CN218419060U - Novel take spring multiaxis to hold vibrations chair structure - Google Patents

Abstract

The utility model relates to a vibrations chair, concretely relates to novel take spring multiaxis to hold vibrations chair structure, include: the vibration device comprises a vibration frame, a bottom frame, a spring assembly, a bearing plate, a motor assembly and an adjustable foot support; wherein the spring components are respectively installed and fixed at the tops of two sides of the underframe; wherein, the bearing components are respectively installed and fixed at the tops of two sides of the underframe; wherein the top of the bearing plate is fixedly arranged at the bottom of the vibration frame; wherein the spring assembly is arranged at one side of the bearing assembly; wherein the motor component is fixedly arranged on the motor plate; wherein the motor component 7 is connected with the vibration frame; wherein the adjustable foot supports are fixedly arranged at the bottom of the underframe; the motor assembly works to drive the vibration frame to move, and the vibration frame moves to drive the bearing to slide on the bearing rod; wherein the vibration frame moves to drive the spring component to swing; wherein the spring assembly swings to cushion the additional pressure caused by the motor motion. The beneficial effects are that: more comfortable, more labor-saving and more stable.

Description

Novel take spring multiaxis to hold vibrations chair structure

Technical Field

The utility model relates to a novel vibrations chair for furniture, especially a more comfortable more laborsaving more steady take spring multiaxis to hold vibrations chair structure.

Background

Chairs are the most widely used furniture in life. The vibrating chair is a popular chair, and the existing vibrating chair only uses a motor or other single structures for vibrating. The problems of unsmooth vibration, poor comfort and the like exist, the market development is more and more advanced, and the existing vibration chair is urgently needed to be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a more comfortable more laborsaving more steady take spring multiaxis to hold vibrations chair structure.

This novel technical scheme who provides is: a novel vibration chair structure with springs and multiple bearings comprises a vibration frame, a bottom frame, a spring assembly, a bearing plate, a motor assembly and an adjustable foot support; wherein the number of the spring components is at least two; wherein the spring components are respectively installed and fixed on the tops of two sides of the underframe; the spring assembly comprises a spring fixing piece and a spring, wherein the spring fixing piece is fixed at two ends of the spring;

wherein the bearing assemblies are at least two groups; wherein, the bearing components are respectively installed and fixed at the tops of two sides of the underframe; wherein the bearing assembly comprises a bearing frame, a bearing rod and a bearing; wherein the bottom of the bearing frame is fixed on the underframe; wherein, two ends of the bearing rod are respectively fixed on the bearing frame; wherein, the number of the bearing rods is at least 2, and the 2 bearing rods are respectively arranged in parallel up and down; wherein the bearing is arranged between the two bearing rods;

wherein, two sides of the bearing are respectively connected with a fixed bearing plate; wherein the top of the bearing plate is fixedly arranged at the bottom of the vibration frame;

wherein, the spring fixing piece at one end of the spring is fixedly arranged at the bottom of the vibration frame; wherein the spring fixing piece at the other end of the spring is fixedly arranged on the underframe;

wherein the spring assembly is arranged at one side of the bearing assembly; wherein the motor plate is arranged on the bottom frame; wherein the motor component is fixedly arranged on the motor plate; wherein the motor component is connected with the vibration frame; wherein the adjustable foot supports are fixedly arranged at the bottom of the underframe;

wherein the bearing component is used for the parallel sliding of the vibration frame; wherein the spring is used to reduce the extra pressure caused by the sloshing.

Further optimization, wherein the motor assembly comprises a motor, a multi-groove belt and a connecting device; wherein one end of the multi-groove belt is connected with the connecting device; the other end of the multi-groove belt is connected with the motor, and the other end of the connecting device is connected with the vibration frame; the connecting device is connected with the vibration frame through a connecting spring, a rubber ring and a fixing plate, wherein the fixing plate is arranged at the bottom of the vibration frame; wherein the connecting device is fixedly connected on the fixing plate by a connecting spring and a rubber ring; wherein the connecting spring and the rubber ring are used for enabling the motion of the vibration frame to be more stable when the motor vibrates.

Further optimizing, wherein the underframe is provided with a foot support fixing sheet; the adjustable foot support is used for installing and fixing the adjustable foot support.

