• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    There is provided an air operated dental handpiece comprising a head portion including a first air turbine and a handle including an air supply passage for supplying air to the first turbine, a second air turbine disposed in the air supply passage, and an electric generator powered by the second turbine, wherein the first and second turbines are rotationally driven by shared air. The handpiece further comprises an air bypass in the handle to supply a portion of the air supplied to the air supply passage to the interior of the generator.
    公开号:AT512364A2
    申请号:T21/2013
    申请日:2013-01-10
    公开日:2013-07-15
    发明作者:
    申请人:Nakanishi Inc;Seiko Instr Inc;
    IPC主号:
    专利说明:

    FIELD OF THE INVENTION
    The present invention relates to an air operated dental handpiece, in which a cutting tool is rotationally driven by air pressure, in particular an air operated dental handpiece with a small built-in electric generator which generates power by utilizing the air used to drive a cutting tool rotationally should.
    GENERAL PRIOR ART
    Air powered dental handpieces are known, for example, from US-2008-0261172-A1, JP-2011-101 580-A and JP-2011-172 361-A. A general description of such handpieces will be made with reference to FIG. 4.
    Fig. 4 shows a conventional air-operated dental handpiece in the manner of an angle piece, which has a head part 43 and a handle 47. The head portion 43 includes a first air turbine 42 for rotationally driving the cutting tool 41. The handle 47 includes an air supply passage 44 for supplying air to the head portion 43 to drive the first turbine 42 therein, the second air turbine 45 for generating electricity contained in the air supply passage 44, and an electric generator 46 driven by the rotation of the second turbine 45.
    The second turbine 45 and the generator 46 are disposed on and coaxial with the rotary shaft 474 which is supported at its proximal and distal ends in a rear housing 472 of the handle 47 of bearings 473. The air supply duct 44 includes an air supply tube 441 connected to an external air source via an air hose, an air duct 442 directing the air supplied to the second turbine 45 for power generation via the air supply tube 441, and the air path 443 directing the air, which passes through the second turbine 45, transmits to the first turbine 42 in the header 43. The air duct 442 is formed between the inner surface of the rear housing 472 and the outer surface of the generator 46, and the air path 443 is disposed in the front housing 471 of the handle 47.
    The electric generator 46 is composed of a permanent magnet 461 disposed on and around the rotation shaft 474, a coil mounting member 463 disposed around the permanent magnet 461 with an air gap therebetween and having a cylindrical coil 462 formed on its outer surface and an outer cover member 465 disposed around the coil mounting member 463 and having a yoke 464 on its inner surface. A terminal pin 466 is attached to the proximal end of the coil mounting member 463, electrically connected to the cylindrical coil 462, and wired via an electric wire 481 to an LED 48 provided in the front housing 471 near a cutting tool attachment hole in the head portion 43 is arranged.
    With this structure, the air supplied from a single air source (not shown) is used to rotationally drive both the first air turbine 42 for the tool and the second air turbine 45 for power generation, thereby rotating the cutting tool 41 and to drive the generator 46, the power generated by this is used to light the LED 48.
    Such air-driven handpieces having a built-in air-driven electric generator have the following disadvantages.
    Such handpieces are generally subjected to cleaning and lubrication during maintenance tasks.
    In these tasks, water, lubricant or the like may be introduced into the interior of the generator, in particular.... * .Phi. Phi. Phi. Phi. Phi. Phi. Phi. Phi. Phi Φ φφ φφ φ φφ φφ φφ φφφφ φφφ φφ between the permanent magnets and the coil mounting member, via the air line 212 leading to the second turbine. Once inside the generator, water and grease are difficult to empty and tend to stay inside the generator, even when shaking the handpiece body to shake off water and grease. When the generator is driven in this condition, the residual water and lubricant tend to resist the rotation of the generator, or heat may be generated by the movement of the water. It can also cause corrosion inside the generator. This may cause deterioration of the generator power, such as insufficient illumination of the LED due to insufficient rotation of the generator, or flickering of the LED due to irregular rotation of the generator. Even the durability of the generator itself can be called into question.
