JP2006342874A - Torque limiter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a surface-opposed type torque limiter which is a thin type and is inexpensive. <P>SOLUTION: The torque limiter 10 comprises a center axis member 20 having a spacer 22, a magnet 12 fixed to the center axis member 20, and a hysteresis plate 14 which is fixed to the center axis member 20 through the spacer 22 and which is relatively rotatable toward the magnet 12. The magnet 12 and the hysteresis plate 14 are held by both suction powers. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a torque limiter in which a magnet and a hysteresis plate used in a reel base device and the like face each other, and more particularly to a torque limiter capable of reducing costs.

  A torque limiter used in a conventional reel base device is described in, for example, Japanese Patent Laid-Open No. 61-63949 (Patent Document 1). According to the publication, in the torque limiter, the drive gear and the hysteresis plate are insert-molded. FIG. 8 shows a torque limiter in which the magnet and the hysteresis plate face each other, using the insert-molded parts.

  Referring to FIG. 8, a conventional torque limiter 100 includes a reel base part 110 and a gear part 120 provided to face the reel base part 110 via a washer 114, and includes a reel base part 110, The reel base part 110 and the gear part 120 rotate relatively around a shaft (not shown) provided in the center part of the washer 114 and the gear part 120. In this case, both slide on the contact surface between the lower surface of the washer 114 and the gear portion 120.

The reel base 110 includes a reel base 111 and a yoke plate 112, and the reel base 111 and the yoke plate 112 are insert-molded. The gear portion 120 includes a gear 121, a hysteresis plate 122, and a central portion 123, and the gear portion 121, the hysteresis plate 122, and the central portion 123 are insert-molded.
JP-A-61-63949 (FIG. 1 etc.)

  A conventional torque limiter in which a magnet and a hysteresis plate face each other is configured as described above. As shown in FIG. 8, since the component parts are insert-molded, the mold becomes complicated and the thickness of the entire torque limiter increases. In addition, since the mold is complicated, the mold itself is expensive and the torque limiter is expensive.

  The present invention has been made in view of the above problems, and an object thereof is to provide a thin and inexpensive surface facing type torque limiter.

  A torque limiter according to the present invention includes a central shaft member having a spacer, and a magnet and a hysteresis plate that are relatively rotatably provided via the spacer. Retained.

  Since the magnet and the hysteresis plate are held by the attractive force of the two through the spacer, insert molding for holding the component is not required as in the prior art, and the thickness of the torque limiter is changed to the thickness of the component. Can be almost equal to the sum of

  As a result, a thin and inexpensive surface facing type torque limiter can be provided.

  Preferably, a yoke plate is connected to the magnet.

  More preferably, it further includes a holding portion held by the central shaft member and a gear portion having a gear on the outer peripheral portion away from the holding portion, and the holding portion and the gear portion are connected by a spoke member.

  More preferably, the magnet has a groove for accommodating the spoke member.

  According to one embodiment of the present invention, the gear extends in the axial direction of the central shaft member, and the magnet, hysteresis plate, and yoke plate are accommodated in the gear.

  In addition, a gear may be provided in the outer peripheral part of a magnet, and may be provided in the outer peripheral part of a hysteresis board.

  Embodiments of the present invention will be described below with reference to the drawings. FIG. 1A is a cross-sectional view showing a torque limiter 10 according to an embodiment of the present invention, and FIG. 1B is an exploded view thereof. 1A and 1B, a torque limiter 10 includes a central shaft member 20 including a through hole 23 for allowing a rotating shaft (not shown) to pass therethrough and a spacer 22 having a predetermined thickness, and a center. The magnet 12 provided on the spacer 22 of the shaft member 20 via the washer 13, the gear portion 16 provided on the magnet 12, the yoke plate 15 provided on the gear portion 16, and the spacer 22 And a hysteresis plate 14 provided on the lower surface.

  Here, since the gear part 16 and the central shaft member 20 are made of resin, a metal washer 13 is provided between them.

  FIG. 2 is a plan view of the gear portion 16 indicated by an arrow II-II in FIG. Referring to FIG. 2, the gear portion 16 has a spoke shape that connects the gear 16 a provided on the outer peripheral portion, a central portion 16 b having a through hole 16 c through which the central shaft member 20 passes, and the gear 16 a and the central portion 16 b. The connecting portion 17 is provided, and a gap 18 is provided between the connecting portions 17.

  3A is a plan view of the magnet 12 indicated by arrows IIIA-IIIA in FIG. 1B, and FIG. 3B is a cross-sectional view of the portion indicated by IIIB-IIIB in FIG. 3A. It is. As shown in FIG. 3, a plurality of grooves 12 a are provided radially on the upper surface of the magnet 12. The depth of the groove 12 a is equal to the thickness of the connecting portion 17. In FIG. 3, the gear portion 16 is omitted. With reference to FIGS. 1 to 3, the coupling portion 17 is fitted into the groove 12 a of the magnet 12, and the magnet 12 and the yoke plate 15 come into contact with each other through the gap 18.

