 14, the upper surface of the seat part 32 is flat to contact the bottom surface of the bracket 2, the upper surface profile of the seat part 32 is circular, and the bracket 2 is arranged on the seat part 32 and can rotate relative to the seat part 32; the two supports 14 are in a circular ring shape, friction pieces 6 are arranged between the adjusting piece 3 and the two supports 14, the friction pieces 6 are configured to increase friction force between the adjusting piece 3 and the supports 14, and the friction pieces 6 used for increasing friction force between the adjusting piece 3 and the two supports 14 enable the rotation of the adjusting piece 3 and the supports 14 to realize stepless adjustment, namely realize stepless adjustment of the up-and-down rotation of the bracket 2; the friction piece 6 is made of soft rubber material, and the friction force of the material is larger and the adjusting piece 3 cannot be crushed; the rotating shaft is a bolt 7, a nut 8 is arranged in one friction piece 6, the rotating shaft rotates through the two friction pieces 6 and is locked with the nut 8, and the bolt 7 and the nut 8 are configured to enable the two friction pieces 6 to tightly hold the rotating part 31 of the adjusting piece 3 after the two friction pieces are locked; the rotating part 31 is tightly held by the two friction pieces 6 through the bolts 7 and the nuts 8, so that the support seat 2 after stepless adjustment can be kept stable after friction force is further increased, and the arm of a human body can be supported without passively changing the posture.

As shown in fig. 9, the upper surface of the seat 32 is provided with a rotating column 9, the rotating column 9 is perpendicular to the rotating shaft and the upper surface of the seat 32, the rotating column 9 protrudes out of the upper surface of the seat 32, the rotating column 9 is inserted into the bracket 2, the bracket 2 is rotatably arranged on the rotating column 9, and the second adjusting shaft 5 is the axis of the rotating column 9; the upper end of the rotating column 9 is also connected with a locking block 10, and the locking block 10 is arranged inside the bracket 2 to prevent the bracket 2 from separating from the rotating column 9; after the bracket 2 has been rotated about the rotation axis, it can also be rotated about the rotation column 9, and in this case the bracket 2 is not rotated simply left and right but is rotated obliquely about the rotation column 9.

The bracket 2 has a connecting end 21 and a moving end 22, the adjusting member 3 being connected to the connecting end 21, the moving end 22 being configured to move the moving end 22 to rotate the bracket 2 about the first adjusting shaft 4 and/or the second adjusting shaft 5; specifically, the rotating post 9 on the seat 32 is inserted into the connecting end 21, and the seat 32 is in rotating fit with the connecting end 21; the two ends of the bracket 2 are respectively provided with a connecting end 21 and a moving end 22, so that when the bracket 2 rotates, the connecting end 21 can only rotate but can not move, and the moving end 22 can both rotate and move, thereby realizing the change of the posture of the bracket 2.

As shown in fig. 4-8, the armrest has an initial state in which the connecting end 21 of the bracket 2 is located on the front side and the moving end 22 is located on the rear side; in the adjustment state, the moving end 22 rotates upward or downward about the first adjustment shaft 4, and the moving end 22 rotates forward or backward about the second adjustment shaft 5; the moving end 22 in the initial state is located behind the connecting end 21, and is in a conventional armrest posture, i.e. the user can place the arm on the bracket 2 when sitting normally; in the adjustment state, the adjusting piece 3 between the bracket 2 and the bracket 1 is similar to a joint, and only one end of the bracket 2 is connected with the bracket 1 to form a support arm which can flexibly move, and can have more postures after rotating around the first adjusting shaft 4 and the second adjusting shaft 5.

A limiting table 15 is arranged below the bracket 2, the limiting table 15 protrudes downwards from the bracket 2, and in an initial state, the limiting table 15 is positioned at the rear side of the adjusting piece 3, and in the initial state, the limiting table 15 is abutted against the bracket 1, so that the movement end 22 of the bracket 2 is prevented from being deflected downwards in the initial state; a limiting block 16 is arranged at the lower end part of the rotating part 31, the limiting block 16 is a triangular convex block, the limiting block 16 protrudes out of the rotating part 31, and the limiting block 16 is configured to provide rotation limiting for the rotating part 31; the adjustment member 3 is restrained to prevent the bracket 2 from being excessively rotated downward in the adjusted state. Therefore, the bracket 2 rotates around the rotating post 9, and after the limiting table 15 rotates away from the extension arm 11, the bracket 2 can rotate up and down around the rotating shaft, and the bracket 2 can still rotate around the rotating post 9, so that the bracket 2 has more postures to support the arms of the human body in different scenes.

Claims (11)

1. A flexibly adjustable armrest, comprising:

a bracket configured to be coupled to the seat and to support the bracket;

a bracket configured to support a human arm;

an adjusting member disposed between the bracket and configured to movably dispose the bracket on the bracket; the adjusting piece is provided with a first adjusting shaft and a second adjusting shaft, the first adjusting shaft is arranged along the left-right direction, the second adjusting shaft is perpendicular to the first adjusting shaft, and the bracket selectively rotates around the first adjusting shaft and the second adjusting shaft.

2. The flexibly adjustable armrest of claim 1, wherein: the bracket has a connecting end and a moving end, the adjusting piece is connected with the connecting end, and the moving end is configured to move the moving end to enable the bracket to rotate around the first adjusting shaft and/or the second adjusting shaft.

3. The flexibly adjustable armrest of claim 2, wherein: the handrail has an initial state and an adjustment state, in the initial state, the connecting end of the bracket is positioned at the front side, and the moving end is positioned at the rear side; in the adjustment state, the moving end rotates upward or downward around the first adjustment axis, and the moving end rotates forward or backward around the second adjustment axis.

4. A flexibly adjustable armrest as recited in claim 3, wherein: and a limiting table is arranged below the bracket and protrudes downwards from the bracket, and in an initial state, the limiting table is positioned at the rear side of the adjusting piece and is abutted against the bracket in the initial state.

5. The flexibly adjustable armrest of claim 1, wherein: the support includes the body of vertical setting and the extension arm of level setting, and the extension arm setting just surpasses in the body forward at the upper end of body.

6. The flexibly adjustable armrest of claim 5, wherein: the front end of the extension arm is provided with two supports which are arranged at left and right intervals, and the adjusting piece is rotatably arranged between the two supports through a rotating shaft which is arranged along the left and right direction; the first adjusting shaft is the axis of the rotating shaft, and the bracket rotates around the rotating shaft along with the adjusting piece.

7. The flexibly adjustable armrest of claim 6, wherein: friction pieces are arranged between the adjusting piece and the two supports, and the friction pieces are configured to increase friction between the adjusting piece and the supports.

8. The flexibly adjustable armrest of claim 7, wherein: the rotating shaft is a bolt, a nut is arranged in one friction piece, the rotating shaft rotates through the two friction pieces and is locked with the nut, and the bolt and the nut are configured to enable the two friction pieces to hug the adjusting piece after being locked.

9. The flexibly adjustable armrest of claim 7, wherein: the friction piece is soft rubber.

10. The flexibly adjustable armrest of claim 6, wherein: the lower tip of adjusting piece is equipped with the stopper, and the stopper protrusion is in adjusting piece, and the stopper disposes to provide the rotation spacing for adjusting piece.

11. The flexibly adjustable armrest of claim 6, wherein: the adjusting piece comprises a rotating column which is perpendicular to the rotating shaft and protrudes out of the adjusting piece, the bracket is rotatably arranged on the rotating column, and the second adjusting shaft is the axis of the rotating column.