JP2018109830A - Rotation operation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a rotation operation device capable of rotating and fixing a shaft by a simple operation.SOLUTION: A rotation operation device 3 is attached to a shaft 2 projecting forward from a support base 1 on a front side of the support base 1. The rotation operation device 3 includes an operation body 4 and a base body 5. An operating body 4 is provided relatively on the shaft 2 via an intermediate body 6 such that it cannot rotate relative to the shaft 2 in a radial direction 2a around the shaft 2 and can move in an axial direction 2b along the shaft 2. A base body 5 is engaged with the support base 1 so as to be incapable of rotating around the radial direction 2a. Further, the operating body 4 is relatively movable with respect to the shaft 2 between a first position and a second position in the axial direction 2b, and at the first position, it is engaged relative to the base 5 non-rotatably in the radial direction 2a, and the engagement thereof is released at the second position.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a turning operation device for turning a shaft.

  Conventionally, for example, in a film feeding device such as a packaging film, the position of a roller for guiding the film is sometimes adjusted as necessary. This position adjusting mechanism is such that the shaft supporting the roller can be moved in a direction perpendicular to the axis thereof and fixed at an arbitrary position moved. As shown in FIG. By providing the rack 43 and the pinion 44 for the shaft 42 penetrating the long hole 41a, the shaft 42 moves along the long hole 41a as the shaft 42 rotates. . A rotation operation device 45 is provided to rotate the shaft 42. The rotation operating device 45 is relatively fixed to the shaft 42 so as not to rotate around the axis of the shaft 42 and to move in the axial direction of the shaft 42, and a shaft. A fixing knob 47 that is screwed into the screw shaft 42 a of 42 and presses the operation knob 46 toward the support base 41. As a result, by rotating the operation knob 46 with the fixing knob 47 loosened, the shaft 42 can be rotated, and the fixing knob 47 is tightened (that is, rotated forward). Thus, the operation knob 46 was pressed against the support base 41, thereby fixing the operation knob 46 and thus the shaft 42.

  By the way, in the conventional turning operation device 45, when turning and fixing the shaft 42, it is necessary to turn the operation knob 46 and the fixing knob 47 in order, or when the shaft 42 is fixed, the fixing knob 45 is fixed. The operation knob 46 needs to be held down so that the operation knob 46 and the shaft 42 do not rotate due to the rotation of 47, which is troublesome.

  The present invention has been made to solve the above-described conventional drawbacks, and the object of the present invention is to provide a rotation operation device that can rotate and fix a shaft with a simple operation. Is to provide.

In order to achieve the above object, the turning operation device according to the present invention has the following configuration. That is,
The turning operation device according to the first aspect of the present invention is attached to the shaft protruding forward from the support base on the front side of the support base. The rotation operation device is directly or via an intermediate body with respect to the shaft so that the rotation operation device cannot rotate in the direction around the axis of the shaft and can move in the axial direction of the shaft. And a base body that engages with the support base so as not to rotate in the direction around the axis. Here, the operating body is movable between the first position and the second position in the axial direction relative to the shaft, and at the first position, with respect to the base body, Relatively, it engages in a non-rotatable direction around the axis, and at the second position, the engagement is released and the shaft can be rotated around the axis together with the shaft.

  According to this rotating operation device, when the operating body is located at the first position in the axial direction of the shaft, the operating body is engaged with the base body so as not to rotate in the direction around the shaft axis. ing. At this time, since the base body is engaged with the support base so as not to rotate in the direction around the axis, the operating body is fixed at the rotating position, and the operating body is fixed to the shaft. The shaft is relatively fixed to the rotational position because it is mounted so as not to rotate in the direction around the axis. Therefore, when the operating body is moved from the first position to the second position, the engagement between the operating body and the base body is released, and the operating body can be rotated around the axis together with the shaft. Then, after rotating the operating body as much as necessary, if the operating body is moved from the second position to the first position, the operating body and the shaft are fixed at the rotational position. Thus, by using this turning operation device, the shaft can be turned and fixed by a simple operation of the operating body. Further, when the shaft is fixed, the operating body is moved in the axial direction of the shaft, so that the shaft does not rotate with the movement.

