CN111658296B

CN111658296B - Cold shock scanning massage equipment

Info

Publication number: CN111658296B
Application number: CN202010649956.XA
Authority: CN
Inventors: 黄云山
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2023-04-25
Anticipated expiration: 2040-07-08
Also published as: CN111658296A

Abstract

The invention discloses a cold shock scanning massage device, which belongs to the field of health care equipment, and comprises a watertight bin, wherein a first lifting mechanism, a side cold shock device, a second lifting mechanism and a top cold shock device are arranged in the watertight bin; the first lifting mechanism is used for driving the side part cooling device to move up and down, and the second lifting mechanism is used for driving the top cooling device to move up and down; the top spraying column is arranged on the top cooling device and is used for spraying cold water above the head of a human body, the side spraying column is arranged on the side cooling device and is used for spraying cold water around the human body, the temperature of the cold water is 1-5 ℃, and the high-pressure water column of the cold water is used for impacting local parts of the human body, so that the effect of cold medium massage is achieved.

Description

Cold shock scanning massage equipment

Technical Field

The invention relates to the field of health care equipment, in particular to cold shock scanning massage equipment.

Background

In the fields of health care and physiotherapy, there are equipment such as hot baking, hot scanning and hot massage, but no equipment such as cold shock, cold scanning and cold massage. The human body can perform high-intensity cold shock scanning massage in a short time in whole or local parts, so that the nerve endings and nervous systems of the human body can be stimulated, and the functions of human tissues can be activated.

In view of the above, the present invention provides a cold shock scanning massage apparatus.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention aims to provide a cold shock scanning massage device.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the cold shock scanning massage equipment comprises a watertight bin, wherein a first lifting mechanism, a side cold shock device, a second lifting mechanism and a top cold shock device are arranged in the watertight bin;

the first lifting mechanism is used for driving the side part cooling device to move up and down, and the second lifting mechanism is used for driving the top cooling device to move up and down;

the top cooling device is provided with a top injection column, the top injection column is used for spraying cold water above the head of a human body, the side cooling device is provided with a side injection column, the side injection column is used for spraying cold water around the human body, and the temperature of the cold water is 1-5 ℃.

Further preferred are: the top chilling device comprises an inner cylinder, a water inlet short pipe, a second eccentric wheel, a fourth motor, a connecting rod and a sphere;

the fourth motor is arranged in the inner cylinder, an output shaft of the fourth motor is fixed on one side of the center of the second eccentric wheel, a magnet is fixed at the bottom of the second eccentric wheel, and the magnet is positioned on the other side of the center of the second eccentric wheel;

the top injection column is arranged on the water inlet short pipe, a hose connector for installing a water hose is arranged on the water inlet short pipe, the bottom of the spherical body is fixed on the water inlet short pipe, the top of the spherical body is fixed with an iron block magnetically connected with the magnet, and the iron block is positioned under the output shaft of the fourth motor and is not in contact with the magnet;

the locating block centre gripping is in the opposite both sides of sphere, the locating block is being close to sphere one side is provided with the accommodation cavity, the sphere hold in the accommodation cavity and with hold and leave the clearance between the cavity lateral wall, so that the sphere can be in hold the cavity internal oscillation, connecting rod one end is fixed on the locating block, the other end is fixed on the inner tube.

Further preferred are: the second lifting mechanism comprises a gear, a rotating shaft, a rack and a third motor;

the rack is vertical and fixed in the outer side of the inner cylinder, the gear is meshed with the rack and used for driving the inner cylinder to move up and down, the gear is fixed in the axial direction of the rotating shaft, the rotating shaft is connected with the output shaft of the third motor, and the third motor is installed on the watertight bin.

Further preferred are: the side chilling device comprises a support ring, a spray ring and a collar;

the lantern ring is fixed on the supporting ring and sleeved on the periphery of the injection ring, the injection ring is communicated with the water hose, the side injection column is arranged on the inner side of the injection ring, and the side injection column is wound around the human body;

the support ring is fixedly provided with a connecting block, and the connecting block is installed on the first lifting mechanism.

