CN111494153A

CN111494153A - Cervical vertebra pain treatment device

Info

Publication number: CN111494153A
Application number: CN202010429390.XA
Authority: CN
Inventors: 周松林; 岳宗进; 都帅刚; 季鸿飞
Original assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Current assignee: Henan Hospital Traditional Chinese Medicine Second Affiliated Hospital of Henan University of Traditional Chinese Medicine TCM
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2020-08-07
Anticipated expiration: 2040-05-20
Also published as: CN111494153B

Abstract

The invention relates to a cervical vertebra pain treatment device, which effectively solves the problems that the existing cervical vertebra treatment device has too single structure, the mechanical traction mode is easy to cause secondary damage to the human body, and the massage treatment mode cannot effectively correct cervical vertebra; the technical scheme includes that a flat lying massage mode is adopted, massage areas of the neck and the waist are arranged to be convex, physiological lordosis of the cervical vertebra and the lumbar vertebra is met, the cervical vertebra and the lumbar vertebra can be corrected under the action of gravity of the human body while the human body is massaged, the cervical vertebra, the lumbar vertebra and the back of the human body can be massaged simultaneously, muscles of the human body are relaxed, the effect of relieving pain is achieved, a massage force adjusting device is adopted, people can adjust massage force according to self conditions, and massage force can be selected more selectively; the invention has simple operation, obvious effect and various functions and can better meet the requirements of people.

Description

Cervical vertebra pain treatment device

Technical Field

The invention relates to the field of cervical vertebra medical instruments, in particular to a cervical vertebra pain treatment device.

Background

Along with the rapid development of society, people's operating pressure constantly increases, work rhythm also constantly accelerates, make many people all have to be done work night and shift, because long-time sedentary, in addition diet is unhealthy, reason such as not moving, the cervical vertebra that leads to many people has all taken place the abnormal bending, finally get the cervical spondylopathy, and the cervical spondylopathy can lead to the phenomenon that people's neck back pain is difficult to endure, people are for treating the cervical vertebra, alleviate pain, can generally adopt mechanical traction, the cervical vertebra treatment device comparatively commonly used such as massage, but current cervical vertebra treatment device has following problem:

1. the mechanical traction mode is to apply traction force to the body of a patient and stretch tendons, ligaments and adhesion tissues so as to correct cervical vertebra, but when the cervical vertebra of people is painful, neck muscles are in a tight state, and the blind mechanical traction mode easily causes secondary damage to the human body;

2. the massage therapy mode can relax neck muscles and temporarily relieve neck pain, but cannot effectively correct cervical vertebra;

3. the mechanical state of a human is an integral body, the curvature of the cervical vertebra and the curvature of the lumbar vertebra are completely related, and the treatment of the cervical vertebra and the treatment of the lumbar vertebra are complementary, but the existing cervical vertebra treatment devices are too single and cannot treat the cervical vertebra and the lumbar vertebra at the same time;

on the basis, the invention provides a cervical vertebra pain treatment device to solve the technical problems.

Disclosure of Invention

In view of the above situation, in order to overcome the defects of the prior art, the invention provides a cervical vertebra pain treatment device, which solves the problems that the mechanical traction mode is easy to cause secondary damage to a human body, the massage treatment mode cannot effectively correct the cervical vertebra, and the existing cervical vertebra treatment device is too single in structure.

In order to achieve the purpose, the invention adopts the following scheme:

a cervical vertebra pain treatment device comprises a shell and a driving motor, wherein the driving motor is fixedly connected to the bottom end face inside the shell, a first belt pulley and a second belt pulley are coaxially and fixedly connected to a rotating shaft of the driving motor in sequence, the second belt pulley is connected with a third belt pulley through a belt, a first helical gear is coaxially and fixedly connected to a third belt pulley, a massage force adjusting device is meshed in the horizontal direction of the first helical gear and comprises a second helical gear vertically meshed with the first helical gear, a first straight gear is coaxially and fixedly connected to the second helical gear, two second straight gears are symmetrically meshed on the left side and the right side below the first straight gear in a symmetrical mode, two third helical gears are coaxially and fixedly connected to the second straight gear, and a fourth helical gear is meshed on the two sides, far away from each other, of the third helical gears in a perpendicular mode, two fourth helical gear all rotates to be connected on a first fixed axle, first fixed axle fixed connection is on a lateral wall of shell, it is connected with a rectangular gear to rotate on the first fixed axle, rectangular gear arranges in between two fourth helical gears, one side that third helical gear was kept away from to rectangular gear is provided with a screw thread axle, screw thread axle fixed connection is on the inside bottom face of shell, the coaxial threaded connection of screw thread axle has a third straight-teeth gear, third straight-teeth gear and rectangular gear engagement, a first spring of fixedly connected with between third straight-teeth gear and the screw thread axle terminal surface, the one end sliding connection that shell left side wall was kept away from to rectangular gear is on a telescoping device.

Preferably, the small end face of the fourth helical gear is fixedly connected with two arc-shaped clamping blocks which are symmetrically distributed, two arc-shaped grooves which are symmetrically distributed are formed in the two end faces of the long gear, the arc-shaped clamping blocks can be arranged in the arc-shaped grooves, a first annular groove is formed in the end face, far away from the left side wall of the shell, of the long gear, and the first annular groove is arranged on the periphery of the arc-shaped grooves.

