WO2012005117A1 - Guide mechanism and linear motor - Google Patents
Guide mechanism and linear motor Download PDFInfo
- Publication number
- WO2012005117A1 WO2012005117A1 PCT/JP2011/064404 JP2011064404W WO2012005117A1 WO 2012005117 A1 WO2012005117 A1 WO 2012005117A1 JP 2011064404 W JP2011064404 W JP 2011064404W WO 2012005117 A1 WO2012005117 A1 WO 2012005117A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- support
- guide
- longitudinal direction
- stator
- mover
- Prior art date
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Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02K—DYNAMO-ELECTRIC MACHINES
- H02K41/00—Propulsion systems in which a rigid body is moved along a path due to dynamo-electric interaction between the body and a magnetic field travelling along the path
- H02K41/02—Linear motors; Sectional motors
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16C—SHAFTS; FLEXIBLE SHAFTS; ELEMENTS OR CRANKSHAFT MECHANISMS; ROTARY BODIES OTHER THAN GEARING ELEMENTS; BEARINGS
- F16C29/00—Bearings for parts moving only linearly
- F16C29/02—Sliding-contact bearings
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16C—SHAFTS; FLEXIBLE SHAFTS; ELEMENTS OR CRANKSHAFT MECHANISMS; ROTARY BODIES OTHER THAN GEARING ELEMENTS; BEARINGS
- F16C29/00—Bearings for parts moving only linearly
- F16C29/04—Ball or roller bearings
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F16—ENGINEERING ELEMENTS AND UNITS; GENERAL MEASURES FOR PRODUCING AND MAINTAINING EFFECTIVE FUNCTIONING OF MACHINES OR INSTALLATIONS; THERMAL INSULATION IN GENERAL
- F16C—SHAFTS; FLEXIBLE SHAFTS; ELEMENTS OR CRANKSHAFT MECHANISMS; ROTARY BODIES OTHER THAN GEARING ELEMENTS; BEARINGS
- F16C32/00—Bearings not otherwise provided for
- F16C32/04—Bearings not otherwise provided for using magnetic or electric supporting means
- F16C32/0406—Magnetic bearings
- F16C32/044—Active magnetic bearings
- F16C32/0472—Active magnetic bearings for linear movement
Definitions
- the present invention relates to a guide mechanism and a linear motor that can be reduced in size.
- a linear motor including a stator made of a magnetic material and a coil, and a mover attached to the stator so that a magnet row is arranged on a long plate.
- a linear motor may be provided with a guide mechanism that holds the mover in a magnetic neutral position with respect to the stator and guides the mover in the moving direction.
- a drum-shaped roller support ring
- a guide shaft guide rod
- Patent Document 3 discloses a guide mechanism that supports a guide shaft with two flat rollers that have different shaft portions and can be rotated individually.
- the object is to provide a guide mechanism and a linear motor that can be reduced in size by being provided with two support wheels that are separately inserted into the shaft portion and can be rotated individually.
- the guide mechanism disclosed in the present application is a guide mechanism that guides a rectangular plate-shaped movable portion in a longitudinal direction with respect to a fixed portion, and extends in a longitudinal direction of the movable portion so as to extend substantially parallel to the longitudinal direction of the movable portion.
- Two guide rods provided on the side surface and having a cross section substantially perpendicular to the longitudinal direction narrowing from the side surface side in the width direction of the movable portion, and two supports provided on the fixed portion and supporting the guide rods, respectively.
- Each of the support portions of the support portion group is individually rotatable with a shaft portion provided on the fixed portion toward the guide rod so as to be substantially perpendicular to the plate surface of the movable portion.
- two support wheels that are spaced from and fitted to the shaft portion and support the guide rod.
- a pair of guide bars extending substantially parallel to each other in the moving direction of the movable part is provided on both side surfaces of the movable part.
- two support wheels spaced apart on the same axis are provided so as to project toward the guide rods so that the shaft part is substantially perpendicular to the movable part.
- the guide rod protrudes while the side surface in the longitudinal direction is narrowed in the width direction of the movable portion, and the protruding surface is supported by two support wheels.
- each of the support portions of one support portion group includes an eccentric shaft portion provided at one end of the shaft portion of the support portion, and a screw portion provided at the tip side of the eccentric shaft portion.
