CN210583071U

CN210583071U - Vibration massage machine

Info

Publication number: CN210583071U
Application number: CN201821980968.5U
Authority: CN
Inventors: 卢建余; 宋镕竹; 欧哲文
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-11-29
Filing date: 2018-11-29
Publication date: 2020-05-22
Anticipated expiration: 2028-11-29

Abstract

A vibration massager comprises a vibration device with a power structure, an eccentric structure and a plurality of linkage structures, wherein the eccentric structure is provided with a transmission shaft and an eccentric part, the eccentric part is arranged at two ends of the transmission shaft, one side of the eccentric part, which is different from the transmission shaft, is combined with a first double-bearing plate, the transmission shaft is pivoted on a base, the power structure is fixedly arranged on the transmission shaft and drives the transmission shaft to rotate, and each linkage structure is combined at two sides of the eccentric structure through the first double-bearing plate; by the structure, make the utility model discloses can see through the power structure and provide power after, drive eccentric structure's rotation, and then make the interlock structure with the top down to this reaches the vibrations efficiency.

Description

Vibration massage machine

Technical Field

The present invention relates to a vibration massage machine, and more particularly to a vibration massage machine with a power structure, an eccentric structure and a linkage structure, which can achieve the same vibration effect.

Background

In order to solve the problem that the same posture is maintained for a long time or a long time, the phenomena of muscle soreness and stiffness, unsmooth blood circulation, varicosity and the like are easily caused, and in order to solve the problem, various vibration massage machines are developed by the prior art, the effect of promoting the blood circulation is achieved through a vibration mode, the prior vibration machine can only be used for a specific part, for example, the massage machine for hand vibration can only be used for hands, the massage machine for feet can only be used for feet, and the size of an applicable article of the vibration machine is limited except that the application range of the vibration machine cannot be expanded.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vibration massager, its simple structure, convenient operation can overcome prior art's defect, reaches the vibrations effect with the top down, and uses more extensively, and the adaptability is stronger.

In order to achieve the above object, the utility model discloses a vibration massager, which is characterized in that the vibration massager comprises:

a vibration device having a power structure, an eccentric structure and two linkage structures;

the power structure is driven by a power source to drive a transmission piece;

the eccentric structure is provided with a transmission shaft and two eccentric parts, each eccentric part is respectively arranged at two ends of the transmission shaft, one side of each eccentric part, which is different from the transmission shaft, is combined with a first double-bearing plate, the transmission shaft is pivoted on a base, and the transmission part is fixedly arranged on the transmission shaft and drives the transmission shaft to rotate;

the two linkage structures are respectively arranged on two sides of the transmission shaft, each linkage structure is respectively formed by pivoting two linkage parts, each linkage part is formed by pivoting the middle section of a linkage plate on a bearing positioning seat and pivoting the tail end of the linkage plate on a first lifting part, one end of the linkage plate, which is different from the first lifting part, is fixedly provided with a combination plate, one end of the other linkage plate, which faces the linkage plate, is pivoted with the other first double bearing plate, the other double bearing plate is arranged on the combination plate, so that the linkage plate is linked through the combination plate, and the bearing positioning seats are arranged on the base.

Wherein each eccentric part and the transmission shaft are integrally formed.

Wherein, the two ends of the transmission shaft are respectively pivoted with a bearing seat fixedly arranged on the base.

Wherein, a bushing is sleeved between the transmission shaft and the bearing seat.

The bottom of the first lifting piece of each linkage structure is pivoted with an extending and lifting structure, the extending and lifting structure is formed by pivoting a high-position bearing seat at equal intervals at the middle section position of a first extending plate and pivoting a low-position bearing seat at equal intervals at the middle section position of a second extending plate, one ends, adjacent to the first extending plate and the second extending plate, of the first extending plate are jointly pivoted by a second double-bearing plate, the other end of the first extending plate is pivoted to the first lifting piece, and the other end of the second extending plate is pivoted to the second lifting piece.

Wherein, the length of the first extension plate is longer than that of the second extension plate.

Wherein, the length of the first extending plate is equal to that of the second extending plate.

Wherein, the length of the first extension plate is less than that of the second extension plate.

And a device to be lifted is arranged at the tops of the first lifting pieces and the second lifting pieces.

Wherein, the device to be lifted is a plate body or a seat body.

Through the structure, the vibration massager of the utility model can drive the eccentric structure to rotate after providing power through the power structure, so that the linkage structure is as the same as the upper and lower structure, thereby achieving the vibration effect, and a plate body or a chair body can be arranged above the linkage structure to be used as a vibration application carrier, and if the plate body is used, a mattress can be placed above the linkage structure or a user can stand to massage feet; if the chair body is placed, the chair can be used for the user to sit and stand to massage the buttocks.

The utility model discloses do and reach the extension effect of this interlock structure, this interlock structure is with this extension structure of lifting and is being same from top to bottom, can be in response to a great device of treating the lifting of size.

Additionally, the utility model discloses can change the length of this first extension board and this second extension board, application lever principle makes this power structure need not take too much strength of force can lift the great device of treating lifting of weight.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a perspective exploded view of the present invention.