    For integrating the air-driven electric generator into the handle, therefore, the generator and the air turbine are arranged on and around the rotating shaft supported at the both ends in the rear housing of bearings, and the air turbine is driven by the introduction of air, to turn the rotary shaft and thus drive the generator. Such a structure may cause a rotational vibration of the rotary shaft and associated noise inside the handle, which is a quality deterioration for a dental instrument.
    BRIEF SUMMARY OF THE INVENTION
    The aim of the present invention is to solve the aforementioned problems of the prior art. It is an object of the present invention to provide such an air operated dental handpiece which enables effortless and safe emptying of water and lubricant which is used in maintenance tasks in the electrical field
    Generator are penetrated in the handpiece by the same air is used, which is to be used for rotationally driving the cutting tool, thereby maintaining performance and durability of the generator and even improve. It is also an object of the present invention to provide such an air operated dental handpiece which simultaneously enables reduction of the rotational vibrations of the rotary shaft and the associated noises by utilizing the same air to be used for rotationally driving the cutting tool to thereby provide a rotational movement To achieve smooth rotation of the rotary shaft and to improve the quality of the handpiece as a dental instrument.
    According to the present invention, there is provided an air operated dental handpiece comprising a head portion including a first air turbine for rotationally driving a cutting tool mounted therein, and a handle extending from the head portion, the handle including an air supply passage to Supplying air to the head portion to drive the first turbine, a second air turbine disposed in the air supply passage, and an electric generator driven by rotation of the second turbine, the first and second turbines being rotationally driven by common air; to rotate the cutting tool and drive the generator, characterized in that the handpiece further comprises an air bypass in the handle to direct a portion of the air supplied to the air supply passage to the interior of the generator.
    Preferably, the second turbine and the generator are disposed on and coaxial with a rotary shaft supported at its distal end by a ball bearing, supported at its proximal end by a metal bearing and having a ball point contact at its proximal end side, and wherein the air byline is arranged so that the • φ φ φ φ t ··· · φ φ φ φ φ φ φ φφφ ··· φ «» · * φ φ φ * · φ φ Ο · · · · · φφ φφ φ * φφ φφφφ φφφ φφ
    Air is passed through the interior of the generator and pushes the second turbine in the direction of the ball bearing to press the rotary shaft in the direction of the ball bearing.
    It is also preferable that the electric generator comprises a permanent magnet disposed on and around the rotating shaft, a coil mounting member disposed around the permanent magnet with an air gap therebetween and having a coil on its outer surface Air side line comprises the air gap between the permanent magnet and the coil mounting member.
    In the air driven dental handpiece according to the present invention, an air bypass is provided in the handle to guide a part of the air supplied to the air supply passage to the inside of the generator. Thus, even if water, grease or the like penetrates into the interior of the generator when cleaning or lubricating the handpiece for maintenance, it is possible to easily and safely empty the remaining water and lubricant inside the generator by using the same air for rotationally driving the cutting tool, thereby maintaining and even improving performance and durability of the generator.
    Further, in the dental handpiece according to the present invention, the second turbine and the generator are arranged on and coaxial with a rotary shaft supported at its distal end by a ball bearing, supported at its proximal end by a metal bearing, and at its proximal end side Having ball point contact, and the air by-line is disposed in the handle, so that the air is passed through the interior of the generator and pushes the second turbine in the direction of the ball bearing to press the rotary shaft in the direction of the ball bearing. Thus, by using the air for rotary driving, it is possible to "*", ">" «m« · · * · «Ο ·« «« «« of the cutting tool to apply pressure to the ball bearing at its distal end, rotational vibrations of the rotary shaft and associated noises are reduced, thereby achieving smooth rotation of the rotary shaft and improving the quality of the handpiece as a dental instrument.
