KR100835755B1 - High Function Meridian - Google Patents

Abstract

The present invention relates to a high-performance meridian massager capable of meridian massage by discharging or recovering air contained in the central cylinder portion by an airbag or a precision mobile acupressure assembly box by vertical reciprocating motion of the central piston. A central cylinder unit for discharging or recovering air by vertical reciprocating movement of the central cylinder unit, a driving unit for providing power to the central cylinder unit, a manual valve unit configured at one side of the central cylinder unit, and connected to an airbag or a high-function rotating unit, and the manual valve unit The present invention relates to a high-function meridian massager comprising a high-performance rotating device for discharging or retrieving the air flowing in and out of an airbag or a precision mobile acupressure assembly box.

The high-performance meridians massager of the present invention can discharge and recover the air inside the central cylinder by the vertical reciprocating motion of the central piston, there is an advantage that can be utilized by selecting the massage by the shiatsu rod according to the massage and body parts by the air bag.

Description

High technical skill kyungrak masage machinary}

The present invention relates to a high-performance meridian massager capable of meridian massage by supplying or retrieving air contained in the central cylinder portion by an up-down movement of the central piston to a precision moving acupressure assembly box with an air bag or acupressure rod functioning as a pressure-sensitive function When the central piston is lowered, the air contained in the central cylinder is pumped to each air bag or the precision mobile acupressure assembly box, and the meridians are massaged. When the central piston is raised, the air is recovered and the meridians is terminated. It is related to a high-function meridian massager that can obtain a continuous massage effect repeatedly.

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There are many massage devices that are used for the purpose of fatigue or health promotion. Among them, there is an air massager that massages the body by supplying an excessive amount of air to the airbag to press the body part with the expansion force of the airbag and then release the air.
Since the air is supplied by using the compressor, there is no recovery function and only the function of continuously supplying air. Therefore, the air is supplied to one tube and then pressurized. Then, the air is supplied to the next tube. The air is automatically released by opening the valve, but there is a disadvantage that it is difficult to effectively massage the supply of air is slow.
Utility Model Application No. 20-2005-0028896 filed by the present applicant is difficult to use commercially available valves and electric controllers that can control the number and order of acupressure acupressure, and the inflating force of the airbag in the above application There is a pressure bar to press the pressure bar, but this is a way to press the pressure bar with the air bag, so if the direction of force transmission is not a straight line, it could be distorted, so it could not transmit pressure accurately. It is a simple thing that can only be moved in one direction, and it was not enough to perform a meridian massage. When there are many air sources, it is difficult to assemble and use a manual valve on the market. There was this.

Therefore, the present invention provides a meridian massager that has an excellent effect on health promotion, by means of an acupressure rod according to the body parts and functions that can continuously massage the hand and foot massage having a high massage effect and the pain area by means of an airbag. The purpose is to provide a high-performance meridian massager, which contributes to a healthy and energetic life by allowing meridian massage at the same time.

In order to solve the above problems, the high-performance meridians massager of the present invention, the eccentric cam, the central piston is connected to one side of the eccentric cam, reciprocating up and down by eccentric rotation, the discharge of air by the vertical reciprocating motion of the central piston Or a central cylinder configured to include a central cylinder having a first hole serving as a recovery passage; A drive unit providing rotational power of the eccentric cam; Located in the side of the central cylinder portion, the second hole is connected to the first cylinder and the first cylinder through the hose, the first disc cam rotated manually, the first disc cam is located below the first disc cam At least one first cylinder that is selectively opened and closed by rotation to contact the air and the second hole, a manual position including a handle located on the upper portion of the first disc cam to manually rotate the first disc cam Valve device; Located in the upper portion of the central cylinder portion, the third cylinder is connected to each other via a gear for transmitting the rotational force of the eccentric cam, the second hole cam connected to the first cylinder and the hose of the manual valve device, the second cam A high function rotating device positioned below the second disc cam and including at least one second cylinder selectively opened and closed by rotation of the second disc cam to communicate with the third hole; It provides a high-function meridian massager comprising a; and an airbag for acupressure function using the air pressure transferred from the first cylinder of the manual valve device or the second cylinder of the high-function rotary device.
In addition, the present invention is a box having a passage through which a part of the body can be inserted, the air cylinder is connected to the second cylinder and the hose of the high-performance rotating device, the air cylinder is fastened to variously move the position of the air cylinder It is characterized in that it further comprises a precision moving acupressure assembly box comprising a guide plate formed with a guide groove to be formed, the assembly piston which is reciprocated in the air cylinder up and down, the acupressure rod fastened to the lower portion of the assembly piston. Provides a high-performance meridians massager.

According to the high-function meridian massager of the present invention, it is possible to provide a high-function meridian massager capable of controlling the number and sequence of continuous massage of acupuncture points as essential for meridian massage. In addition, since the supply or recovery of air is repeatedly driven only by the vertical reciprocating motion of the central piston, it can be used without trouble at a low price. When using the precision moving shiatsu assembly box with the massage function by the acupressure rod as well as the massage function by the air bag, Acupressure is effective in the correct position of the acupuncture points.