- the fixing portion includes a through portion through which the eccentric shaft portion passes and the screw portion protrudes, and the support portion is fixed by screwing a nut into the screw portion protruding from the through portion. It is characterized by being.
- an adjustment mechanism that adjusts the mounting position is provided in each of the support portions of one support portion group among the two support portion groups that support the guide rods provided on both side surfaces of the movable portion.
- the adjustment mechanism includes an eccentric shaft portion provided at one end of the shaft portion of the support portion, and a screw portion provided at the distal end side of the eccentric shaft portion.
- the support portion having the adjustment mechanism is fixed to the fixing portion by the eccentric shaft portion penetrating the through portion provided in the fixing portion and the screw portion protruding, and the nut being screwed into the screw portion.
- the guide mechanism disclosed in the present application is characterized in that the two support wheels are provided with support surfaces that support side surfaces of the guide rods on opposite side surfaces.
- the opposing side surfaces of the two support wheels support the protruding surface of the side surface of the guide rod that protrudes while narrowing in the width direction of the movable portion.
- the guide mechanism disclosed in the present application is characterized in that the guide rod is a cylinder.
- cylindrical guide rods are provided on both side surfaces of the movable portion, and the protruding surfaces on the side surfaces of the guide rod having an arc-shaped cross section are supported by the support wheels.
- the linear motor disclosed in the present application is a linear motor in which a rectangular plate-shaped mover moves in a longitudinal direction with respect to a stator, and the longitudinal direction of the mover extends substantially parallel to the longitudinal direction of the mover.
- Two guide rods provided on the side surface and having a cross section substantially perpendicular to the longitudinal direction narrowing from the side surface side in the width direction of the mover, and two supports provided on the stator and supporting the guide rods, respectively.
- Each of the support portions of the support portion group is individually rotatable with a shaft portion provided on the stator toward the guide rod so as to be substantially perpendicular to the plate surface of the mover.
- two support wheels that are spaced from and fitted to the shaft portion and support the guide rod.
- a pair of guide rods extending substantially parallel to each other in the moving direction of the mover are provided on both side surfaces of the mover of the linear motor.
- the stator is provided with two support wheels spaced apart on the same axis and projecting toward the guide rods so that the shaft portion is substantially perpendicular to the mover.
- the guide rod protrudes while the side surface in the longitudinal direction is narrowed in the width direction of the mover, and the protruding surface is supported by two support wheels. When the mover moves, the two support wheels that support the guide rod rotate individually to guide the mover.
- the apparatus it is possible to reduce the size by providing two support wheels that are separately inserted into the shaft portion and can be rotated individually.
- the guide mechanism according to the present application is incorporated in, for example, a linear motor, and guides the mover of the linear motor in the moving direction.
- the optical pickup is incorporated in a moving mechanism of the optical pickup of the disk device, and guides the optical pickup in the moving direction.
- the linear motor according to the present application is built in, for example, a drive stage that moves a mounted object in a straight line, and is used as a drive source that moves the stage.
- a linear motor incorporating a guide mechanism will be described as an example.
- the linear motor includes a cylindrical stator 1 and a mover 2 inserted through the stator 1.
- the mover 2 includes a long flat magnet plate 20 and guide bars 21 and 22 that are provided on the side surfaces of the magnet plate 20 in the width direction and extend in the longitudinal direction of the magnet plate 20 and are substantially parallel to each other.
- Each of the guide rods 21 and 22 is fixed to the side surface in the longitudinal direction of the magnet plate 20 by a plurality of screws 23 spaced apart in the longitudinal direction.
- the magnet plate 20 includes a magnet row in which a plurality of permanent magnets 20 a, 20 a,...
- N poles and S poles are alternately arranged in the longitudinal direction of the stator 1 at approximately the center in the width direction.
- Nd—Fe—B rare earth magnets may be used as the permanent magnets 20a, 20a,.
- the permanent magnets 20a, 20a,... Rare earth magnets manufactured by a manufacturing method disclosed in, for example, Japanese Patent No. 4241900 or Japanese Patent No. 2859517 may be used.
- the permanent magnet manufactured by the manufacturing method disclosed in Japanese Patent No. 4241900 has a high saturation magnetic flux density and a holding force, and is suitable for the iron core type linear motor according to the present application.