Further preferred are: the side part chilling device further comprises a second motor and a first eccentric wheel;

the support ring is fixedly provided with a fixing plate, the second motor is arranged on the fixing plate, the output shaft of the second motor is fixed with one side of the center of the first eccentric wheel, and the circumferential surface of the first eccentric wheel is provided with a friction plate for contacting with the outer surface of the injection ring;

the second motor and the first eccentric wheel are both provided with two, the two second motors are opposite in steering, and when one first eccentric wheel is in contact with the outer surface of the injection ring, the other first eccentric wheel is not in contact with the outer surface of the injection ring.

Further preferred are: the inner wall of the watertight bin is provided with a sliding groove, a sliding block matched with the sliding groove is fixed on the fixing plate, and the sliding block slides in the sliding groove.

Further preferred are: the first lifting mechanism comprises a first motor, a chain wheel and a supporting shaft;

the first motor and the supporting shaft are respectively positioned at the upper part and the lower part of the watertight bin, two chain wheels are arranged, one chain wheel is fixed on the output shaft of the first motor, and the other chain wheel is sleeved on the supporting shaft;

the chain is sleeved on the first motor and the chain wheel of the supporting shaft and is meshed with the first motor and the chain wheel of the supporting shaft respectively, and the connecting block is fixed on the chain.

Further preferred are: the side part cooling device and the top cooling device comprise a jet cylinder, a turbulent flow blade, a filter screen and a connecting sleeve;

the water inlet is formed in the connecting sleeve, the filter screen is located between the water inlet end of the injection cylinder and the water inlet, the connecting sleeve is installed at the water inlet end of the injection cylinder, and the turbulence blades are fixed in the injection cylinder and used for shunting water flow in the injection cylinder.

Further preferred are: the turbulence blade is formed by connecting four long stainless steel sheets and four short stainless steel sheets, the four long stainless steel sheets and the four short stainless steel sheets are distributed in the injection cylinder at intervals, one end of each of the four short stainless steel sheets is in contact with the filter screen, the other end of each of the four short stainless steel sheets is positioned in the injection cylinder, one end of each of the four long stainless steel sheets is in contact with the filter screen, and the other end of each of the four long stainless steel sheets is positioned on the end face of the water outlet end of the injection cylinder.

Further preferred are: the bottom of the watertight bin is provided with a drain pipe.

In summary, the invention has the following beneficial effects: the cold water high-pressure water column is utilized to impact the body part, so as to achieve the effect of cold medium massage. When the high-pressure water column moves transversely and longitudinally, the human body is subjected to omnibearing scanning massage, the temperature of cold water is controlled to be 1-5 ℃, and the cold shock effect is realized. The human body is subjected to short-time and high-intensity cold shock scanning massage to stimulate the nerve endings and nervous system of the human body and activate the functions of human tissues.

Drawings

FIG. 1 is a schematic structural view of an embodiment, mainly for embodying the external structure of a cold shock scanning massage device;

FIG. 2 is a schematic cross-sectional view of an embodiment, primarily for embodying the internal structure of a cold shock scanning massage device;

FIG. 3 is a schematic structural view of an embodiment, mainly used for embodying a specific structure of a side portion cooling device;

FIG. 4 is a schematic structural view of an embodiment, mainly used for embodying the structure of the second elevating mechanism and the top chilling apparatus;

FIG. 5 is a schematic structural view of an embodiment, mainly used for embodying the structure of the top chilling apparatus;

FIG. 6 is a schematic cross-sectional view of an embodiment, primarily for embodying the structure of a top chilling apparatus;

FIG. 7 is a schematic view of an embodiment, primarily for embodying the structure of the side and top spray columns;

fig. 8 is a schematic structural view of an embodiment, mainly for embodying the structure of the side spray column and the top spray column.