According to the present invention, the air in the central cylinder is pushed to an air bag or a precision mobile pressure assembly assembly box located at each acupuncture point by lowering the central piston to press the acupuncture points, and when the central piston is raised, the compressed air is transferred to the central cylinder. Meridian massage is repeated by mechanically repeating the process to remove the pressure.
That is, in the high-function meridian massager of the present invention, the central piston is reciprocated up and down by the rotation of the eccentric cam. When the eccentric cam is rotated by the geared motor and the central piston is lowered, the air in the central cylinder is manually moved. It is pumped to the valve device. The air pushed by the manual valve device is pumped to the first air bag to massage the acupuncture points of the hands and feet for a predetermined time or to the high-function rotating device. The air transferred to the high-function rotating device delivers air to a precision moving pressure assembly box equipped with a second air bag or acupressure rod to massage the acupuncture points at a necessary part.
On the other hand, when the eccentric cam continues to rotate and the central piston rises, the inside of the central cylinder is in a vacuum state, so that the conveyed air is recovered back into the central cylinder and the pressure is released. By repeating the above process, it is possible to continuously massage the acupuncture points.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
1 is a schematic configuration diagram of a high-function meridian massage machine according to the present invention, where A is a plan view, B is a front view, and C is a left side view. Specifically, except for the precision moving shiatsu assembly box 600 (which is disclosed in FIG. 15), the central cylinder unit 100, the driving unit 200, the manual valve unit 300, the high-performance rotary unit 400, and the airbag The coupling structure of 500 is schematically illustrated.
The central cylinder part 100 of the present invention includes an eccentric cam 110, a central piston 120 and the central cylinder 130, the coupling structure is as follows.
The main block 150 which can support the driving unit 200 and the high-function rotating device 400 to be configured on the base block 140 is positioned on the top of the central cylinder 130 where the central piston 120 is located; The support block 160 is vertically coupled.
The lower one side of the central cylinder 130 is provided with a first hole 131 through which compressed air can escape, and the press bar 170 connected to one side of the eccentric cam 110 to rotate the eccentric cam 110. ), And the central piston 120 coupled to the lower portion of the press bar 170 is vertically moved within the central cylinder 130. In this case, the descending central piston 120 may be configured to rise faster by fastening the revolving spring 180 to one side of the upper portion of the central piston 120 and the one side of the geared motor 210.
One side of the main block 150 is coupled to the geared motor 210 is assembled with a reduction gear, the eccentric cam 110 is rotated by receiving the power of the geared motor 210.
Manual valve device 300 of the present invention is located on the side of the central cylinder portion 100 and the air flowing in and out through the first hole 131 of the central cylinder portion 100, the first air bag 510 or a high function Transfer to the rotating device (400). Specifically, the second hole 310 formed on one side of the cylindrical manual valve device 300 and connected via a hose and the first hole 131 of the central cylinder portion 100, the first disc to be manually rotated At least one or more first cams that are positioned below the cam 320 and the first disc cam 320 and are selectively opened and closed by rotation of the first disc cam 320 so that the air is in contact with the second hole 310. A cylinder 330 is disposed on the first disc cam 320, the handle 340 for manually rotating the first disc cam 320, each of the first cylinder 330 is a high function The first cylinder hole 331 is configured to allow air to flow in and out of the rotating device 400 or the first air bag 510.
For example, when using the first airbag 510 for immediately massaging the hands and feet, eight air bags 511 should be provided to effectively massage the back and the hands and feet, the manual valve device of the 300 When two air bags 511 are formed in each of the first air bags 510 connected to one first cylinder hole 331, four first cylinder holes 331 for supplying and recovering air are required and high-function rotation One first cylinder hole 331 is required, which allows air to be delivered to the device 400, and usually five or more first cylinder holes 331 are configured.
The high-function rotary device 400 of the present invention is fastened and fixed to one side of the support block 160 at the upper portion of the central cylinder part 100, through the first cylinder hole 331 of the manual valve device 300. The flowed out air is delivered to the second air bag 520 or the precision mobile acupressure assembly box 600. The high-function rotating device 400 is provided with a third hole 410 connected to the first cylinder hole 331 of the manual valve device 300 through a hose on one side, the rotational force of the eccentric cam 110 The second disc cam 420 is rotated by receiving the plurality of second cylinder 430 is configured on the outer periphery, each of the second cylinder 430 is assembled with a second air bag 520 or a precision mobile pressure regulator The second cylinder hole 431 for transmitting the air pressure to the box 600 is configured.
The high-function rotating device 400 is rotated about the disc cam shaft 440 through a plurality of gears 450 for transmitting the rotational force of the eccentric cam 110 of the central cylinder 100. Specifically, the rotational force is transmitted to the first driven gear 452 which rotates in engagement with the drive gear 451 configured at one side of the eccentric cam 110, and is rotated about the same axis as the first driven gear 452. The rotational force is transmitted to the second driven gear 454 which meshes with the outer gear 453. When the second disc cam 420 rotated about the same axis as the second driven gear 454 is rotated, the second cylinders 430 are opened and closed in order to transfer the introduced air pressure.
As shown in FIG. 1, the airbag 500 of the present invention has an air bag 511 and the air at the end of a hose fastened with a nipple to the first cylinder hole 331 of the manual valve device 300. A first airbag 510 consisting of a belt 512 for fixing the pocket 511 to a body part, and connected to a distal end of a hose fastened to a second cylinder hole 431 of the high-performance rotating device 400. It consists of a second airbag 520 is configured.
Therefore, the high-function meridians massager according to the present invention is to move the central piston 120 up and down by the rotation of the eccentric cam 110, when the central piston 120 descends the air in the central cylinder 130 manual valve The air pumped to the device 300, the air pumped to the manual valve device 300 is pushed to the first air bag 510 to expand the air bag 511 to press the acupuncture points, or to the high-function rotary device 400 After the transfer, the air is delivered to another second airbag 520 or the precision mobile pressure assembling assembly box 600 provided with acupressure rods to acupressure menstrual blood. On the other hand, when the eccentric cam 110 continues to rotate and the central piston 120 rises, the supplied air is recovered into the central cylinder 130 again to release the feeling of pressure. By repeating the above process, it is possible to continuously massage the acupuncture points.