- the magnet plate 20 of the mover 2 is preferably a non-magnetic material, and may be formed of, for example, SUS303, aluminum, ceramic, or the like. The mover 2 moves along the cylinder axis direction of the stator 1 by the interaction between the magnetic fields generated by the magnet array of the stator 1 and the magnet plate 20.
- the stator 1 is formed by connecting three stator units 11 corresponding to the U phase, V phase, and W phase of a linear motor via spacers 10 made of a non-magnetic material. On the bottom surface of the spacer 10, there are two openings 10 b and 10 b that open toward the guide rods 21 and 22. In the spacer 10, a guide member 4 (see FIG. 4) serving as a support portion to be described later passes through one opening 10 b from the outside and is substantially perpendicular to the plate surface of the magnet plate 20. It protrudes toward.
- the spacer 10 has a guide member 5 as a support portion protruding from the outside through the other opening 10 b toward the guide rod 22 so as to be substantially perpendicular to the plate surface of the magnet plate 20. It is.
- the upper surface of the spacer 10 is provided with recesses 10a and 10a through which the guide members 4 and 5 protrude through the through portions 530 and 530 located substantially at the center.
- Each of the guide members 4 and 5 is fixed to the spacer 10 by the nut 3 being screwed into a screw portion provided at one end protruding into the recess 10a.
- the guide rods 21 and 22 are guided and supported on the outer side in the width direction by the guide members 4 and 5 disposed on the spacers 10, respectively, and the mover 2 is guided to be positioned at the magnetic neutral position.
- the magnetic neutral position is a position where the attraction forces generated between the permanent magnets 20a, 20a,... No bending stress due to a difference in attractive force is generated in the mover 2 in the magnetic neutral position.
- Opening portions 10c that open toward the guide members 4 and 5 are provided on both side surfaces of the spacer 10, respectively.
- FIG. 3 is a schematic cross-sectional view taken along line III-III in FIG.
- the stator unit 11 is made of a magnetic material and has a through-hole having an H-shaped cross section that extends in the insertion direction of the mover 2.
- the through hole of the stator unit 11 has a gap through which the substantially central portion in the width direction where the permanent magnets 20a, 20a,.
- the stator unit 11 includes coils 11 a and 11 b facing the upper surface and the lower surface of the substantially central portion in the width direction of the magnet plate 20.
- the stator unit 11, the gaps in the through holes of the stator unit 11 and the coils 11a and 11b form a magnetic circuit.
- the coils 11a and 11b generate a magnetic field that intersects the magnet plate 20 substantially perpendicularly when energized.
- the magnetic neutral position is generally located at the center in the facing direction of the coils 11a and 11b.
- the magnet plate 20 is preferably located in the center of the facing direction of the coils 11a and 11b, but is not limited thereto.
- the magnet plate 20 may be positioned within ⁇ 0.1 mm in the direction substantially perpendicular to the plate surface of the magnet plate 20 from the center in the facing direction of the coils 11a and 11b which are magnetic neutral positions, for example.
- FIG. 4 is a schematic cross-sectional view taken along line IV-IV in FIG.
- the spacer 10 is a cylindrical member whose cylindrical axis direction substantially coincides with the cylindrical axis direction of the stator 1, and the magnet plate 20 is inserted therethrough.
- the guide member 4 includes a shaft portion 40 that intersects the axial direction of the guide rod 21, and a pair of support wheels that are separately rotatably inserted into one end of the shaft portion 40 and face each other in the axial direction of the shaft portion 40. 41, 42.
- the support wheels 41 and 42 support the side surface in the longitudinal direction of the guide rod 21 by a tapered support surface provided at the end of the facing surface.
- the guide member 4 is fixed to the spacer 10 by the nut 3 being screwed into the screw portion at the other end of the shaft portion 40 via the plain washer 3a.
- the guide member 5 includes a shaft portion 50 that intersects the axial direction of the guide rod 22, and a pair of support wheels that are separately rotatably inserted into one end of the shaft portion 50 and face each other in the axial direction of the shaft portion 50. 51, 52.
- the support wheels 51 and 52 support the side surface in the longitudinal direction of the guide rod 22 by a tapered support surface provided at the end of the facing surface.