  According to a second aspect of the present invention, there is provided the rotary operation device according to the first aspect, comprising the intermediate body attached and fixed to the shaft, wherein the operation body is in the middle. It is attached to the shaft through the body. Therefore, the operation body is relatively unrotatable in the direction around the axis and movable in the axial direction relative to the intermediate body, and relative to the shaft via the intermediate body. Thus, it is impossible to rotate in the direction around the axis and move in the axial direction.

  According to a third aspect of the present invention, in the rotational operation device according to the second aspect, the base presses the front surface of the support base between the base and the intermediate body. An elastic member that elastically urges the intermediate body and the base body is provided. In this way, when the base member presses the front surface of the support base by the elastic member, the intermediate body, and thus the shaft, is pulled forward as a reaction, and as a result, the axial shakiness of the shaft is suppressed.

  According to a fourth aspect of the present invention, there is provided the rotary operation device according to the second or third aspect, wherein the operation body includes an operation body main body formed in a cylindrical shape. A first concavo-convex portion extending in the axial direction is provided on the inner peripheral surface of the body body while repeating the peaks and valleys in the direction around the axis. Further, the intermediate body is provided with a second concavo-convex portion that repeats peaks and valleys in the direction around the axis and meshes with the first concavo-convex portion on the outer peripheral surface thereof, and the operation body is attached to the intermediate body by the meshing. On the other hand, it is relatively engaged so that it cannot rotate in the direction around the axis and is movable in the axis direction. Further, the base body is provided with a third concavo-convex portion that is repeatedly engaged with the first concavo-convex portion of the operation body located at the first position and has a plurality of concavo-convex portions in the direction around the axis. The operating body is engaged with the base body so as not to rotate relative to the axis, and the engagement is released at the second position.

  According to a fifth aspect of the present invention, there is provided the rotary operation device according to any one of the second to fourth aspects, wherein the operation device is disposed between the intermediate body and the operation body. A moderation mechanism is provided that holds the body in the first position and the second position.

  According to a sixth aspect of the present invention, there is provided the rotary operation device according to any one of the first to fifth aspects, wherein the shaft rotates in the direction around the axis thereof. In conjunction, it moves in the axis orthogonal direction orthogonal to the axis direction. The base body engages with the support base so as not to rotate in the direction around the axis and to move in the direction perpendicular to the axis.

  According to the rotating operation device according to the present invention, when the operating body is moved in the axial direction of the shaft, by providing the base body that engages with the operating body, it is easy to rotate the operating body and move in the axial direction. With a simple operation, the shaft can be rotated and fixed.

It is a longitudinal cross-sectional view of the rotation operating device with an operating body in a 1st position of one Embodiment of this invention. Similarly, it is a longitudinal cross-sectional view of the rotation operating device with the operating body in the second position. Similarly, it is a right side view of the rotation operation device. Similarly, it is an exploded perspective view of a rotation operation device. Similarly, it is the longitudinal cross-sectional view which attached the rotation operation apparatus to the shaft. Similarly, an operation body is shown, (a) is a front view, and (b) is a right side view. Similarly, it is an end view by the AA line in FIG. Similarly, it is an end view by the BB line in FIG. Similarly, it is the perspective view which looked at the operation body from diagonally left. Similarly, it is the perspective view which looked at the operation body from diagonally right. Similarly, it is a front view of an intermediate. Similarly, it is a longitudinal cross-sectional view of an intermediate body. Similarly, it is a right side view of the intermediate body. Similarly, it is sectional drawing by CC line in FIG. Similarly, a base is shown, (a) is a front view, (b) is a longitudinal sectional view, and (c) is a right side view. Similarly, it is a perspective view of a base. Similarly, it is a perspective view which shows the specific usage example of a rotation operating device. It is a perspective view which shows the usage example used as the foundation of the rotation operation apparatus of other embodiment of this invention. Similarly, it is a perspective view which shows the specific usage example of a rotation operating device. Similarly, it is a perspective view which shows the other specific usage example of a rotation operating device. It is sectional drawing which shows the conventional rotation operation apparatus.

  EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing the rotation operation apparatus which concerns on this invention is demonstrated based on drawing.

  1 to 17 show an embodiment of the present invention. Reference numeral 1 in the figure denotes a support base. Reference numeral 2 denotes a shaft protruding forward from the support base 1. Reference numeral 3 denotes a rotation operation device, and this rotation operation device 3 is attached to the shaft 2 on the front side of the support base 1.