  Referring to FIG. 1A, the gear 16a has a length equal to the entire length of the central shaft member 20 in the vertical direction, whereby the entire torque limiter 10 is covered with the gear 16a. Further, since the hysteresis plate 14 and the yoke plate 15 are held by the attractive force of the magnet 12 and insert molding for holding the components is not performed as in the prior art, the vertical dimension of the torque limiter 10 is A very thin torque limiter can be provided that is substantially equal to the sum of the yoke plate 15, the magnet 12, the hysteresis plate 14, and the gap between the magnet 12 and the hysteresis plate 14, that is, the sum of the thicknesses of the components.

  In FIG. 1A, a region where the connecting portion 17 exists is shown on the left side of the central axis, and a region where the connecting portion 17 does not exist is shown on the right side.

  Next, details of the central shaft member 20 will be described. FIG. 4 is a diagram showing details of the central shaft member 20. 4A is a cross-sectional view thereof, and FIG. 4B is a cross-sectional view of a portion indicated by arrows IVB-IVB in FIG. 4A. Referring to FIG. 4, central shaft member 20 includes a column portion 21 having a through hole 23 on the inner periphery thereof for penetrating a shaft (not shown), and a spacer 22 provided on the outer periphery of column portion 21. . Chamfers 26a and 26b are provided at connection portions between the through holes 23 and the upper and lower end surfaces 25a and 25b.

  The column portion 21 includes a hexagonal prismatic column portion 21 b provided on the lower end surface 25 b side of the disk-shaped spacer 22 and a columnar portion 21 a provided on the upper end surface 25 a side of the spacer 22.

  On the lower end surface 25b side of the prism portion 21b, a locking hole 24 for passing a pin or the like for rotating the central shaft member 20 integrally with a shaft (not shown) is provided. Moreover, since the outer periphery on the lower end surface 25b side of the central shaft member 20 is a hexagonal column, a hexagonal hole is also provided in the central portion of the hysteresis plate 14 fitted therein. On the other hand, since the outer periphery on the upper side of the spacer 22 of the central shaft member 20 is a cylinder, the inner and outer diameters of the washer 13 fitted therein are circular. Therefore, the inner periphery of the magnet 12 fitted into the washer 13 is also circumferential.

  When the gear unit 16 is rotated by an external driving device, the magnet 12 is also rotated in synchronization with it, but the hysteresis plate 14 opposed thereto does not rotate when a certain torque is exceeded.

  Next, details of another example of the central shaft member will be described. FIG. 5 is a diagram showing details of a center shaft member 28 as another example of the center shaft member. FIG. 5A is a cross-sectional view thereof, and FIG. 5B is an arrow view of a portion indicated by arrows VB-VB in FIG. Referring to FIG. 5, the central shaft member 28 is basically the same as the central shaft member 20 described above, but the shape of the through hole 29 that penetrates a shaft (not shown) is different from the previous embodiment. .

  That is, in this embodiment, the through hole 29 is not circular, and the through hole 29 is provided with a linear chord portion 29a. By matching the shape of the shaft to the shape of the through-hole 29, as in the previous embodiment, a locking hole for integrating the central shaft member 28 with a shaft (not shown) and a pin engaged therewith Etc. become unnecessary. Since the other points are the same as those of the previous embodiment, the same reference numerals are given to the same parts and the description thereof is omitted.

  Next, a torque limiter according to another embodiment of the present invention will be described. FIG. 6 is a view showing a torque limiter according to another embodiment of the present invention. FIG. 6A is a cross-sectional view showing a torque limiter according to this embodiment, and FIG. 6B is an exploded view thereof. 6A and 6B, the torque limiter 30 includes a center shaft member 31 including a through hole 38 for passing a rotation shaft (not shown) and a spacer 37 having a predetermined thickness, and a center. A magnet 32 provided below the spacer 37 of the shaft member 31 via a washer 33, a yoke plate 35 provided in contact with the magnet 32, and a hysteresis plate 34 provided on the spacer 37 are included. A gear 36 is provided on the outer periphery of the magnet 32.

  In this embodiment, a concave portion 32a for accommodating a disk-shaped washer 33 is provided on the lower surface side of the central portion of the magnet 32, and a yoke plate housing portion for accommodating a disk-shaped yoke plate 35 on the lower surface side. 32b is provided, and a through hole 32c through which the central shaft member 31 passes is provided at the center thereof.

  The washer 33 and the yoke plate 35 are also provided with through holes 33a and 35a through which the central shaft member 31 passes.

  The shape of the central shaft member 31 is the same as that of the previous embodiment described with reference to FIG. 4 or FIG. 5, but the positional relationship between the cylindrical portion and the prismatic portion is reversed. That is, it is a hexagonal column on the upper surface side of the spacer 37, and is cylindrical in the lower part thereof. That is, in this case, the central shaft member 31 rotates in synchronization with the hysteresis plate 34. Also in this case, the torque is limited between the magnet 32 and the hysteresis plate 34 to operate.