- the guide member 5 is provided with an eccentric shaft portion 53 that extends in the axial direction of the shaft portion 50 at one end of the shaft portion 50 and is eccentric with respect to the shaft of the shaft portion 50.
- the guide member 5 is fixed to the spacer 10 by a nut 3 screwed into the screw portion via a flat washer 3a loosely fitted to the screw portion provided in the eccentric shaft portion 53.
- the eccentric shaft portion 53 rotates and the shaft portion 50 is displaced in the width direction of the magnet plate 20.
- the attachment position of the guide member 5 can be adjusted in the width direction of the magnet plate 20.
- FIG. 5 is a schematic structural sectional view showing the guide member 4.
- a two-dot chain line in the figure indicates the guide rod 21 supported by the guide member 4.
- the shaft portion 40 is a rotating shaft of the support wheels 41 and 42 and has a support wall that rotatably holds the support wheel 42 fitted at one end. Further, the shaft portion 40 includes a support wall that sandwiches the support wheel 41 fitted with a gap from the support wheel 42. The other end of the shaft portion 40 is provided with a thread groove 40a into which the nut 3 is screwed. A cylindrical portion 40 a for separating the support wheels 41 and 42 is fitted into the shaft portion 40.
- Steel balls 41b and 42b are interposed between the inner peripheral surface of each of the support wheels 41 and 42 and the outer peripheral surface of the shaft portion 40, and each of the support wheels 41 and 42 is individually rotatable.
- Tapered support surfaces 41 a and 42 a provided at end portions of the side surfaces of the support wheels 41 and 42 facing each other support the side surfaces of the guide rod 21.
- an angle formed by a point P1 on the central axis of the shaft portion 40 located at the center of the opposite side surfaces of the support wheels 41 and 42 and a tangent line of each of the support surfaces 41a and 42a is a contact angle ⁇ a.
- the contact angle ⁇ a is determined in advance according to the radius of the guide rod 21, the radius of the support wheels 41 and 42, the distance between the support wheels 41 and 42, etc. so that the approximate center in the tangential direction is in contact with the side surface of the guide rod 21. . And it is good to form the support surfaces 41a and 42a in each of the support wheels 41 and 42 so that it may have the determined contact angle (theta) a. Thereby, sliding sliding between the support surfaces 41a and 42a and the side surface of the guide rod 21 can be suppressed, and sliding wear can be reduced.
- the contact angle ⁇ a is preferably 67 ° to 70 °, for example.
- FIG. 6 is a schematic structural sectional view showing the guide member 5.
- a two-dot chain line in the figure indicates the guide rod 22 supported by the guide member 5.
- the shaft portion 50 is a rotation shaft of the support wheels 51 and 52 and has a support wall that rotatably holds the support wheel 52 fitted at one end. Further, the shaft portion 50 includes a support wall that sandwiches the support wheel 52 that is fitted with a gap from the support wheel 51.
- an eccentric shaft portion 53 having a central axis L53 that is eccentric by ⁇ x with respect to the central axis L50 of the shaft portion 50 is provided.
- a thread groove 53 a into which the nut 3 is screwed is provided on the distal end side of the eccentric shaft portion 53.
- a cylindrical portion 50 a for separating the support wheels 51 and 52 is fitted into the shaft portion 50.
- Steel balls 51b and 52b are interposed between the inner peripheral surface of each of the support wheels 51 and 52 and the outer peripheral surface of the shaft portion 50, and each of the support wheels 51 and 52 is individually rotatable.
- Tapered support surfaces 51 a and 52 a provided at the end portions of the side surfaces of the support wheels 51 and 52 facing each other support the side surfaces of the guide rod 22.
- an angle formed by a point P2 on the central axis of the shaft portion 50 located at the center of the opposite side surfaces of the support wheels 51 and 52 and a tangent line of each of the support surfaces 51a and 52a is a contact angle ⁇ b.
- the contact angle ⁇ b is determined in advance according to the radius of the guide rod 22, the radius of the support wheels 51, 52, the distance between the support wheels 51, 52, etc. so that the approximate center in the tangential direction is in contact with the side surface of the guide rod 22. . And it is good to form the support surfaces 51a and 52a in each of the support wheels 51 and 52 so that it may have the determined contact angle (theta) b.