  The rotation operation device 3 includes an operation body 4 and a base body 5. Here, relative to the shaft 2, the operating body 4 is relatively unrotatable in the axial direction 2 a of the shaft 2 and is movable in the axial direction 2 b of the shaft 2. It is attached directly or via an intermediate 6. The base 5 is engaged with the support base 1 so as not to rotate in the axis-rotating direction 2a. The operating body 4 is movable relative to the shaft 2 between a first position (see FIG. 1) and a second position (see FIG. 2) in the axial direction 2b. At the position, the base 5 is engaged with the base 5 in a non-rotatable manner in the direction 2a around the axis, and at the second position, the engagement is released and the shaft 2 is rotated in the direction around the axis 2a. It becomes possible to move.

  Specifically, the rotation operation device 3 includes the intermediate body 6 that is attached and fixed to the shaft 2. That is, the operating body 4 is attached to the shaft 2 via the intermediate body 6. Here, the operating body 4 is relatively unrotatable in the direction around the axis 2 a and movable in the axial direction 2 b relative to the intermediate body 6, and the shaft 2 passes through the intermediate body 6. On the other hand, it is relatively unrotatable in the direction 2a around the axis and is movable in the direction 2b.

  Further, the rotation operating device 3 is provided with a moderation mechanism 7 that holds the operating body 4 at the first position and the second position between the intermediate body 6 and the operating body 4.

  Specifically, the first position of the operation body 4 is the side pushed into the intermediate body 6 (in other words, the shaft 2) (that is, the side close to the support base 1), and the second position is the intermediate body. 6 (shaft 2) is the side pulled out (that is, the side far from the support base 1). The operating body 4 is operated by hand, and includes an operating body main body 4a formed in a cylindrical shape. The operating body 4a has an inner peripheral surface on the inner peripheral surface of the operating body 4a. In addition, the first uneven portion 4b extending in the axial direction 2b is provided along with repeated peaks and valleys. The operation body 4 includes a first elastic piece 4 c as an elastic piece constituting the moderation mechanism 7 and a second elastic piece 4 d constituting a retaining mechanism 8 for the operation body 4 with respect to the intermediate body 6. Specifically, the first elastic piece 4c extends so as to be folded inward from the distal end of the operation body main body 4a. And the 1st elastic piece 4c has the 1st protrusion 4e as a processus | protrusion on the extended front end side. Similarly, the second elastic piece 4d extends so as to be folded inward from the distal end of the operation body main body 4a. The second elastic piece 4d has a second protrusion 4f on the extended tip side. In the illustrated embodiment, each of the first elastic pieces 4 c and the second elastic pieces 4 d is provided alternately in the circumferential direction of the operating body 4.

  The intermediate body 6 is made of a synthetic resin, and is formed by inserting a metal insert member 6a in forming the intermediate body 6. The intermediate body 6 has an insertion hole 6b through which the shaft 2 is inserted in the insert member 6a. That is, the axial center of the insertion hole 6 b faces the axial direction 2 b of the shaft 2. Further, a screw hole 6c reaching the insertion hole 6b is provided on the outer peripheral surface of the intermediate body 6 (specifically, the insert member 6a), and a set screw 9 screwed into the screw hole 6c hits the notch surface 2c of the shaft 2. Thus, the shaft 2 is prevented from rotating (see FIG. 5). The intermediate body 6 is formed with a hole 6d reaching the insertion hole 6b from the tip thereof, and the fixing bolt 10 is screwed into the shaft 2 through the hole 6d. (See FIG. 5).

  The intermediate body 6 is located inside the operating body main body 4a (the operating body 4), and a second uneven portion 6e that engages with the first uneven portion 4b and has a mountain and valley repeated in the direction around the axis 2a on the outer peripheral surface thereof. Provided. Therefore, the operation body 4 is engaged with the intermediate body 6 so as not to be able to rotate in the axial direction 2a and to be movable in the axial direction 2b. Specifically, the intermediate body 6 is provided with a second concavo-convex portion forming portion 6g projecting annularly in the synthetic resin portion 6f that is the main body portion, and the second concavo-convex portion forming portion 6g has the second surface on the outer peripheral surface thereof. An uneven portion 6e is provided.