Preferably, the telescopic device comprises a Y-shaped sliding rod which is divided into an arc-shaped section and a long section, a plurality of T-shaped sliding blocks are uniformly and fixedly connected on one end surface of the arc-shaped section, the T-shaped sliding blocks are arranged in the first annular groove of the strip gear, the tail end of the long strip section is fixedly connected with a sliding ejector rod, the sliding ejector rod and the T-shaped sliding block are positioned at the same side, a stop block is coaxially and fixedly connected on the sliding ejector rod, a fixing plate is arranged between the stop block and the Y-shaped sliding rod, the fixed plate is fixedly connected on the bottom end surface in the shell, the sliding ejector rod is connected on the fixed plate in a sliding way, a compression spring is fixedly connected between the fixed plate and the stop block, the other end of the sliding ejector rod is connected with a rotating cam in a contact way, the rotating cam is rotatably connected to the inner side wall of the shell, and the rotating cam is coaxially and fixedly connected with an adjusting knob.

Preferably, a knob counter bore has been seted up on a shell lateral wall, four semi-circular draw-in grooves have evenly been seted up on the lateral wall of knob counter bore, adjust knob rotate to connect in the knob counter bore, four round holes have evenly been seted up on adjust knob's lateral wall, equal sliding connection has a spring telescopic link in the round hole, a square piece of inside center fixedly connected with of adjust knob, four spring telescopic link's one end fixed connection respectively is on four lateral walls of square piece, four semi-circular draw-in grooves can be arranged in to spring telescopic link's the other end.

Preferably, the shell comprises a cervical vertebra massage area, a lumbar vertebra massage area is arranged at the rear part of the cervical vertebra massage area, a back massage area is arranged between the cervical vertebra massage area and the lumbar vertebra massage area, a back massage device is arranged below the back massage area, rotary massage devices are arranged below the cervical vertebra massage area and the lumbar vertebra massage area respectively, the rotary massage devices are arranged above the driving motor and are arranged at the rear upper part of the massage strength adjusting device, each rotary massage device comprises a second fixed shaft, one end of the second fixed shaft is fixedly connected to the inner side wall of the shell, the second fixed shaft and the massage strength adjusting device are arranged at the same side, a first rotating shaft is coaxially and rotatably connected to the second fixed shaft, the other end of the first rotating shaft is rotatably connected to the inner side wall at the same side with the driving motor, the side wall of the first rotating shaft is uniformly and fixedly connected with a plurality of fixing rods, a plurality of fixing rods which are adjacent along the axial direction in the fixing rods are simultaneously and rotatably connected with a massage force adjusting plate, one side wall of the massage force adjusting plate, which is close to the second fixing shaft, is respectively and rotatably connected with a first rotating block, the first rotating block is respectively and rotatably connected with a rotating rod, the other end of the rotating rod is respectively and rotatably connected with a second rotating block, the second rotating block is uniformly and rotatably connected with a rotating disc, the other end of the rotating disc is coaxially and rotatably connected with a sliding disc, the sliding disc is coaxially and slidably connected with the second fixing shaft, a first fixing connecting rod is fixedly connected between the two sliding discs, and a second fixing connecting rod is fixedly connected on the sliding disc below the cervical vertebra massage area, and a second annular groove is formed in one end face, far away from the first spring, of the third straight gear, and the other end of the second fixing rod is arranged in the second annular groove.

Preferably, back massage device include one and arrange back massage board of back massage district below in, the rotation telescopic link of symmetric distribution around two equal fixedly connected with on the wall of back massage board left and right sides has seted up a rack chute on the wall of back massage board left side, the rack chute is arranged in between two left rotation telescopic links, left two rotate the common sliding connection of telescopic link on a mount, mount fixed connection is on the inside bottom face of shell, two on right side rotate the common fixed connection of telescopic link on a reciprocal frame, reciprocal frame sliding connection is on the inside bottom face of shell, be provided with a back massage board elevating gear between mount and the wall of back massage board left side, back massage board elevating gear part is arranged in the rack chute.

The invention aims at the problems that the existing mechanical traction mode is easy to cause secondary injury to human bodies, the massage treatment mode cannot effectively correct cervical vertebra, and the existing cervical vertebra treatment device is too single in structure;

compared with the prior art, the invention has the advantages that:

1. the cervical vertebra, the lumbar vertebra and the back of the human body can be simultaneously massaged, so that the muscles of the human body are relaxed, and the effect of relieving pain is achieved;

2. the massage force adjusting device is adopted, people can adjust the massage force according to self conditions, the massage force can be randomly adjusted within a certain range instead of a grade system, and the massage force can be selected more selectively;

3. the mode that adopts is the massage of lying, and the massage area of neck and waist all sets up to bellied, accords with the physiological lordosis of cervical vertebra and lumbar vertebrae, can correct cervical vertebra and lumbar vertebrae under human self action of gravity when massaging the human body.

Drawings

FIG. 1 is a perspective view of the assembly of the present invention.

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

Fig. 3 is an enlarged perspective view of the present invention a.

Fig. 4 is a perspective view of the present invention with the outer shell removed.

Fig. 5 is a perspective view of the internal structure of the housing viewed from the front side.

Fig. 6 is a perspective view of the internal structure of the housing of the present invention viewed from the rear side.

Fig. 7 is a plan sectional view showing a positional relationship between the rotary massage device and the retractable massage heads in the initial state of the present invention.

Fig. 8 is a plan sectional view showing a positional relationship between the back massage plate and the retractable massage heads in an initial state of the present invention.