Figure 2 is a schematic diagram of the operating structure of the eccentric cam 110, among the components of the high-function meridian massage machine of the present invention.
In the drawing, when the center angle 0 °, the shortest radius of the eccentric cam 110, is in contact with the top surface of the press bar 170, the center piston 120 is in the top dead center so that the air in the center cylinder 130 In the filled state, while the eccentric cam 110 rotates in the direction of the arrow and moves between the center angle of the eccentric cam 110 between 0 ° and a °, the radius becomes longer, so that the press bar 170 descends and the central piston 120 descends. Descends. When the central piston 120 is completely lowered, the air in the central cylinder 130 is all pressurized to the precision moving pressure assembly assembly box 600 connected to the airbag 500 or the high-performance rotary device 400 via the manual valve device 300. It is in a state.
On the other hand, before the eccentric cam 110 rotates in the direction of the arrow, when the center angle of 0 ° touches the upper surface of the press bar 170, the air in the center cylinder 130 is airbag 500 or the precision mobile acupressure assembly box 600 In the absence of air, the central piston 120 starts to descend quickly, but as air is filled, the resistance becomes greater, and thus more force is required to lower the central piston 120. Therefore, the central piston 120 should be lowered slowly, but the center piston 0 to 30 ° extends the radius of the eccentric cam 110 at a center angle of 10 ° or more by 10 mm or more to rotate the center angle of the eccentric cam 110 by 10 °. 10 mm or more, and as air is transferred to the airbag 500 or the precision moving acupressure assembly box 600, as the resistance increases, the degree of expansion of the radius is gradually reduced to 2 mm at the central angle of 10 ° to maximize the power of the motor. Since the central angle a ° to c ° is the largest radius, this part is rubbed with the top surface of the press bar 170 (for example, if a single rotation is 7 seconds, it is rubbed from a ° to c °). The time is about 3.5 seconds), since the central piston 120 is stopped at the bottom dead center, the air in the central cylinder 130 is maintained in the state in which both the airbag 500 and the precision moving pressure assembling box 600 are supplied. . On the other hand, when the eccentric cam 110 continues to rotate so that the portion between the center angle c ° to d ° is rubbed with the upper surface of the press bar 170, the center piston 120 is soared by the spring 180, the airbag 500 ) Or the air that was supplied to the precision mobile acupressure assembly box 600 is recovered back into the central cylinder 130 to release the pressure and acupressure will be acupressure massage once acupressure.
3 is a structural diagram of the central cylinder 130 of the constituent parts of the high-function meridian massage machine of the present invention, where A is a plan view, B is a front view, and C is a right side view. Specifically, the tab 133 is configured at the upper portion of the central cylinder 130 to assemble the base block 140, and the first hole 131 is formed at the center of the lower surface to allow air to flow in and out. The hose connected to) can be assembled with nipples.
4 is a structural diagram of the central piston 120 of the components of the high-function meridian massage machine of the present invention, where A is a plan view, B is a front view, and a is a hole for fitting the press bar 170. Specifically, a protrusion (121) is formed on the upper portion and a hole (a) for fitting the press bar (170) is formed in the center, and the revolving spring (180) on both sides of the protrusion (121) of the driving unit (200) The central piston 120 which is lowered in the central cylinder 130 by being fastened to the upper surface is configured to rise to the top dead center by the elasticity of the spring 180.
5 is a structural diagram of the eccentric cam 110 in which the drive gear 451 is coupled among the components of the high-performance meridian massage machine of the present invention, A is a plan view, B is a front view, and r is an eccentric cam 110. The radius is shown. Specifically, when the eccentric cam 110 having the drive gear 451 configured at one side is inserted into the reduction gear shaft of the geared motor 210 and rotates, the press bar 170 coupled to one side of the eccentric cam 110 is moved. The central piston 120 is to move up and down. When the driven gear 452 is rotated while the driving gear 451 is integrally rotated at the same time as the rotation of the eccentric cam 110, the rotational force is transmitted to the second disc cam 420 of the high-performance rotating device 400. .
FIG. 6 is a structural diagram of a base block 140 located at an upper end of a central cylinder 130 among components of a high-function meridian massage machine of the present invention, where A is a plan view and B is a front view. Specifically, a first hole 141 is formed in the center of the rectangular base block 140 to allow the press bar 170 to pass through, and the main block 150 and the support block 160 are respectively formed on both left and right sides thereof. Second holes 142 and 143 may be formed to be vertically coupled, and third holes 144 may be assembled at tabs 133 of the central cylinder 130 and the slump block 134 at both left and right ends thereof. Is formed.
7 is a structural diagram of a main block 150 fixed perpendicularly to an upper surface of the base block 140 among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view. Specifically, the third hole 151 in which the geared motor 210 is assembled on one side of the main block 150 and the fourth holes 152 for supporting and fixing the geared motor 210 to the main block 150 are provided. Is formed.
8 is an embodiment of the press bar 170a to which needle bearings are applied, among the components of the high-function meridian massage machine of the present invention, A is a plan view, and B is a front view. Specifically, the upper end coupled to the curved surface of the eccentric cam 110 may be manufactured as the press bar 170 of FIG. 2, and another embodiment of the press bar 170a in which the needle bearing is assembled as shown in FIG. 8. It is also possible to produce in the form of). On the other hand, the lower end of the press bar 170 is fitted into the hole (a) formed in the protrusion 121 of the central piston 120 through the first hole 141 of the base block 140.
Fig. 9 is a structural schematic diagram of the high-function rotating device 400 among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view. The high-function rotary device 400 is fixedly coupled to one side of the support block 160 in the longitudinal direction, the third hole connected to the first cylinder hole 331 of the manual valve device 300 via a hose (one side) 410, the second disc cam 420 is rotated by receiving the rotational force of the eccentric cam 110 by the interconnection with the gear, the second disc cam 420 is located below the second disc cam 420 It is configured to include at least one or more second cylinder 430 is selectively opened and closed by the rotation of the third hole 410 is in contact with the air.
The third hole 410 is connected to the first cylinder hole 331 of the manual valve device 300 by a hose and becomes a moving passage of air, and each hose is fastened with a nipple.
