JP2007229873A - Nut remover - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a nut remover usable for a bolt and a nut of a small size and capable of simply removing the nut from the bolt. <P>SOLUTION: The nut remover 1 for removing, from the bolt 2, the nut 3 screwed between one axial end 21 and the other end 22 of the bolt 2 includes a holding member 7 for holding a side of one end 21 of the bolt 2 in the axial direction by frictional force, a rotating member 6 for rotating the nut 3 with respect to the bolt 2 by driving force and a contact member 8 facing the holding member 7 across the nut 3 and coming into contact with the nut 3 in the axial direction. The holding member 7 is structured to allow the axial movement of the bolt 2 when the nut 3 comes into contact with the contact member 8 and, thereafter, is further rotated by the rotating member 6. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a nut removing device for removing a nut screwed between one end and the other end of a bolt from the bolt.

  Conventionally, when a nut screwed into a bolt is removed from a bolt in a factory or the like, an operator turns the nut screwed into the bolt with the other hand while holding the bolt with one hand. . In the operation of removing the nut, the bolt and the nut are sometimes small parts, which places a burden on the operator's hand (finger). In particular, when the bolt is long, the nut is turned for a long time, and the burden on the worker is further increased.

Patent Document 1 described later describes an example of a known nut removing device. This device is used when a nut is removed from a large bolt.
JP-A-7-237055

  The device described in Patent Document 1 has a large structure including an air cylinder, an air motor, and the like, and is practically impossible to apply to small bolts and nuts (M10, M12, etc.). It was.

  Therefore, the present invention has been made in view of the above-described problems, and it is applicable to small bolts and nuts, and it is an object to provide a nut removing device that can easily remove a nut from a bolt. To do.

  In order to solve the above-mentioned problem, the technical means taken in the present invention is, as described in claim 1, a nut screwed between one end and the other end in the axial direction of the bolt. A nut removing device for removing the nut, the holding member holding one end side of the bolt with a frictional force in the axial direction, a rotating member for rotating the nut with respect to the bolt by a driving force, and sandwiching the nut A contact member facing the holding member and contacting the nut in the axial direction, and the holding member is further rotated by the rotating member after the nut contacts the contact member The bolt is allowed to move in the axial direction.

  Preferably, as described in claim 2, the holding member may clamp one end side of the bolt by a biasing force of a spring.

  Preferably, as described in claim 3, the contact member supports the other end of the bolt so as to be movable in the axial direction.

  According to the present invention, before the nut comes into contact with the contact member, when the nut rotates with respect to the bolt by the rotating member, the bolt held by the holding member is stopped. Moves in the axial direction. After the nut has come into contact with the contact member, when the nut rotates with respect to the bolt by the rotating member, further movement of the nut is restricted by the contact member, so that the bolt screwed into the nut stops. Move axially relative to the nut. At this time, the bolt moves against the frictional force received from the holding member. When the nut further rotates with respect to the bolt by the rotating member, the bolt further moves in the axial direction with respect to the nut, and finally the bolt is separated from the nut (the nut is detached from the bolt). According to the above structure, when removing the nut from the bolt, the operator holds the bolt on the holding member, then applies a driving force to the rotating member, and rotates the nut with respect to the bolt via the rotating member. Just do it. Therefore, the operator does not need to handle the bolt and the nut directly by hand when removing the nut from the bolt. Thereby, the burden placed on the worker is reduced, and the worker can easily remove the nut from the bolt.

  In addition, the functions of the holding member, the rotating member, and the contact member can be realized regardless of their sizes. Therefore, the apparatus according to the present invention is applicable even if the bolt and nut are small items.

  The best mode for carrying out the present invention will be described below with reference to the drawings.

  FIG. 1 is a schematic view of a nut removing device 1 according to the present invention. 2 is a top view of the nut removing device 1 (viewed in the direction of arrow II in FIG. 1), FIG. 3 is a side view of the nut removing device 1 (viewed in the direction of arrow III in FIG. 1), and FIG. FIG. 3 is a diagram of a bolt 2 and a nut 3 applied to the device 1.