Fig. 9 is a perspective view of the massage force adjusting device according to the present invention.

Fig. 10 is an exploded perspective view of the massage force adjusting device according to the present invention.

Fig. 11 is a perspective view of the rotary massaging device in the initial state of the present invention.

Fig. 12 is a perspective view of the rotary massaging device in the working state of the present invention.

Fig. 13 is an exploded perspective view of the rotary massage device of the present invention.

Fig. 14 is a perspective exploded view showing the connection relationship of the sliding disk, the rotating disk, the second rotating block, the rotating rod and the first rotating block according to the present invention.

Fig. 15 is a perspective view of the back massage plate lifting device according to the present invention.

Fig. 16 is a perspective view of the back massage device of the present invention.

Fig. 17 is a perspective view of the adjusting knob according to the present invention.

Fig. 18 is an exploded perspective view of the inner structure of the adjusting knob according to the present invention.

Fig. 19 is a perspective view of the structure of the rotating telescopic rod of the present invention.

Fig. 20 is a perspective view of the massage force adjusting plate according to the present invention.

Fig. 21 is a perspective view of the back massage plate structure of the present invention.

FIG. 22 is a perspective view of the Y-shaped slide bar of the present invention.

Fig. 23 is a perspective view of a strip gear structure according to the present invention.

Fig. 24 is a perspective view of a fourth helical gear according to the present invention.

In the figure: 1 shell, 2 driving motors, 3 first belt pulley, 4 second belt pulley, 5 third belt pulley, 6 first bevel gear, 7 massage force adjusting device, 8 second bevel gear, 9 first straight gear, 10 second straight gear, 11 third bevel gear, 12 fourth bevel gear, 13 first fixed shaft, 14 long-strip gear, 15 threaded shaft, 16 third straight gear, 17 first spring, 18 telescopic device, 19 arc-shaped fixture block, 20 arc-shaped groove, 21 first annular groove, 22Y-shaped slide bar, 23T-shaped slide block, 24 sliding ejector rod, 25 baffle, 26 fixed plate, 27 compression spring, 28 rotating cam, 29 adjusting knob, 30 knob counter bore, 31 spring telescopic rod, 32 square block, 33 cervical vertebra massage area, 34 lumbar vertebra massage area, 35 back massage area, 36 back massage device, 37 rotating massage device, 38 second fixed shaft, 39 first rotating shaft, 40 fixed rod, 41 massage force adjusting plate, 42 first rotating block, 43 rotating rod, 44 rotating disk, 45 sliding disk, 46 first fixed connecting rod, 47 second fixed connecting rod, 48 back massage plate, 49 rotating telescopic rod, 50 rack sliding groove, 51 fixed frame, 52 reciprocating frame, 53 back massage plate lifting device, 54 second annular groove, 55 second rotating block, 56 massage hole, 57 telescopic massage head, 58 vertical sliding groove, 59 rotating crank, 60 fourth belt pulley, 61 fifth belt pulley, 62 first rack, 63 vertical sliding rod, 64 fourth straight gear, 65 fifth straight gear, 66 trapezoidal strip.

Detailed Description

The foregoing and other aspects, features and advantages of the invention will be apparent from the following more particular description of embodiments of the invention, as illustrated in the accompanying drawings in which reference is made to figures 1 to 24. The structural contents mentioned in the following embodiments are all referred to the attached drawings of the specification.

Exemplary embodiments of the present invention will be described below with reference to the accompanying drawings.

The first embodiment of the invention is a cervical vertebra pain treatment device, which comprises a shell 1 and a driving motor 2, wherein the driving motor 2 is fixedly connected to the bottom end surface inside the shell 1, the driving motor 2 is externally connected with a power supply, a first belt pulley 3 and a second belt pulley 4 are sequentially and coaxially and fixedly connected to a rotating shaft of the driving motor 2, the second belt pulley 4 is connected with a third belt pulley 5 through a belt, the third belt pulley 5 is coaxially and fixedly connected with a first helical gear 6, the first helical gear 6 is engaged with a massage force adjusting device 7 in the horizontal direction, the massage force adjusting device 7 comprises a second helical gear 8 vertically engaged with the first helical gear 6, the second helical gear 8 is coaxially and fixedly connected with a first straight gear 9, and two second straight gears 10 are symmetrically engaged on the left side and the right side below the first straight gear 9, two the equal coaxial fixedly connected with third helical gear 11 of second straight-tooth gear 10, two the equal perpendicular meshing in both sides that third helical gear 11 kept away from each other has a fourth helical gear 12, two the fourth helical gear 12 all rotates and connects on a first fixed axle 13, first fixed axle 13 fixed connection is on a lateral wall of shell 1, it is connected with a rectangular gear 14 to rotate on the first fixed axle 13, rectangular gear 14 arranges in between two fourth helical gears 12, rectangular gear 14 can with any one of them fourth helical gear 12 contact cooperation, also can with two fourth helical gears 12 contactless simultaneously, one side that third helical gear 11 was kept away from to rectangular gear 14 is provided with a threaded shaft 15, threaded shaft 15 is only mid portion is provided with the screw thread, both ends are the optical axis, threaded shaft 15 fixed connection is in the inside bottom face top of shell 1, the coaxial threaded connection of threaded spindle 15 has a third spur gear 16, third spur gear 16 and the meshing of rectangular gear 14, fixedly connected with a first spring 17 between third spur gear 16 and a threaded spindle 15 terminal surface, when threaded spindle 15 middle part is arranged in to third spur gear 16, first spring 17 is in normal condition, when threaded spindle 15 left half part is arranged in to third spur gear 16, first spring 17 is in tensile state, when threaded spindle 15 right half part is arranged in to third spur gear 16, first spring 17 is in compression state, the one end sliding connection that shell 1 left side wall was kept away from to rectangular gear 14 is on a telescoping device 18, when driving motor 2 rotated, can drive second belt pulley 4 and rotate, second belt pulley 4 rotated and can drive third belt pulley 5 and rotate, third belt pulley 5 can drive the first helical gear 6 of coaxial fixed connection with it and rotate, the first helical gear 6 can drive the second helical gear 8 vertically meshed with the first helical gear to rotate, the second helical gear 8 rotates to drive the first helical gear 9 coaxially and fixedly connected with the second helical gear to rotate, so as to drive the two second helical gears 10 meshed with the left side and the right side below the first helical gear 9 to rotate in the same direction, the two second helical gears 10 can respectively drive the third helical gear 11 coaxially and fixedly connected with the second helical gear to rotate in the same direction, so as to drive the two fourth helical gears 12 on the left side and the right side to rotate in opposite directions, the strip gear 14 is not contacted with the two fourth helical gears 12 in an initial state, when the massage strength needs to be adjusted, the strip gear 14 and the two fourth helical gears 12 can be controlled to respectively cooperate through the telescopic device 18, the strip gear 14 can rotate together with the fourth helical gear 12 matched with the strip gear 14, and the strip gear 14 can drive the third helical gear 16 meshed with the strip gear to rotate, the third spur gear 16 rotates to axially move along the threaded shaft 15 under the action of the threads, and when the third spur gear 16 moves to the end of the threads, the third spur gear 16 is always in contact with the threads on the threaded shaft 15 under the action of the tension or compression resilience force of the first spring 17.