The second disc cam 420 is formed with an intaglio groove 423 on one side of the outer circumference, and rotates around the second disc cam shaft 440. The second disc cam 420 is rotated about the same axis as the first driven gear 452 and the first driven gear 452 to rotate in engagement with the drive gear 451 configured at one side of the eccentric cam 110. The outer tooth gear 453 and the outer tooth gear 453 are rotated by receiving rotational force from the second driven gear 454 which rotates in engagement with the outer tooth gear 453.
The second cylinder 430 is disposed below the second disc cam 420, and a plurality of the second cylinder 430 is arranged on the outer circumference of the second disc cam 420. Typically, 8 to 10 can be configured, or may be configured to more than that. In each of the second cylinders 430, a valve piston 433 having a second spring 435 and a vent 434 is formed.
Therefore, when the second disc cam 420 is rotated, the intaglio groove 423 formed on one side of the outer periphery is also rotated, and the second cylinder 430 configured under the portion where the intaglio groove 423 is located. The valve piston 433 is raised to the intaglio groove 423 by the elastic force of the second spring 435, the second cylinder hole 431 when the vent 434 formed on the valve piston 433 is exposed ) Is opened. Through the open second cylinder hole 431, air can be transferred to the second airbag 520 or the precision moving pressure assembling box 600.
At this time, when the first driven gear 452 rotates once, the external gear 453 rotated once in the same axis is also rotated once, and the second driven gear 454 rotated in engagement with the external gear 453. ) Rotates, the second disc cam 420 is rotated around the shaft 440, the valve piston 433 formed with the vent 434 is replaced in accordance with the movement of the intaglio groove 423 is replaced with the second cylinder hole ( 431 is opened in turn. Therefore, the rotation ratio of the drive gear 451 and the first driven gear 452 coupled to the eccentric cam 110 is adjusted, or the size of the rotation angle of the intaglio groove 423 formed in the second disc cam 420 is adjusted. By doing so, the number and order of massages in the airbag 520 or the precision mobile acupressure assembly box 600 can be adjusted. For example, when the rotation ratio of the drive gear 451 and the first driven gear 452 is 1:10, the eccentric cam 110 rotates 10 times while the central piston 120 reciprocates up and down 10 times. When the drive gear 451 coupled to the eccentric cam 110 rotates 10 times to rotate the first driven gear 452 once, and the first driven gear 452 rotates once, it rotates in the same axis. The outer tooth gear 453 also rotates once, and the second driven gear 454 which rotates in engagement with the outer gear 453 rotates the second disc cam 420. In this case, since the second disc cam 420 is rotated by one center angle among the plurality of second cylinders 430 located below, the acupressure through the open second cylinder hole 431 is continuously performed ten times in succession. do. Thereafter, with the continuous rotation of the second disc cam 420, the acupressure is made again and again ten times through the second cylinder hole 431 which is then opened.
10 is another embodiment of the high-function rotating device 400 among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view. Specifically, in the high-function rotary device 400 of FIG. 9, an additional auxiliary intaglio groove 424 is provided on an outer circumferential side of the second disc cam 420, and an auxiliary cylinder 480 is formed at a lower portion thereof. Air moved by the opening of the auxiliary cylinder 480 is transferred to the auxiliary air bag 700.
The auxiliary air bag 700 when the air is pushed to the second air bag 520 or the precision mobile acupressure assembly box 600 by the opening of the second cylinder 420 of the high-function rotating device 400, a precision mobile acupressure It is further configured to adjust the intensity of the overall air pressure to disperse the air, and to compress the menstrual blood in case that it may be difficult to accommodate the total amount of air being transported due to lack of space in the assembly box 600 It is desirable to.
The auxiliary air bag 700 is a box 730, an air bag unit 740 provided in the box 730, a compression plate 720 for adjusting the volume in the box 730, the height of the compression plate 720 is adjusted It is configured to include a control unit 710. Specifically, after putting the airbag unit 740 into the box 730 with the compression plate 720 to adjust the height of the compression plate 720, and lowering the compression plate 720 in the box 730 The volume becomes smaller. Due to this, a certain amount of air pumped from the central cylinder 130 is compressed more and the expansion force is counted, the overall force of the air pressure to press the menstrual blood is increased. However, when the compression plate 720 is lifted up, the volume in the box 730 is increased, and thus, the air pressure from the central cylinder 130 can be accommodated. You lose.
FIG. 11 illustrates the cover 460 of the high-function rotating device 400 in FIGS. 9 and 10. Specifically, it is preferable to assemble the screw using the O-ring so that the compressed air introduced from the manual valve device 300 is not lost.
FIG. 12 illustrates a plan view of the second disc cam 420 of the high-function rotating device 400 according to the present invention, where a is a position of an intaglio groove 423, b and c show an inclined surface, and f Denotes the position of the auxiliary intaglio groove 424. Accordingly, as shown in FIG. 9, as the second disc cam 420 of the high-function rotating device 400 rotates, the valve piston 433 of the second cylinder 430 located at the lower portion thereof is an intaglio groove 423. Raised at position a, the second cylinder 430 is opened through the vent 434 formed on the valve piston 433. However, when the second disc cam 420 is rotated to the position without the intaglio groove 423, the second cylinder 430 is closed. On the other hand, as shown in FIG. 10, the auxiliary negative groove 424 is formed long on the other side of the second disc cam 420 as f to assist the air moved by the opening of the auxiliary cylinder 480. It can be configured to transport to the airbag 700.
FIG. 13 is a structural diagram of the valve piston 433 in the configuration of the high-performance rotating device 400 of the present invention, where A is a plan view and B is a front view, and is located below the second disc cam 420 and is located at the second. It is moved up and down in the cylinder 430. A head portion (e) contacting with the rotation of the second disc cam 420 is positioned at an upper end of the valve piston 433, and an intaglio groove of the second disc cam 420 is located below the head portion e. A vent 434 is formed which is exposed when the valve piston 433 is raised at the 423 position. Meanwhile, the inside of the valve piston 433 is formed through the vent hole 434 from the position of the vent hole 434 to the lower portion thereof so that air can pass through the second cylinder hole 431 through the vent hole 434.
Fig. 14 is a schematic view of the manual valve device 300 among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view.
The manual valve device 300 is located at the side of the central cylinder part 100 to transfer the air flowing in and out of the central cylinder part 100 to the first airbag 510 or the high-function rotary device 400. Specifically, the second hole 310 connected to the first hole 131 and the hose of the central cylinder portion 100 on one side, the first disc cam 320 is manually rotated, the first disc cam ( Located at the bottom of the 320 and selectively opened and closed by the rotation of the first disc cam 320, at least one or more first cylinder 330, the air is in contact with the second hole 310, the first disc cam ( Located on top of the 320 is configured to include a handle 340 for rotating the first disc cam (320).
