JP4260077B2 - Clamp mechanism - Google Patents

Description

  The present invention relates to a clamp mechanism including a block having a screw hole and a clamp bolt attached to the screw hole of the block via a clamp fitting.

  Conventionally, a tightening method using a bolt is frequently used in a mechanism in the world as a means capable of realizing a large load with a small torque. At the time of bolt tightening, the contact surface between the bolt head and the block (the object to be tightened) may be bent due to the force when torque is applied to the bolt, or the bolt machining error or parallelism error between the contact surfaces. The contact surface may become uneven. In this case, the object to be tightened may move when the bolt is tightened.

  As mentioned above, the object to be tightened may move when tightening the bolt, but the direction of movement of this object depends on the machining error between the contact surfaces, how to apply force to the spanner, or the direction of the force. Depending on the moving direction of the object to be tightened, there may be a problem with the clamping mechanism.

  The present invention has been made in consideration of such points, and an object of the present invention is to provide a clamp mechanism capable of firmly fixing a block by moving the block in a desired direction when a bolt is tightened.

  The present invention comprises a block having a screw hole, and a clamp bolt having a head attached to the screw hole of the block via a clamp fitting, the clamp fitting having an adjustment hole through which the clamp bolt passes, The surface of the clamp bolt head side of the metal fitting includes a surface on one side of the adjustment hole that is in close contact with the head of the clamp bolt and a surface on the other side of the adjustment hole that forms a gap between the head of the clamp bolt. It is the clamp mechanism characterized by comprising.

  The present invention is the clamp mechanism characterized in that the block having the screw hole is a slide block movable on the slide base.

  The present invention is the clamp mechanism characterized in that the adjustment hole of the clamp fitting is formed in an elongated shape and extends along the moving direction of the slide block.

  The present invention is the clamp mechanism in which the clamp fitting extends from the slide block to the slide base.

  The present invention is a clamp mechanism characterized in that a step portion positioned between the slide block and the slide base is formed on the slide block and the slide base side surface of the clamp fitting.

  The present invention is a clamp mechanism characterized in that a dovetail groove is provided in one of the slide base and the slide block, and a dovetail guide engaging with the dovetail groove is provided in the other.

  The present invention is the clamp mechanism characterized in that the adjustment hole of the clamp fitting is a round hole.

  The present invention is the clamp mechanism characterized in that the center of the adjustment hole coincides with the boundary line between the surface on one side of the adjustment hole and the surface on the other side of the adjustment hole.

  According to the present invention, when the clamp bolt is tightened, the surface on one side of the clamp fitting can be a contact surface with the head of the clamp bolt. For this reason, rotational force can be applied to the clamp bolt using the surface on one side of the clamp fitting as a fulcrum, and the clamp bolt penetrates through the adjustment hole of the clamp fitting. Can be applied.

Embodiments of a clamping mechanism according to the present invention will be described below with reference to the drawings.
1 to 3 are views showing an embodiment of a clamping mechanism according to the present invention.
1A is a front view of the clamp mechanism, FIG. 1B is a side sectional view of the clamp mechanism shown in FIG. 1A, and FIG. 2A is a view of FIG. FIG. 2B is an enlarged view, FIG. 2B is a side sectional view of the clamp mechanism shown in FIG. 2A, and FIG. 3 is a view showing the operation of the clamp mechanism.

  As shown in FIGS. 1 to 3, the clamping mechanism includes a slide base 2 having a dovetail groove guide 8, and a slide block having a dovetail groove 7 that is movably provided on the slide base 2 and engages with the dovetail groove guide 8. (Clamp object) 1 and a clamp bolt 15 attached to the screw hole 1 a of the slide block 1 via the clamp fitting 3.

  Among them, the clamp bolt 15 has a head 5, and the clamp fitting 3 has a flat plate shape and an elongated adjustment hole 6 through which the clamp bolt 15 passes. The elongated adjustment hole 6 extends along the moving direction of the slide block 1 (the left-right direction in FIG. 1A).

  Further, a stopper 4 is fixed to one end of the slide base 2 so that the slide block 1 abuts at right angles to the clamp fitting 3.

  The stopper 4 only needs to be provided facing the slide block 1, and does not need to be fixed to the slide base 2.

As described above, the dovetail groove 7 provided in the slide block 1 that is the object to be clamped is fitted into the dovetail groove guide 8 of the slide base 2 so that the slide block 1 can slide on the slide base 2. Yes. In addition, when the end surface of the slide base 2 and the clamp fitting 3 are put together between the slide block 1 and the clamp fitting 3, as shown in FIG. For example, a gap of about 0.01 to 0.1 mm is formed. Note that the surfaces of the clamp fitting 3 on the slide block 1 and slide base 2 side are a surface 3d that presses the side surface of the slide base 2, a pressing surface 3c that presses the side surface of the slide block 1 in the vicinity of the clamp bolt 15, and a pressing surface. It has a step portion 3g located between the surface 3c and the pressing surface 3d and separated from the slide block 1 and the slide base 2.

