WO2006121285A1 - A treatment system using water pressure - Google Patents

Abstract

The present invention relates to a treatment system using water pressure, which enables a water injection equipment to move and each nozzle to rotate with only one first driving motor. According to the present invention, to generate various injection modes, a second driving motor is further established and operated independently of a first driving motor. Further, the present invention has technologies to maintain easily tension of a belt member, to control and monitor operations of driving motors and so on, and to open and close the head part automatically, and it can further improve the user's convenience and the product competitiveness.

Description

Description A TREATMENT SYSTEM USING WATER PRESSURE

Technical Field

[1] The present invention relates to a treatment system using water pressure, which is designed to control a position of an injection unit optionally. A treatment system using water pressure of the present invention shoots jets of water of a predetermined water pressure uniformly across every part of the body of a user lying on a water-proof matt, and it brings an acupressure massage effect to improve blood circulation and speed up metabolism of a user.

[2] More particularly, the present invention relates to a treatment system using water pressure, wherein the position of an injection unit, which is driven by a pump for discharging hydraulic fluid to the lower part of a water-proof matt and provides a predetermined water pressure, can be controlled automatically by physically handicapped users or bedridden patients with keeping lying down.

[3]

Background Art

[4] Waste products of a body diminish blood flow in blood vessels and hinder blood circulation in general. Poor blood circulation causes not only an imbalanced or slow metabolism but also many different poor health effects and aches in all parts of the body.

[5] To improve the blood circulation, people usually receive physical therapies or acupressure massages. Those treatments are, however, available only in particular places such as hospitals, so any one who wants the hospital treatment has to go to hospital personally. Therefore, there is a need to develop a home treatment system which enables people with physical disabilities to operate easily at home without the help of others.

[6] Therefore, the inventor of the present invention filed the Korean application No.

2004-49240 (A treatment system using water pressure; publication date -July 14, 2005) on June 29, 2004 and as shown in FIG. 1 and FIG. 2, the treatment system using water pressure of the above-identified application comprises; a main body 1 filled with water, having a water-proof matt 2 securely sealed to the top and an exterior case being attached to the outer surface; an injection unit (water injection equipment; 3) connected to a pump for discharging the water from the main body under a designated pressure and a hose (water supply equipment; 4), and having nozzles for ejecting water pressure to the bottom surface of the water-proof matt 2; a belt member 7 installed on the bottom surface of the main body 1 to reciprocate the injection unit in a horizontal direction thereon; and a rotating means for rotating at least one of the nozzles during the reciprocation of the injection unit to form a track of the water pressure provided to the bottom of the water-proof matt 2.

[7] The rotating means includes: a rack gear 12 installed along the longitudinal direction of the bottom surface of the main body; a pinion gear rotatably supported to the injection unit and geared with the rack gear at the lower end; and a counter gear geared with the gear of the belt member 7.

[8] According to this invention, the treatment system required the minimum number of nozzles for discharging water pressure and fewer components, and it made possible to reduce the cost for production. And the user could operate the pump for discharging water pressure to the water-proof matt and monitor the operation of the injection unit through the head part 25 and therefore, it could improve the user's convenience and the product competitiveness.

[9] However, as mentioned above, in a conventional treatment system, there was a need to equip driving gears especially for the rack and the pinion, which were installed on the lower part of the main body, respectively, to move an injection unit with nozzles along the part of body. Therefore, there were several problems in a conventional treatment system that the structure of moving an injection unit was complex, the process for producing was difficult, and the cost for producing would be increased.

[10] There was another problem that a pinion spool connected to a rotating gear should be set up high to some extent from the internal bottom of the main body, and therefore, the space for treating by spouting water into the main body would be decreased relatively.

[11] Moreover, the driving motor was overloaded by driving rotating means with one driving motor and moving by gearing a pinion gear 13 of small radius with a rack gear 12.

[12] After some period of time, a belt member 7, which transfers power in warm water, grew longer and caused a poor gearing problem with a driving gear. Therefore, there has been a need to establish special equipment to maintain tension of the belt member.