- the contact angle ⁇ b is preferably, for example, 67 ° to 70 °.
- FIG. 7A to 7E are explanatory views for explaining a manufacturing method and a mounting method of the guide rod 21.
- FIG. FIG. 7A to FIG. 7E show respective steps in manufacturing and attaching the guide bar 21.
- FIG. 7A the hardened layer 210a is formed on the surface of the iron cylinder 210 by carburizing or induction hardening.
- the thickness of the hardened layer 210a that is, the quenching depth is, for example, 0.4 to 0.5 mm.
- the hardness of the hardened layer 210a is, for example, HRC 50-60.
- the side surface in the longitudinal direction of the quenched column 210 is cut to form a cutting surface 211 that extends in the axial direction of the column 210 and does not have the hardened layer 210a (see FIG. 7B).
- a through-hole 212 is drilled on the side surface in the longitudinal direction of the cylinder 210 using a tool such as a drill and an end mill from the opposite side of the cutting surface 211 substantially perpendicular to the cutting surface 211 (see FIG. 7C).
- a white arrow in FIG. 7C indicates a direction in which the through hole 212 is formed.
- a side opening 213 having a diameter longer than that of the through hole 212 is formed using a tool such as an end mill (see FIG. 7D).
- the guide bar 21 is manufactured from the column 210.
- the guide rod 21 is attached to the side surface of the magnet plate 20 by screwing the screw 23 inserted into the side opening 213 and the through hole 212 into the screw hole 20b provided in the magnet plate 20 (see FIG. 7E).
- the guide rod 22 is manufactured from an iron cylinder and attached to the side surface of the magnet plate 20.
- FIGS. 8A and 8B are explanatory diagrams for explaining another example of the shape of the guide rod 21.
- FIG. FIGS. 8A and 8B each show another example of the different shape of the guide rod 21 together with the support wheels 41 and 42 and the shaft portion 40.
- the guide rods 21 and 22 have shown the case where it is a cylinder which has a circular cross section, it is not restricted to this.
- the guide rods 21 and 22 may be symmetrical with respect to a line extending in the width direction of the mover 2 and have a cross section substantially perpendicular to the longitudinal direction constricted in the width direction of the mover 2.
- the guide rod 21 has an octagonal cross section that narrows in the width direction of the mover 2.
- the guide bar 21 has a cross section that narrows in a quadratic curve shape in the width direction of the mover 2.
- the linear motor in which the mover is inserted through the cylindrical stator has been described as an example, but the present invention is not limited to this.
- a linear motor in which the mover is attached to the stator by supporting the guide rod provided in the mover by the guide member provided in the stator may be used. An example of such a linear motor will be described next.
- FIG. 9 is a schematic cross-sectional view showing another example of a linear motor.
- the linear motor includes a plate-like stator 6 and a mover 7 that is movably attached to the stator 6 and has a substantially U-shaped cross section.
- the mover 7 has a rectangular bottom surface, and guide rods 71 and 72 extending in the longitudinal direction of the bottom surface are provided on both outer sides.
- the stator 6 includes a plurality of recesses 60a disposed along the direction in which the guide rod 71 extends and a plurality of recesses 60b disposed along the direction in which the guide rod 72 extends on the upper surface.
- Each recess 60a and each recess 60b have through portions 530 and 530 penetrating toward the guide rods 71 and 72 at substantially the center of the bottom surface.
- guide members 4 and 5 project substantially vertically toward the guide rods 71 and 72 through the through portions 530 and 530 of the respective recesses 60 a and 60 b.
- the lower surface of the stator 6 includes a coil portion 60 having a substantially L-shaped cross section and extending in the moving direction of the stator 6.
- the coil unit 60 includes a rectangular plate-like coil plate in which a plurality of coils are arranged in the longitudinal direction of the stator 6, and a support plate provided substantially perpendicular to one end of the coil plate in the longitudinal direction.
- the coil plate of the stator 6 is substantially parallel to the lower surface of the stator 6 and generates a magnetic field that intersects the plate surface of the coil plate substantially perpendicularly when the coil is energized.
- the coil portion 60 is fixed to the lower surface of the stator 6 with a support plate attached to the lower surface of the stator 6.
