JP2003065878A - Fixing device of specimen in balancing machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fixing device for mounting a specimen enabling a balancing machine to test accurately the specimen having a gage diameter on the upper face, and capable of automatizing easily specimen fixation. SOLUTION: This fixing device 1 for fixing the specimen S having a recessed gage diameter part R on the peripheral upper face of a through hole part is equipped with a moving shaft 4 penetrating the hole part of the specimen and moving in the vertical direction, a body part 3 having the moving shaft inserted inside and fixed by a rotary shaft a support part 6 installed on the body part, for supporting the specimen, and a fixing part 7 having the moving shaft mounted thereon, for fixing the specimen. The fixing part is constituted so that a part thereof is enlarged based on movement of the moving shaft, to thereby press the inside face of the gage diameter part to fix the specimen.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fixing device for mounting a test body in a balance testing machine for rotating the test body and testing the balance of the test body.

[0002]

2. Description of the Related Art Conventionally, a balance testing machine has been known as a device for testing a balanced state of a rotating component (for example, a fan or a flywheel) when rotating.

As a test body in such a balance tester, for example, a disc-shaped test body having a hole in the center can be mentioned. In such a test body, a portion having a reference diameter is a seating surface of the test body ( Some are provided on the opposite side of the bottom surface).

As a method of fixing a test body having such a reference diameter, for example, there is known a method of fitting and fixing a screw shaft having an outer diameter that engages with the inner diameter of the hole of the test body (fixed spigot type). Has been.

FIG. 5 is a view for explaining a conventional fixed inlay type fixing device. The fixing device 100 includes an apparatus body 101, an inlay 103 for fixing a test body 102, and an inlay 103. Mated, test body 102
Removable fixing ring 104 that abuts against and presses a reference diameter portion 102a formed on the upper surface of the reference diameter portion 102a having a reference diameter.
And a screw shaft 105 for fixing the fixing ring 104 to the spigot 103, and a handle 106 provided on the screw shaft 105.

Then, the test body 102 is inserted from above with the fixing ring 104 removed, the lower surface of the fixing ring 104 is brought into contact with the reference diameter portion 102a of the test body 102, and the screw shaft 105 is tightened. The reference diameter portion 102a of the body 102 is pressed and fixed by the fixing ring 104.

[0007]

However, it is not easy to accurately manufacture the test piece so that the inner diameters of the hole and the reference diameter portion of the test piece are all the same. Therefore, there is an inner diameter tolerance in the test piece. To do. Due to this inner diameter tolerance, in the fixing device 100 of the fixed spigot type, the test body 1
A gap may occur between the inner side surface of the reference diameter portion 02a of 02 and the outer side surface of the spigot 103, and the rotation center of the test body 102 is not constant, so a measurement error occurs when the test body rotates, and There was a problem of poor reproducibility. Further, since the test piece 102 is fixed by tightening the screw shaft 105, the workability is poor and it is not suitable for automation of fixing the test piece.

The present invention has been made in view of the above circumstances, and in a balance tester, a test body having a reference diameter on the upper surface can be accurately tested, and automation of fixing the test body is easy. An object of the present invention is to provide a fixing device for mounting a flexible test body.

[0009]

In order to solve the above problems, the invention of claim 1 is, for example, as shown in FIGS.
The test body S having a concave reference diameter portion R on the upper surface around the through hole is rotated by the rotation of the rotary shaft 2, and the test body is attached to the rotary shaft in a balance testing machine for testing the balance state of the test body. In the fixing device 1 for fixing, a moving shaft 4 which penetrates the hole of the test body and moves in the vertical direction, and a main body part in which the moving shaft is inserted and fixed to the rotating shaft. (For example, a device main body 3), a supporting portion (for example, a test body receiver 6) that is provided in the main body and supports the test body, and a fixed portion to which the moving shaft is attached and which fixes the test body. (For example, the collet 5 and the expansion ring 7), the fixed portion presses the inner side surface of the reference diameter portion by partially expanding the diameter based on the movement of the moving shaft. Configured to secure the test specimen It is characterized in.

According to the first aspect of the invention, after the test body is supported by the fixing device by the support portion provided in the main body portion, the moving shaft penetrating the hole of the test body is moved. A part of the fixed portion into which the moving shaft is inserted is expanded in diameter. Then, the inner surface of the reference diameter portion of the test body is pressed by the fixing portion, so that the test body is fixed to the fixing device. Therefore, even if the reference diameter of the reference diameter portion of the test body has an inner diameter tolerance and the reference diameter is not constant, the test body can be pressed and fixed by the fixing portion, so that the rotation center of all the test bodies can be fixed. Can be kept constant, and a measurement error can be prevented from occurring during the balance test. Further, since the fixed portion expands in diameter by the downward movement of the moving shaft to fix the test body, it is necessary to tighten the screw shaft 105 to fix the test body 102 as in the conventional fixed spigot type fixing device. Since it does not exist, it has good workability and is suitable for automating the fixation of test specimens.