[13]

Disclosure of Invention Technical Problem

[14] To solve the above-mentioned problems, the present invention is directed to a treatment system using water pressure, which simply uses an orbital motion of a belt member to move and rotate an injection unit with nozzles. Therefore, there is no need to equip a rack or a pinion under the lower part of an injection unit, and it can improve the productivity and increase the space for treating by spouting water, relatively. [15] Another aspect of the present invention is to provide a treatment system using water pressure with technologies to operate effectively in such manner as each component may not be overloaded in spite of the minimum numbers of components, to maintain easily tension of a belt member, to control and monitor operations of driving motors and so on, and to open and close the head part automatically, and it can improve further the user s convenience and the product competitiveness.

[16]

Technical Solution

[17] To achieve the above object, the present invention is characterized by a treatment system using water pressure, comprising a main body filled with water with the upper part open, a water-proof matt securely sealed to the top of the main body, a water injection equipment having a moving means for an injection unit with one or more nozzles for injecting water toward the lower part of the water-proof matt and a rotating means for rotating one or more nozzles, a water supply equipment for supply water under a determined pressure to each nozzle of the water injection equipment, wherein the moving means comprises: a first driving motor, which rotates clockwise and counterclockwise by the application of power; a first driving gear established rotatably on one side of the bottom of the main body to transfer power directly by the first driving motor; a first driven gear established rotatably on the other side of the bottom of the main body with a predetermined distance from the first driving gear; a first belt member, having a toothed part in the inner surface, in order to be geared with the first driving gear and the first driven gear, respectively, and move the injection unit; and a table of the injection unit having a penetrating hole in order to be fixed onto one side of the first belt member with a fixing means, wherein the rotating means comprises: a first and a second spooler, perpendicular to the penetrating hole of the injection unit table at a distance, fixed both sides to the table and formed rotatably; a first rotating gear connected to the top of the first spool at the upper part of the table; a second rotating gear geared with the first rotating gear and connected to the top of the second spool; a first nozzle located on one edge of the upper side of the first rotating gear; and a second nozzle located on one edge of the upper side of the second rotating gear, symmetrical or asymmetrical to the first nozzle, wherein on one side of the upper part of the main body, a openable head part is further equipped.

Advantageous Effects

[18] A treatment system using water pressure of the present invention has no need to equip a rack gear or a pinion gear under the lower part of an injection unit and it simply uses a first belt member and a second belt member to move the injection unit and rotate nozzles effectively. Therefore, it improves the productivity, increases relatively the space for injecting water, and has an advantage for various treatments using water pressure. [19] Moreover, a treatment system using water pressure of the present invention can move the injection unit and rotate nozzles without its overload with only one driving motor, and it prevents waste of components and electric power. And, the present invention has technologies to maintain easily tension of a belt member, to control and monitor operations of driving motors and so on, and to open and close the head part automatically, and it can further improve the user's convenience and the product competitiveness. [20]

Brief Description of the Drawings [21] The above objects, features and advantages of the present invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings, in which: [22] Fig.1 is an exploded perspective view of a conventional treatment system using water pressure; [23] Fig. 2 is an enlarged view of key elements showing an installation state of an injection unit shown in Fig. 1; [24] Fig. 3 and Fig. 4 are schematic exploded perspective views showing an installation of an injection unit table according to embodiments of the present invention; [25] Fig. 5 is a schematic plan view showing the principles of moving of an injection unit table and of rotating of each nozzle shown in Fig. 4; [26] Fig. 6 and Fig. 25 are schematic views showing water spouting into a water-proof matt through nozzles on moving an injection unit table according to embodiments of the present invention; [27] Fig. 7 and Fig. 26 illustrate the application of a treatment system using water pressure according to the present invention; [28] Fig. 8 to Fig. 11 are schematic views showing the principles of moving of an injection unit table and of rotating of each nozzle according to each embodiment of the present invention; [29] Fig. 12 to Fig. 15 are cross-sectional views showing the principles of moving of an injection unit table and of rotating of each nozzle according to each embodiment of

Fig. 8 to Fig. 11; [30] Fig. 16 and Fig. 17 are schematic plan view showing that each nozzle rotates by torque caused by water resistance on moving an injection unit table in embodiments of

Fig. 3, Fig. 8 and Fig. 12; [31] Fig. 18 to Fig. 24 illustrate patterns of injection modes according to operations of the first driving motor and the second driving motor;

