CN219272071U - Swing armrest structure of exercise bicycle - Google Patents

Abstract

The utility model relates to the technical field of body-building equipment, and provides a swinging handrail structure of a body-building vehicle, which comprises a handrail, a swinging seat and a display, wherein the swinging seat is fixedly assembled on a vehicle body bracket, the display is fixedly assembled on the top of the swinging seat, the handrail is horizontally and penetratingly assembled in the swinging seat, and the handrail can swing up and down by taking the swinging seat as a fulcrum under the action of external force. The swinging handrail structure of the exercise bicycle can move up and down in the vertical direction, so that the actions of a rider are matched with the scene in the simulation environment, the experience of the rider is improved, and the body functional organs such as feet, hands, eyes and brain of the rider are comprehensively exercised.

Description

Swing armrest structure of exercise bicycle

Technical Field

The utility model relates to the technical field of body-building equipment, in particular to a swinging armrest structure of a body-building vehicle.

Background

Experience sense upgrading especially enables vision upgrading to be a development trend and research hot spot of the existing body-building bicycle and spinning, such as adding video containing riding routes, game video and improving riding simulation effect.

In traditional body-building bicycle and spinning structure, all adopt the structural design of fixed handrail, in the use, owing to lack movable mechanism between handrail structure part and the automobile body structure, ride the action of user and can't fuse with the scene in the simulation environment, ride the simulation degree and the simulation effect and wait to improve. The structural design of the armrest part is improved, so that the armrest part can move up and down in the vertical direction, the action of a user can be matched with a scene in a simulation environment, the experience of the user is improved, and the highly simulated riding experience is provided for the user.

Therefore, how to provide a safe and stable swing handrail structure has important significance.

Disclosure of Invention

In view of the above, the present utility model is directed to a swing armrest structure of an exercise bicycle to overcome the shortcomings of the prior art.

The utility model provides a swinging armrest structure of an exercise bicycle, which comprises armrests, swinging seats and a display, wherein the swinging seats are fixedly assembled on a bicycle body bracket, the display is fixedly assembled on the top of the swinging seats, the armrests are horizontally and penetratingly assembled in the swinging seats, and the armrests can swing up and down by taking the swinging seats as fulcrums under the action of external force.

Further, the swing seat comprises a rotating shaft, a rotating magnet, an angle sensor base and an angle sensor, wherein the angle sensor base is coaxially arranged on one side of one end of the rotating shaft, the angle sensor is fixedly assembled on one side of the angle sensor base, and the rotating magnet is fixedly assembled at the end part of the rotating shaft, which is close to the angle sensor.

Further, the swinging armrest structure of the exercise bicycle comprises a swinging seat base, a bearing seat, a first bearing, a second bearing and a rotating shaft, wherein the first bearing and the second bearing are respectively assembled at two ends of the bearing seat fixed on the swinging seat base, and two ends of the rotating shaft are respectively sleeved in the first bearing and the second bearing.

Further, in the swing handrail structure of the exercise bicycle, a rotating shaft first positioning protrusion and a rotating shaft second positioning protrusion are arranged on a rotating shaft body, a first rotary spring is sleeved on the outer side of the rotating shaft between one end of a first bearing and the first positioning protrusion of the rotating shaft, a first bearing positioning plate is fixedly assembled on the outer side of one end of a bearing seat, and a first positioning nut is assembled on the outer side of one end of the rotating shaft to position and fix the first bearing; the second rotary spring is sleeved on the outer side of the rotating shaft between one end of the second bearing and the second positioning protrusion of the rotating shaft, the second bearing positioning plate is fixedly assembled on the outer side of the other end of the bearing seat, and the second positioning nut is assembled on the outer side of one end of the rotating shaft to position and fix the second bearing.

Further, in the swing handrail structure of the exercise bicycle, the upper part of the middle part of the handrail body is integrally and continuously provided with the fixed knob male seat, the center of the fixed knob male seat is provided with the through hole, and the second fixed sleeve is fixedly assembled in the through hole in a coaxial manner.