In the figure, 1, a watertight bin; 2. a first lifting mechanism; 21. a first motor; 22. a chain; 23. a sprocket; 24. a support shaft; 3. a side chilling device; 31. a support ring; 32. a connecting block; 33. a spray ring; 34. a friction plate; 35. a collar; 36. a fixing plate; 37. a slide block; 38. a second motor; 39. a first eccentric; 4. a second lifting mechanism; 41. a gear; 42. a third motor; 43. a rack; 5. a top chilling device; 51. an inner cylinder; 52. a water inlet short pipe; 53. a connecting rod; 54. a second eccentric; 55. a fourth motor; 56. a magnet; 57. iron blocks; 58. a sphere; 59. a positioning block; 6. a side spray column; 7. a top spray column; 8. a spray cylinder; 9. turbulence blades; 10. a filter screen; 11. connecting sleeves; 12. a water inlet; 13. a drain pipe; 14. and a sliding groove.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

Examples: a cold shock scanning massage device, as shown in figures 1-8, comprises a cylindrical watertight compartment 1. A first lifting mechanism 2, a side part cooling device 3, a second lifting mechanism 4 and a top cooling device 5 are arranged in the watertight bin 1. The first lifting mechanism 2 is used for driving the side part cooling device 3 to move up and down, and the second lifting mechanism 4 is used for driving the top part cooling device 5 to move up and down. The top spraying column 7 is installed on the top chilling device 5, and the top spraying column 7 is used for spraying cold water above the head of a human body so as to spray the cold water from top to bottom. The side spraying columns 6 are arranged on the side chilling device 3, and the side spraying columns 6 are used for spraying cold water around a human body so that the cold water is sprayed to the whole body from the surrounding direction, thereby playing a role of whole body chilling stimulation. The temperature of the cold water is controlled between 1 and 5 ℃.

Referring to fig. 1 to 8, in particular, the top chilling apparatus 5 comprises an inner barrel 51, a water inlet stub 52, a second eccentric 54, a fourth motor 55, a connecting rod 53 and a spherical ball 58. The inner cylinder 51 has a closed upper end and an open lower end. The fourth motor 55 is installed at the inner top of the inner cylinder 51, and the output shaft of the fourth motor 55 is fixed at one side of the center of the second eccentric wheel 54. The bottom of the second eccentric wheel 54 is fixed with a magnet 56, the magnet 56 is positioned at the other side of the center of the circle of the second eccentric wheel 54, and preferably, the magnet 56 and the output shaft of the fourth motor 55 are respectively positioned at two opposite sides of the center of the circle of the second eccentric wheel 54.

Referring to fig. 1 to 8, the top spray column 7 is installed at the lower end of the water inlet stub 52, and a hose connector for installing a water hose is provided at the side of the water inlet stub 52. The bottom of the sphere 58 is fixed at the upper end of the water inlet short pipe 52, the top is fixed with an iron block 57 magnetically and flexibly connected with the magnet 56, and the iron block 57 is positioned right below the output shaft of the fourth motor 55 and is not in direct contact with the magnet 56. The positioning block 59 is clamped on two opposite sides of the sphere 58, and the positioning block 59 is provided with a containing cavity on one side close to the sphere 58. The sphere 58 is received in the receiving cavity with a clearance between the side walls of the receiving cavity to permit the sphere 58 to oscillate within the receiving cavity. One end of the connecting rod 53 is fixed on the outer side of the positioning block 59, and the other end is fixed on the inner wall of the inner cylinder 51.

In the above technical solution, when the fourth motor 55 is started, the second eccentric wheel 54 will drive the magnet 56 to rotate around the output shaft of the fourth motor 55, and because the iron block 57 is not disposed under the magnet 56 but obliquely above, when the magnet 56 rotates around the output shaft of the fourth motor 55, under the effect of the magnetic flexible connection, the iron block 57 will drive the sphere 58 to swing and rotate in the accommodating cavity on the positioning block 59. So that the multi-directional cold water injection can be carried out from the upper part of the head of the human body, and the cold shock effect is better.