  The nut removing device 1 is for removing the nut 3 screwed between one end 21 and the other end 22 in the axial direction of the bolt 2 from the bolt 2 (see FIG. 4). The bolt 2 is a metal round bar on which a male screw is formed.

  The nut removing device 1 includes a base member 4, support members 5 a to 5 c, a rotating member 6, a holding member 7, and a contact member 8. The base member 4 and the support members 5a to 5c are metal plates. The support members 5a to 5c are fixed to the base member 4 and extend in the vertical direction. The base member 4 and the support members 5 a to 5 c form a skeleton part of the nut removing device 1. The nut removing device 1 is installed on a work table, a table or the like by the base member 4.

  The rotating member 6 has a circular wheel shape. The rotating member 6 is provided with a shaft 61. One end 61a of the shaft 61 is rotatably supported by the support member 5a, and the other end 61b of the shaft 61 is rotatably supported by the support member 5b. The rotating member 6 rotates integrally with the shaft 61. A drive gear 62 is attached to the other end 61 b of the shaft 61. The drive gear 62 rotates integrally with the shaft 61. The drive gear 62 is connected to the drive mechanism 9. The drive mechanism 9 includes a transmission gear 91, a transmission gear 92, and a handle member 93. The transmission gears 91 and 92 and the handle member 93 are rotatably supported by the support members 5b and 5c. The transmission gear 91 meshes with the transmission gear 92. The transmission gear 92 meshes with a drive gear 62 attached to the shaft 61 of the rotating member 6. When the handle member 93 is operated by the operator, the transmission gear 91 rotates. The transmission gear 92 rotates with the rotation of the transmission gear 91 to rotate the drive gear 62 of the rotating member 6. As a result, the rotating member 6 rotates together with the shaft 61. That is, the driving force generated in the handle member 93 is transmitted to the driving gear 62 via the transmission gear 91 and the transmission gear 92, and the rotating member 6 is driven. In the present embodiment, the means for rotating the transmission gear 91 is an operation of the handle member 93 by the operator, that is, manual operation. For example, the operation is a motor operation, that is, electric operation. May be.

  The holding member 7 is a so-called clamping mechanism, and includes a first member 71, a second member 72, and a coil spring 73. The holding member 7 is supported by the support member 5 a via the block 10. In the holding member 7, the first member 71 and the second member 72 are connected to the block 10 via a shaft 74. The first member 71 and the second member 72 rotate with respect to the block 10 around the shaft 74. The holding member 7 holds the one end 21 side of the bolt 2 between the first member 71 and the second member 72. The coil spring 73 connects the first member 71 and the second member 72. The coil spring 73 constantly urges the first member 71 and the second member 72 by elastic force (biasing force). The one end 21 side of the bolt 2 is sandwiched between the first member 71 and the second member 72 by the biasing force of the coil spring 73. That is, the holding member 7 moves the one end 21 side of the bolt 2 in the axial direction of the bolt (shown in FIGS. 1 and 2) by a frictional force acting between the first member 71 (second member 72) and the bolt 2. Hold in the horizontal direction). As long as the holding member 7 can hold the one end 21 side of the bolt 2 by a frictional force, a known torsion spring (torsion spring) or the like may be used instead of the coil spring 73 in the holding member 7. When the bolt 2 is held by the holding member 7, the nut 3 screwed into the bolt 2 comes into contact with the rotating member 6. When the rotating member 6 rotates, the nut 3 rotates with respect to the bolt 2.

  The abutting member 8 is a plate provided with a substantially U-shaped notch 81, and is supported by the support member 5 b via the cover 11. The contact member 8 supports the other end 22 side of the bolt 2 at a notch 81 so as to be movable in the axial direction of the bolt. The contact member 8 faces the holding member 7 with the nut 3 screwed to the bolt 2 interposed therebetween. The size of the notch 81 is smaller than the diameter of the nut 3.

  Hereinafter, operation | movement of the nut removal apparatus 1 is demonstrated with reference to Fig.5 (a)-(d). FIGS. 5A to 5D are diagrams schematically illustrating an operation mode of the nut removing device 1.