In the second embodiment, on the basis of the first embodiment, the small end surface of the fourth helical gear 12 is fixedly connected with two arc-shaped clamping blocks 19 which are symmetrically distributed, two arc-shaped grooves 20 which are symmetrically distributed are formed in both end surfaces of the strip gear 14, the arc-shaped clamping blocks 19 can be arranged in the arc-shaped grooves 20, the maximum curvature radius of the arc-shaped clamping blocks 19 is equal to the maximum curvature radius of the arc-shaped grooves 20, the arc length of the arc-shaped grooves 20 is longer than that of the arc-shaped clamping blocks 19, a first annular groove 21 is formed in the end surface, away from the left side wall of the housing 1, of the strip gear 14, and the first annular groove 21 is arranged on the periphery of the arc-shaped grooves 20.

In the third embodiment, on the basis of the second embodiment, the telescopic device 18 includes a Y-shaped sliding rod 22, the Y-shaped sliding rod 22 is divided into an arc-shaped section and a long-strip section, a plurality of T-shaped sliding blocks 23 are uniformly and fixedly connected to one end surface of the arc-shaped section, the T-shaped sliding blocks 23 are disposed in the first annular groove 21 of the long-strip gear 14, a sliding ejector 24 is fixedly connected to a tail end of the long-strip section, the sliding ejector 24 and the T-shaped sliding blocks 23 are located on the same side, a stopper 25 is coaxially and fixedly connected to the sliding ejector 24, a fixing plate 26 is disposed between the stopper 25 and the Y-shaped sliding rod 22, the fixing plate 26 is fixedly connected to the inner bottom end surface of the housing 1, the sliding ejector 24 is slidably connected to the fixing plate 26, a compression spring 27 is fixedly connected between the fixing plate 26 and the stopper 25, and the, the other end of the sliding ejector rod 24 is linked with a rotating cam 28 in a contact manner, the rotating cam 28 comprises a convex section, the symmetrical position of the convex section is a concave section with the same specification, the rest sections are smooth sections, when the end of the sliding ejector rod 24 is arranged in the smooth section, the strip gear 14 is not in contact with the two fourth bevel gears 12, when the end of the sliding ejector rod 24 is transited from the smooth section to the convex section, the strip gear 14 is gradually in contact with the fourth bevel gear 12 on the right side, when the end of the sliding ejector rod 24 is transited from the smooth section to the concave section, the strip gear 14 is gradually in contact with the fourth bevel gear 12 on the left side, the rotating cam 28 is rotatably connected to the inner side wall of the shell 1, the rotating cam 28 is coaxially and fixedly connected with an adjusting knob 29, in the initial state, the end of the sliding ejector rod 24 is arranged in the smooth section, the rotating cam 28 which is coaxially and fixedly connected is driven to rotate, and the rotation of the rotating cam 28 can cause the end of the sliding ejector rod 24 to pass from the smooth section to the convex section or the concave section, so that the sliding ejector rod 24 slides leftwards or rightwards on the fixing plate 26, and the strip gear 14 is driven to be in contact fit with the left fourth helical gear 12 or the right fourth helical gear 12, and because the compression spring 27 is always in a compressed state, the end of the sliding ejector rod 24 is always in contact with the rotating cam 28.