Referring to fig. 1-8, two second lifting mechanisms 4 are provided, and the two second lifting mechanisms 4 are respectively located at two opposite sides of the inner cylinder 51 and are used for driving the inner cylinder 51 to move up and down integrally, so that the device can be better adapted to users with different heights. The second elevating mechanism 4 includes a gear 41, a rotation shaft, a rack 43, and a third motor 42. The rack 43 is vertically arranged and fixed on the outer side of the inner cylinder 51, and the gear 41 is meshed with the rack 43 and is used for driving the inner cylinder 51 to move up and down. The gear 41 is fixed in the axial direction of the shaft and is located between the inner cylinder 51 and the watertight compartment 1. The rotating shaft is connected with the output shaft of a third motor 42, and the third motor 42 is arranged on the outer side or the inner side of the watertight bin 1.

In the above technical scheme, in order to effectively improve the top chilling effect and better adapt to users with different heights, the top chilling device 5 of the invention can not only reciprocate above the head of a human body, but also integrally move up and down. In order to conveniently control the downward moving distance of the top chilling device 5 and keep a proper spraying distance between the top chilling device 5 and the head of a human body, the infrared sensor can be arranged in the watertight bin 1, so that the top chilling device 5 can be accurately controlled to move. When the third motor 42 is started, the gear 41 starts to rotate, so that the rack 43 and the inner cylinder 51 are driven to move up and down integrally. In order to ensure that the inner cylinder 51 stably moves, the watertight bin 1 is also provided with the sliding groove 14, the sliding groove 14 is vertically arranged, and the inner cylinder 51 vertically slides in the sliding groove 14.

Referring to fig. 1-8, the side chilling apparatus 3 includes a support ring 31, a spray collar 33, a collar 35, a second motor 38, and a first eccentric 39. The lantern ring 35 is fixed on the supporting ring 31 and sleeved around the spraying ring 33, the spraying ring 33 is wound around the human body, and the human body stands in the spraying ring 33 during cold shock. The injection ring 33 can rotate in the lantern ring 35, in order to reduce the resistance of the injection ring 33 rotating in the lantern ring 35 and facilitate the injection ring 33 to smoothly rotate in the lantern ring 35, the invention can install balls on the lantern ring 35 so that the injection ring 33 rotates on the balls. The spray ring 33 is communicated with the water hose, the side spray posts 6 are mounted on the inner side of the spray ring 33, eight side spray posts 6 are arranged on the spray ring 33 in total, and the side spray posts 6 are located between the adjacent lantern rings 35 in order to comprehensively cool the human body.

Referring to fig. 1 to 8, a fixing plate 36 is fixed to the support ring 31, and a second motor 38 is mounted on the fixing plate 36. The output shaft of the second motor 38 is fixed to one side of the center of the first eccentric wheel 39, and the circumferential surface of the first eccentric wheel 39 is provided with a friction plate 34 for contacting with the outer surface of the injection ring 33. The friction plate 34 is used to contact with the outer side of the injection ring 33 so as to rotate the injection ring 33 to a certain position around the center of the circle. The second motor 38 and the first eccentric 39 are provided with two, the two second motors 38 are turned opposite, and when one first eccentric 39 is in contact with the outer surface of the injection ring 33, the other first eccentric 39 is not in contact with the outer surface of the injection ring 33. The circumferential surface of the first eccentric 39 is provided with a most distant portion and a most closest portion, which are located on opposite sides of the first eccentric 39, respectively. In the first eccentric 39, the farthest position is farthest from the center axis of the second motor 38, and the nearest position is closest to the center axis of the second motor 38. The furthest part is intended to be in contact with the outside of the injection ring 33 so that the injection ring 33 rotates, and no other position on the first eccentric 39 is in contact with the injection ring 33 than the furthest part. When the farthest part of one of the first eccentric wheels 39 rotates to the outer surface of the injection ring 33 and the nearest part of the other first eccentric wheel 39 rotates to the outer surface of the injection ring 33, the angle at which the injection ring 33 rotates is maximized. Of the two first eccentrics 39, one first eccentric 39 is used to drive the injection ring 33 to rotate clockwise and the other first eccentric 39 is used to drive the injection ring 33 to rotate counterclockwise.