Basically, the operation principle of the manual valve device 300 is similar to the operation principle of the high-function rotary device 400 mentioned in FIG. However, the second disc cam 420 in the high-function rotary device 400 is automatically rotated by receiving the rotational force through a plurality of gears for transmitting the rotational force of the eccentric cam 110, but the first of the manual valve device 300 1 disc cam 320 is manually rotated by the handle 340, it is selected to open the desired first cylinder 330.
In detail, the second hole 310 is connected to the first hole 131 of the central cylinder part 100 by a hose and becomes a moving passage of air, and each hose is fastened with a nipple.
The first disc cam 320 is formed with an intaglio groove 321 on one side of the outer circumference, and rotates about the first disc cam shaft 350.
The first cylinder 330 is present in the lower portion of the first disc cam 320, the plurality is arranged on the outer periphery of the first disc cam 320. Typically, 4 to 6 can be configured, the number can be adjusted as needed. In each of the first cylinders 330, a valve piston 333 including a first spring 335 and an air vent 334 is formed.
An upper portion of the first disc cam 320 is covered with a manual valve device cover 360, and the handle 340 is configured on the manual valve device cover 360 to rotate the first disc cam 320. . A scale 361 corresponding to the position of the first cylinder 330 is displayed on the upper surface of the manual valve device cover 360, and the handle 340 is formed in the intaglio groove 321 formed in the first disc cam 320. Arrows 341 and the like are displayed at corresponding positions. Accordingly, when the arrow 341 is manually aligned with the scale 361 by rotating the handle 340, the valve piston 333 is moved to the first spring in the first cylinder 330 at a position corresponding to the scale 361. The vent hole is opened by being raised to the intaglio groove 321 by the elastic force of 335.
As described above, some of the first cylinders 330 are connected to the third hole 410 of the high-performance rotating device 400, and some of the first cylinders 330 are connected to the first airbag 510. 1 selectively transfers air according to the rotation of the disc cam 320.
15 is a schematic diagram of an embodiment applied to a full-body massage using the high-function meridian massage machine of the present invention. Specifically, the second cylinder hole 431 of the high-performance rotating device 400 is opened and conveyed, the air is conveyed to the second airbag 520 and the precision mobile pressure assembly assembly box 600 via a hose or the like to massage the whole body Applied to.
1) Meridian massage in the second airbag 520
After attaching the flat air bag 521 with no air to the limbs or acupuncture points where massage is needed, and then tightening it with the belt 522, the air in the central cylinder 130 is compressed by the lowering of the central piston 120. Finally, when supplied to the second air bag, the acupuncture points are compressed by the expansion of the air bag 521, and when compressed air is recovered into the central cylinder 130 again by the rising of the central piston 120, the air bag ( 521 is repeated and the pressure is released to repeat the process to massage the acupuncture points of the hands and feet or limbs. At this time, the acupressure pad or the acupressure rods provided with the protrusions are first attached to the acupuncture points, the air pocket 521 is placed thereon, and then applied by being tied to the belt 522 to increase the massage effect of the acupuncture points.
2) Meridian massage in precision moving acupressure assembly box 600
The precision mobile acupressure assembly box 600 is fastened to the box 610 having a passage through which a part of a human body can be inserted, and to the acupressure attachment plate 620 inside the box 610 to the second cylinder 430. At least one air cylinder 630 to receive the air pressure through the hose, the assembly piston 640 vertically reciprocated in the air cylinder 630, the acupressure rod 650 coupled to the lower portion of the assembly piston 640 It is configured to include.
Specifically, a part of the body is inserted into the precision moving acupressure assembly box 600, the air transferred from the open second cylinder hole 321 air cylinder of the precision moving acupressure assembly box 600 through a hose. When the pressure is injected into the 630, the assembly piston 640 is lowered by the air pressure generated in the air cylinder 630, and the pressure rod 650 presses the menstrual blood, and the assembly piston 640 is conditioned according to the inflow of air. Up and down the reciprocating movement to allow a continuous menstrual massage.
16 is a schematic diagram of another embodiment in which the high-function meridian massage machine of the present invention is applied to whole-body massage. Specifically, in the high-function meridian massager of the present invention, as shown in FIG. 15, the air transferred by opening the second cylinder hole 431 of the high-function rotating device 400 is precisely moved with the second airbag 520 through a hose or the like. It is applied to the whole body massage by pumping to the shiatsu assembly box 600, it is also possible to transfer the air to the whole body massage only by the second air bag 520 without the precision mobile acupressure assembly box 600, if necessary. This may be applied to a case where it is difficult to use the precision mobile acupressure assembly box due to the narrow or complicated place.
18 is a structural diagram of the precision mobile acupressure assembly box 600 of the components of the high-function meridian massage machine of the present invention, A is a plan view based on the acupressure plate attached plate 620, and B is a front sectional schematic view.
In detail, a pressure indicator mounting plate 620 is provided in the precision moving acupressure assembly box 600, and a plurality of air cylinders 630 having an air cylinder hole 631 formed at a lower portion of the pressure attachment plate 620 are bolted. 660 and the like, and each air cylinder 630 is provided with an assembly piston 640 which is vertically moved by the presence or absence of air pressure introduced from the air cylinder hole 631, and has a lower portion of the assembly piston 640. Acupressure rod 650 is attached to the configuration.
Meanwhile, a guide groove 622 is formed in the acupressure plate attachment plate 620 to adjust the position of the air cylinder 630 in various ways, and the air cylinder 630 is assembled along the guide groove 622. The bolt 660 may be moved to various positions, and the vertical movement guide 624 is formed on both sides of the box 610 to push or pull the acupressure attachment plate 620 after inserting the acupressure attachment plate 620. It is also possible to move while moving. In addition, since the height of the air cylinder 630 can be precisely adjusted by loosening or locking the nut 670 assembled to the bolt 660, the precision mobile acupressure assembly box of the present invention accurately measures the exact position of acupuncture points. By adjusting the pressure, the pressure can be adjusted to the appropriate pressure, and the effective meridians can be massaged.