In the fourth embodiment, on the basis of the third embodiment, a side wall of the housing 1 is provided with a knob counterbore 30, four semicircular slots are uniformly formed in the side wall of the knob counterbore 30, the adjusting knob 29 is rotatably connected in the knob counterbore 30, four round holes are uniformly formed in the side wall of the adjusting knob 29, a spring telescopic rod 31 is slidably connected in each round hole, a square block 32 is fixedly connected to the center of the inside of the adjusting knob 29, one end of each of the four spring telescopic rods 31 is fixedly connected to each of the four side walls of the square block 32, the other end of each spring telescopic rod 31 can be placed in the four semicircular slots, when the adjusting knob 29 is rotated, the spring telescopic rod 31 is extruded out of the semicircular slot under the action of rotating force, when the adjusting knob 29 is rotated to 90 degrees, the spring telescopic rod 31 is clamped into the other semicircular slot under the action of the spring force, the adjusting knob 29 is limited by the telescopic spring rod 31 and will not rotate by itself when not acting on the rotating force, the center of the outer end surface of the adjusting knob 29 is provided with an arrow which represents that the sliding push rod 24 is in the smooth section of the rotating cam 28 when the arrow faces upwards or downwards, the sliding push rod 24 is in the concave section of the rotating cam 28 when the arrow faces to the left, and the sliding push rod 2 is in the convex section of the rotating cam 28 when the arrow faces to the right.

Fifth embodiment, on the basis of the first embodiment, the housing 1 includes a cervical vertebra massage area 33, a lumbar vertebra massage area 34 is disposed behind the cervical vertebra massage area 33, a back massage area 35 is disposed between the cervical vertebra massage area 33 and the lumbar vertebra massage area 34, a back massage device 36 is disposed below the back massage area 35, a rotary massage device 37 is disposed below the cervical vertebra massage area 33 and the lumbar vertebra massage area 34, a plurality of massage holes 56 uniformly distributed are disposed on the cervical vertebra massage area 33, the lumbar vertebra massage area 34 and the back massage area 35, a plurality of retractable massage heads 57 are fixedly connected in the massage holes, lower ends of the retractable massage heads 57 are always in contact with the back massage device 36 and the rotary massage device 37, massage heads in the retractable massage heads 57 can slide in the massage holes 56, the rotary massage device 37 is disposed above the driving motor 2, the rotary massaging device 37 is arranged at the rear upper part of the massaging force adjusting device 7, the rotary massaging device 37 comprises a second fixing shaft 38 with one end fixedly connected to the inner side wall of the shell 1, the second fixing shaft 38 and the massaging force adjusting device 7 are positioned at the same side, a first rotating shaft 39 is coaxially and rotatably connected to the second fixing shaft 38, the other end of the first rotating shaft 39 is rotatably connected to the inner side wall at the same side with the driving motor 2, two fifth belt pulleys 61 are sequentially and coaxially and fixedly connected to one end of the first rotating shaft 39, which is far away from the second fixing shaft 38, the fifth belt pulley 61 at the right side of the rotary massaging device 37 below the cervical vertebra massaging area 33 is connected with the first belt pulley 3 of the driving motor 2 through a belt, the two fifth belt pulleys 61 at the left side of the rotary massaging device 37 are connected through a belt, and a plurality of fixing rods 40 are uniformly and fixedly connected to the side wall, a plurality of fixing rods 40 adjacent along the axial direction in the fixing rod 40 are simultaneously rotatably connected with a massage force adjusting plate 41, the massage force adjusting plate 41 is always contacted with a telescopic massage head 57, a side wall close to the second fixing shaft 38 in the massage force adjusting plate 41 is rotatably connected with a first rotating block 42, the first rotating block 42 is rotatably connected with a rotating rod 43, the other end of the rotating rod 43 is rotatably connected with a second rotating block 55, the second rotating block 55 is uniformly rotatably connected on a rotating disc 44, the other end of the rotating disc 44 is coaxially rotatably connected on a sliding disc 45, the sliding disc 45 is coaxially and slidably connected on the second fixing shaft 38, two first fixing connecting rods 46 are fixedly connected between the sliding discs 45 together, and a second fixing connecting rod 47 is fixedly connected on the sliding disc 45 below the cervical vertebra massage area 33, a second annular groove 54 is formed in one end face, far away from the first spring 17, of the third spur gear 16, the other end of the second fixing rod 40 is arranged in the second annular groove 54, when the third spur gear 16 rotates, the third spur gear can axially move along the threaded shaft 15, at the moment, the third spur gear can drive the sliding disc 45 to axially slide along the second fixing shaft 38 through the second fixing connecting rod 47, when the second fixing connecting rod 47 slides, the rotating disc 44 rotationally connected with the second fixing connecting rod 47 can be driven to move together, then the massage force adjusting plate 41 can rotate around the fixing rod 40 through transmission of the second rotating block 55, the rotating rod 43 and the first rotating block 42, so that the maximum length of the telescopic massage head 57 extending out of the massage hole 56 is controlled, and the massage force can be adjusted.