    BRIEF DESCRIPTION OF THE DRAWINGS
    Show it:
    Fig. 1 is a longitudinal sectional view of an embodiment of an air operated dental handpiece according to the present invention.
    FIG. 2 is an enlarged view of the main part of the handpiece of FIG. 1. FIG.
    3 is an enlarged view with greater magnification of the main part of the handpiece of FIG. 1.
    Fig. 4 is a longitudinal sectional view of a conventional air operated dental handpiece.
    PREFERRED EMBODIMENTS OF THE INVENTION
    The present invention will now be explained in detail with reference to the accompanying drawings.
    Fig. 1 shows an overall construction of the air-driven dental handpiece H of the present invention. The handpiece H is designed in the manner of an angle piece and consists of a head part 1, in which the cutting tool 101 is installed, and a handle 2, which extends proximally from the head part · 1.
    The head part 1 comprises a head part housing 10 and a first air turbine 11 for the tool, which is arranged in the housing 10. The first turbine 11 has a rotor 111 and a tensioning mechanism 110 and turbine blades 112 disposed on and around the rotor 111.
    The handle 2 includes a handle housing 20 consisting of a front housing 201 and a rear housing 202, an air supply passage 21 for supplying air to the head part 1 for driving the first turbine 11, a second air turbine 22 for generating power contained in the air supply passage 21, a small electric generator 23 driven by the rotation of the second turbine 22 and an air bypass 24 to guide a part of the air supplied to the air supply passage 21 to the inside of the generator 23.
    As shown in FIGS. 2 and 3, the air supply passage 21 includes an air supply tube 211, an air passage 212, and an air passage 213 communicating in that order from upstream to downstream. The air supply tube 211 is disposed in the rear end of the rear housing 202 and connected via an air hose to an external air source (not shown). The air line 212 is defined between the inner surface of the rear housing 202 and the outer surface of the generator 23, and introduces the air supplied through the air supply tube 211 into the second turbine 22. The air passage 213 is disposed in the front housing 201 and transmits the air introduced into and through the second turbine 22 into the first turbine 11 into the head part 1.
    In the rear housing 202, an installation space 20S for the second turbine 22 and the generator 23 is defined by an airway connector 20a, a partition wall 20b, and an internal cylinder 20c.
    The airway connector 20a is generally cylindrical in shape and has at its axial center a bearing bracket 203 which is also generally cylindrical.
    • * * «* * * t · · · W * ** ·· +
    is shaped. The airway connector 20 a is attached to the rear end of the front housing 201.
    The partition wall 20b is generally disc-shaped and has a generally cylindrical bearing support 204 at its axial center. A ball-holder part 205 in the form of a generally spherical notch is formed in the middle on the bottom of the bearing carrier 204. The bulkhead 20b is also provided with a generator mounting location 206 in the form of an annular groove around the bearing bracket 204, with a pin insertion location 207 located within the mounting location 206, and an attachment location for the air supply tube 208 located outside the installation location 206 is provided. The partition wall 20b is fixed in the axial center of the rear housing 202.
    The internal cylinder 20c is generally cylindrically shaped between the outer surface of the airway connector 20a and the partition wall 20b along the inner surface of the rear housing 202.
    The air supply tube 211 is connected to the mounting location for the air supply tube 208 in the partition wall 20b. The air duct 212 is disposed between the inner surface of the internal cylinder 20c and the outer surface of the generator 23, which will be discussed later, and communicates with the second turbine 22 and then with the airway connector 20a. The airway 213 is connected to the airway connector 20 a and leads to the head part 1.
    As shown in FIGS. 2 and 3, the second turbine 22 and the generator 23 are disposed in the rear housing 202 on and coaxial with the rotary shaft 217, which is supported at its distal end by a ball bearing 214 at its proximal end of one Metal bearing 215 is worn and at its 9; 9; φ φ φ φ φ φ φ φ φ # φ φ φ # φ ··· φ φ φ · φ φ φ φ · φ φ φ φ φ φ φ ### ··· φ φ φ φφ.