Further, in the swing armrest structure of the exercise bicycle, the rotating shaft assembly holes are arranged below the fixed knob male seat, and two spring sockets are arranged on the side wall of the armrest body.

Further, in the swing armrest structure of the exercise bicycle, the spring sockets are distributed on two sides of the male seat of the fixed knob and on two sides of the assembly hole of the rotating shaft.

Further, according to the swing armrest structure of the exercise bicycle, the fixed knob female seat is fixedly assembled on the outer side of the second bearing positioning plate, the upper portion of the fixed knob female seat is provided with the through hole, the first fixed sleeve is fixedly assembled in the through hole in a coaxial mode, and the fixed knob is axially movably assembled in the first fixed sleeve on the fixed knob female seat in a coaxial mode.

Further, in the exercise bicycle rocking handrail structure, the rocking seat base is fixedly assembled in the rocking seat base bottom shell, rocking windows are respectively arranged on two sides of the rocking seat base bottom shell, and the handrail penetrates through the rocking windows and penetrates through the rocking seat base bottom shell.

The swing handrail structure of the exercise bicycle has the following beneficial effects:

1. the device can move up and down in the vertical direction, so that the actions of a user are matched with scenes in a simulation environment, the experience of the user is improved, the highly simulated riding experience is provided for the user, the user obtains riding fun similar to the highly simulated actual riding, the tedious sense of the user on the movement is reduced, and the user is facilitated to keep on the continuous movement exercise;

2. through the up-and-down swinging of the armrests and the output conversion of the swinging signals, the exercise of the interactive game movement can be provided, so that the body functional organs such as feet, hands, eyes and brain of a user can be comprehensively exercised.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a swing armrest structure of an exercise bicycle of the present utility model;

FIG. 2 is a schematic view of a swing seat of the swing armrest structure of the exercise bicycle according to the present utility model;

FIG. 3 is a schematic view of a part of the swing arm structure of the exercise bicycle of the present utility model;

FIG. 4 is a schematic view of a part of the swing arm structure of the exercise bicycle of the present utility model;

in the figure, 001-car body bracket, 002-armrest, 003-swing seat, 004-display, 005-swing seat base, 006-bearing seat, 007-first bearing, 008-second bearing, 009-rotation shaft, 010-rotation shaft first positioning protrusion, 011-rotation shaft second positioning protrusion, 012-first bearing positioning plate, 013-rotation magnet, 014-second bearing positioning plate, 015-first swivel spring, 016-second swivel spring, 017-fixed knob female seat, 018-angle sensor base, 019-angle sensor, 020-fixed knob, 021-fixed knob male seat, 022-first fixed sleeve, 023-second fixed sleeve, 024-swing seat base bottom shell, 025-swing window, 026-spring socket, 027-rotation shaft assembly hole, 028-first positioning nut, 029-second positioning nut.

Detailed Description

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, this embodiment provides a swing handrail structure of exercise bicycle, including handrail 002, swing seat 003 and display 004, swing seat 003 fixed mounting is on automobile body support 001, and display 004 fixed mounting is at the top of swing seat 003, and handrail 002 level link up the assembly in swing seat 003, and handrail 002 can use swing seat 003 as the fulcrum under the effect of external force and swing from top to bottom.

As shown in fig. 2 and 3, in the swing armrest structure of the exercise bicycle of the present embodiment, the swing seat 003 includes a rotation shaft 009, a rotary magnet 013, an angle sensor base 018 and an angle sensor 019, wherein the angle sensor base 018 is coaxially disposed at one side of one end of the rotation shaft 009, the angle sensor 019 is fixedly mounted at one side of the angle sensor base 018, and the rotary magnet 013 is fixedly mounted at an end of the rotation shaft 009 close to the angle sensor 019.