According to a second aspect of the present invention, in the fixing device for a test body in the balance testing machine according to the first aspect, the fixing portion has a collet 5 provided with a slit 52, and the collet is inserted inside. An expansion ring 7 provided with a slot 71, and the collet is formed in a tapered shape so that an inner diameter portion thereof engages with a taper portion (for example, a taper shaft portion 31) provided in the main body portion. At the same time, based on the downward movement of the moving shaft, it is configured to move downward along the tapered portion to expand the diameter,
The expansion ring is configured to expand in diameter in association with the expansion of the collet, and the outer diameter portion of the expansion ring presses the inner surface of the reference diameter portion to fix the test body. Is characterized by.

According to the invention described in claim 2, it is needless to say that the same effect as that of the invention described in claim 1 can be obtained, and in particular, when the moving shaft is moved downward, it is formed in a tapered shape. The inner diameter portion of the collet is moved downward along the taper portion provided on the main body portion to be expanded in diameter. Then, the expansion ring into which the collet is inserted is expanded in conjunction with the expansion of the collet, and the outer diameter portion of the expanded expansion ring presses the inner surface of the reference diameter portion of the test body. As a result, the test body is fixed to the fixing device. Therefore, since the inner surface of the reference diameter portion of the test body is pressed by the tightening effect when the collet and the expansion ring are expanded, the test body can be more reliably fixed.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a fixing device for a test body in a balance testing machine according to the present invention will be described below in detail with reference to the drawings.

FIG. 1 is a longitudinal sectional view showing a chuck open state before fixing a test body having a reference diameter on the upper surface of a fixing device according to the present invention, and FIG. 2 shows a state after the test body is fixed. It is a longitudinal cross-sectional view showing a chuck clamp state.

The fixing device 1 shown in FIGS. 1 and 2 is used for fixing a test body S having a reference diameter portion R on its upper surface to a vertical balance tester (not shown). It is fixed to the rotating shaft 2 with, for example, bolts.

The fixing device 1 includes a device main body 3 fixed to a rotary shaft 2, a movable shaft 4 which is inserted into the device main body 3 from above and is vertically movable, and a vertical movement of the movable shaft 4. The collet 5 that expands and contracts in diameter in synchronism with the movement, the test body receiver 6 that supports the test body S, and the inner side surface of the reference diameter portion R provided on the test body S are pressed and fixed. The expansion ring 7 and the like are provided.

The apparatus main body 3 is provided with a taper shaft portion 31 having a tapered outer periphery on the upper portion thereof. Also, the device body 3
, The test body support 6 is fixed by a bolt, and the test body S is supported by the fixing device 1 by bringing the seating surface of the test body S into contact with the test body support 6.

The moving shaft 4 is a taper shaft portion 3 of the apparatus main body 3.
1, and the lower end portion thereof is connected to the operating shaft 4a on the rotating shaft 2 side. The moving shaft 4 is inserted into the collet 5 shown in FIG. 3, and the nut 41 is attached to the upper end portion. Further, a disc-shaped collar portion 42 is formed on the moving shaft 4 below the inner peripheral side ceiling surface 51 of the collet 5. A play is provided between the nut 41 and the collar 42 so that the collet 5 can move a small amount in the vertical direction.

The collet 5 is composed of a ring that is evenly divided by several slits 52, and a diameter-expanded portion 53 formed by providing the slits 52 is expanded by elastic deformation. ing. Here, the material of the collet 5 is, for example, iron. Further, the outer circumference of the collet 5 is, for example, about 0.05 mm to 0.1 m depending on the hole diameter of the expansion ring 7.
It is processed small, about m. The inner peripheral surface of the collet 5 is tapered similarly to the taper shaft portion 31 of the apparatus main body 3, and the inner peripheral surface of the collet 5 and the taper shaft portion 31 are formed.
Is engaged with the outer peripheral surface of the.

When the moving shaft 4 moves upward, the flange 42 also moves upward, and the flange 42 pushes up the inner peripheral side ceiling surface 51 of the collet 5, so that the collet 5 moves upward. Move and reduce the diameter. On the contrary, when the moving shaft 4 moves downward, the nut 41 pushes down the collet 5 from above, so that the collet 5 moves downward and expands in diameter.

As shown in FIG. 4, the expansion ring 7 is provided with an upper flange portion 72b and a lower flange portion 72c protruding horizontally in both the upper portion and the lower portion of the hollow shaft portion 72a. Then, the expansion ring 7 is provided with several slits 71 from the shaft portion 72a toward the lower flange portion 72c, and the expansion rings 7 are equally divided by the slits 71. Here, the material of the expansion ring 7 is, for example, iron.

The expansion ring 7 is detachable from the fixing device 1, and the collet 5 is attached to the shaft portion 72a so that the inner peripheral surface of the shaft portion 72a of the expansion ring 7 closely contacts the outer peripheral surface of the collet 5.
Has been inserted. The lower flange portion 72c of the expansion ring 7 is elastically deformed in association with the expansion of the expanded diameter portion 53 of the collet 5, whereby the expansion ring 7 is expanded in diameter.