    The ball bearing 214 is mounted in the bearing bracket 203 located at the center of the airway connector 20a, the metal bearing 215 is mounted in the bearing bracket 204 at the center of the partition wall 20b, and the ball 216 is rotatably supported in the ball bracket portion 205 at the center of the Dividing wall 20b held. The ball bearing 214 and the metal bearing 215 rotationally support the rotating shaft 217 at the respective ends and the ball 216 in point contact with the proximal end side.
    The second air turbine 22 for power generation includes a turbine shaft 221 and turbine blades 222, and is fixed on and around the axially front part of the rotary shaft 217.
    The electric generator 23 is composed of a permanent magnet 231 disposed on and around the rotary shaft 217, a coil mounting member 234 disposed around the permanent magnet 231 with the air gap 230 therebetween and having a cylindrical coil 232 on its outer surface. and an outer cover member 236 disposed around the coil mounting member 234 and having a yoke 235 on its inner surface. The permanent magnet 231 is fixed in the axially rear part of the rotation shaft 217 adjacent to the second turbine 22, and the coil mounting member 234 and the outer cover member 236 are integrally disposed around the permanent magnet 231 with a predetermined gap (air gap 230) therebetween, and on the generator Built-in location 206 incorporated in the partition 20b. The terminal pin 237 is attached to the terminal attachment location 207 in the partition wall 20b, electrically connected to the cylindrical coil 232, and wired via an electric cable 31 to the LED 30 disposed in the front housing 201. The LED 30 is via optical fibers 32, which through the front housing 201 ".
    1 (J • * «· · · · · · · · · · * * · · · · · · · · ······························································································································································································ is formed near the tool attachment hole in the head part (see Fig. 1).
    The air by-line 24 is formed in the handle 2 so that air, in particular a part of the air supplied to the air supply passage 21, is guided through the inside of the generator 23, pushing the second turbine 22 toward the ball bearing 214 to move the second turbine 22 Rotate the rotary shaft 217 toward the ball bearing 214.
    The air bypass 24 is opened at its proximal end into the mounting location of the air supply tube 208 in the partition wall 20b and passes through the partition wall 20b to the center of the rotary shaft 217 around the bearing bracket 204, and then around the bearing bracket 204, which is generally parallel to Axis of the rotary shaft 217 is located in the vicinity of the outer circumference of the permanent magnet 231 in the generator 23. In this way, the air supplied from the air supply pipe 211 through the air bypass 24 passes through the gap 230 between the permanent magnet 231 and the coil mounting member 234 and serves as cleaning air. The air given through the gap 230 is then blown against the turbine blades 222 of the second turbine 22 to provide a pressing force to push the second turbine 22 toward the ball bearing 214.
    With the handpiece H having the construction discussed above, the first air turbine 11 for the tool and the second air turbine 22 for the shared air power generation are rotationally driven to rotate the cutting tool 101 and drive the generator 23.
    More specifically, with reference to FIGS. 1 and 2, air is supplied from a single air source outside the handpiece H via the air supply tube 211 into the air line 212. The air is then introduced into the second turbine 22 to rotationally drive the second turbine and thus the rotary shaft 217. As a result, the permanent magnet 231 integrally rotates with the rotation shaft 217 to generate an inductive voltage in the cylindrical coil 232 used to light the LED 30. The light emitted from the LED 30 falls through the light emission opening 3 in the vicinity of the head part 1. The air introduced into and through the second turbine 22 is transmitted to the head part 1 via the air path 213 to rotate the first turbine 11, which drives the cutting tool 101 in rotation.
