CN218390365U - Novel suspension type vibration chair structure with sling - Google Patents

Abstract

The utility model relates to a vibrations chair, concretely relates to novel floated vibrations chair structure of hoist cable, include: the device comprises a vibration frame, a fixed frame, a magnetic suspension assembly, an eccentric wheel assembly, a sling component, a motor plate, a motor assembly and supporting legs. Wherein the top of the magnet rod is fixedly arranged at the bottom of the side edge of the upper frame; wherein the lower magnet is fixedly arranged at the bottom of the inner side of the side frame; wherein the top of the eccentric plate is fixedly arranged at the bottom of the eccentric wheel beam; wherein the top of the sling component is fixedly arranged at the bottom of the upper frame; wherein the bottom of the sling component is fixedly arranged at the bottom of the inner side of the side frame; wherein the motor plate is fixedly arranged on the underframe of the fixed frame; wherein the motor component is fixedly arranged on the motor plate; wherein the supporting legs are fixedly arranged at the bottom of the underframe of the fixed frame; wherein the homopolarity of the upper magnet and the lower magnet is repulsive; the vibration frame is used for keeping quiet when moving; wherein the eccentric wheel component is used for reducing noise and making the vibration frame more stable and quieter when moving. The beneficial effects are that: quieter, more labor-saving and more stable.

Description

Novel suspension type vibration chair structure with sling

Technical Field

The utility model relates to a novel vibration chair for furniture, in particular to a quieter, more labor-saving and more stable suspension type vibration chair structure with suspension cables.

Background

Chairs are the most widely used furniture in life. The vibrating chair is a popular chair, and the existing vibrating chairs only use a motor or other single structures for vibrating. The problems of unsmooth vibration, poor comfort, high noise and the like exist, the market development is in a new and different day, and the existing vibration chair is in urgent need of improvement.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a more quiet more laborsaving more steady suspension type vibrations chair structure of hoist cable.

This novel technical scheme who provides is: a novel sling suspension type vibration chair structure comprises a vibration frame, a fixed frame, a magnetic suspension assembly, an eccentric wheel assembly, a sling component, a motor plate, a motor assembly and supporting legs;

the vibration frame comprises a side frame and an eccentric wheel beam; wherein the side frames are respectively arranged at two sides of the vibration frame; wherein the eccentric wheel beam is arranged at the top of the vibration frame, and the eccentric wheel beam is arranged at one side of the side frame; and is parallel to the side frame,

the fixed frame comprises an upper frame, a fixed column and a bottom frame; wherein the upper frame is arranged above the bottom frame; wherein the top end of the fixed column is fixed at the bottom of the upper frame, and the bottom end of the fixed column is fixed at the top of the underframe;

the magnetic suspension assembly comprises a magnet rod, an upper magnet and a lower magnet; wherein the upper magnet is fixed at one end of the magnet rod; wherein the lower magnet is arranged below the upper magnet; wherein the top of the magnet rod is fixedly arranged at the bottom of the side edge of the upper frame; wherein the lower magnet is fixedly arranged at the bottom of the inner side of the side frame;

wherein the eccentric wheel component comprises an upper wheel, a lower wheel, a supporting rod and an eccentric plate; wherein, a lower wheel is arranged between the two upper wheels, wherein, the support rod is arranged at the bottom of the upper wheel and the top of the lower wheel, and the upper wheel and the lower wheel horizontally slide on the support rod; wherein the eccentric plates are respectively arranged on two sides of the upper wheel and the lower wheel; wherein the top of the eccentric plate is fixedly arranged at the bottom of the eccentric wheel beam; wherein, two ends of the supporting rod are respectively installed and fixed on the fixing column;

wherein the top of the sling component is fixedly arranged at the bottom of the upper frame; wherein the bottom of the sling component is fixedly arranged at the bottom of the inner side of the side frame;

wherein the motor plate is fixedly arranged on the underframe of the fixed frame; wherein the motor component is fixedly arranged on the motor plate; wherein the supporting legs are fixedly arranged at the bottom of the underframe of the fixed frame;

wherein the homopolarity of the upper magnet and the lower magnet is repulsive; the vibration frame is used for keeping quiet when moving;

wherein the eccentric wheel component is used for reducing noise and making the vibration frame more stable and quieter when moving.