[32] Fig. 27 is a cross-sectional view of AA line of Fig. 12 to Fig. 15;

[33] Fig. 28 is a cross-sectional view of BB line of Fig. 12 to Fig. 15;

[34] Fig. 29 is a cross-sectional view showing the application of an insert member for maintaining tension of the first belt member shown in Fig. 28; and

[35] Fig. 30 is a cross-sectional view of other embodiment of tying the first belt member. [36]

[37] Explanations for symbols of major parts of drawings>

[38] 1 : main body

[39] 2 : water-proof matt

[40] 3 : water injection equipment

[41] 4 : water supply equipment

[42] 7 : first belt member

[43] 8, 38 : first and second driving motors

[44] 9, 39 : first and second driving gears

[45] 10, 30 : first and second driven gears

[46] 12, 174 : rack gear

[47] 16, 17 : first and second rotating gears

[48] 18 : distributor

[49] 19, 20, 21 : first, second, and third hoses

[50] 23 : display device

[51] 25 : head part

[52] 26, 27 : first and second nozzles

[53] 33 : fixing nut

[54] 34 : guide piece

[55] 35 : table

[56] 36 : guide rail

[57] 37 : second belt member

[58] 40 : oxygen generator

[59] 50 : container for aroma

[60] 60 : electric cylinder

[61] 161, 171 : first and second spools [62]

Mode for the Invention

[63] A detailed description of preferred embodiments of the present invention is provided with respect to the accompanying drawings. It must be comprehended that the following preferred embodiments are exemplary only to help understand the present invention and not to limit its interpretation.

[64]

[65] [First embodiment]

[66] First of all, the present invention can be embodied as following:

[67] As shown in Fig. 6, in a treatment system using water pressure, comprising a main body 1 filled with water with the upper part open, a water-proof matt 2 securely sealed to the top of the main body, a water injection equipment 3 having a moving means for an injection unit with one or more nozzles for injecting water toward the lower part of the water-proof matt and a rotating means for rotating one or more nozzles, a water supply equipment 4 for supplying water under a determined pressure to each nozzle of the water injection equipment,

[68] the moving means, as shown in Fig. 3, is comprised of a first driving motor 8, which rotates clockwise and counterclockwise by the application of power; a first driving gear 9 established rotatably on one side of the bottom of the main body 1 to transfer power directly by the first driving motor; a first driven gear 10 established rotatably on the other side of the bottom of the main body 1 with a predetermined distance from the first driving gear; a first belt member 7, having a toothed part in the inner surface, in order to be geared with the first driving gear and the first driven gear, respectively, and move the injection unit; and a table 35 of the injection unit having a penetrating hole in order to be fixed onto one side of the first belt member with a fixing means, and

[69] the rotating means, as shown in Fig 3. and Fig. 12, is comprised of a first and a second spooler 161, 171, perpendicular to the penetrating hole of the injection unit table 35 at a distance, fixed both sides to the table and formed rotatably; a first rotating gear 16 connected to the top of the first spool 161 by a predetermined fixing means 162 at the upper part of the table; a second rotating gear 17 geared with the first rotating gear and connected to the top of the second spool 171 by a predetermined fixing means 172; a first nozzle 26 located on one edge of the upper side of the first rotating gear; and a second nozzle 27 located on one edge of the upper side of the second rotating gear, symmetrical or asymmetrical to the first nozzle, and

[70] on one side of the upper part of the main body 1, a openable head part 25 is further equipped.

[71] The first embodiment is characterized by that it is possible to move the water injection equipment 3 and rotate nozzles with one belt member, in words, a first belt member 7 only, and a treatment system using water pressure of the present invention equips an additional head part 25.

[72] Therefore, operations of the first embodiment are as follows:

[73] A predetermined operating signal from the head part 25 causes the first driving motor 8 to drive and then, the first belt member 7 starts to do an orbital motion of straight line. At this moment, the injection unit table 35, fixed to one side of the first belt member 7 by a predetermined fixing means (the detailed embodiment for this is mentioned below), moves along the first belt member 7.