- the coil plate of the coil portion 60 is arranged at a substantially center between both side surfaces of the yoke 73 so as to be substantially parallel to both side surfaces of the yoke.
- the yoke 73 includes magnet rows 73a and 73b made of a plurality of permanent magnets arranged in the longitudinal direction of the yoke 73 on both side inner surfaces.
- the magnet arrays 73a and 73b face each other with a gap on the upper surface and the lower surface of the coil plate of the coil portion 60.
- the mover 7 is guided and supported by the guide members 4 and 5, and moves relative to the stator 6 by the interaction between the magnetic fields generated by the magnet arrays 73 a and 73 b and the coil plate of the coil unit 60.
- the linear motor including the stator 6 and the mover 7 has been described as an example, the present invention is not limited to this.
- the mover 7 may be fixed and function as a stator, and the stator 6 may be movable and function as a mover.
- the linear motor in which the mover is attached to the stator will be described.
- FIG. 10 is a schematic cross-sectional view showing another example of a linear motor.
- the linear motor includes a plate-like stator 8 and a rectangular plate-like mover 9 that is movably attached to the stator 8.
- the mover 9 has rectangular plate-shaped yokes 93, 93 protruding from the upper surface, extending in the longitudinal direction and facing each other in the width direction.
- Guide bars 91 and 92 extending in the longitudinal direction of the mover 9 are provided on the plate surfaces of the yokes 93 and 93 on the outer side in the width direction of the mover 9.
- the stator 8 includes a plurality of recesses 80a disposed along the direction in which the guide rod 91 extends and a plurality of recesses 80b disposed along the direction in which the guide rod 92 extends on the upper surface.
- Each of the recesses 80a and the recesses 80b has through portions 530 and 530 penetrating toward the guide rods 91 and 92 at substantially the center of the bottom surface.
- guide members 4 and 5 project substantially vertically toward the guide rods 91 and 92 through the through portions 530 and 530 of the respective recesses 80 a and 80 b.
- Guide rods 91 and 92 are guided and supported by guide members 4 and 5 protruding from the lower surface of the stator 8.
- the lower surface of the stator 8 is provided with a cored coil 80 extending in the moving direction of the mover 9.
- the iron core coil 80 generates a magnetic field that intersects the plate surfaces of the yokes 93 and 93 substantially perpendicularly when the coil is energized.
- the yokes 93, 93 face the iron core coil 80 with a gap, and are provided with opposing magnet rows 93 a, 93 b made of a plurality of permanent magnets arranged in the longitudinal direction.
- the mover 9 is guided and supported by the guide members 4 and 5, and moves with respect to the stator 8 by the interaction between the magnetic rows generated by the magnet arrays 93 a and 93 b and the iron core coil 80.
- the linear motor including the mover 9 and the stator 8 has been described as an example, the present invention is not limited to this.
- the mover 9 may be fixed and function as a stator, and the stator 8 may be moved and function as a mover.
- the guide mechanism can be made small by inserting the two support wheels 41 and 42 and the two support wheels 51 and 52 separately into the one shaft portion 40 and the one shaft portion 50. .
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- Mechanical Engineering (AREA)
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- Combustion & Propulsion (AREA)
- Electromagnetism (AREA)
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- Bearings For Parts Moving Linearly (AREA)
Abstract
Description
以下、実施の形態を図面を参照して具体的に説明する。本願に係る案内機構は、例えばリニアモータに内蔵され、リニアモータの可動子を移動方向に案内する。また、例えばディスク装置の光ピックアップの移動機構に内蔵され、光ピックアップを移動方向に案内する。本願に係るリニアモータは、例えば、載置された物体を直線状に移動させる駆動ステージに内蔵され、ステージを移動させる駆動源として用いられる。本実施の形態では、案内機構を内蔵するリニアモータを例に挙げて説明する。
Hereinafter, embodiments will be specifically described with reference to the drawings. The guide mechanism according to the present application is incorporated in, for example, a linear motor, and guides the mover of the linear motor in the moving direction. For example, the optical pickup is incorporated in a moving mechanism of the optical pickup of the disk device, and guides the optical pickup in the moving direction. The linear motor according to the present application is built in, for example, a drive stage that moves a mounted object in a straight line, and is used as a drive source that moves the stage. In the present embodiment, a linear motor incorporating a guide mechanism will be described as an example.