Further optimize, wherein adjustable heel brace is circular-arc for the plastic, wherein the top of adjustable heel brace is the hob for rotatory height-adjusting.

Further optimization, the motor assembly works to drive the vibration frame to move, and the vibration frame moves to drive the bearing to slide on the bearing rod; wherein the vibration frame moves to drive the spring component to swing; wherein the spring assembly swings to cushion the additional pressure caused by the motor motion.

After having adopted above-mentioned technical scheme, this neotype beneficial effect is:

for the technical scheme who has revealed, this novel spring mattress, its innovation point lies in, through providing a fore-and-aft motor element power, makes it produce vibrations effect, supports and leads through sixteen belt bearing pulleys, has increased sixteen springs as supporting, can effectual reduction by rocking the extra pressure that brings.

Drawings

FIG. 1 is a structural diagram of a novel multi-bearing vibration chair with springs;

FIG. 2 is an overall view of a novel structure of a vibrating chair with spring multi-bearing;

FIG. 3 is a diagram of a bearing assembly and spring assembly for a novel spring multi-bearing shock chair configuration;

fig. 4 is a diagram of a motor assembly of a novel structure of a vibrating chair with spring multi-bearing.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings 1 to 4 and specific embodiments, but the present invention is not limited thereto.

Examples

As shown in fig. 1 to 4, a novel multi-bearing vibration chair structure with springs comprises a vibration frame 1, a bottom frame 2, a spring assembly 3, a bearing assembly 4, a bearing plate 5, a motor plate 6, a motor assembly 7 and an adjustable foot support 8; wherein the number of the spring components 3 is at least two; the spring assembly 3 comprises a spring fixing piece 31 and a spring 32, wherein the spring fixing piece 31 is fixed at two ends of the spring 32; wherein the bearing assemblies 4 are at least two sets; wherein the bearing assembly 4 comprises a bearing frame 41, a bearing rod 42 and a bearing 43; wherein the bottom of the bearing frame 41 is fixed on the bottom frame 2; wherein, two ends of the bearing rod 42 are respectively fixed on the bearing frame 41; wherein, the number of the bearing rods 42 is at least 2, and the 2 bearing rods 42 are respectively arranged in parallel up and down; wherein the bearing 43 is arranged in the middle of the two bearing rods 42; wherein, two sides of the bearing 43 are respectively connected with the fixed bearing plate 5;

wherein the bearing assembly 4 is used for the parallel sliding of the vibration frame 1; wherein the spring 32 is used to reduce the additional pressure caused by sloshing. Wherein the motor assembly 7 comprises a motor 71, a multi-groove belt 72 and a connecting device 73; wherein one end of the multi-groove belt 72 is connected with a connecting device 73; the other end of the multi-groove belt 72 is connected with the motor 71, and the other end of the connecting device 73 is connected with the vibration frame 1; wherein, the connection part of the connecting device 73 and the vibration frame 1 is provided with a connecting spring 74, a rubber ring 75 and a fixing plate 76, wherein the fixing plate 76 is arranged at the bottom of the vibration frame 1; wherein the connecting device 73 is connected and fixed on the fixing plate 76 by a connecting spring 74 and a rubber ring 75; wherein the coupling spring 74 and the rubber ring 75 are used to make the movement of the shock frame 1 smoother when the motor 71 is vibrated. Wherein the underframe 2 is provided with a foot support fixing sheet 21; for mounting and fixing the adjustable foot support 8. The adjustable foot support 8 is in a plastic arc shape, and the top of the adjustable foot support 8 is provided with a screw rod 81 for rotatably adjusting the height.