[74] When the injection unit table 35 moves along the first belt member 7, the first and second spools 161, 171, adhered rotatably to the injection unit table 35, move along the injection table 35. At this moment, the first and second nozzles 26, 27 meet with water resistance to generate torque at the first and second rotating gear 16, 17, respectively, and each nozzle rotates.

[75] When each nozzle is equipped symmetrically, as shown in Fig. 16, torque of the same size with the opposite direction is caused, and it rotates with large track amplitude. However, when each nozzle is equipped asymmetrically, as shown in Fig. 17, each torque may be different in size and same in direction. Then, as shown in Fig. 19, it rotates with track having small amplitude and deviated from the center.

[76] Therefore, it is preferable to form many grooves for each nozzle on the upper part of the first and second rotating gear 16, 17, and change the locations of each nozzle as occasion demands.

[77]

[78] [Second embodiment]

[79] In the first embodiment, the fixing means of the injection unit table 35 to one side of the first belt member 7 is a fixing bolt 32 and a nut 33 which combine an outer surface of the first belt member 7 passing through the penetrating hole of the table 35 to an inner surface of the penetrating hole of the table 35.

[80] The fixing means of the injection unit table 35 to one side of the first belt member 7 is not limited to the fixing bolt 32 and the nut 33, because it can be anything to combine an outer surface of the first belt member 7 to an inner surface of the penetrating hole of the table 35.

[81] Therefore, the characteristic of the second embodiment is to fix an outer surface of the first belt member 7 directly to an inner surface of the table 35; a cutting belt member cheaper than closed type can be used. And, it is possible to fix a belt member again with the fixing means when a belt member stretches in use.

[82]

[83] [Third embodiment]

[84] In first embodiment, other fixing means of the injection unit table 35 to one side of the first belt member 7, as shown in Fig. 12, Fig. 28 and Fig. 30., comprises a cylindrical pillar 165 wrapping the first spool 161; and a belt binding member 321, which wraps the cylindrical pillar 165 with outer (Fig. 28) or inner surface (Fig. 30) of the first belt member 7 and fix it. [85] It is preferable to use a binding member made of anelastic material such as a steel clip as the belt binding member 321 and to hold designated space for the site binding a belt member to move freely.

[86] Controlling tension of the first belt member, as shown in Fig. 29 and Fig. 30, can be easily accomplished by using a insert member 167 with a predetermined volume between a cylindrical pillar 165 and the first belt member 7. It is preferable to use a water-expansible and rubber-elastic material as the insert member 167. Among the materials, a synthesized material of sodium bentonite and butyl rubber is more preferable.

[87] Sodium bentonite has been known as a montmorillonite, in which sodium ion is absorbed as a convertible ion into the surface of bentonite, and has a superior water- expansibility to other bentonites. In words, fine sodium bentonite reacts with water to expand 13 to 16 times than its original volume and to absorb water up to 5 times of its weight.

[88] Therefore, controlling tension of the first belt member 7 can be accomplished by water-expansion of the insert member 167, when one shapes a water-expansible and rubber-elastic material, which is compounded of hydrophilic material such as the sodium bentonite and rubber, into a tape or a ring, adheres to the cylindrical pillar 165, and wraps the first belt member 7.

[89] In order to control tension of the first belt member 7 with the insert member 167 likethisembodiment, it is preferable to wrap the cylindrical pillar 165 with the inner surface of the first belt member 7, as shown in Fig. 30, for inserting the insert member 167 easily into the gap between the cylindrical pillar 165 and the first belt member 7 and moving the belt binding member 321 easily along the soft outer surface of the first belt member 7.

[90] Finally, according to the constitution of the third embodiment, when driving the first driving motor 8, power is transferred to the first belt member 7, which holds regular tension constantly; when the first belt member does an orbital motion of straight-line, power is transferred through the belt binding member 321 to the cylindrical pillar 165 and the first spool 161, and the injection unit table 35, which the first spool 161 is connected rotatably to, starts to do the same straight-line motion.

[91]

[92] [Fourth embodiment]

[93] In the third embodiment, the fixing means of each spool 161, 171 to the injection unit table 35, as shown in Fig. 12 and Fig. 27, is comprised of a cylindrical fixing part 164 fixing both ends of the each spool 161, 171; one or more bearings 163, which reduces friction between the cylindrical fixing part and the spool and makes rotation easy; and an adhesive means 166, which adheres the cylindrical fixing part to the injection unit table, and the adhesive means can be a bolt and a nut as well as a welding.