    On the other hand, with reference to Figs. 2 and 3, the handpiece H has the air by-pass 24 in the handle 2 to supply a part of the air supplied to the air supply passage 21 to the gap 230 between the permanent magnet 231 and
    To guide coil mounting member 234. The diverted air may be used as cleaning air to clean the gap 230 between the permanent magnet 231 and the coil mounting member 234. Thus, even if water or grease or the like enters the inside of the generator 23 when cleaning or lubricating the handpiece H, the remaining water and lubricant inside the generator 23 can be easily and safely discharged from the handpiece H by this cleaning air ,
    Further, the air bypass 24 carries the air through the gap 230 between the permanent magnet 231 and the
    Coil mounting member 234 to the second turbine 22 and blows the air against the turbine blades 222 to exert a pressing force against the second turbine 22 in the direction of the ball bearing 214. This force pushes the rotation shaft 217 toward the ball bearing 214 to apply pressure to the bearing 214, so that the rotation shaft 217 rotates smoothly, and the rotation vibrations generated by the rotation shaft 217 and associated noises can be significantly reduced. The pressing of the rotary shaft 217 in the direction of the 12 · ·
    Ball bearing 214 also reduces the contact between the rear end side of the shaft 217 and the ball 216, so that the ball 216 wears less and a constant rotation of the rotary shaft 217 can be maintained for a long period of time.
    Although in the previously discussed embodiment, the air bypass is arranged such that the air is passed through the interior of the generator and the second turbine pushes next to it in the direction of the ball bearing to press the rotary shaft in the direction of the ball bearing, the generator and the second turbine in the handle be spaced from each other. In this case, the air bypass may be divided into a duct for introducing the air into the generator and a duct for conducting the air to the second turbine. Alternatively, the air bypass may be formed only to direct the air to the second turbine without penetrating the inside of the generator, so that the air only presses on the rotating shaft.
    权利要求:
    Claims (3)
    [1]
    An air operated dental handpiece comprising a head portion including a first air turbine for rotationally driving a cutting tool mounted therein and a handle extending from the head portion, the handle having an air supply passage for supplying air to the head portion to drive the first turbine, a second air turbine disposed in the air supply passage, and an electric generator driven by the rotation of the second turbine, wherein the first and second turbines are rotationally driven by shared air rotating the cutting tool and driving the generator, characterized in that the handpiece further comprises an air bypass in the handle to supply a portion of the air supplied to the air supply passage to the interior of the generator.
    [2]
    2. The air operated dental handpiece according to claim 1, characterized in that the second turbine and the generator are disposed on and coaxial with a rotary shaft supported at its distal end by a ball bearing, supported at its proximal end by a metal bearing and at its proximal end side having a ball point contact, and wherein the air bypass is arranged in the handle, so that the air is passed through the interior of the generator and pushes the second turbine in the direction of the ball bearing to press the rotary shaft in the direction of the ball bearing ,
    [3]
    The air operated dental handpiece according to claim 1 or 2, characterized in that the electric generator comprises a permanent magnet disposed on and around the rotary shaft, a coil mounting member disposed around the permanent magnet with an air gap therebetween, and a coil its outer surface, Ifl • * • «•••» «♦ • *, wherein the air side line comprises the air gap between the permanent magnet and the coil mounting member. Vienna, 10 January 2013 Nakanishi Inc. Seiko Instruments Inc. by:

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    同族专利:
    公开号 | 公开日
    JP5815420B2|2015-11-17|
    JP2013141522A|2013-07-22|
    AT512364A3|2013-09-15|
    AT512364B1|2014-09-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    JP3750790B2|1999-07-12|2006-03-01|株式会社モリタ製作所|Brushless motor and medical handpiece using the same|JP3207427U|2016-08-30|2016-11-10|雷虎生技股▲ふん▼有限公司|Self-luminous dental handpiece|
    KR102173423B1|2019-06-21|2020-11-03|주식회사 세양|Motor for driving handpiece|
    法律状态:
    2021-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20210110 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2012002910A|JP5815420B2|2012-01-11|2012-01-11|Air-powered dental handpiece|
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