Sixth embodiment, on the basis of fifth embodiment, the back massage device 36 includes a back massage plate 48 disposed below the back massage area 35, the upper end surface of the back massage plate 48 is provided with a plurality of trapezoidal stripes 66 uniformly distributed, the upper end surface of the trapezoidal stripe 66 is flush with the lower end of the retractable massage head 57 in an initial state, two front and back symmetrically distributed rotating expansion rods 49 are fixedly connected to the left and right side walls of the back massage plate 48, the left two rotating expansion rods 49 are jointly slidably connected to a fixed frame 51, the fixed frame 51 is fixedly connected to the inner bottom end surface of the housing 1, the right two rotating expansion rods 49 are jointly fixedly connected to a reciprocating frame 52, the reciprocating frame 52 is slidably connected to a slide, the slide is fixedly connected to the inner bottom end surface of the housing 1, a vertical chute 58 is disposed in the middle of the reciprocating frame 52, a rotating crank 59 is connected in the vertical sliding groove in a sliding manner, a fourth belt pulley 60 is fixedly connected with the rotating crank coaxially, the fourth belt pulley 60 is connected with a fifth belt pulley 61 close to the right side in the rotating massage device 37 below the lumbar massage area 34 through a belt, the fourth belt pulley 60 is connected above the bottom end face in the shell 1 in a rotating manner, when the fourth belt pulley 60 rotates, the rotating crank 59 which is fixedly connected with the fourth belt pulley is driven to rotate coaxially, so that the reciprocating frame 52 is driven to slide in a reciprocating manner in the sliding way, the reciprocating frame 52 drives the back massage plate 48 to slide in a reciprocating manner, the back massage plate 48 drives the two rotating telescopic rods 49 on the left side to slide in a reciprocating manner on the fixed frame 51, the back massage effect is achieved, a rack sliding groove 50 is formed in the left side wall of the back massage plate 48, the rack sliding groove 50 is arranged between the two rotating, be provided with a back massage board elevating gear 53 between mount 51 and the back massage board left side wall, rack chute 50 is arranged in to back massage board elevating gear 53 part, back massage board elevating gear 53 includes that two parts arrange the first rack 62 in rack chute 50 in, two first rack 62 vertical sliding connection is equal on a vertical slide bar 63, two first rack 62 left side all meshes has a fourth straight-toothed gear 64, fourth straight-toothed gear all rotates to be connected in the inside bottom end face of shell 1 top, two the coaxial fixed connection of fourth straight-toothed gear 64, two coaxial fixed connection has a fifth straight-toothed gear 65 between the fourth straight-toothed gear 64, fifth straight-toothed gear 65 below meshes has a second rack 66, second rack 66 fixed connection is on the right side wall of first fixed connecting rod 46, when slip disc 45 along the axial displacement of second fixed axle 38, will drive the first fixed link rod 46 of fixed connection with it and remove, thereby it removes to drive second rack 66, second rack 66 removes and can drive the fifth straight-toothed gear 65 of meshing with it and take place to rotate, fifth straight-toothed gear 65 then can drive two fourth straight-toothed gears 64 and rotate together, fourth straight-toothed gear 64 rotates and can drive first rack 62 and reciprocate, thereby it reciprocates to drive back massage plate 48, just so played the effect of adjusting back massage dynamics, back massage plate 48 reciprocates and can make the rotation telescopic link of its left and right sides rotate and stretch out and draw back.

When the massage device is used specifically, in an initial state, the long-strip gear 14 is not in contact with the two fourth helical gears 12, the third straight gear 16 is positioned on the left side of the threads in the threaded shaft 15, the first spring 17 is in a stretching state at the moment, the massage force adjusting plates 41 in the rotary massage device 37 are in contact with each other to form a closed circle, the lower end head of the telescopic massage head 57 above the rotary massage device 37 is in contact with the circle formed by the massage force adjusting plates 41 at the moment, when the rotary massage device 37 is rotated at the moment, the telescopic massage head 57 above the rotary massage device 37 cannot move up and down, the upper end surface of the trapezoidal strip 66 is flush with the lower end head of the telescopic massage head 57 above the back massage plate 48, and when the back massage plate 48 moves left and right, the telescopic massage head 57 above the back massage plate 48 cannot;

at this time, the driving motor 2 is turned on, the driving motor 2 drives the first belt pulley 3 and the second belt pulley 4 to rotate, the second belt pulley 4 rotates to drive the third belt pulley 5 to rotate, the third belt pulley 5 drives the first helical gear 6 coaxially and fixedly connected with the third belt pulley to rotate, the first helical gear 6 drives the second helical gear 8 vertically meshed with the first helical gear 8 to rotate, the second helical gear 8 rotates to drive the first straight gear 9 coaxially and fixedly connected with the second straight gear 9 to rotate, so as to drive the two second straight gears 10 meshed with the left and right sides below the first straight gear 9 to rotate in the same direction, the two second straight gears 10 respectively drive the third helical gear 11 coaxially and fixedly connected with the second straight gears to rotate in the same direction, so as to drive the two fourth helical gears 12 on the left and right sides to rotate in opposite directions, and because the long gear 14 and the two fourth helical gears 12 are not in contact at this time, the long gear, the first belt pulley 3 drives the fifth belt pulley 61 on the right side of the rotary massaging device 37 below the cervical vertebra massaging area 33 to rotate, so as to drive the rotary massaging device 37 below the cervical vertebra massaging area 33 to rotate, the rotary massaging device 37 below the lumbar vertebra massaging area 34 connected with the belt of the rotary massaging device 37 below the cervical vertebra massaging area 33 can drive the rotary massaging device 37 below the lumbar vertebra massaging area 34 to rotate in the same direction, the rotary massaging device 37 below the lumbar vertebra massaging area 34 can drive the fourth belt pulley 60 to rotate, the fourth belt pulley 60 can drive the rotary crank 59 to rotate, so as to drive the reciprocating frame 52 to slide in the vertical sliding groove 58 in a reciprocating manner, the reciprocating frame 52 can drive the back massaging plate 48 to reciprocate, but at the moment, the cervical vertebra massaging area 33, the lumbar vertebra massaging area 34 and the telescopic massaging head 57 below;