[94] Therefore, it can be accomplished to move the injection unit table 35 and rotate each nozzle by the guarantee of the constitution that the each spool 161, 171 is fixed to the injection unit table 35 by a cylindrical fixing part 164 and a predetermined adhesive means 166, and one or more bearings are equipped between the each cylindrical fixing part 164 and the spool 161, 171.

[95]

[96] [Fifth embodiment]

[97] In first to fourth embodiments, the rotating means, as shown in Fig. 13, further possesses a gear 173 installed on the second spool 171 in the penetrating hole of the table 35; and a rack gear 174, which passes through the penetrating hole of the table 35 to gear with the gear and is located on the bottom side of the main body 1, running parallel with the first belt member 7. The rack gear 174 can be adhered to the bottom of the main body 1 by a predetermined combining means 175.

[98] Therefore, according to the constitution of the fifth embodiment, when the injection unit table 35 moves, the second spool 171, which is connected rotatably to the injection unit table 35, moves along it; the friction generated when the gear 173, which is installed on the second spool 171, gears with the rack gear 174 causes torque; the second rotating gear 17 and the first rotating gear 16 rotate, and finally, the each nozzle 26, 27 rotates. Finally, as a large radius of the gear 173 enables the second rotating gear 17 to rotate without a large load, it is possible to move the injection unit table 35 and rotate each nozzle 26, 27 easily with only the operation of the first driving motor 8.

[99]

[ 100] [Sixth embodiment]

[101] In first to fourth embodiments, the rotating means, as shown in Fig. 4 and Fig. 14, further possess a gear 173 installed on the second spool 171 in the penetrating hole of the table 35; a second belt member 37 having a toothed part in the inner surface to be geared with the gear; a second driving motor 38, which is established near the first driving motor 8 to drive the second belt member, and rotates clockwise and counterclockwise by the application of power; a second driving gear 39, which is established rotatably near the first driving gear 9 on one side of the bottom of the main body 1 to transfer power directly by the second driving motor 38; and a second driven gear 30, which is established rotatably near the first driven gear 10 on the other side of the bottom of the main body 1 with a predetermined distance from the second driving gear 39.

[102] Because one side of the gear 173 gears with the second belt member 37, when the second driving motor 38 does not work, the second belt member 37 functions like the rack gear 174 in the fifth embodiment, and the each nozzle 26, 27 rotates. [103] Also when the second driving motor 38 works independently of the first driving motor 8, various injection modes can be accomplished, as shown in Fig. 20 to Fig. 24. [104] In words, when the first driving motor 8 for moving and the second driving motor

38 for rotating work with low power at the same time, the injection mode of Fig. 20 can be obtained; when each driving motor works with high power at the same time, the injection mode of Fig. 21 can be obtained; when with higher power, the injection mode of Fig. 22 can be obtained. [105] And, when the first driving motor 8 for moving works only at first, then the first driving motor 8 for moving and the second driving motor 38 for rotating work at the same time, and again the first driving motor 8 for moving works only, the injection mode of Fig. 23 can be obtained. [106] And, when the second driving motor 38 for rotating works only, then the first driving motor 8 for moving works, and again the second driving motor 38 for rotating works only, the injection mode of Fig. 24 can be obtained. [107]

[108] [Seventh embodiment]

[109] In the sixth embodiment, a guide rail 36 can be established on the lower part of the main body 1 and a guide piece 34 can be adhered to both sides of the table 35 for moving the table along the guide rail. [110] As shown in Fig. 5, as a guide rail 36 is established longitudinal on the lower part of the main body 1, the movement of the table 35 becomes easy. [I l l] Moreover, as a guide piece 34 is further established on both sides of the table 35, a deviation of the table from the guide rail 36 can be prevented. [112]

[113] [Eighth embodiment]

[114] In the seventh embodiment, as shown in Fig. 11 and Fig. 15, a supporting roller 11 can be further established rotatably near the gear 173 on the table 35, and it pressurizes the outer surface of the second belt member 37. [115] For the second belt member 37 to gear well with the gear 173, the supporting roller

11 is for maintaining a designated tension, and there is no limit for the place to be established and the number of the supporting roller. However, it is preferable to establish one or two supporting roller(s) on one edge of the gear 173. [116]

[117] [Ninth embodiment]

[118] In sixth embodiment, an operating switch 251 for opening or closing the head part

25 can be established in the outer and/or inner side of the head part 25, and an electric cylinder 60 operated upon the operating switch 251 can be established on one side or both (inner and outer) sides of the bottom surface of the head part 25, as shown in Fig.

