CN110215384A - Muscle vibration gauge - Google Patents

Abstract

Present invention discloses a kind of muscle vibration gauges, including shell, control panel, motor, cam mechanism and vibration head；Control panel, motor and cam mechanism are mounted in shell, and cam mechanism is used to connect the motor shaft of motor, and the side of vibration head connects cam mechanism, and the other side is pierced by shell；Wherein, control panel is electrically connected motor, is moved back and forth when motor shaft rotates by cam mechanism driving vibration head for controlling motor shaft rotation, so that vibration head has vibrating effect.Muscle vibration gauge reliable operation of the invention, energy loss is few, fever is low, noise is small, long service life.

Description

Muscle vibration gauge

Technical field

The present invention relates to massage equipment fields, and in particular to a kind of muscle vibration gauge.

Background technique

In the prior art, the massage effect of muscle massage equipment is poor, so that the experience effect of user is bad.

Summary of the invention

Based on problem of the prior art, the present invention, which provides one kind, can solve that massage effect is poor, user experience is ineffective Muscle vibration gauge.

The present invention proposes that a kind of muscle vibration gauge, the muscle vibration gauge include shell, control panel, motor, cam mechanism And vibration head；The control panel, the motor and the cam mechanism are mounted in the shell, and the cam mechanism is for connecting The motor shaft of the motor is connect, the side of the vibration head connects the cam mechanism, and the other side is pierced by the shell；Wherein,

The control panel is electrically connected the motor, passes through when the motor shaft rotates for controlling the motor shaft rotation Vibration head described in the cam mechanism driving moves back and forth, so that the vibration head has vibrating effect.

Further, the cam mechanism includes equilibrium cam and pull ring；The equilibrium cam side connects the motor shaft, The other side connects the side of the pull ring；The other side of the pull ring connects the vibration head；Wherein, the motor shaft rotation When, drive the equilibrium cam to rotate, the equilibrium cam drives the pull ring to move back and forth when rotating, the pull ring is back and forth transported The vibration head is driven to move back and forth when dynamic.

Further, the cam mechanism further includes being mounted on the intracorporal first bearing of the shell, and the equilibrium cam is worn It is rotated in the first bearing and under the limitation of the first rotating shaft.

Further, shaft coupling is installed, the shaft coupling is separately connected the equilibrium cam and the electricity in the shell Arbor；Wherein, the equilibrium cam rotation is driven by the shaft coupling when motor shaft rotates.

Further, the muscle vibration gauge further includes being mounted on the intracorporal guide rail of shell and guide part；The guide part opens up There is guide-track groove；The guide rail is slidably arranged in the guide-track groove, and one end is rotatablely connected the pull ring, and the other end is fixedly connected The vibration head when pull ring moves back and forth, drives the vibration head to move back and forth by the guide rail.

Further, the cam mechanism further includes second bearing and 3rd bearing；The second bearing and the third axis Hold the two sides for being separately mounted to pull ring；Wherein, the equilibrium cam part penetrates the second bearing by second axis It holds and is rotatablely connected with the pull ring；The rail sections penetrate the 3rd bearing by the 3rd bearing and the pull ring Rotation connection.

Further, the muscle vibration gauge further includes connector, and the connector side is fixedly connected with the guide rail, another Side is threadedly coupled the vibration head.

Further, the equilibrium cam includes protrusion, connecting shaft and eccentric shaft, and the connecting shaft and the eccentric shaft are distinguished It is connected to the two sides of the protrusion；The protrusion is threaded through the first bearing and rotates under the limitation of the first bearing； Motor shaft described in the connection axis connection, it is described bias axis connection described in pull ring；Wherein, the axis of the connecting shaft and it is described partially The axis of mandrel is parallel.

Further, the shell includes handle cylinder, front housing and rear shell, and the front housing and rear shell are connected to handle cylinder two End, the motor are mounted in the handle cylinder, and the cam mechanism is mounted in the front housing, and the control panel is mounted on institute It states in rear shell.

Further, muscle vibration gauge further includes locating piece, and described locating piece one end connects front housing, and the other end connects handle Cylinder, wherein the motor, the first bearing are mounted on the locating piece.