In the above technical solution, the installation position of the side injection column 6 is constant, in order to prevent the side injection column 6 from continuously injecting to the same part of the human body and prevent the human body from generating discomfort, and in order to facilitate the full-scale injection to the whole body of the human body, the invention adopts the design of spraying water by reciprocating and rotating the injection ring 33, and the two second motors 38 with different steering drive a first eccentric wheel 39 to rotate forward and backward respectively, and the injection ring 33 rotates back and forth in the horizontal direction under the action of the friction plate 34. The friction plate 34 should be made of wear-resistant material, and the wear of the friction plate 34 should be checked on schedule during use.

Referring to fig. 1 to 8, a connection block 32 is fixed to the support ring 31, and the connection block 32 is mounted on the first elevating mechanism 2. In order to enable the support ring 31 to stably move up and down in the watertight compartment 1, in particular, a sliding block 37 matched with the sliding groove 14 is fixed on the fixing plate 36, and the sliding block 37 slides in the sliding groove 14. The first elevating mechanism 2 includes a first motor 21, a chain 22, a sprocket 23, and a support shaft 24. The first motor 21 and the supporting shaft 24 are respectively arranged at the upper part and the lower part of the watertight bin 1, two chain wheels 23 are arranged, one chain wheel 23 is fixed on the output shaft of the first motor 21, and the other chain wheel 23 is sleeved on the supporting shaft 24. The chain 22 is sleeved on the first motor 21 and the chain wheel 23 of the supporting shaft 24 and is meshed with the first motor and the chain wheel, and the connecting block 32 is fixed on the chain 22. The first lifting mechanisms 2 are arranged in two, and the two first lifting mechanisms 2 are respectively positioned on two opposite sides of the supporting ring 31.

In the above technical solution, in order to make cold water be sprayed onto a human body comprehensively, and to set fewer side portion cooling devices 3 as much as possible, so as to reduce manufacturing cost, the invention provides the first lifting mechanism 2 for driving the side portion cooling devices 3 to move up and down, and the spraying ring 33 moves up and down while rotating horizontally, so that spraying is more comprehensive. When the first motor 21 is started, the chain 22 rotates on the sprocket 23, thereby driving the spray ring 33 to move up and down.

Referring to fig. 1-8, the side chilling device 3 and the top chilling device 5 each comprise a spray cylinder 8, turbulence blades 9, a filter screen 10 and a connection sleeve 11. The connecting sleeve 11 is connected with the water inlet short pipe 52 or the injection ring 33 in a threaded manner, and the connecting sleeve 11 is provided with a water inlet 12. The filter screen 10 is located between the water inlet end and the water inlet 12 of the injection cylinder 8, the connecting sleeve 11 is installed at the water inlet end of the injection cylinder 8, and the connecting sleeve 11 is in threaded connection with the injection cylinder 8 for the convenience of dismounting the filter screen 10. The turbulence blades 9 are fixed in the injection cylinder 8 and used for dividing the water flow in the injection cylinder 8, and two ends of the injection cylinder 8 are provided with openings. The turbulence blades 9 are formed by connecting four long stainless steel sheets and four short stainless steel sheets, and the four long stainless steel sheets and the four short stainless steel sheets are distributed in the jet cylinder 8 at intervals. One end of each of the four short stainless steel sheets is contacted with the filter screen 10, the other end of each of the four short stainless steel sheets is positioned in the spray cylinder 8, one end of each of the four long stainless steel sheets is contacted with the filter screen 10, and the other end of each of the four long stainless steel sheets is positioned on the end face of the water outlet end of the spray cylinder 8.