26.

[119] The electric cylinder 60 is a component that converts a rotary motion to a straight- line motion using a direct current motor by a simple electric circuit, and it has an advantage to solve the problem of a conventional hydraulic cylinder. [120] Therefore, it can solve the inconvenient problem by substituting a gas cylinder 29 for only manual opening and closing with an electric cylinder 60 for an automatic opening and closing. [121] Especially, because the operating switch 251 can be established on the inner side of the head part 25, too, there is an advantage that the user such as the old and/or the feeble can open the head part 25 with only a simple operation of the operating switch

251. [122]

[123] [Tenth embodiment]

[124] In ninth embodiment, the head part 25 can have a speaker 24 and an oxygen supply mouth 44 additionally on its inner side, and the main body 1 can have an oxygen generator 40, providing oxygen to the oxygen supply mouth 44, and an oxygen supply pipe 42, connecting the oxygen generator to the oxygen supply mouth, on its outside, as shown in Fig. 25. [125] A speaker 24 of the head part 25 enables user to listen to music or listen in to a broadcast, and the user can be treated without tedium. An oxygen supply mouth 44 can provide oxygen to user as occasion demands, and it can enhance the remedial value. [126] The oxygen generator 40 has been well known, and therefore, detailed description for the oxygen generator is omitted here. [127]

[128] [Eleventh embodiment]

[129] In tenth embodiment, the head part 25 can have a container for aroma 50 on the rear side of its outside, and the oxygen supply pipe 42 can be connected by the aroma container 50 as an intermediary, as shown in Fig. 25. [130] User can put his or her preferred aroma into the container 50 and operate the oxygen generator 40. Therefore, it is one of good points of the present invention to provide oxygen and aroma to user. [131] As the aroma container 50 can be attached and removed freely, user can select his or her preferred aroma. [132]

[133] [Twelfth embodiment]

[134] In tenth embodiment, a display device 23 for controlling and monitoring the state of treatment by the operation of the each driving motor 8, 38 and the oxygen generator 40 can be further established in the outer and/or inner side(s) of the head part 25, as shown in Fig. 26. Referring number 46 means a connecting tube, which not only the oxygen supply pipe 42, but also every kind of control line connected to the electrical equipment of the lower part of the main body 1 and the head part 25, passes through.

[135] The display device 23 can be a one with separate operating button 22. However, touch screen is more preferable. And the operating switch 251 of the head part 25 can be operated by touch screen.

[136] It is natural that the display device 23 has a built-in predetermined program for controlling and monitoring the state of treatment.

[137]

Industrial Applicability

[138] A treatment system using water pressure of the present invention has no need to equip a rack gear or a pinion gear under the lower part of an injection unit, and it simply uses a first belt member and a second belt member, or it can be made up for each component not to be overloaded in spite of the minimum numbers of components. And, the present invention has technologies to maintain easily tension of a belt member, to control and monitor operations of driving motors and so on, and to open and close the head part automatically, and it can further improve the user's convenience and the product competitiveness. Therefore, the treatment system using water pressure of the present invention can be applied satisfactorily for the medical instruments industry.