Beneficial effects of the present invention: motor is moved back and forth by cam mechanism driving vibration head, due to cam mechanism structure Compact, high make it possible to of stability moves back and forth at high speed, and then vibration head is made to realize vibration effect in high speed reciprocating motion Fruit, and the movement travel due to cam mechanism, kinetic characteristic and run duration are all determining, so that massaging rhythm when its vibration Preferably.Compared with the device of the reciprocating motions such as cylinder, cam mechanism energy loss is smaller, and movement is more steady, so that it radiates It is less, the case where muscle vibration gauge shell overheats appearance is effectively prevented, and make vibration head when vibrating with more appropriate Impact dynamics, impact force excessive situation when being not in such as cylinder reciprocating motion, it is reciprocal will not to there is such as spring, connecting rod Impact force lesser situation when movement, substantially increases the experience effect of user, improves the service life of muscle vibration gauge.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of muscle vibration gauge provided in an embodiment of the present invention；

Fig. 2 is a kind of explosive view of muscle vibration gauge provided in an embodiment of the present invention；

Fig. 3 is a kind of cut away view of muscle vibration gauge provided in an embodiment of the present invention；

Fig. 4 is the structural schematic diagram of equilibrium cam in Fig. 2.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

(such as up, down, left, right, before and after, level, vertical it is to be appreciated that the directional instruction of institute in the embodiment of the present invention Deng) be only used for explaining in relative positional relationship, the motion conditions etc. under a certain particular pose (as shown in the picture) between each component, If the particular pose changes, directionality instruction is also correspondingly changed correspondingly, and " connection " can be directly It connects in succession, is also possible to be indirectly connected with, " setting ", " being set to ", " being set to " can be and be directly arranged in, between being also possible to It is arranged in.

In addition, the description for being such as related to " first ", " second " in the present invention is used for description purposes only, and should not be understood as Its relative importance of indication or suggestion or the quantity for implicitly indicating indicated technical characteristic.Define as a result, " first ", The feature of " second " can explicitly or implicitly include at least one of the features.In addition, the technical side between each embodiment Case can be combined with each other, but must be based on can be realized by those of ordinary skill in the art, when the combination of technical solution Conflicting or cannot achieve when occur will be understood that the combination of this technical solution is not present, also not the present invention claims guarantor Within the scope of shield.

Referring to Fig. 1 to Fig. 4, Fig. 1 to Fig. 4 shows an a kind of embodiment of muscle vibration gauge of the present invention, in the present embodiment, The muscle vibration gauge includes shell, control panel 110, motor 100, cam mechanism and vibration head 140；Control panel 110, motor 100 and cam mechanism be mounted in shell, cam mechanism is used to connect the motor shaft of motor 100, the side connection of vibration head 140 Cam mechanism, the other side are pierced by shell；Wherein, control panel 110 is electrically connected motor 100, for controlling motor shaft rotation, motor shaft It when rotation, is moved back and forth by cam mechanism driving vibration head 140, so that vibration head 140 has vibrating effect.

In the present embodiment, motor 100 is moved back and forth by cam mechanism driving vibration head 140, due to cam mechanism knot Structure is compact, high make it possible to of stability moves back and forth at high speed, and then vibration head 140 is made to realize vibration in high speed reciprocating motion Dynamic effect, and the movement travel due to cam mechanism, kinetic characteristic and run duration are all determining, so that being massaged when its vibration Rhythm is preferable.Compared with the device of the reciprocating motions such as cylinder, cam mechanism energy loss is smaller, and movement is more steady, so that its The case where radiating less, effectively preventing muscle vibration gauge shell overheat appearance, and make vibration head 140 when vibrating with more Suitable impact dynamics, impact force excessive situation when being not in such as cylinder reciprocating motion, will not occur such as spring, connecting rod Deng impact force lesser situation when moving back and forth, the experience effect of user is substantially increased, the use of muscle vibration gauge is improved Service life.

In an alternative embodiment, such as in the present embodiment, cam mechanism includes equilibrium cam 60 and pull ring 30；Stabilizer tab 60 sides connection motor shaft is taken turns, the other side connects the side of pull ring 30；The other side of pull ring 30 connects vibration head 140；Wherein, electric When arbor rotates, equilibrium cam 60 is driven to rotate, drive pull ring 30 to move back and forth when equilibrium cam 60 rotates, pull ring 30 is back and forth transported Vibration head 140 is driven to move back and forth when dynamic.

In an alternative embodiment, such as in the present embodiment, cam mechanism further includes being mounted on the intracorporal first bearing of shell 70, equilibrium cam 60 is threaded through in first bearing 70 and rotates under the limitation of first rotating shaft, so that equilibrium cam 60 rotates It is more stable, reliable.

Shaft coupling 101 is installed in an alternative embodiment, such as in the present embodiment, in shell, shaft coupling 101 connects respectively Connect equilibrium cam 60 and motor shaft；Wherein, it drives equilibrium cam 60 to rotate by shaft coupling 101 when motor shaft rotates, is conducive to The reliability of noise, lift cam mechanism when 100 even running of motor, reduction motor 100 rotate increases muscle vibration gauge Service life.