20 is a structural diagram of an air cylinder 630 configured in the precision moving pressure assembly box 600 of the present invention.
Assembling a plurality of air cylinders 630, the air cylinder hole 631 is formed by a bolt 660, etc., each of the air cylinders 630 is vertically moved by the presence or absence of air pressure introduced from the air cylinder hole (631) Assembly piston 640 is provided, the lower portion of the assembly piston 640 is provided with a shiatsu bar 650 is attached. Specifically, assembling the bolt 660 in the upper center of the air cylinder 630, two nuts 670 are assembled in the bolt 660, the assembly piston 640 is provided with a pressure rod 650 at the bottom of the air Inserted into the cylinder 630 is configured. The assembled air cylinder 630 is fastened by fastening with a nut 670 to the acupressure attachment plate 620, and the air pressure introduced through the air cylinder hole 631 formed at an upper side of the air cylinder 630 is assembled. When the piston 640 is pressed, the force is transmitted to the pressure rod 650, the pressure rod 650 is to press the menstrual blood. After the supplied air is recovered, the feeling of pressure disappears, and the process can be repeated to obtain a continuous acupressure effect.
Operation of the high-function meridian massage machine according to the present invention is as follows.
Specifically, when the eccentric cam 110 is rotated by the power of the geared motor 210 to reach the largest radius, by pressing the press bar 170 connected to one side of the eccentric cam 110, the central piston 120 To lower in the central cylinder (130). The air inside the central cylinder 130 is compressed by the lowering of the central piston 120, and the compressed air is discharged through the first hole 131 formed at one side of the central cylinder 130. It is transferred to the second hole 310 formed at one side of the (300). The manual valve device 300 has a first disc cam 320 provided with an intaglio groove on one side, and after opening the first cylinder 330 to be opened by the handle in the lower portion of the intaglio groove, The conveyed air is transferred to the third air hole 410 of the first airbag 510 or the high-performance rotating device 400. Inside the high-function rotary device 400 is a second disc cam 420 is provided with an intaglio groove on one side, the second disc cam is automatically rotated by receiving the rotational force of the eccentric cam 110 in the bottom of the intaglio groove Opening the second cylinder 430 is located, and delivers the air to the precision air pressure assembly assembly box 600 equipped with a second air bag 520 or acupressure rod through the open second cylinder 430 of the required portion Acupressure is acupressure.
On the other hand, when the eccentric cam 110 is continuously rotated by the power of the geared motor 210 to reach the smallest radius, the press bar 170 connected to one side of the eccentric cam 110 is raised to the center piston 120 To rise in the central cylinder (130). As the air inside the central cylinder 130 is expanded by the rising of the central piston 120, the air which has been transferred to the airbag 500 or the precision mobile pressure assembly assembly box 600 is recovered back into the central cylinder 130. Acupuncture points in the airbag 500 or the precision mobile acupressure assembly box 600 are released.
Therefore, once the eccentric cam 110 is rotated once, the acupressure Acupressure is completed in the airbag 500 or the precision mobile acupressure assembly box 600, and the acupuncture points can be massaged by the continuous rotation. .
In addition, the manual valve device 300 rotates the handle 340 to selectively open the first cylinder 330 located under the intaglio groove 321 of the first disc cam 320, the high-function rotary device 400 Or to be connected to the first airbag 510 to selectively deliver air. That is, after sufficiently massaging one part, the handle 340 of the manual valve device 300 may be rotated to discharge or recover air to the first airbag 510 connected to another first cylinder 330 to massage the same. When the air is discharged or recovered to the high function rotating device 400 connected to another first cylinder 330 by rotating the handle 340, the second air bag 520 connected to the high function rotating device 400 or the precise movement Massage in the shiatsu assembly box 600 is possible.
In addition, the high-performance rotary device 400 adjusts the rotation ratio of the drive gear 451 and the first driven gear 452 coupled to the eccentric cam 110, or the intaglio groove 423 formed in the second disc cam 420 By adjusting the size of the one-time rotation angle of the second) to adjust the number and order of massage in the second air bag 520 or the precision mobile pressure assembly box 600.
Although the present invention has been described above, the technical scope of the present invention is not limited to the contents described in the above-described embodiments, and equivalent configurations modified or changed by those skilled in the art may be described. Obviously, it is not beyond the scope of thought.