Thus, the clamp fitting 3 extends from the slide block 1 to the slide base 2, and the step 3 g is provided on the surface of the clamp fitting 3 on the slide block 1 and slide base 2 side.

As described above, the clamp fitting 3 is provided with the elongated adjustment hole 6 in a direction parallel to the dovetail guide 8, that is, in the moving direction of the slide block 1, and the clamp bolt 15 slides through the adjustment hole 6. The block 1 is screwed into the screw hole 1a. When the slide block 1 slides on the slide base 2, the slide bolt 15 reciprocates in the adjustment hole 6.

  Further, as shown in FIGS. 2A and 2B, the surface of the clamp fitting 3 on the head 5 side of the clamp fitting 3 is below the step surface 3 a located above the adjustment hole 6 and below the adjustment hole 6. And a reference surface 3b located on the side.

  2A and 2B, the step surface 3a above the adjustment hole 6 of the clamp fitting 3 is, for example, about 0.01 to 0.3 mm with respect to the reference surface 3b below the adjustment hole 6. It is retracted with a slight step (gap).

  2A and 2B, the reference surface 3b of the clamp fitting is a surface on one side of the adjustment hole 6, and the step surface 3a is a surface on the other side of the adjustment hole 6.

  A boundary line 3P is formed between the step surface 3a and the reference surface 3b, and the center line (and the center) of the adjustment hole 6 coincides with the boundary line 3P.

Next, the operation of the embodiment having such a configuration will be described.
As shown in FIGS. 1A and 1B, the clamp bolt 15 is loosened from the screw hole 1 a of the slide block 1, and the slide block 1 can slide on the slide base 2. The slide block 1 is pressed by a manual operation or the like and slides rightward on the slide base 2 in FIG. When the clamp bolt 15 is tightened in a state where the slide block 1 is in contact with the stopper 4, a slight gap provided between the pressing surface 3c of the clamp fitting 3 on the clamp bolt 15 side and the slide block 1 becomes a clamp fitting. 3, and the pressing surface 3 d of the clamp fitting 3 is pressed against the side surface of the slide base 2.

  In this way, the slide block 1 is fixed on the slide base 2 by the clamp fitting 3 and the clamp bolt 15.

  During this time, the head 5 of the clamp bolt 15 that passes through the adjustment hole 6 and is screwed into the screw hole 1a of the slide block 1 is in close contact with only the reference surface 3b of the clamp fitting 3 before tightening. 5a is formed, and is separated (gap) from the step surface 3a of the clamp fitting 3 by the step t. When the clamp bolt 15 is further rotated clockwise in this state, the frictional force of the contact surface 5a that contacts the reference surface 3b of the head 5 of the clamp bolt 15 is more reliable than the friction force with the step surface 3a. Become bigger. For this reason, a rotational force with the contact surface 5a as a fulcrum acts on the clamp bolt 15.

When a rotational force acts on the clamp bolt 15 in this way, a twisting force in the same direction as the rotation direction of the clamp bolt 15 is applied to the slide block 1 via the clamp bolt 15. In this case, since the dovetail groove 7 of the slide block 1 is fitted in the dovetail guide 8 of the slide base 2, the slide block 1 does not rise and fall on the slide base 2. Further, since the clamp bolt 15 is regulated by the adjustment hole 6 of the clamp fitting 3, a lateral movement force shown in FIG.

  The moving force applied to the slide block 1 to which the clamp bolt 15 is screwed from the clamp bolt 15 becomes a force for sliding in the direction of the stopper 4, and as a result, the slide block 1 is pressed against the stopper 4.

  When the clamp bolt 15 is further tightened, the head 5 of the clamp bolt 15 is elastically deformed as shown in FIG. 3, and the head 5 comes into contact with the stepped surface 3a to complete the clamping. In addition, since the level difference t of the level difference surface 3a is as small as about 0.01 to 0.3 mm (as will be described later, the level difference t can be appropriately set depending on the size of the clamp bolt 15 or the size of the head 5). The head 5 is not damaged by the elastic deformation of the head 5 of the clamp bolt 15.

  Further, since the step t of the step surface 3a is provided, the clamp bolt 15 rotates with the contact surface 5a contacting the reference surface 3b as a fulcrum. As a result, the clamp bolt 15 (in the case of a right-hand thread) The moving direction of the slide block 1 by the tightening rotation (right rotation) is limited to the direction (right direction) toward the stopper 4 as shown in FIG.

  Next, a comparative example of the present invention will be described with reference to FIGS. As shown in FIGS. 4A and 4B, when the surface 3f on the head 5 side of the clamp bolt 15 of the clamp fitting 3 is uniformly flat, the moving force applied from the clamp bolt 15 to the slide block 1 is not fixed. It is possible that there is not.