Further preferred, wherein the sling component comprises a sling and a sling mount; wherein, the two ends of the sling are respectively provided with sling fixing pieces which are used for connecting and fixing the sling; wherein the sling components are respectively arranged at two sides of the magnetic suspension component.

Further optimization, wherein the motor assembly comprises a motor and a connecting device; wherein connecting device one end is connected the motor, and wherein the connecting device other end is connected vibrations frame, and wherein connecting device and vibrations frame junction are equipped with connecting spring and rubber sleeve, and wherein connecting spring and rubber sleeve are used for making the motion of vibrations frame more steady when the motor shakes.

Further optimized, the fixed frame is arranged inside the vibrating frame.

Further optimize, wherein the magnet pole top is equipped with the magnet pole stationary blade, and wherein the magnet pole stationary blade is used for fixing the magnet pole in upper ledge side bottom.

Further optimize, wherein the supporting legs are plastic circular arc-shaped, and are used for making the fixing frame placed more stably.

Further optimization, the motor assembly works to drive the vibration frame to move, and the vibration frame moves to drive the eccentric plate to pull the upper wheel and the lower wheel to slide on the supporting rod; the vibration frame moves to drive the magnetic suspension assembly to move, wherein two homopolarities of an upper magnet and a lower magnet of the magnetic suspension assembly repel each other, and no noise is generated in the moving process; wherein the vibration frame moves to drive the sling part to swing.

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, drives the vibrations frame through motor and eccentric wheel, makes its small amplitude reciprocating motion to reach the effect of vibrations, the spring is still put with vibrations frame junction to the link means, also can play the noise abatement, lets its more even effect of motion. The vibration frame and the fixed frame are connected through a sling component, eight magnetic suspension assemblies are respectively arranged on two sides of the vibration frame and used for increasing the whole bearing capacity through the repulsive force of the magnet, the noise is reduced when the motor drives the vibration frame to do small-amplitude reciprocating motion, and the supporting rod is clamped by eight pulleys and plays a role in guiding. The adjustable rubber foot in bottom can adsorb on the floor, reduces and rocks by vibrations and bring, makes whole framework more stable.

Drawings

FIG. 1 is a structural diagram of a novel sling suspension type vibration chair;

FIG. 2 is an overall view of a novel sling suspension type shaking chair;

FIG. 3 is a top view of a novel suspension cable suspension shock chair;

FIG. 4 is a side view of a novel sling-suspended shock chair configuration;

FIG. 5 is a diagram of an eccentric wheel assembly of a novel sling suspension shaker chair construction;

figure 6 is a diagram of the motor assembly of a new sling suspension shock chair configuration.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings 1 to 6 and specific embodiments, but the present invention is not limited thereto.

Examples

As shown in the attached drawings 1 to 6, a novel sling suspension type vibration chair structure comprises a vibration frame 1, a fixed frame 2, a magnetic suspension component 3, an eccentric wheel component 4, a sling component 5, a motor plate 6, a motor component 7 and supporting legs 8;