then the adjusting knob 29 is rotated to 90 degrees, the rotating cam 28 is driven to rotate during the rotation of the adjusting knob 29, the rotating cam 28 rotates to drive the strip gear 14 to move towards one of the fourth bevel gears 12 through the sliding mandril 24 and the Y-shaped slide rod 22 until the two are in contact and matched, so that the strip gear 14 rotates, the strip gear 14 rotates to drive the third spur gear 16 to rotate, at the same time, the third spur gear 16 moves from left to right along the axial direction of the threaded shaft 15, the third spur gear 16 moves to drive the sliding disc 45 below the cervical vertebra massage area 33 to move in the same direction through the second fixed connecting rod 17, the sliding disc 45 below the cervical vertebra massage area 33 drives the sliding disc 45 below the lumbar vertebra massage area 34 to move together through the first fixed connecting rod 46, so as to drive the massage strength adjusting plate 41 to rotate around the fixed rod 40, and at the same time, the first fixed connecting rod 46 moves to drive the second rack 66 fixed with the first fixed connecting, the second straight gear rack 66 moves rightwards to drive the fifth straight gear rack 65 meshed with the second straight gear rack to rotate anticlockwise, the fifth straight gear rack 65 rotates to drive the two fourth straight gear racks 64 coaxially and fixedly connected with the fifth straight gear rack to rotate anticlockwise, the fourth straight gear rack 64 rotates anticlockwise to drive the first rack 62 meshed with the fourth straight gear rack to move upwards, the first rack 62 moves upwards to drive the back massage plate 48 to move upwards together, so that the back massage device 36 and the rotary massage device 37 increase the massage force simultaneously, when the feeling massage force is enough, the adjusting knob 29 is rotated and reset, and at the moment, the strip gear 14 is disengaged from the fourth straight gear rack 12 and does not rotate any more.

When needing to turn down the massage dynamics, need the antiport adjust knob 29, make rectangular gear 14 and another fourth helical gear 12 contact cooperation, rectangular gear 14 antiport this moment, thereby drive third straight-tooth gear 16 antiport, make third straight-tooth gear 16 move along threaded spindle 15 from the right side to the left, third straight-tooth gear 16 then can drive two slip discs 45 and first fixed connecting rod 46 together and move from the right side to the left, thereby make massage dynamics regulating plate 41 close gradually, back massage plate 48 moves down, thereby reached the effect that reduces the massage dynamics, after adjusting the massage dynamics, adjust knob 29 rotation reset, rectangular gear 14 and fourth helical gear 12 break away from the cooperation and no longer rotate this moment.

The invention is improved aiming at the existing cervical vertebra pain treatment device, and can massage the cervical vertebra, the lumbar vertebra and the back of a human body at the same time, so that the muscles of the human body are relaxed, and the effect of relieving pain is achieved; the massage force adjusting device is adopted, people can adjust the massage force according to self conditions, the massage force can be randomly adjusted within a certain range instead of a grade system, and the massage force can be selected more selectively; the mode that adopts is the massage of lying, and the massage area of neck and waist all sets up to bellied, accords with the physiological lordosis of cervical vertebra and lumbar vertebrae, can correct cervical vertebra and lumbar vertebrae under human self action of gravity when massaging the human body. The invention has simple structure, obvious effect and strong practicability.

Claims

1. A cervical vertebra pain treatment device comprises a shell (1) and a driving motor (2), and is characterized in that the driving motor (2) is fixedly connected to the bottom end face inside the shell (1), a first belt pulley (3) and a second belt pulley (4) are sequentially and coaxially and fixedly connected to a rotating shaft of the driving motor (2), the second belt pulley (4) is connected with a third belt pulley (5) through a belt, the third belt pulley (5) is coaxially and fixedly connected with a first helical gear (6), the first helical gear (6) is engaged with a massage force adjusting device (7) in the horizontal direction, the massage force adjusting device (7) comprises a second helical gear (8) vertically engaged with the first helical gear (6), the second helical gear (8) is coaxially and fixedly connected with a first straight gear (9), the left side and the right side of the lower portion of the first straight gear (9) are symmetrically meshed with two second straight gears (10), the second straight gears (10) are coaxially and fixedly connected with a third bevel gear (11), the two sides, far away from each other, of the third bevel gear (11) are perpendicularly meshed with a fourth bevel gear (12), the fourth bevel gears (12) are rotatably connected onto a first fixing shaft (13), the first fixing shaft (13) is fixedly connected onto one side wall of the shell (1), the first fixing shaft (13) is rotatably connected with a strip gear (14), the strip gear (14) is arranged between the two fourth bevel gears (12), one side, far away from the third bevel gear (11), of the strip gear (14) is provided with a threaded shaft (15), and the threaded shaft (15) is fixedly connected onto the inner bottom end face of the shell (1), threaded shaft (15) coaxial thread is connected with a third spur gear (16), third spur gear (16) and strip gear (14) meshing, fixedly connected with a first spring (17) between third spur gear (16) and threaded shaft (15) a terminal surface, the one end sliding connection that shell (1) left side wall was kept away from in strip gear (14) is on a telescoping device (18).