  Next, a torque limiter according to still another embodiment of the present invention will be described. FIG. 7 is a view showing a torque limiter according to another embodiment of the present invention. FIG. 7A is a cross-sectional view showing a torque limiter according to this embodiment, and FIG. 7B is an exploded view thereof. Referring to FIGS. 7A and 7B, the torque limiter 40 includes a central shaft member 41 including a through hole 48 for allowing a rotation shaft (not shown) to pass therethrough and a spacer 47 having a predetermined thickness, A magnet 42 provided below the spacer 47 of the shaft member 41, a yoke plate 45 provided in contact with the magnet 42, and a hysteresis plate 44 provided on the spacer 47 are included. A gear 46 is provided on the outer peripheral portion of the hysteresis plate 44.

  In this embodiment, a circumferential protrusion 42 a into which the yoke plate 45 is fitted is provided on the lower surface side of the central portion of the magnet 42. A through hole 42 b for allowing the central shaft member 41 to penetrate is provided at the center of the magnet 42.

  A through hole 44 a for allowing the central shaft member 41 to pass therethrough is provided in the central portion of the hysteresis plate 44.

  The shape of the central shaft member 41 is the same as that of the previous embodiment described with reference to FIG. 4 or FIG. Therefore, the spacer 47 has a hexagonal column on the lower end surface side and a cylindrical shape on the upper portion thereof. That is, in this case, the central shaft member 41 rotates in synchronization with the magnet 42. Also in this case, the torque is limited between the magnet 42 and the hysteresis plate 44 to operate.

  In this embodiment, if the spacer 47 is made of resin, the hysteresis plate 44 slides on the upper surface of the spacer 47, so that the washer used in the previous embodiment is not necessary.

  In the above embodiment, the yoke plate is attached to the magnet, but this yoke plate is not always necessary. In this case, the magnet 12 and the hysteresis plate 14 should just be hold | maintained by both attractive force.

  As the magnet 12, a plastic magnet, a ferrite magnet, and a rare earth magnet (including a sintered magnet and a resin magnet) are used, but it is desirable to use a rare earth magnet from the viewpoint of downsizing and increasing the torque limiter. Examples of rare earths include Nd—Fe—B magnets, Sm—Fe—N magnets, and Sm—Co based magnets.

  As the hysteresis plate, Cr—Co—Mn, Martensite—SUS, Al—Ni—Co, and Al—Ni are preferable.

  As described above, in the present invention, since the magnet and the hysteresis plate constituting the torque limiter are held by the attraction force of both through the spacer, insert molding for holding the components as in the prior art is unnecessary. In addition, the torque limiter can be configured with only necessary elements, and the constituent elements can be easily separated individually. Accordingly, only the components that can no longer be used need to be replaced, and the usable components can be used over a long period of time. As a result, the amount of industrial waste can be reduced, and an environmentally friendly torque limiter can be provided.

  As mentioned above, although embodiment of this invention was described with reference to drawings, this invention is not limited to the thing of embodiment shown in figure. Various modifications and variations can be made to the illustrated embodiment within the same range or equivalent range as the present invention.

  The torque limiter according to the present invention is advantageously used as a thin and inexpensive surface facing type torque limiter because the component parts are held by the attractive force between the magnet and the hysteresis plate without being insert-molded.

It is a figure which shows the structure of the torque limiter which concerns on one embodiment of this invention. It is a top view of a gear part. It is a top view of a magnet. It is a figure showing an example of 1 composition of a central axis member. It is a figure which shows the other structural example of a center axis | shaft member. It is a figure which shows other embodiment of a torque limiter. It is a figure which shows other embodiment of a torque limiter. It is a figure which shows the structure of the conventional torque limiter.

Explanation of symbols

10, 30, 40 Torque limiter, 12, 32, 42 Magnet, 13, 33 Washer, 14, 34, 44 Hysteresis plate, 15, 35, 45 Yoke plate, 16 Gear portion, 20, 31, 41 Central shaft member.

Claims (7)

A central shaft member having a spacer;
Including a magnet and a hysteresis plate relatively rotatably provided via the spacer,
A torque limiter in which the magnet and the hysteresis plate are held by the attractive force of both. The torque limiter according to claim 1, wherein a yoke plate is connected to the magnet. A holding portion held by the central shaft member; and a gear portion having a gear on an outer peripheral portion away from the holding portion;
The torque limiter according to claim 1 or 2, wherein the holding portion and the gear portion are connected by a spoke member. The torque limiter according to claim 3, wherein the magnet has a groove for accommodating the spoke member. The gear extends in the axial direction of the central shaft member;
The torque limiter according to claim 3 or 4, wherein the magnet, the hysteresis plate, and the yoke plate are accommodated in the gear. The torque limiter according to claim 1, wherein the magnet has a gear on an outer peripheral portion thereof. The torque limiter according to claim 1, wherein the hysteresis plate has a gear on an outer peripheral portion thereof.

Images