Claims

Claims

[1] A treatment system using water pressure, comprising a main body filled with water with the upper part open, a water-proof matt securely sealed to the top of the main body, a water injection equipment having a moving means for an injection unit with one or more nozzles for injecting water toward the lower part of the water-proof matt and a rotating means for rotating one or more nozzles, a water supply equipment for supplying water under a determined pressure to each nozzle of the water injection equipment, wherein the moving means comprises: a first driving motor, which rotates clockwise and counterclockwise by the application of power; a first driving gear established rotatably on one side of the bottom of the main body to transfer power directly by the first driving motor; a first driven gear established rotatably on the other side of the bottom of the main body with a predetermined distance from the first driving gear; a first belt member, having a toothed part in the inner surface, in order to be geared with the first driving gear and the first driven gear, respectively, and move the injection unit; and a table of the injection unit having a penetrating hole in order to be fixed onto one side of the first belt member with a fixing means, wherein the rotating means comprises: a first and a second spooler, perpendicular to the penetrating hole of the injection unit table at a distance, fixed both sides to the table and formed rotatably; a first rotating gear connected to the top of the first spool at the upper part of the table; a second rotating gear geared with the first rotating gear and connected to the top of the second spool; a first nozzle located on one edge of the upper side of the first rotating gear; and a second nozzle located on one edge of the upper side of the second rotating gear, symmetrical or asymmetrical to the first nozzle, wherein on one side of the upper part of the main body, a openable head part is further equipped.

[2] The treatment system of claim 1, wherein the fixing means of the injection unit table to one side of the first belt member is a fixing bolt and a nut which combine an outer surface of the first belt member passing through the penetrating hole of the table to an inner surface of the penetrating hole of the table.

[3] The treatment system of claim 1, wherein the fixing means of the injection unit table to one side of the first belt member comprises: a cylindrical pillar wrapping the first spool; and a belt binding member, which wraps the cylindrical pillar with outer or inner surface of the first belt member and fixes it.

[4] The treatment system of claim 3, wherein the fixing means of each spool to the injection unit table comprises: a cylindrical fixing part fixing both ends of the each spool; one or more bearings, which reduces friction between the cylindrical fixing part and the spool and makes rotation easy; and an adhesive means, which adheres the cylindrical fixing part to the injection unit table, wherein the cylindrical pillar, which wraps the first spool, wraps the cylindrical fixing part.

[5] The treatment system of claim 3, wherein between the cylindrical pillar and the first belt member wrapping the cylindrical pillar, an insert member for controlling tension of the first belt member is further combined.

[6] The treatment system of claim 5, wherein the insert member is made of a water-expansible and rubber-elastic material.

[7] The treatment system of one between claim 1 to claim 6, wherein the rotating means further comprises: a gear installed on the second spool in the penetrating hole of the table; and a rack gear, which passes through the penetrating hole of the table to gear with the gear and is located on the bottom side of the main body, running parallel with the first belt member.

[8] The treatment system of one between claim 1 to claim 6, wherein the rotating means further comprises: a gear installed on the second spool in the penetrating hole of the table; a second belt member having a toothed part in the inner surface to be geared with the gear; a second driving motor, which is established near the first driving motor to drive the second belt member, and rotates clockwise and counterclockwise by the application of power; a second driving gear, which is established rotatably near the first driving gear on one side of the bottom of the main body to transfer power directly by the second driving motor; and a second driven gear, which is established rotatably near the first driven gear on the other side of the bottom of the main body with a predetermined distance from the second driving gear.

[9] The treatment system of claim 8, further comprising: a guide rail established on the lower part of the main body; and a guide piece adhered to both sides of the table for moving the table along the guide rail.

[10] The treatment system of claim 9, further comprising: a supporting roller, which is established rotatably near the gear on the table, pressurizes the outer surface of the second belt member.

[11] The treatment system of claim 8 , wherein on the head part, an operating switch for opening or closing the head part is established in the outer and/or inner side, and an electric cylinder operated upon the operating switch is established on one side or both sides of the bottom surface.

[12] The treatment system of claim 11 , wherein on the inside of the head part, a speaker and an oxygen supply mouth are established additionally, wherein on the outside of the main body, an oxygen generator, providing oxygen to the oxygen supply mouth, and an oxygen supply pipe, connecting the oxygen generator to the oxygen supply mouth, are further equipped.

[13] The treatment system of claim 12, wherein the head part has a container for aroma on the rear side of its outside, and the oxygen supply pipe is connected by the aroma container as an intermediary.

[14] The treatment system of claim 12, wherein in the outer and/or inner side(s) of the head part, a display device for controlling and monitoring the state of treatment by the operation of the each driving motor and the oxygen generator is further established.