Specifically, as shown in fig. 2, in the swing armrest structure of the exercise bicycle of this embodiment, the swing seat 003 includes a swing seat base 005, a bearing seat 006, a first bearing 007, a second bearing 008 and a rotation shaft 009, the first bearing 007 and the second bearing 008 are respectively assembled at two ends of the bearing seat 006 fixed on the swing seat base 005, and two ends of the rotation shaft 009 are respectively sleeved in the first bearing 007 and the second bearing 008.

As shown in fig. 2, 3 and 4, in the swing armrest structure of the exercise bicycle of the present embodiment, a rotation shaft first positioning protrusion 010 and a rotation shaft second positioning protrusion 011 are provided on a body of a rotation shaft 009, a first swivel spring 015 is sleeved outside the rotation shaft 009 between one end of a first bearing 007 and the rotation shaft first positioning protrusion 010, a first bearing positioning plate 012 is fixedly assembled outside one end of a bearing seat 006, and a first positioning nut 028 is assembled outside one end of the rotation shaft 009 to position and fix the first bearing 007; the second rotary spring 016 is sleeved on the outer side of the rotary shaft 009 between one end of the second bearing 008 and the second positioning protrusion 011 of the rotary shaft, the second bearing positioning plate 014 is fixedly assembled on the outer side of the other end of the bearing seat 006, and the second positioning nut 029 is assembled on the outer side of one end of the rotary shaft 009 to position and fix the second bearing 008.

As shown in fig. 3 and 4, in the swing armrest structure of the exercise bicycle of this embodiment, a fixed knob male seat 021 is integrally and continuously disposed above the middle portion of the armrest 002 body, a through hole is disposed in the center of the fixed knob male seat 021, and a second fixing sleeve 023 is fixedly assembled in the through hole in a coaxial manner. The armrest 002 is located under the fixed knob male seat 021 and is provided with a rotating shaft assembly hole 027, and the side wall of the armrest 002 body is provided with two spring sockets 026. The spring sockets 026 are distributed on both sides of the fixed knob male seat 021 and on both sides of the rotation shaft assembly hole 027.

As shown in fig. 2 and 3, in the swing armrest structure of the exercise bicycle of the present embodiment, the fixed knob female seat 017 is fixedly assembled on the outer side of the second bearing positioning plate 014, a through hole is provided on the upper portion of the fixed knob female seat 017, the first fixing sleeve 022 is fixedly assembled in the through hole, and the fixed knob 020 is axially movably assembled in the first fixing sleeve 022 on the fixed knob female seat 017.

As shown in fig. 3, in the swing armrest structure of the exercise bicycle of this embodiment, the swing seat base 005 is fixedly assembled in the swing seat base bottom housing 024, and swing windows 025 are respectively disposed on two sides of the swing seat base bottom housing 024, and the armrest 002 penetrates through the swing windows 025 and penetrates through the swing seat base bottom housing 024.

The application principle of the swing handrail structure of the exercise bicycle of the embodiment is as follows:

under the action of external force, the up-and-down swing of the armrest 002 drives the rotation shaft 009 to rotate, the rotary magnet 013 is fixedly assembled at the end part of the rotation shaft 009 and is relatively static with the rotation shaft, the angle sensor 019 senses and checks the change of the rotation angle of the rotary magnet 013 through an integrated chip of the integrated double-shaft Hall element and outputs the change to a microprocessor in the display 004 in an analog signal or digital signal mode, and the microprocessor outputs voltage or current signals through encoding and decoding or outputs digital signals in a serial communication mode.

The first swivel spring 015 and the second swivel spring 016 can ensure that the rotation shaft 009 is in the middle of swinging left and right when in a free state; when the fixed knob 020 is axially rotated into the fixed knob male seat 021, the fixed knob male seat 021 and the fixed knob female seat 017 can be in a locking state, the rotary shaft 009 is locked in the middle of the left-right swing, the rotary shaft 009 cannot swing, and when the fixed knob 020 is reversely rotated out, the locking of the fixed knob male seat 021 and the fixed knob female seat 017 is released, and the armrest 002 can swing up and down in the swing window 025.