Referring to fig. 1 to 8, in order to rapidly and timely drain the water in the watertight compartment 1 to the outside, it is preferable that the bottom of the watertight compartment 1 is provided with a drain pipe 13, one end of the drain pipe 13 is located in the watertight compartment 1, and the other end is located outside the watertight compartment 1.

In the above technical scheme, in the field of machine manufacturing, the common liquid spray head has the functions of spraying liquid into a large-area mist-like divergent water flow, and the ultrahigh-pressure spray head is only columnar at the outlet of the spray head, so that the liquid can be dispersed quickly once the liquid is sprayed out of the outlet of the spray head. At present, no columnar liquid product can be ejected under the condition of low liquid pressure and low liquid flow rate. In order to overcome the defect, the side part chilling device 3 and the top part chilling device 5 adopt special designs, and the turbulence blades 9 are arranged in the spraying cylinder 8, so that the inside of the spraying cylinder 8 is divided into a plurality of columns, the radial resistance of water flow is increased, and cold water is columnar when sprayed outwards.

The cold water high-pressure water column is utilized to impact the body part, so as to achieve the effect of cold medium massage. When the high-pressure water column moves transversely and longitudinally, the human body is subjected to omnibearing scanning massage, the temperature of cold water is controlled to be 1-5 ℃, and the cold shock effect is realized. The human body is subjected to short-time and high-intensity cold shock scanning massage to stimulate the nerve endings and nervous system of the human body and activate the functions of human tissues.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that numerous improvements and modifications can be made by those skilled in the art without departing from the principles of the present invention, and such improvements and modifications are also considered to be within the scope of the present invention.

Claims

1. A cold shock scanning massage device, characterized in that: the water-tight cabin comprises a water-tight cabin (1), wherein a first lifting mechanism (2), a side part cooling device (3), a second lifting mechanism (4) and a top cooling device (5) are arranged in the water-tight cabin (1);

the first lifting mechanism (2) is used for driving the side part cooling device (3) to move up and down, and the second lifting mechanism (4) is used for driving the top cooling device (5) to move up and down;

a top injection column (7) is arranged on the top chilling device (5), the top injection column (7) is used for injecting cold water above the head of a human body, a side injection column (6) is arranged on the side chilling device (3), the side injection column (6) is used for injecting cold water around the human body, and the temperature of the cold water is 1-5 ℃;

the side chilling device (3) comprises a support ring (31), a spray ring (33) and a collar (35);

the lantern ring (35) is fixed on the supporting ring (31) and sleeved on the periphery of the injection ring (33), the injection ring (33) is connected with a water delivery hose, the side injection column (6) is arranged on the inner side of the injection ring (33), and the side injection column (6) is wound around the periphery of a human body;

a connecting block (32) is fixed on the supporting ring (31), and the connecting block (32) is arranged on the first lifting mechanism (2);

the side chilling device (3) further comprises a second motor (38) and a first eccentric (39); a fixed plate (36) is fixed on the support ring (31), the second motor (38) is mounted on the fixed plate (36), an output shaft of the second motor (38) is fixed with one side of the center of a circle of the first eccentric wheel (39), and a friction plate (34) used for being in contact with the outer surface of the injection ring (33) is arranged on the circumferential surface of the first eccentric wheel (39); the two second motors (38) and the first eccentric wheels (39) are respectively arranged, the two second motors (38) are opposite in direction, and when one first eccentric wheel (39) is in contact with the outer surface of the injection ring (33), the other first eccentric wheel (39) is not in contact with the outer surface of the injection ring (33).