  First, as shown in FIG. 5A, the one end 21 side of the bolt 2 is held by the holding member 7, and the other end 22 side of the bolt 2 is supported by the notch 81 of the contact member 8. At this time, the nut 3 screwed into the bolt 2 is positioned between the holding member 7 and the abutting member 8 in the axial direction of the bolt (the horizontal direction shown in FIGS. 5A to 5D) and rotates. It is in contact with the member 6.

  Subsequently, when the rotating member 6 is rotated by the operation of the handle member 93 (see FIG. 1), the nut 3 in contact with the rotating member 6 rotates with respect to the bolt 2 and moves in the axial direction of the bolt. As a result, as shown in FIG. 5B, the abutting member 8 abuts in the axial direction of the bolt.

  After the nut 3 comes into contact with the contact member 8, the movement of the nut 3 is restricted. Therefore, when the rotary member 6 rotates after the nut 3 comes into contact with the contact member 8, the bolt 2 screwed into the nut 3 exerts a frictional force on the holding member 7 as shown in FIG. Move in the axial direction against F. That is, the holding member 7 allows the bolt 2 to move in the axial direction when the nut 3 further rotates by the rotating member 6 after contacting the contact member 8.

  Then, when the rotating member 6 rotates until the other end 22 of the bolt 2 is detached from the nut 3, the nut 3 is detached from the bolt 2 as shown in FIG.

  As described above, according to the nut removing device 1 according to the present invention, when the nut 3 is rotated with respect to the bolt 2 by the rotating member 6 before the nut 3 comes into contact with the contact member 8, the holding member 7. The bolt 2 held by is stopped, and the nut 3 moves in the axial direction with respect to the stopped bolt 2. After the nut 3 is in contact with the contact member 8, when the nut 3 is rotated with respect to the bolt 2 by the rotating member 6, further movement of the nut 3 is restricted by the contact member 8. The combined bolt 2 moves in the axial direction relative to the nut 3 that has stopped. At this time, the bolt 2 moves against the frictional force received from the holding member 7. Then, when the nut 3 further rotates with respect to the bolt 2 by the rotating member 6, the bolt 2 further moves in the axial direction with respect to the nut 3, and finally the bolt 2 is separated from the nut 3 (the nut 3 becomes the bolt 2). ). According to the above structure, when removing the nut 3 from the bolt 2, the operator holds the bolt 2 on the holding member 7, and then applies a driving force to the rotating member 6, and the nut 3 via the rotating member 6. May be rotated with respect to the bolt 2. Therefore, when removing the nut 3 from the bolt 2, the operator does not need to handle the bolt 2 and the nut 3 directly by hand. As a result, the burden on the worker is reduced, and the worker can easily remove the nut 3 from the bolt 2.

  In addition, the functions of the holding member 7, the rotating member 6, and the contact member 8 can be realized regardless of their sizes. Therefore, the nut removing device 1 according to the present invention is applicable even if the bolt 2 and the nut 3 are small items.

1 is a schematic view of a nut removing device 1 according to the present invention. The top view of the nut removal apparatus 1 (II directional arrow line view in FIG. 1). The side view of the nut removal apparatus 1 (III directional arrow line view in FIG. 1). The figure of the volt | bolt 2 and the nut 3 applied to the nut removal apparatus 1. FIG. The figure which shows the operation | movement aspect of the nut removal apparatus 1 typically.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Nut removal apparatus 2 Bolt 3 Nut 6 Rotating member 7 Holding member 8 Contact member 21 One end 22 Other end 73 Coil spring (spring)

Claims (3)

A nut removing device for removing a nut screwed between one end and the other end in the axial direction of the bolt from the bolt,
A holding member for holding one end side of the bolt with frictional force in the axial direction;
A rotating member that rotates the nut relative to the bolt by a driving force;
A contact member facing the holding member across the nut and contacting the nut in the axial direction;
With
The holding member allows a movement of the bolt in the axial direction when the rotating member further rotates after the nut comes into contact with the contact member.   The nut removing device according to claim 1, wherein the holding member clamps one end side of the bolt by a biasing force of a spring.   The nut removing device according to claim 2, wherein the abutting member supports the other end of the bolt so as to be movable in the axial direction.

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