In an alternative embodiment, such as in the present embodiment, muscle vibration gauge further includes being mounted on the intracorporal guide rail 40 of shell With guide part 50；Guide part 50 offers guide-track groove 51；Guide rail 40 is slidably arranged in guide-track groove 51, and one end rotation connection is drawn Ring 30, the other end is fixedly connected with vibration head 140, when pull ring 30 moves back and forth, drives vibration head 140 back and forth to transport by guide rail 40 It is dynamic.In the present embodiment, cam mechanism connects vibration head 140 by guide rail 40 and guide part 50, can further decrease noise, Increase the reliability that vibration head 140 moves back and forth.

In an alternative embodiment, such as in the present embodiment, cam mechanism further includes second bearing 32 and 3rd bearing 33； Second bearing 32 and 3rd bearing 33 are separately mounted to the two sides of pull ring 30；Wherein, 60 part of equilibrium cam penetrates second bearing 32 by second bearing 32 and pull ring 30 to be rotatablely connected；40 part of guide rail penetrate 3rd bearing 33 with by 3rd bearing 33 with Pull ring 30 is rotatablely connected.

Further, mounting hole 31 is offered on pull ring 30, second bearing 32 and 3rd bearing 33 are mounted in mounting hole 31, Further, the lateral wall of guide rail 40 is convexly equipped with protruding shaft 41, is rotatablely connected by protruding shaft 41 and 3rd bearing 33.

In the present embodiment, cam mechanism passes through first bearing 70, second bearing 32,3rd bearing 33, equilibrium cam 60 It is cooperatively formed with pull ring 30, so that its compact-sized and movement is steady, noise is smaller when movement, and friction is small, reduces energy Amount loss further improves the experience effect of user, increases the service life of muscle vibration gauge so that its fever is few.

In an alternative embodiment, such as in the present embodiment, muscle vibration gauge further includes connector 130, connector 130 1 Side is fixedly connected with guide rail 40, and the other side is threadedly coupled vibration head 140, so that vibration head 140 easily facilitates installation.

In an alternative embodiment, such as in the present embodiment, as shown in figure 4, equilibrium cam 60 includes protrusion 62, connecting shaft 63 and eccentric shaft 61, connecting shaft 63 and eccentric shaft 61 are connected to the two sides of protrusion 62；Protrusion 62 is threaded through first bearing 70 To be rotated under the limitation of first bearing 70；Connecting shaft 63 connects motor shaft by shaft coupling 101, and eccentric shaft 61 passes through the second axis Hold 32 rotation connection pull rings 30；Wherein, the axis of axis with eccentric shaft 61 of connecting shaft 63 is parallel, so that equilibrium cam 60 rotates When drive pull ring 30 move back and forth.

Further, protrusion 62, connecting shaft 63 and eccentric shaft 61 are integrally formed.

In an alternative embodiment, such as in the present embodiment, shell includes handle cylinder 90, front housing 20 and rear shell 120, front housing 20 and rear shell 120 be connected to 90 both ends of handle cylinder, motor 100 is mounted in handle cylinder 90, and cam mechanism is mounted on front housing In 20, control panel 110 is mounted in rear shell 120.

In an alternative embodiment, such as in the present embodiment, muscle vibration gauge further includes locating piece 80,80 one end of locating piece Front housing 20 is connected, the other end connects handle cylinder 90, wherein motor 100, first bearing 70 and shaft coupling 101 are mounted on locating piece On 80.

Further, upper casing includes upper cover 21, lower cover 22 and block 23, and lower cover 22 connects handle cylinder 90, and the lid of upper cover 21 is located at On lower cover 22, block 23 is separately connected upper cover 21 and lower cover 22, so that upper cover 21, lower cover 22 and block 23 are enclosed accommodating chamber 24, cam mechanism is mounted in accommodating chamber 24.

Further, vibration head 140 penetrates in accommodating chamber 24 from block 23, to be threadedly coupled with connector 130.

Further, muscle vibration gauge further includes key 114, and the key contacts 111 on the corresponding control panel 110 of rear shell 120 are opened Equipped with location hole, key 114 is mounted on location hole, so that key can touch key contacts 111 when pressing keys 114.? In the present embodiment, motor 100 is can star and closed by key 114, can also control the revolving speed of motor shaft.