2. The cervical vertebra pain treatment device according to claim 1, wherein two arc-shaped clamping blocks (19) are fixedly connected to the small end surface of the fourth bevel gear (12), the two end surfaces of the strip gear (14) are provided with two arc-shaped grooves (20), the arc-shaped clamping blocks (19) are arranged in the arc-shaped grooves (20), the end surface of the strip gear (14) far away from the left side wall of the housing (1) is provided with a first annular groove (21), and the first annular groove (21) is arranged at the periphery of the arc-shaped grooves (20).

3. The cervical vertebra pain treatment device according to claim 2, wherein the telescopic device (18) comprises a Y-shaped sliding rod (22), the Y-shaped sliding rod (22) is divided into an arc-shaped section and a long-strip section, a plurality of T-shaped sliding blocks (23) are uniformly and fixedly connected to one end surface of the arc-shaped section, the T-shaped sliding blocks (23) are arranged in the first annular groove (21) of the long-strip gear (14), a sliding ejector rod (24) is fixedly connected to the tail end of the long-strip section, the sliding ejector rod (24) and the T-shaped sliding blocks (23) are positioned on the same side, a stopper (25) is coaxially and fixedly connected to the sliding ejector rod (24), a fixing plate (26) is arranged between the stopper (25) and the Y-shaped sliding rod (22), the fixing plate (26) is fixedly connected to the bottom end surface inside the housing (1), and the sliding ejector rod (24) is slidably connected to the fixing plate (26, a compression spring (27) is fixedly connected between the fixing plate (26) and the stop block (25), the other end of the sliding ejector rod (24) is in contact link with a rotating cam (28), the rotating cam (28) is rotatably connected to the inner side wall of the shell (1), and the rotating cam (28) is coaxially and fixedly connected with an adjusting knob (29).

4. The cervical vertebra pain treatment device according to claim 3, wherein a knob counterbore (30) is formed in one side wall of the housing (1), four semicircular clamping grooves are uniformly formed in the side wall of the knob counterbore (30), the adjusting knob (29) is rotatably connected in the knob counterbore (30), four round holes are uniformly formed in the side wall of the adjusting knob (29), a spring telescopic rod (31) is slidably connected in each round hole, a square block (32) is fixedly connected in the center of the inside of the adjusting knob (29), one end of each of the four spring telescopic rods (31) is fixedly connected to each of four side walls of the square block (32), and the other end of each spring telescopic rod (31) can be placed in the corresponding semicircular clamping groove.

5. The cervical vertebra pain treatment device according to claim 1, wherein the housing (1) comprises a cervical vertebra massage area (33), a lumbar vertebra massage area (34) is disposed behind the cervical vertebra massage area (33), a back massage area (35) is disposed between the cervical vertebra massage area (33) and the lumbar vertebra massage area (34), a back massage device (36) is disposed below the back massage area (35), a rotary massage device (37) is disposed below the cervical vertebra massage area (33) and the lumbar vertebra massage area (34), the rotary massage device (37) is disposed above the driving motor (2), the rotary massage device (37) is disposed above the back of the massage force adjusting device (7), the rotary massage device (37) comprises a second fixing shaft (38) having one end fixedly connected to the inner side wall of the housing (1), the second fixing shaft (38) and the massage force adjusting device (7) are located on the same side, a first rotating shaft (39) is coaxially connected to the second fixing shaft (38) in a rotating mode, the other end of the first rotating shaft (39) is rotatably connected to the inner side wall of the same side with the driving motor (2), a plurality of fixing rods (40) are uniformly and fixedly connected to the side wall of the first rotating shaft (39), a plurality of axially adjacent fixing rods (40) in the fixing rods (40) are simultaneously rotatably connected with a massage force adjusting plate (41), a first rotating block (42) is rotatably connected to one side wall, close to the second fixing shaft (38), of the massage force adjusting plate (41), a rotating rod (43) is rotatably connected to the first rotating block (42), and a second rotating block (55) is rotatably connected to the other end of the rotating rod (43), second turning block (55) evenly rotates to be connected on a carousel (44), the coaxial rotation of the other end of carousel (44) is connected on a slip disc (45), slip disc (45) coaxial sliding connection is on second fixed axle (38), two fixedly connected with a first fixed connecting rod (46) between slip disc (45), fixedly connected with a second fixed connecting rod (47) on slip disc (45) that is in cervical vertebra massage district (33) below, a second ring channel (54) has been seted up to a terminal surface that first spring (17) was kept away from in third spur gear (16), the other end of second dead lever (40) is arranged in second ring channel (54).

6. The cervical vertebra pain treatment device according to claim 5, wherein the back massage device (36) comprises a back massage plate (48) disposed below the back massage region (35), the left and right side walls of the back massage plate (48) are both fixedly connected with two rotary telescopic rods (49) symmetrically distributed in front and back, the left side wall of the back massage plate (48) is provided with a rack sliding slot (50), the rack sliding slot (50) is disposed between the two rotary telescopic rods (49) on the left side, the two rotary telescopic rods (49) on the left side are jointly slidably connected to a fixed frame (51), the fixed frame (51) is fixedly connected to the inner bottom end surface of the housing (1), the two rotary telescopic rods (49) on the right side are jointly fixedly connected to a reciprocating frame (52), the reciprocating frame (52) is slidably connected to the inner bottom end surface of the housing (1), a back massage plate lifting device (53) is arranged between the fixed frame (51) and the left side wall of the back massage plate, and the back massage plate lifting device (53) is partially arranged in the rack sliding groove (50).