Fig. 3 is a schematic view of the first embodiment taken along the line 3-3 in fig. 1.

Fig. 3A is an enlarged schematic view of a portion of the structure of fig. 3.

Fig. 4 is a schematic view of a second embodiment taken along section 3-3 of fig. 1.

Fig. 4A is an enlarged schematic view of a portion of the structure of fig. 4.

Fig. 5 is a schematic view of a third embodiment taken along the line 3-3 in fig. 1.

Fig. 5A is an enlarged schematic view of a portion of the structure of fig. 5.

Fig. 6 is a schematic view of a first embodiment of the combination extension and lifting structure of the present invention.

Fig. 7 is a schematic view of a second embodiment of the combination extension and lifting structure of the present invention.

Fig. 8 is a schematic view of a third embodiment of the combination extension and lifting structure of the present invention.

Fig. 9 is a schematic view of a fourth embodiment of the combination extension and lifting structure of the present invention.

Figure 10 is a schematic view of an embodiment of the present invention applied by a user after the lifting device is combined.

Detailed Description

Referring to fig. 1 and 2, the present invention discloses a vibration massage machine, which comprises a vibration device 10 having a power structure 20, an eccentric structure 30 and two linkage structures 40. The power structure 20 is composed of a power source 21 and a transmission member 22, wherein the power source 21 drives the transmission member 22 to rotate; the eccentric structure 30 has a transmission shaft 31 and two eccentric members 33, each eccentric member 33 is respectively disposed at two ends of the transmission shaft 31, and one side of each eccentric member 33 different from the transmission shaft 31 is combined with a first double-bearing plate 60, two sides of the transmission shaft 31 are respectively pivoted to a plurality of bearing seats 32, the transmission member 22 is fixedly disposed on the transmission shaft 31, when the transmission member 22 is driven by the power source 21 to rotate, the power source 21 indirectly drives the transmission shaft 31 to rotate, and the bearing seats 32 are respectively disposed on a base 12; the linking structures 40 are respectively disposed on two sides of the transmission shaft 31, each linking structure 40 is formed by pivotally connecting two linking members 41, each linking member 41 is a linking plate 411 whose middle section is pivotally disposed on a bearing positioning seat 412 and whose end is pivotally disposed on a first lifting member 413, wherein a combining plate 42 is fixedly disposed at an end of one linking plate 411 different from the first lifting member 413, the other linking plate 411 is pivotally connected to another first dual-bearing plate 60 at an end of the linking plate 411, the other dual-bearing plate 60 is disposed on the combining plate 42, the linking plate 411 is linked through the combining plate 42, and the bearing positioning seats 412 are disposed on the base 12.

Fig. 3-5A disclose various embodiments of the shaft 31 and the bearing blocks 32.

Referring to fig. 3 and 3A in combination with fig. 1, a first implementation manner of combining the transmission shaft 31 and the bearing seats 32 is shown, after one end of the transmission shaft 31 penetrates through the bearing seat 32, the eccentric member 33 is disposed, the position of the eccentric member 33 is located between the transmission shaft 31 and the first double-bearing plate 60, and the transmission shaft 31, the eccentric member 33, the first double-bearing plate 60 and the linkage structure 40 are sequentially fixed, so that when the power source 21 applies a force, the transmission member 22 can drive the transmission shaft 31 to rotate, and the linkage structure 40 can move up and down.

Referring to fig. 4 and 4A, in combination with fig. 1, a second implementation manner of combining the transmission shaft 31 and the bearing seats 32 is shown, a bushing 34 is sleeved between the transmission shaft 31 and the bearing seats 32, so that the transmission shaft and the bearing seats 32 can be stabilized, the bushing 34 can also prevent abrasion between the transmission shaft 31 and the bearing seats 32, when the bushing 34 is abraded to a certain degree, the replacement is convenient and the price is low, one end of the transmission shaft 31 penetrates through the bearing seats 32, an eccentric member 33 is then arranged, and by sequentially fixing the transmission shaft 31, the eccentric member 33, the first double-bearing plate 60 and the linkage structure 40, when the power source 21 applies force, the transmission member 22 can drive the transmission shaft 31 to rotate, so that the linkage structure 40 can move up and down.

Referring to fig. 5 and 5A, and fig. 1 showing a third implementation manner of combining the transmission shaft 31 and the bearing seats 32, a bushing 34 is sleeved between the transmission shaft 31 and the bearing seats 32, so that the transmission shaft and the bearing seats 32 are stable, the bushing 34 can also prevent abrasion between the transmission shaft 31 and the bearing seats 32, when the bushing 34 is abraded to a certain degree, the replacement is convenient and the cost is low, one end of the transmission shaft 31 penetrates through the bearing seats 32, the transmission shaft 31 and an eccentric member 33 are integrally formed, the transmission shaft 31 directly penetrates through the bearing seats 32 and is fixedly arranged on the first double-bearing plate 60 and the linkage structure 40, so that when the power source 21 applies force, the transmission member 22 can drive the transmission shaft 31 to rotate, and the linkage structure 40 can move up and down.