The swinging handrail structure of the exercise bicycle can move up and down in the vertical direction, so that the actions of a user can be matched with scenes in a simulation environment, the experience of the user is improved, the highly simulated riding experience is provided for the user, the user obtains riding fun which is similar to the highly simulated actual riding, the tedious sense of the user on the movement is reduced, and the user is facilitated to keep doing continuous movement exercise; through the up-and-down swinging of the armrests and the output conversion of the swinging signals, the exercise of the interactive game movement can be provided, so that the body functional organs such as feet, hands, eyes and brain of a user can be comprehensively exercised.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the scope of the present utility model should be included in the present utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (9)

1. The utility model provides a body-building car sways handrail structure which characterized in that, body-building car sways handrail structure includes handrail, sways seat and display, sways seat fixed mounting on the automobile body support, and display fixed mounting is at the top of swaing the seat, and the handrail level link up the assembly in swaing the seat, and the handrail can use swaing the seat and be swung from top to bottom as the fulcrum under the effect of external force.

2. The swing armrest structure of the exercise bicycle according to claim 1, wherein the swing seat comprises a rotation shaft, a rotation magnet, an angle sensor base and an angle sensor, wherein the angle sensor base is coaxially disposed at one side of one end of the rotation shaft, the angle sensor is fixedly mounted at one side of the angle sensor base, and the rotation magnet is fixedly mounted at an end portion of the rotation shaft close to the angle sensor.

3. The swing armrest structure of the exercise bicycle according to claim 2, wherein the swing seat comprises a swing seat base, a bearing housing, a first bearing, a second bearing and a rotating shaft, the first bearing and the second bearing are respectively assembled at both ends of the bearing housing fixed on the swing seat base, and both ends of the rotating shaft are respectively sleeved in the first bearing and the second bearing.

4. The swing handrail structure of an exercise bicycle according to claim 3, wherein a body of the rotating shaft is provided with a first positioning protrusion of the rotating shaft and a second positioning protrusion of the rotating shaft, the first rotary spring is sleeved outside the rotating shaft between one end of the first bearing and the first positioning protrusion of the rotating shaft, the first bearing positioning plate is fixedly assembled outside one end of the bearing seat, and the first positioning nut is assembled outside one end of the rotating shaft to position and fix the first bearing; the second rotary spring is sleeved on the outer side of the rotating shaft between one end of the second bearing and the second positioning protrusion of the rotating shaft, the second bearing positioning plate is fixedly assembled on the outer side of the other end of the bearing seat, and the second positioning nut is assembled on the outer side of one end of the rotating shaft to position and fix the second bearing.

5. The swing armrest structure of the exercise bicycle according to claim 4, wherein a fixing knob male seat is integrally provided above the middle portion of the armrest body, a through hole is provided in the center of the fixing knob male seat, and the second fixing sleeve is fixedly fitted in the through hole with a center.

6. The swing armrest structure of the exercise bicycle according to claim 5, wherein the armrest is provided with a rotation shaft assembly hole below the fixed knob male seat, and two spring sockets are provided on a side wall of the armrest body.

7. The swing armrest structure of the exercise bicycle according to claim 6, wherein the spring sockets are disposed on both sides of the fixed knob male seat and on both sides of the rotation shaft assembly hole.

8. The swing armrest structure of the exercise bicycle according to claim 7, wherein the fixed knob boss is fixedly assembled on the outer side of the second bearing positioning plate, a through hole is provided at an upper portion of the fixed knob boss, the first fixing sleeve is fixedly assembled in the through hole, and the fixed knob is axially movably assembled in the first fixing sleeve on the fixed knob boss.

9. The swing arm structure of claim 8, wherein the swing base is fixedly mounted in the swing base bottom shell, swing windows are respectively provided on both sides of the swing base bottom shell, and the arm penetrates through the swing windows and penetrates through the swing base bottom shell.

Images