10 スペーサ
10a、60a、60b、80a、80b 凹部
10b、10c 開口部
11 固定子ユニット
11a、11b コイル
23 ネジ
2、7、9 可動子
20 磁石板
20a 永久磁石
20b ネジ孔
21、22、71、72、91、92 案内棒
3 ナット
3a 平座金
4、5 案内部材
40、50 軸部
41、42、51、52 支持輪
41a、42a、51a、52a 支持面
41b、42b、51b、52b 鋼球
53 偏心軸部
60 コイル部
80 有鉄心コイル
θa、θb 接触角度
210 円柱
210a 硬化層
211 切削面
212 貫通孔
213 側面開口部
530 貫通部
73、93 ヨーク
73a、73b、93a、93b 磁石列 1, 6, 8
Claims (5)
- 固定部に対して矩形板状の可動部を長手方向に案内する案内機構において、
前記可動部の長手方向に対して略平行に延びるよう前記可動部の長手方向の側面に設けてあり、前記長手方向と略垂直な断面が前記側面側から前記可動部の幅方向へ狭まる2つの案内棒と、
前記固定部に設けられ、前記案内棒夫々を支持する2つの支持部群と
を備え、
該支持部群の支持部夫々は、
前記可動部の板面に対して略垂直をなすよう前記案内棒側へ前記固定部に設けてある軸部と、
個別に回転可能に前記軸部へ離隔挿嵌してあり、前記案内棒を支持する2つの支持輪と
を備えることを特徴とする案内機構。 In the guide mechanism that guides the rectangular plate-shaped movable part in the longitudinal direction with respect to the fixed part,
Two sections are provided on a side surface in the longitudinal direction of the movable section so as to extend substantially parallel to the longitudinal direction of the movable section, and a cross section substantially perpendicular to the longitudinal direction narrows from the side surface side in the width direction of the movable section. A guide bar,
Two support portions provided on the fixed portion and supporting each of the guide rods,
Each support part of the support part group is
A shaft portion provided on the fixed portion toward the guide rod so as to be substantially perpendicular to the plate surface of the movable portion;
A guide mechanism comprising: two support wheels that are separately inserted into the shaft portion so as to be individually rotatable, and that support the guide rod. - 一方の支持部群の支持部夫々は、
該支持部の軸部の一端に設けられた偏心軸部と、
該偏心軸部の先端側に設けられたネジ部と
を備え、
前記固定部は、前記偏心軸部が貫通して前記ネジ部が突出する貫通部を備え、
該支持部は、前記貫通部から突出する前記ネジ部にナットが螺合して固定してある
ことを特徴とする請求項1に記載の案内機構。 Each support part of one support part group is
An eccentric shaft provided at one end of the shaft of the support;
A screw portion provided on the tip side of the eccentric shaft portion,
The fixing portion includes a penetration portion through which the eccentric shaft portion penetrates and the screw portion protrudes,
The guide mechanism according to claim 1, wherein the support portion is fixed by screwing a nut onto the screw portion protruding from the penetration portion. - 前記2つの支持輪は、対向する側面に前記案内棒の側面を支持する支持面を備えることを特徴とする請求項1又は請求項2に記載の案内機構。 The guide mechanism according to claim 1 or 2, wherein the two support wheels are provided with support surfaces that support the side surfaces of the guide rods on opposite side surfaces.
- 前記案内棒は、円柱であることを特徴とする請求項1から請求項3までのいずれか一つに記載の案内機構。 The guide mechanism according to any one of claims 1 to 3, wherein the guide rod is a cylinder.