Fig. 6 to 9 disclose that the linking structure 40 can be extended with at least one extending and lifting structure 50 at two sides for extension, specifically, the extending and lifting structure 50 is pivoted at the bottom of the first lifting member 413 of each linking structure 40, the extending and lifting structure 50 is formed by a high-position bearing seat 51 pivoted at the middle position of a first extending plate 52 at equal intervals and a low-position bearing seat 53 pivoted at the middle position of a second extending plate 54 at equal intervals, one end of the first extending plate 52 adjacent to the second extending plate 54 is pivoted by a second double-bearing plate 62, the other end of the first extending plate 52 is pivoted to the first lifting member 413, and the other end of the second extending plate 54 is pivoted to a second lifting member 55.

Therefore, referring to fig. 6 to 9 in conjunction with fig. 1 and 2, when the eccentric structure 30 is driven by the rotation of the power structure 20, the first double-bearing plate 60 will be driven to move up and down; when the first double-bearing plate 60 is displaced downward, the combination plate 42 is also displaced downward, and one end of the linkage plate 411 connected to the combination plate 42 is tilted downward and the other end is moved upward (see-saw principle), so that the first lifting member 413 is displaced upward and then takes the high bearing seat 51 as a fulcrum, one end of the first extending plate 52 combined with the first lifting member 413 is moved upward by the upward displacement of the first lifting member 413, the other end of the first extension plate 52 will move downward and drive the second dual-bearing plate 62 downward, and the same concept uses the lower bearing seat 53 as a pivot, the second extension plate 54 and the second double-bearing plate 62 are combined to move downward at one end and move upward at the other end to drive the second lifting member 55 to move upward at the same time, therefore, the first lifting members 413 and the second lifting members 55 can be arranged on the same top or the same bottom.

In addition, it can be seen from fig. 6 to 9 that a device to be lifted 70 is disposed on top of the first lifting members 413 and the second lifting members 55, when the first lifting members 413 and the second lifting members 55 are upward together, the device to be lifted 70 is moved upward, and when the first lifting members 413 and the second lifting members 55 are downward together, the device to be lifted 70 is moved downward, and the device to be lifted 70 may be a plate or a seat.

The lengths of the first extension plates 52 and the second extension plates 54 disclosed in fig. 6 and 7 are the same, except that the lengths of the first extension plates 52 and the second extension plates 54 of fig. 6 are greater than the lengths of the first extension plates 52 and the second extension plates 54 of fig. 7; the length of the first extension plates 52 is greater than the length of the second extension plates 54 as shown in FIG. 8; the length of the first extension plates 52 is less than the length of the second extension plates 54 as disclosed in fig. 9.

Referring to fig. 10 in conjunction with fig. 1 and fig. 2, a user can stand on the device to be lifted 70, and the power structure 20 drives the eccentric structure 30 to rotate, so that when the eccentric structure 30 is driven by the rotation of the power structure 20, the first double-bearing plate 60 is driven to move up and down; when the first double-bearing plate 60 is displaced downward, the combination plate 42 is also displaced downward, and the end of the linkage plate 411 connected to the combination plate 42 is tilted downward, and the other end is moved upward (see-saw principle), so that the first lifting member 413 is displaced upward; on the contrary, when the first double-bearing plate 60 moves upward, the combination plate 42 also moves upward, and the end of the linkage plate 411 connected to the combination plate 42 moves upward, while the other end tilts downward (see the seesaw principle), so that the first lifting member 413 moves downward, and the linkage structure 40 moves upward and downward according to the above-mentioned operation principle, thereby achieving the effect of vibration massage.

Claims

1. A vibration massage machine is characterized by comprising:

the power structure is driven by a power source to drive a transmission piece;

2. The vibrating massager of claim 1 wherein each eccentric member is integrally formed with the drive shaft.

3. The vibrating massager of claim 1 wherein each of the two ends of the transmission shaft is pivotally connected to a bearing seat fixed to the base.

4. The vibration massage machine as claimed in claim 3, wherein a bushing is sleeved between the transmission shaft and the bearing seat.

5. The vibration massage machine as claimed in claim 1, wherein an extension lifting structure is pivoted to the bottom of the first lifting member of each linkage structure, the extension lifting structure is formed by a high-level bearing seat being pivoted at equal intervals to the middle position of a first extension plate and a low-level bearing seat being pivoted at equal intervals to the middle position of a second extension plate, the adjacent ends of the first extension plate and the second extension plate are pivoted by a second double-bearing plate, the other end of the first extension plate is pivoted to the first lifting member, and the other end of the second extension plate is pivoted to a second lifting member.

6. The vibratory massager of claim 5 wherein the first extension plate length is greater than the second extension plate length.

7. The vibratory massager of claim 5 wherein the first extension plate length is equal to the second extension plate length.

8. The vibratory massager of claim 5 wherein the first extension plate length is less than the second extension plate length.

9. The vibrating massager of claim 5 wherein a device to be lifted is provided at the top of the first lifting members and the second lifting members.

10. The vibration massage machine as claimed in claim 9, wherein the means to be lifted is a plate or a seat.