  Further, the intermediate body 6 includes a guide portion 6h constituting the moderation mechanism 7 on the outer peripheral surface of the synthetic resin portion 6f so as to be aligned with the second uneven portion forming portion 6g and the axial direction 2b. In detail, the guide part 6h is provided so that the 1st hollow part 6i, the peak part 6j, and the 2nd hollow part 6k may continue along the said axial direction 2b. Therefore, when the operating body 4 is positioned at the first position, the first protrusion 4e of the operating body 4 is fitted into the first recess 6i, and when the operating body 4 is positioned at the second position, the first protrusion 4e is It fits in the 2nd hollow part 6k. That is, the guide portion 6h guides the first protrusion 4e in the operating body 4, and the first protrusion 4e presses the guide portion 6h by the elasticity of the first elastic piece 4c, and the operating body 4 When it moves in the axial direction 2b, it moves over the peak portion 6j of the guide portion 6h and moves between the first recess portion 6i and the second recess portion 6k.

  Further, a plurality of guide portions 6h (four in the illustrated embodiment) are provided at intervals in the direction around the axis 2a. Therefore, the second protrusion 4f of the operating body 4 is positioned on the flat portion 6m between the guide portions 6h and 6h. Moreover, the front-end | tip part 6n following the flat part 6m and the guide part 6h of the intermediate body 6 protrudes rather than the said flat part 6m. Thereby, the step portion 6p (see FIG. 11) moving from the flat portion 6m to the tip portion 6n constitutes the retaining mechanism 8, and when the operating body 4 is at the second position, the step body 6p When the fourth second protrusion 4f hits, the operation body 4 is prevented from being pulled out further.

  Further, the intermediate body 6 (specifically, the insert member 6a) has a groove 6q formed on the outer peripheral surface thereof, and a retaining ring 11 is hung on the groove 6q. Is prevented from coming off.

  The base 5 is formed in an annular shape so as to be fitted on the outer periphery of the intermediate body 6 (specifically, the insert member 6a), located inside the operation body main body 4a (operation body 4). As a result, the intermediate body 6, and consequently the shaft 2, can rotate relative to the base body 5 around the axis 2 a. The base body 5 is provided with a third concavo-convex portion 5a on the outer peripheral surface thereof, the ridges and valleys repeating in the axis-rotating direction 2a and meshing with the first concavo-convex portion 4b of the operating body 4 located at the first position. Due to the meshing, the operating body 4 is engaged with the base body 5 so as not to rotate relative to the axis direction 2a, and the engagement is released at the second position.

  Further, the base body 5 includes an engagement protrusion 5b protruding rearward, and the base protrusion 5 cannot be rotated in the axis-rotating direction 2a when the engagement protrusion 5b is engaged with the support base 1. In the illustrated embodiment, there are two engagement protrusions 5b, and the engagement protrusions 5b and 5b are provided at positions facing each other with the shaft 2 interposed therebetween. A through hole 5c is formed in the base 5 so as to penetrate the outer peripheral surface and the inner peripheral surface, and the set screw 9 described above is screwed into the screw hole 6c of the intermediate body 6 through the through hole 5c. (See FIG. 5).

  By the way, this rotation operation device 3 elastically urges the intermediate body 6 and the base body 5 between the base body 5 and the intermediate body 6 so that the base body 5 presses the front surface 1a of the support base 1 (specifically, each other). An elastic member 12 that is elastically biased) is provided. In the illustrated embodiment, the elastic member 12 is a coil-shaped spring and is fitted mainly on the outer periphery of the insert member 6a in the intermediate body 6 between the base body 5 and the synthetic resin portion 6f of the intermediate body 6. . In the figure, reference numerals 13 and 14 denote shim rings. Reference numeral 15 denotes a pointer plate attached to the base 5.

  FIG. 17 shows a specific usage example using this rotation operating device 3. In this example of use, the shaft 2 basically moves in the axis orthogonal direction 2d orthogonal to the axis direction 2b in conjunction with the rotation in the direction 2a around the axis. The base 5 is engaged with the support base 1 so that it cannot rotate in the axis-rotating direction 2a and can move in the axis-orthogonal direction 2d. Specifically, the pinion 16 fixed to the shaft 2 meshes with, for example, a rack 17 fixed to the back surface of the support base 1, so that the shaft 2 is interlocked with the rotation in the direction 2 a around its axis, It moves in the longitudinal direction of the rack 17 (that is, the axis orthogonal direction 2d). Here, a long hole 1b is formed in the support base 1 along the longitudinal direction of the rack 17 which is the axis orthogonal direction 2d, and the shaft 2 extends forward from the support base 1 so as to penetrate the long hole 1b. Protrusively. Then, the engagement protrusion 5b of the base 5 is inserted into the long hole 1b to engage with the long hole 1b, and by this engagement, the base 5 cannot rotate in the direction 2a around the axis, and It becomes possible to move in the axis orthogonal direction 2d. Accordingly, the operating body 4 is rotated in the axis-rotating direction 2a at the second position, whereby the shaft 2 is rotated. In conjunction with the rotation, the shaft 2 and the base body 5 are rotated. The operating device 3 moves in the axis orthogonal direction 2d along the long hole 1b. When the operating body 4 is pushed into the first position, the shaft 2 together with the rotation operating device 3 is fixed at that position.