wherein the vibration frame 1 comprises a side frame 11 and an eccentric wheel beam 12; wherein, the side frames 11 are respectively arranged at two sides of the vibration frame 12; wherein the eccentric wheel beam 12 is arranged at the top of the vibration frame 1, and the eccentric wheel beam 12 is arranged at one side of the side frame 11; and is parallel to the side frame 11, wherein the fixed frame 2 comprises an upper frame 21, a fixed column 22 and a bottom frame 23; wherein the upper frame 21 is arranged above the bottom frame 23; wherein the magnetic suspension assembly 3 comprises a magnet rod 31, an upper magnet 32 and a lower magnet 33; wherein the eccentric wheel assembly 4 comprises an upper wheel 41, a lower wheel 42, a supporting rod 43 and an eccentric plate 44; a lower wheel 42 is arranged between the two upper wheels 41, wherein a support rod 43 is arranged at the bottom of the upper wheel 41 and at the top of the lower wheel 42, and the upper wheel 41 and the lower wheel 42 horizontally slide on the support rod 43; wherein the eccentric plates 44 are respectively arranged at two sides of the upper wheel 41 and the lower wheel 42; wherein the sling part 5 comprises a sling 51 and a sling holder 52; wherein, two ends of the sling 51 are respectively provided with sling fixing pieces 52, and the sling fixing pieces 52 are used for connecting and fixing the sling 51; wherein the sling parts 5 are respectively arranged at two sides of the magnetic suspension component 3. Wherein the motor assembly 7 comprises a motor 71 and a connecting device 72; one end of the connecting device 72 is connected with the motor 71, the other end of the connecting device 72 is connected with the vibration frame 1, a connecting spring 73 and a rubber sleeve 74 are arranged at the joint of the connecting device 72 and the vibration frame 1, and the connecting spring 73 and the rubber sleeve 74 are used for enabling the vibration frame 1 to move more stably when the motor 71 vibrates. Wherein the fixed frame 2 is arranged inside the shaking frame 1. Wherein, the top of the magnet rod 31 is provided with a magnet rod fixing piece 311, and the magnet rod fixing piece 311 is used for fixing the magnet rod 31 at the bottom of the side edge of the upper frame 21. Wherein the supporting legs 8 are in the shape of a plastic arc for making the fixed frame 2 placed more stably.

As shown in the accompanying fig. 1 to 6, an implementation of a novel sling suspension type vibrating chair structure: wherein the top end of the fixed column 22 is fixed at the bottom 21 of the upper frame, and the bottom end of the fixed column 22 is fixed at the top 23 of the bottom frame;

wherein, the upper magnet 33 is fixed at one end of the magnet rod 31; wherein the lower magnet 33 is disposed below the upper magnet 32; wherein the top of the magnet rod 31 is fixed at the bottom of the side of the upper frame 21; wherein, the lower magnet 32 is fixed at the bottom of the inner side of the side frame 11; wherein the top of the eccentric plate 44 is fixed on the bottom of the eccentric wheel beam 12; wherein, two ends of the supporting rod 43 are respectively fixed on the fixing column 22; wherein the top of the sling component 5 is fixed at the bottom of the upper frame 21; wherein the bottom of the sling component 5 is fixedly arranged at the bottom of the inner side of the side frame 11; wherein the motor plate 6 is fixedly arranged on the bottom frame 23 of the fixed frame 2; wherein the motor component 7 is fixedly arranged on the motor plate 6; wherein the supporting feet 8 are fixedly arranged at the bottom of the underframe 23 of the fixed frame 2; wherein the upper magnet 32 and the lower magnet 33 have two like poles repelling each other; for keeping the vibration frame 1 quiet when moving; wherein the eccentric wheel assembly 4 is used for reducing noise and making the vibration frame 1 more stable and quieter when moving. Wherein the motor assembly 7 works to drive the vibration frame 1 to move, wherein the vibration frame 1 moves to drive the eccentric plate 44 to pull the upper wheel 41 and the lower wheel 42 to slide on the support rod 43; the vibration frame 1 moves to drive the magnetic suspension component 3 to move, wherein two homopolarities of an upper magnet 32 and a lower magnet 33 of the magnetic suspension component 3 repel each other, and no noise is generated in the moving process; wherein the vibration frame 1 moves to drive the sling component 5 to swing. This is novel through motor and eccentric wheel drive vibrations frame, makes its small amplitude back and forth movement to reach the effect of vibrations, connecting rod device and vibrations frame connection department still put the spring with the rubber sleeve, also can play noise abatement, let its more even effect of motion. The vibration frame and the fixed frame are connected through a sling component, eight magnetic suspension assemblies are respectively arranged on two sides of the vibration frame and used for increasing the whole bearing capacity through the repulsive force of the magnet, the noise is reduced when the motor drives the vibration frame to do small-amplitude reciprocating motion, and the supporting rod is clamped by eight pulleys and plays a role in guiding. The adjustable rubber foot in bottom can adsorb on the floor, reduces and rocks by vibrations and bring, makes whole framework more stable. Thereby achieving the novel purpose.