As shown in the attached fig. 1 to 4, the implementation of a novel multi-bearing vibrating chair structure with springs comprises the following steps: wherein the spring components 3 are respectively installed and fixed on the tops of two sides of the bottom frame 2; wherein the bearing assemblies 4 are respectively installed and fixed at the tops of two sides of the underframe 2; wherein the top of the bearing plate 5 is fixedly arranged at the bottom of the vibration frame 1; wherein, one end of the spring 32 is fixed at the bottom of the vibration frame 1 by the spring fixing part 31; wherein, the other end of the spring 32 is fixed on the underframe 2 by the spring fixing piece 31; wherein the spring assembly 3 is arranged at one side of the bearing assembly 4; wherein the motor plate 6 is arranged on the underframe 2; wherein the motor component 7 is fixedly arranged on the motor plate 6; wherein the motor component 7 is connected with the vibration frame 1; wherein the adjustable foot support 8 is fixedly arranged at the bottom of the underframe 2; wherein the motor component 7 works to drive the vibration frame 1 to move, wherein the vibration frame 1 moves to drive the bearing 43 to slide on the bearing rod 42; wherein the vibration frame 1 moves to drive the spring component 3 to swing; wherein the spring assembly 3 swings to dampen the additional pressure caused by the movement of the motor 71. The novel object is thereby achieved. Through providing a fore-and-aft motor element power, make it produce vibrations effect, support and lead through sixteen tape bearing pulleys, increased sixteen springs as supporting, can effectual reduction by rocking the extra pressure of bringing.

It will be appreciated by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (5)

1. A novel take spring multiaxis to hold vibrations chair structure includes: the vibration device comprises a vibration frame, a bottom frame, a spring assembly, a bearing plate, a motor assembly and an adjustable foot support; it is characterized in that the preparation method is characterized in that,

wherein the number of the spring components is at least two; wherein the spring components are respectively installed and fixed at the tops of two sides of the underframe; the spring assembly comprises a spring fixing piece and a spring, wherein the spring fixing piece is fixed at two ends of the spring;

wherein the bearing assemblies are at least two groups; wherein, the bearing components are respectively installed and fixed at the tops of two sides of the underframe; wherein the bearing assembly comprises a bearing frame, a bearing rod and a bearing; wherein the bottom of the bearing frame is fixed on the underframe; wherein, two ends of the bearing rod are respectively fixed on the bearing frame; wherein, the number of the bearing rods is at least 2, and the 2 bearing rods are respectively arranged in parallel up and down; wherein the bearing is arranged between the two bearing rods;

wherein, two sides of the bearing are respectively connected with a fixed bearing plate; wherein the top of the bearing plate is fixedly arranged at the bottom of the vibration frame;

wherein, the spring fixing piece at one end of the spring is fixedly arranged at the bottom of the vibration frame; wherein the spring fixing piece at the other end of the spring is fixedly arranged on the underframe;

wherein the spring assembly is arranged at one side of the bearing assembly; wherein the motor plate is arranged on the bottom frame; wherein the motor component is fixedly arranged on the motor plate; wherein the motor component is connected with the vibration frame; wherein the adjustable foot supports are fixedly arranged at the bottom of the underframe;

wherein the bearing assembly is used for the parallel sliding of the vibration frame; wherein the spring is used to reduce the extra pressure caused by the sloshing.

2. The novel multi-bearing vibrating chair structure with springs as claimed in claim 1, wherein: the motor assembly comprises a motor, a multi-groove belt and a connecting device; wherein one end of the multi-groove belt is connected with the connecting device; the other end of the multi-groove belt is connected with the motor, and the other end of the connecting device is connected with the vibration frame; wherein the connecting spring, the rubber ring and the fixed plate are arranged at the connecting part of the connecting device and the vibration frame, and the fixed plate is arranged at the bottom of the vibration frame; wherein the connecting device is fixedly connected on the fixing plate by a connecting spring and a rubber ring; wherein the connecting spring and the rubber ring are used for making the motion of the vibration frame more stable when the motor vibrates.

3. A novel multi-bearing shock chair structure with springs as claimed in claim 1 or 2, wherein: wherein the underframe is provided with a foot support fixing sheet; the adjustable foot support is used for installing and fixing the adjustable foot support.

4. The novel multi-bearing vibrating chair structure with springs as claimed in claim 1, wherein: the adjustable foot support is in a plastic arc shape, and the top of the adjustable foot support is provided with a screw rod for rotating and adjusting the height.

5. The novel vibrating chair structure with multiple bearings and springs as claimed in claim 1, wherein: the motor assembly works to drive the vibration frame to move, and the vibration frame moves to drive the bearing to slide on the bearing rod; wherein the vibration frame moves to drive the spring component to swing; wherein the spring assembly swings to cushion the additional pressure caused by the motor motion.

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