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1 is a schematic configuration diagram of a high-function meridian massage machine according to the present invention, where A is a plan view, B is a front view, and C is a left side view.
Figure 2 is a schematic diagram of the operation structure of the eccentric cam, among the components of the high-function meridian massage machine of the present invention.
Fig. 3 is a structural diagram of a central cylinder of the constituent parts of the high-function meridian massage machine of the present invention, where A is a plan view, B is a front view, and C is a right side view.
Fig. 4 is a structural diagram of a central piston of the constituent parts of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view.
5 is a structural diagram of an eccentric cam combined with a drive gear among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view.
Fig. 6 is a structural diagram of a base block located at the upper end of the center cylinder among the components of the high-performance meridians massager of the present invention, where A is a plan view and B is a front view.
7 is a structural diagram of a main block which is fixed perpendicularly to an upper surface of a base block among constituent parts of the high-performance meridians massage of the present invention, where A is a plan view and B is a front view.
8 is an embodiment of the press bar to which the needle bearing is applied, among the components of the high-function meridian massage machine of the present invention, A is a plan view, and B is a front view.
Fig. 9 is a structural schematic diagram of the high-function rotating device among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view.
Fig. 10 is another embodiment of the high-function rotating device among the components of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view.
FIG. 11 illustrates a cover of the high-function rotating device in FIGS. 9 and 10.
Figure 12 shows the structure of a plan view of a second disc cam of the high-function rotating device of the present invention.
Fig. 13 is a structural diagram of a valve piston in the high-function rotating device configuration of the present invention, where A is a plan view and B is a front view.
Fig. 14 is a schematic view of a manual valve device among the constituent parts of the high-function meridian massage machine of the present invention, where A is a plan view and B is a front view.
15 is a schematic diagram of an embodiment applied to a full-body massage using the high-function meridian massage machine of the present invention.
16 is a schematic diagram of another embodiment in which the high-function meridian massage machine of the present invention is applied to whole-body massage.
FIG. 18 is a structural diagram of a precision mobile acupressure assembly box among components of the high-performance meridian massage machine of the present invention, where A is a plan view based on the pressure-bearing plate, and B is a schematic sectional schematic view.
20 is a structural diagram of an air cylinder configured in the precision mobile acupressure assembly box of the present invention.
<Name of code in main part of drawing>
100: central cylinder 110: eccentric cam
120: center piston 130: center cylinder
131: first hole 140: base block
150: main block 160: support block
170: press bar 180: revolving spring
200: drive unit 210: geared motor
300: manual valve device 310: second hole
320: first disc cam 330: first cylinder
340: handle 350: first disc camshaft
360: manual valve unit cover 400: high-function rotary device
410: third hole 420: second disc cam
430: second cylinder 440: second disc camshaft
450: gear 451: drive gear
452: First driven gear 453: Single tooth gear
454: second driven gear 460: high function rotary device cover
500: airbag 510: first airbag
520: second air bag 600: precision moving acupressure assembly box
610: box 620: acupressure plate
630: air cylinder 640: assembly piston
650: shiatsu rod 660: bolt
670: nut 700: auxiliary air bag
710: adjuster 720: compression plate
730: auxiliary air bag box 740: air bag unit