2. A cold shock scanning massage apparatus as claimed in claim 1, wherein: the top chilling device (5) comprises an inner cylinder (51), a water inlet short pipe (52), a second eccentric wheel (54), a fourth motor (55), a connecting rod (53), a sphere (58) and a positioning block (59);

the fourth motor (55) is arranged in the inner cylinder (51), an output shaft of the fourth motor (55) is fixed on one side of the center of a circle of the second eccentric wheel (54), a magnet (56) is fixed at the bottom of the second eccentric wheel (54), and the magnet (56) is positioned on the other side of the center of the circle of the second eccentric wheel (54);

the top injection column (7) is arranged on the water inlet short pipe (52), a hose connector for installing a water delivery hose is arranged on the water inlet short pipe (52), the bottom of the round ball body (58) is fixed on the water inlet short pipe (52), an iron block (57) magnetically connected with the magnet (56) is fixed on the top, and the iron block (57) is positioned under an output shaft of the fourth motor (55) and is not in contact with the magnet (56);

the positioning block (59) is clamped on two opposite sides of the sphere (58), a containing cavity is formed in one side, close to the sphere (58), of the positioning block (59), the sphere (58) is contained in the containing cavity, a gap is reserved between the sphere (58) and the side wall of the containing cavity, so that the sphere (58) can swing in the containing cavity, one end of the connecting rod (53) is fixed on the positioning block (59), and the other end of the connecting rod is fixed on the inner cylinder (51).

3. A cold shock scanning massage apparatus as claimed in claim 2, wherein: the second lifting mechanism (4) comprises a gear (41), a rotating shaft, a rack (43) and a third motor (42);

the rack (43) is vertically arranged and fixed on the outer side of the inner cylinder (51), the gear (41) is meshed with the rack (43) and used for driving the inner cylinder (51) to move up and down, the gear (41) is fixed on the axial direction of the rotating shaft, the rotating shaft is connected with the output shaft of the third motor (42), and the third motor (42) is installed on the watertight bin (1).

4. A cold shock scanning massage apparatus as claimed in claim 1, wherein: the inner wall of the watertight bin (1) is provided with a sliding groove (14), a sliding block (37) matched with the sliding groove (14) is fixed on the fixed plate (36), and the sliding block (37) slides in the sliding groove (14).

5. A cold shock scanning massage apparatus as claimed in claim 1, wherein: the first lifting mechanism (2) comprises a first motor (21), a chain (22), a chain wheel (23) and a supporting shaft (24);

the first motor (21) and the supporting shaft (24) are respectively positioned at the upper part and the lower part of the watertight bin (1), two chain wheels (23) are arranged, one chain wheel (23) is fixed on the output shaft of the first motor (21), and the other chain wheel (23) is sleeved on the supporting shaft (24);

the chain (22) is sleeved on the first motor (21) and a chain wheel (23) of the supporting shaft (24) and is meshed with the first motor and the chain wheel respectively, and the connecting block (32) is fixed on the chain (22).

6. A cold shock scanning massage apparatus as claimed in claim 1, wherein: the side part cooling device (3) and the top part cooling device (5) comprise an injection cylinder (8), turbulence blades (9), a filter screen (10) and a connecting sleeve (11);

the water inlet (12) is formed in the connecting sleeve (11), the filter screen (10) is located between the water inlet end of the injection cylinder (8) and the water inlet (12), the connecting sleeve (11) is installed at the water inlet end of the injection cylinder (8), and the turbulence blades (9) are fixed in the injection cylinder (8) and used for shunting water flow in the injection cylinder (8).

7. The apparatus of claim 6, wherein: the turbulence blades (9) are formed by connecting four long stainless steel sheets and four short stainless steel sheets, the four long stainless steel sheets and the four short stainless steel sheets are distributed in the jet cylinder (8) at intervals, one end of each short stainless steel sheet is in contact with the filter screen (10), the other end of each short stainless steel sheet is positioned in the jet cylinder (8), one end of each long stainless steel sheet is in contact with the filter screen (10), and the other end of each long stainless steel sheet is positioned at the end face of the water outlet end of the jet cylinder (8).

8. A cold shock scanning massage apparatus as claimed in claim 1, wherein: the bottom of the watertight bin (1) is provided with a drain pipe (13).