  In addition, this use example specifically relates to a feeding device that feeds the packaging film 18 when printing characters or the like on the long packaging film 18. Here, a roller 19 is fitted to the shaft 2, and movement guide means including a pinion 16 and a rack 17 are provided on both sides of the roller 19. The roller 19 guides the feeding of the long packaging film 18 together with the other rollers 20 and 20. In addition, the code | symbol 21 is a printing head in the figure, and a character etc. are printed on the packaging film 18 by this printing head 21 at an appropriate space | interval. Reference numeral 22 is a scale provided on the support base 1, and knows the exact position of the shaft 2 from the value of the scale 22 indicated by the pointer plate 15 provided on the rotation operation device 3 (specifically, the base 5). Can do.

  Next, the effect of the rotation operation device 3 having the above configuration will be described. According to this rotating operation device 3, when the operating body 4 is located at the first position in the axial direction 2 b of the shaft 2 (see FIG. 1), the operating body 4 is relatively positioned relative to the base body 5. Is engaged in a non-rotatable direction 2a. At this time, since the base body 5 is engaged with the support base 1 so as to be unrotatable in the direction around the axis 2a, the operation body 4 is fixed at the rotation position, and the operation body 4 Is attached to the shaft 2 in a non-rotatable manner in the direction 2a around the axis, so that the shaft 2 is also fixed at its pivot position. Therefore, when the operating body 4 is moved from the first position to the second position along the axial direction 2b (see FIG. 2), the engagement between the operating body 4 and the base body 5 is released, and the operating body 4 is moved. The shaft 2 and the shaft can be rotated in the direction 2a. Then, after rotating the operating body 4 as much as necessary, if the operating body 4 is moved from the second position to the first position (see FIG. 1), the operating body 4 and the shaft 2 are moved to the rotating position. Fixed. As described above, by using the rotation operation device 3, the shaft 2 can be rotated and fixed by a simple operation of the operation body 4. Further, when the shaft 2 is fixed, the operating body 4 is moved in the axial direction 2b of the shaft 2, so that the shaft 2 can be rotated along with the movement, unlike the conventional rotating operation device. Absent. That is, when the operating body 4 is moved in the axial direction 2b of the shaft 2, the base body 5 that engages with the operating body 4 is provided, so that the operating body 4 can be rotated and moved in the axial direction 2b. The shaft 2 can be rotated or fixed.

  Further, the rotation operation device 3 is provided with an elastic member 12 between the base body 5 and the intermediate body 6. Therefore, when the base member 5 presses the front surface 1a of the support base 1 by the elastic member 12, the intermediate body 6 and thus the shaft 2 are pulled forward as a reaction. As a result, the shakiness of the shaft 2 in the axial direction 2b is suppressed, whereby the rotation and fixation of the shaft 2 are stabilized.

  In addition, this invention is not necessarily limited to embodiment mentioned above, A various other change is possible. For example, in the usage example of the rotation operation device 3, the shaft 2 moves in the axis orthogonal direction 2d in conjunction with the rotation in the direction 2a around the axis. Instead of moving in the direction 2d, it may simply be rotated in the direction 2a around the axis. FIG. 18 shows a basic usage example, and the shaft 2 protrudes forward from the support base 1 through a round hole 1 c formed in the support base 1. Then, the engagement protrusion 5b of the base 5 is engaged with the engagement hole 1d by being inserted into the engagement hole 1d formed in the support base 1, so that the base 5 is rotated around the axis. It cannot be rotated in the direction 2a.