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Claims (5)

An eccentric cam, a central piston connected to one side of the eccentric cam and reciprocating up and down by eccentric rotation, and a central cylinder having a first hole formed as a passage for discharge or recovery of air by up and down reciprocating movement of the central piston; A central cylinder configured; A drive unit providing rotational power of the eccentric cam; Located in the side of the central cylinder portion, the second hole is connected to the first cylinder and the first cylinder through the hose, the first disc cam rotated manually, the first disc cam is located below the first disc cam At least one first cylinder that is selectively opened and closed by rotation to contact the air and the second hole, a manual position including a handle located on the upper portion of the first disc cam to manually rotate the first disc cam Valve device; Located in the upper portion of the central cylinder portion, the third cylinder is connected to each other via a gear for transmitting the rotational force of the eccentric cam, the second hole cam connected to the first cylinder and the hose of the manual valve device, the second cam A high function rotating device positioned below the second disc cam and including at least one second cylinder selectively opened and closed by rotation of the second disc cam to communicate with the third hole; And High pressure meridians massager comprising a; airbag for acupressure function using the air pressure transferred from the first cylinder of the manual valve device or the second cylinder of the high-function rotary device. The method of claim 1, wherein the manual valve device, A negative groove is formed at one side of the first disc cam, and a piston having a vent is formed in the first cylinder, and the first disc cam is provided at an upper position corresponding to the first cylinder to be opened. When the intaglio groove is positioned, the piston inside the first cylinder is raised to the intaglio groove, the high-function meridian massager, characterized in that the first cylinder is opened through the vent provided in the raised valve piston. According to claim 1, The second disc cam of the high-function rotary device, Receives a rotational force from a first driven gear that rotates in engagement with a drive gear configured on one side of the eccentric cam, an external gear that rotates about the same axis as the first driven gear, and a second driven gear that rotates in engagement with the external gear. Will rotate, When the second disc cam is rotated, the valve piston of the second cylinder formed in the lower portion of the portion where the intaglio groove formed on one side of the second disc cam is located is raised to the intaglio groove, and provided in the raised valve piston Meridian massager, characterized in that the second cylinder is opened through the vent. According to claim 3, The high-function rotary device, High-performance meridians, characterized in that to adjust the rotation ratio of the drive gear and the first driven gear coupled to the eccentric cam, or by adjusting the size of the rotation angle of the recess groove formed in the second disc cam Massager. The method according to any one of claims 1 to 4, wherein the high-function meridians massager, A box having a passage through which a part of the body can be inserted, an air cylinder connected to the second cylinder of the high-performance rotating device through a hose, and a pressure guide formed with a guide groove to fasten the air cylinder and move the position of the air cylinder. The high performance meridians massager further comprises an attachment plate, an assembly piston which is reciprocated in the air cylinder up and down, and a precision moving acupressure assembly box including an acupressure rod fastened to a lower portion of the assembly piston.

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