  That is, as shown in FIGS. 4A to 4D, when the clamp bolt 15 is tightened clockwise, the head 5 of the clamp bolt 15 that contacts the flat surfaces 3f on both sides of the adjustment hole 6 of the clamp fitting 3 is As shown in FIG. 4C, when the lower contact surface 5a becomes a fulcrum due to friction with the flat surface 3f of the clamp fitting 3, the slide block 1 is moved forward with the tightening rotation (right rotation) of the clamp bolt 15. This causes an action of pressing against the stopper 4. On the other hand, when the upper contact surface 5b of the head 5 becomes a fulcrum due to friction with the flat surface 3f of the clamp fitting 3 as shown in FIG. The slide block 1 is separated from the stopper 4. In this case, when the frictional force of the upper contact surface 5b exceeds the frictional force of the lower contact surface 5a, the slide block 1 pressed against the stopper 4 is separated from the stopper 4 as the clamp bolt 15 is tightened. As a result, the positioning accuracy cannot be maintained.

  Note that the frictional force generated on the contact surfaces 5a and 5b of the head 15 also affects the surface roughness of the contact surface 5a or 5b, but is also affected by the torque load on the clamp bolt 15. That is, the method of applying torque to the clamp bolt 15 is to apply a rotational force by pressing from one side after a cantilever wrench is normally fitted to the bolt, and the pressing force at this time is the head 5 of the clamp bolt 15. The clamp bolt 15 is bent by the pressing force. For example, when the rod spanner is horizontally fitted to the clamp bolt 15 in FIG. 4 (c) so that the applied portion is on the right side, and the rod spanner is rotated to the right with the force F from the horizontal position of the rod spanner, the clamp A force F is applied downward to the head 5 of the bolt 15. For this reason, the clamp bolt 15 is bent downward, and the contact surface 5a of the head 5 is further pressurized by this influence. Or, conversely, if the spanner is fitted so that the applied portion comes to the left side of the head 5 of the clamp bolt 15 and the clamp bolt 15 is rotated in the right direction (force direction is upward), the slide block 1 is reversed. The applied moving force increases in the left direction.

  On the other hand, according to the present invention, since the level difference t that does not affect even when the force F is applied is provided, the moving force applied to the slide block 1 when the clamp bolt 15 is tightened is always in a certain direction, that is, the stopper. Can be determined in the direction toward 4. Therefore, by tightening the clamp bolt 15, the slide block 1 can be fixed to the slide base 2 and can be reliably pressed against the stopper 4.

  Although the adjustment hole 6 has been described as an elongated shape, if the movement amount of the slide block 1 may be small, it may be a round hole with a slight margin. Furthermore, the value of the level difference t when the end surface of the slide base 2 and the clamp metal fitting 3 are combined is set to a rough value. However, the size and movement amount of the clamp bolt 15, the material, rigidity or size of the clamp metal fitting, etc. Needless to say, it changes as appropriate.

The figure which shows one Embodiment of the clamp mechanism by this invention. The enlarged view of the clamp mechanism shown in FIG. The figure which shows the effect | action of a clamp mechanism. The figure which shows the conventional clamp mechanism.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Slide block 1a Screw hole 2 Slide base 3 Clamp metal fitting 3a Step surface 3b Reference surface 3c, 3d Press surface 3g Step part 3f Flat surface 4 Stopper 5a, 5b Contact surface 6 Adjustment hole 7 Dovetail groove 8 Dovetail guide 15 Clamp bolt t steps

Claims (6)

A block having screw holes;
A clamp bolt having a head attached to the screw hole of this block via a clamp fitting,
The clamp fitting has an adjustment hole through which the clamp bolt passes,
The surface on the head side of the clamp bolt of the clamp fitting is the surface on the other side of the adjustment hole that forms a gap between the surface on one side of the adjustment hole that is in close contact with the head of the clamp bolt and the head of the clamp bolt And consist of
The block with screw holes consists of a slide block that can move on the slide base,
The clamp mechanism is characterized in that the adjustment hole of the clamp fitting is formed in an elongated shape and extends along the moving direction of the slide block. A block having a screw hole;
A clamp bolt having a head attached to the screw hole of the block via a clamp fitting,
The clamp fitting has an adjustment hole through which the clamp bolt passes,
The surface on the head side of the clamp bolt of the clamp bracket is the surface on the other side of the adjustment hole that forms a gap between the surface on one side of the adjustment hole that is in close contact with the head of the clamp bolt and the head of the clamp bolt And consist of
The block with screw holes consists of a slide block that can move on the slide base,
A clamp mechanism characterized in that the adjustment hole of the clamp fitting is a round hole. Clamp fitting clamping mechanism according to claim 1 or 2, characterized in that extending from the slide block to the slide base. 4. The clamp mechanism according to claim 3, wherein a step portion positioned between the slide block and the slide base is formed on the slide block and the slide base side surface of the clamp fitting. 3. A clamping mechanism according to claim 1, wherein a dovetail groove is provided in one of the slide base and the slide block, and a dovetail guide engaged with the dovetail groove is provided in the other. . The center of the adjustment hole and a side surface of the adjustment hole, the adjustment hole in claim 1 or 2 either, wherein the clamping mechanism, characterized in that it coincides with the boundary line between the other side surface.

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