  19 and 20 show a usage example that specifically shows the example of FIG. In the usage example shown in FIG. 19, when the component 24 conveyed by the conveyor 23 is dropped into the box 26 through the chute 25, the rotation operation device 3 is used to adjust the angle of the chute 25. It has been. That is, the shaft 2 (not shown) and the chute 25 are connected via the bracket 27. Therefore, by rotating or fixing the shaft 2 using the rotation operation device 3, the angle of the chute 25 is adjusted or the chute 25 is fixed at the adjusted angular position. Further, in the usage example shown in FIG. 20, when the product 29 conveyed by the conveyor 28 is inspected by the camera 30, the rotation operation device 3 is used to adjust the position of the camera 30. That is, the screw part 2e is formed in the outer peripheral surface of the shaft 2, and the camera 30 is attached to the moving body 31 screwed into the screw part 2e. Therefore, by using the turning operation device 3 to rotate or fix the shaft 2, the position of the moving body 31, and thus the camera 30, is adjusted or adjusted to the adjusted position. It is fixed.

  Further, an elastic member 12 is provided between the base body 5 and the intermediate body 6, but the elastic member 12 may be omitted.

  Further, a moderation mechanism 7 that holds the operating body 4 at the first position and the second position is provided between the intermediate body 6 and the operating body 4. For example, it is necessary to hold the operating body 4 at the second position. If not, it may be held only at the first position, and other holding means may be used instead of the moderation mechanism 7.

  Further, the rotation operation device 3 includes an intermediate body 6 and the operation body 4 is attached to the shaft 2 via the intermediate body 6, but without the intermediate body 6, the operation body 4 is directly connected to the shaft 2. It may be attached to the shaft 2.

DESCRIPTION OF SYMBOLS 1 Support base 1a Front surface 2 Shaft 2a Axis rotation direction 2b Axial direction 2d Axis orthogonal direction 3 Rotating operation device 4 Operation body 4a Operation body main body 4b 1st uneven part 5 Base 5a 3rd uneven part 6 Intermediate body 6e 2nd uneven part 7 Moderation mechanism

Claims (6)

A rotating operation device attached to a shaft protruding forward from the support base on the front side of the support base,
An operation body attached to the shaft directly or via an intermediate body so that the shaft is relatively unrotatable around the axis of the shaft and movable in the axial direction of the shaft;
A base that engages with the support base so as to be unrotatable in the direction around the axis;
The operation body is movable between the first position and the second position in the axial direction relative to the shaft, and relatively to the base at the first position. A rotation operation device that engages in a non-rotatable manner in the direction around the axis and is disengaged at the second position and can be rotated in the direction around the axis together with the shaft. Comprising the intermediate body fixedly attached to the shaft, the operating body being attached to the shaft via the intermediate body;
The operation body is relatively unrotatable in the direction around the axis and movable in the axial direction relative to the intermediate body, and is relatively movable relative to the shaft via the intermediate body. The rotation operation device according to claim 1, wherein the rotation operation device is not rotatable in the direction around the axis and is movable in the axis direction.   The rotation operation according to claim 2, wherein an elastic member that elastically biases the intermediate body and the base body is provided between the base body and the intermediate body so that the base body presses a front surface of the support base. apparatus. The operating body includes an operating body main body formed in a cylindrical shape, and a first concavo-convex portion extending in the axial direction is provided on the inner peripheral surface of the operating body main body, with the peaks and valleys repeating in the direction around the axis,
The intermediate body is provided with a second concavo-convex portion that engages with the first concavo-convex portion while repeating a crest and trough in the direction around the axis on the outer peripheral surface. Relatively engaged so as to be unrotatable in the direction around the axis and movable in the axial direction;
The base is provided with a third concavo-convex portion on the outer peripheral surface thereof, the ridges and valleys repeating in the direction around the axis, and meshing with the first concavo-convex portion of the operating body located at the first position. 4. The rotating body according to claim 2, wherein the operating body is engaged with the base body so as not to be rotatable in the direction around the axis, and the engagement is released at the second position. 5. Dynamic operation device.   The rotation according to any one of claims 2 to 4, wherein a moderation mechanism is provided between the intermediate body and the operation body to hold the operation body in the first position and the second position. Operating device. The shaft moves in an axis orthogonal direction perpendicular to the axial direction in conjunction with the rotation of the shaft around the axis,
The rotation according to any one of claims 1 to 5, wherein the base body is engaged with the support base so as not to rotate in the direction around the axis and to move in the direction perpendicular to the axis. Operating device.

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