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 (7)

1. A novel suspension type vibration chair structure with a sling comprises: the device comprises a vibration frame, a fixed frame, a magnetic suspension assembly, an eccentric wheel assembly, a sling component, a motor plate, a motor assembly and supporting legs; it is characterized in that the preparation method is characterized in that,

the vibration frame comprises a side frame and an eccentric wheel beam; wherein the side frames are respectively arranged at two sides of the vibration frame; wherein the eccentric wheel beam is arranged at the top of the vibration frame, and the eccentric wheel beam is arranged at one side of the side frame; and is parallel to the side frame,

the fixed frame comprises an upper frame, a fixed column and a bottom frame; wherein the upper frame is arranged above the bottom frame; wherein the top end of the fixed column is fixed at the bottom of the upper frame, and the bottom end of the fixed column is fixed at the top of the underframe;

the magnetic suspension assembly comprises a magnet rod, an upper magnet and a lower magnet; wherein the upper magnet is fixed at one end of the magnet rod; wherein the lower magnet is arranged below the upper magnet; wherein the top of the magnet rod is fixedly arranged at the bottom of the side edge of the upper frame; wherein the lower magnet is fixedly arranged at the bottom of the inner side of the side frame;

wherein the eccentric wheel component comprises an upper wheel, a lower wheel, a supporting rod and an eccentric plate; wherein, a lower wheel is arranged between the two upper wheels, wherein, the supporting rod is arranged at the bottom of the upper wheel and the top of the lower wheel, and the upper wheel and the lower wheel horizontally slide on the supporting rod; wherein the eccentric plates are respectively arranged at the two sides of the upper wheel and the lower wheel; wherein the top of the eccentric plate is fixedly arranged at the bottom of the eccentric wheel beam; wherein, two ends of the support rod are respectively fixed on the fixed column;

wherein the top of the sling component is fixedly arranged at the bottom of the upper frame; wherein the bottom of the sling component is fixedly arranged at the bottom of the inner side of the side frame;

wherein the motor plate is fixedly arranged on the underframe of the fixed frame; wherein the motor component is fixedly arranged on the motor plate; wherein the supporting legs are fixedly arranged at the bottom of the underframe of the fixed frame;

wherein two like poles of the upper magnet and the lower magnet repel each other; the vibration frame is used for keeping quiet when moving;

wherein the eccentric wheel component is used for reducing noise and making the vibration frame more stable and quieter when moving.

2. The structure of a new sling suspension shock chair as claimed in claim 1, wherein: wherein the sling component comprises a sling and a sling mount; wherein, the two ends of the sling are respectively provided with sling fixing pieces which are used for connecting and fixing the sling; wherein the sling components are respectively arranged at two sides of the magnetic suspension component.

3. The structure of a new sling suspension shock chair as claimed in claim 1, wherein: the motor assembly comprises a motor and a connecting device; wherein connecting device one end is connected the motor, and wherein the connecting device other end is connected vibrations frame, and wherein connecting device and vibrations frame junction are equipped with connecting spring and rubber sleeve, and wherein connecting spring and rubber sleeve are used for making the motion of vibrations frame more steady when the motor shakes.

4. The structure of the new sling-suspended chair according to claim 1, wherein: wherein the fixed frame is arranged inside the vibrating frame.

5. The structure of a new sling suspension shock chair as claimed in claim 1, wherein: wherein the top of the magnet pole is provided with a magnet pole fixing piece, and the magnet pole fixing piece is used for fixing the magnet pole at the bottom of the side edge of the upper frame.

6. The structure of a new sling suspension shock chair as claimed in claim 1, wherein: the supporting legs are arc-shaped plastic and used for enabling the fixing frame to be placed more stably.

7. The structure of the new sling-suspended chair according to claim 1, wherein: the motor assembly works to drive the vibration frame to move, and the vibration frame moves to drive the eccentric plate to pull the upper wheel and the lower wheel to slide on the supporting rod; the vibration frame moves to drive the magnetic suspension assembly to move, wherein two homopolarities of an upper magnet and a lower magnet of the magnetic suspension assembly repel each other, and no noise is generated in the moving process; wherein the vibration frame moves to drive the sling component to swing.

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