- 固定子に対して矩形板状の可動子が長手方向に移動するリニアモータにおいて、
前記可動子の長手方向に対して略平行に延びるよう前記可動子の長手方向の側面に設けてあり、前記長手方向と略垂直な断面が前記側面側から前記可動子の幅方向へ狭まる2つの案内棒と、
前記固定子に設けられ、前記案内棒夫々を支持する2つの支持部群と
を備え、
該支持部群の支持部夫々は、
前記可動子の板面に対して略垂直をなすよう前記案内棒側へ前記固定子に設けてある軸部と、
個別に回転可能に前記軸部へ離隔挿嵌してあり、前記案内棒を支持する2つの支持輪と
を備えることを特徴とするリニアモータ。 In a linear motor in which a rectangular plate-shaped mover moves in the longitudinal direction with respect to the stator,
The movable element is provided on a side surface in the longitudinal direction of the movable element so as to extend substantially parallel to the longitudinal direction of the movable element, and a cross section substantially perpendicular to the longitudinal direction narrows from the side surface side in the width direction of the movable element. A guide bar,
Two support portions provided on the stator and supporting each of the guide rods,
Each support part of the support part group is
A shaft provided on the stator toward the guide bar so as to be substantially perpendicular to the plate surface of the mover;
A linear motor comprising: two support wheels that are separately inserted into the shaft portion so as to be individually rotatable and support the guide rod.
Priority Applications (3)
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JP2012523814A JP5512814B2 (en) | 2010-07-08 | 2011-06-23 | Guide mechanism and linear motor |
KR1020137002096A KR101411638B1 (en) | 2010-07-08 | 2011-06-23 | Guide mechanism and linear motor |
CN201180033715.1A CN102985711B (en) | 2010-07-08 | 2011-06-23 | Guide mechanism and linear motor |
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JP2010156063 | 2010-07-08 | ||
JP2010-156063 | 2010-07-08 |
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PCT/JP2011/064404 WO2012005117A1 (en) | 2010-07-08 | 2011-06-23 | Guide mechanism and linear motor |
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JP (1) | JP5512814B2 (en) |
KR (1) | KR101411638B1 (en) |
CN (1) | CN102985711B (en) |
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CN103256302A (en) * | 2013-05-21 | 2013-08-21 | 南京万德游乐设备有限公司 | Roller wheel center-aligning sliding mechanism |
TWI514725B (en) * | 2013-12-19 | 2015-12-21 | Delta Electronics Inc | Linear motor and motor set using same |
DE102013226826A1 (en) * | 2013-12-20 | 2015-06-25 | Robert Bosch Gmbh | Linear motor assembly and machine tool with a linear motor assembly |
CN108035973B (en) * | 2017-12-15 | 2023-07-14 | 中国矿业大学 | Linear guide wheel movement device |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS60135874U (en) * | 1984-02-20 | 1985-09-09 | トキコ株式会社 | magnetic disk storage device |
JPS639939B2 (en) * | 1983-11-18 | 1988-03-03 | Shaapu Kk | |
JPS6327946B2 (en) * | 1980-05-23 | 1988-06-06 | Takahashi Y | |
JP2554549Y2 (en) * | 1992-06-04 | 1997-11-17 | 株式会社エイエスケイ | Linear guide mechanism |
JP2003244925A (en) * | 2002-02-19 | 2003-08-29 | Hitachi Ltd | Drive unit |
-
2011
- 2011-06-23 CN CN201180033715.1A patent/CN102985711B/en not_active Expired - Fee Related
- 2011-06-23 WO PCT/JP2011/064404 patent/WO2012005117A1/en active Application Filing
- 2011-06-23 KR KR1020137002096A patent/KR101411638B1/en active IP Right Grant
- 2011-06-23 JP JP2012523814A patent/JP5512814B2/en active Active
- 2011-07-07 TW TW100123994A patent/TWI524636B/en active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6327946B2 (en) * | 1980-05-23 | 1988-06-06 | Takahashi Y | |
JPS639939B2 (en) * | 1983-11-18 | 1988-03-03 | Shaapu Kk | |
JPS60135874U (en) * | 1984-02-20 | 1985-09-09 | トキコ株式会社 | magnetic disk storage device |
JP2554549Y2 (en) * | 1992-06-04 | 1997-11-17 | 株式会社エイエスケイ | Linear guide mechanism |
JP2003244925A (en) * | 2002-02-19 | 2003-08-29 | Hitachi Ltd | Drive unit |
Also Published As
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TWI524636B (en) | 2016-03-01 |
JPWO2012005117A1 (en) | 2013-09-02 |
KR20130031907A (en) | 2013-03-29 |
CN102985711B (en) | 2015-07-01 |
TW201208235A (en) | 2012-02-16 |
CN102985711A (en) | 2013-03-20 |
KR101411638B1 (en) | 2014-06-25 |
JP5512814B2 (en) | 2014-06-04 |
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