Further, it is also arranged with silica gel sheath 10 in shell front housing 20, handle cylinder 90 and/or rear shell 120, to increase user's Sense of touch experience.

Further, muscle vibration gauge further includes the first damping silicagel pad 115 and the second damping silicagel pad 112, the first damping Silicagel pad 115 is set on handle cylinder 90, and the first damping silicagel pad 115 is pressed on handle cylinder 90 to play by rear shell 120 Damping effect, the second damping silicagel pad 112 are set in key contacts 111, so that from when 114 pressing keys contact 111 of key To damping effect, and noise can be reduced.

Further, control panel 110 is equipped with power supply interface 113, and power supply interface 113 is pierced by rear shell 120 for connecting outside Power supply, to be powered by external power supply to muscle vibration gauge.

The above description is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all utilizations Equivalent structure or equivalent flow shift made by description of the invention and accompanying drawing content is applied directly or indirectly in other correlations Technical field, be included within the scope of the present invention.

Claims (10)

1. a kind of muscle vibration gauge, which is characterized in that the muscle vibration gauge include shell, control panel, motor, cam mechanism and Vibration head；The control panel, the motor and the cam mechanism are mounted in the shell, and the cam mechanism is for connecting The side of the motor shaft of the motor, the vibration head connects the cam mechanism, and the other side is pierced by the shell；Wherein,

The control panel is electrically connected the motor, for controlling the motor shaft rotation, when the motor shaft rotates, by described Vibration head described in cam mechanism driving moves back and forth, so that the vibration head has vibrating effect.

2. muscle vibration gauge as described in claim 1, which is characterized in that the cam mechanism includes equilibrium cam and pull ring；Institute It states equilibrium cam side and connects the motor shaft, the other side connects the side of the pull ring；The other side of the pull ring connects institute State vibration head；Wherein, when the motor shaft rotates, the equilibrium cam is driven to rotate, the equilibrium cam drives institute when rotating Pull ring reciprocating motion is stated, the pull ring drives the vibration head to move back and forth when moving back and forth.

3. muscle vibration gauge as claimed in claim 2, which is characterized in that the cam mechanism further includes being mounted in the shell First bearing, the equilibrium cam is threaded through the first bearing and rotates under the limitation of the first rotating shaft.

4. muscle vibration gauge as claimed in claim 2, which is characterized in that be equipped with shaft coupling, the shaft coupling in the shell It is separately connected the equilibrium cam and the motor shaft；Wherein, by described in the shaft coupling drive when motor shaft rotates Equilibrium cam rotation.

5. muscle vibration gauge as claimed in claim 2, which is characterized in that the muscle vibration gauge further includes that be mounted on shell intracorporal Guide rail and guide part；The guide part offers guide-track groove；The guide rail is slidably arranged in the guide-track groove, and one end rotates The pull ring is connected, the other end is fixedly connected with the vibration head, when the pull ring moves back and forth, by described in guide rail drive Vibration head moves back and forth.

6. muscle vibration gauge as claimed in claim 5, which is characterized in that the cam mechanism further includes second bearing and third axis It holds；The second bearing and the 3rd bearing are separately mounted to the two sides of pull ring；Wherein, the equilibrium cam part penetrates institute Second bearing is stated to be rotatablely connected by the second bearing and the pull ring；The rail sections penetrate the 3rd bearing with It is rotatablely connected by the 3rd bearing and the pull ring.

7. muscle vibration gauge as claimed in claim 5, which is characterized in that the muscle vibration gauge further includes connector, the company Fitting side is fixedly connected with the guide rail, and the other side is threadedly coupled the vibration head.

8. muscle vibration gauge as claimed in claim 3, which is characterized in that the equilibrium cam includes protrusion, connecting shaft and bias Axis, the connecting shaft and the eccentric shaft are connected to the two sides of the protrusion；The protrusion is threaded through the first bearing And it is rotated under the limitation of the first bearing；Motor shaft described in the connection axis connection, it is described bias axis connection described in pull ring； Wherein, the axis of the connecting shaft is parallel with the axis of the eccentric shaft.

9. muscle vibration gauge as claimed in claim 3, which is characterized in that the shell includes handle cylinder, front housing and rear shell, described Front housing and rear shell are connected to handle cylinder both ends, and the motor is mounted in the handle cylinder, and the cam mechanism is mounted on In the front housing, the control panel is mounted in the rear shell.

10. muscle vibration gauge as claimed in claim 9, which is characterized in that muscle vibration gauge further includes locating piece, the locating piece One end connects front housing, and the other end connects handle cylinder, wherein the motor, the first bearing are mounted on the locating piece.