The diameter of the lower flange portion 72c of the expansion ring 7 is smaller than that of the reference diameter portion R of the test body S by, for example, about 0.05.
The lower flange portion 72c is fitted in the reference diameter portion R by being processed to be small by about mm to 0.1 mm. Therefore, when the diameter of the expansion ring 7 is increased, the lower flange portion 72c presses the inner side surface of the reference diameter portion R in the horizontal direction, whereby the test body S can be fixed to the fixing device 1.

The attaching operation of the test body S by the fixing device 1 having the above structure will be described. First, in FIG. 1, the fixing device 1 is fixed to the rotating shaft 2 of the balance testing machine with bolts. Next, the hole of the test body S is sequentially penetrated through the moving shaft 4 and the collet 5, and the test body S is supported by the test body receiver 6.

At this time, the chuck is in the open state, and the moving shaft 4 remains in the upper position since it has not yet moved downward. Therefore, since the collar portion 42 is pulled upward similarly to the moving shaft 4, the inner peripheral side ceiling surface 51 of the collet 5 and the upper surface of the collar portion 42 are in contact with each other, and the collet 5 is not expanded in diameter. It is in a natural state.

Next, as shown in FIG. 2, in order to fix the test body S in the chuck clamp state, the following operation is performed. First, in order to attach the expansion ring 7 to the fixing device 1, the shaft portion 72 a of the expansion ring 7 is attached to the moving shaft 4 and the collet 5.
And the lower flange portion 72c of the expansion ring 7 is brought into contact with the bottom surface of the reference diameter portion R of the test body S to support the expansion ring 7.

Then, the moving shaft 4 is moved downward to be in a chuck clamped state. At this time, as the moving shaft 4 descends, the upper surface of the collar portion 42 gradually extends from the inner peripheral side ceiling surface 51 of the collet 5. The nut 41 pushes the collet 5 downward from above. As a result, the collet 5 becomes the taper shaft portion 31 of the apparatus main body 3.
The diametrically expanded portion 53 gradually expands due to the wedge effect and expands in diameter.

Expansion ring 7 in contact with collet 5
Is pressed from the inner side toward the outer side in accordance with the diameter expansion of the collet 5, so that the reference diameter portion R of the test body S is similarly expanded while being pressed by the lower flange portion 72c.

At this time, the collet 5 and the expansion ring 7
Expands until the lower flange portion 72c completely chucks the inner surface of the reference diameter portion R, and the slit 52 and the slit 71 provided on the collet 5 and the expansion ring 7 respectively , The width of the reference diameter portion R to be chucked increases in accordance with the clearance. Therefore, regardless of the tolerance of the test body S, the lower flange portion 72c can be pressed against the inner side surface of the reference diameter portion R of the test body S to reliably chuck the test body S.

With the above, the mounting operation of the test body S is completed,
Then, the balance test by the balance tester is started,
This process will be omitted.

Finally, the test body S after completion of the balance test is
In order to remove the fixing device 1 from the fixing device 1, the fixing device 1 is brought into the chuck open state again. First, as shown in FIG.
Is moved upward, but at this time, the collar portion 42 is pulled up as the moving shaft 4 is raised, so that the collar portion 42 comes into contact with the inner peripheral side ceiling surface 51 of the collet 5 and pushes up the collet 5. Then, the collet 5 rises along the taper shaft portion 31 of the apparatus main body portion 3, so that the expanded diameter portion 5 of the collet 5 is
The diameter of 3 gradually decreases.

When the diameter of the collet 5 is reduced, the collet 5
Since the pressure is released, the expansion ring 7 also decreases in diameter. Therefore, the reference diameter portion R of the test body S is released from the pressing of the lower flange portion 72c of the expansion ring 7, and the chuck is opened.

After the chuck is opened, the expansion ring 7 can be pulled out upward and removed from the fixing device 1 to easily remove the test body S from the test body receiver 6.

As described above, according to the fixing device 1 in the balance testing machine of this embodiment, the collet 5 and the expansion ring 7 are moved in accordance with the reference diameter r of the reference diameter portion R of the test body S to be chucked. Since the diameter can be expanded and deformed, even if there is a tolerance in the reference diameter portion R, the center of rotation of all the test bodies can be made constant, and a measurement error can be prevented from occurring during the balance test. That is, due to the tightening effect of the collet 5 and the expansion ring 7, the tolerance of the reference diameter portion R can be absorbed, so that the rotation center of the test body S can be made constant. Further, since the collet 5 and the expansion ring 7 are expanded in diameter by the downward movement of the moving shaft 4 to fix the test body S, the screw shaft 105 should be tightened like a conventional fixed inlay type fixing device. Since it is not necessary to fix the test body 102, the workability is good, and the test body 102 is suitable for automation of fixation.

In the above example, one embodiment of the fixing device in the balance testing machine according to the present invention has been described, but the present invention is not limited to the above embodiment. For example, the collar portion 42 provided on the moving shaft 4
May have a shape other than a disc shape, and if the expansion ring 7 is attached to the fixing device 1 using an actuator, the fixing device 1 can be applied to a fully automatic machine.

[0036]

According to the invention described in claim 1, after the test body is supported by the fixing device by the support portion provided in the main body portion, the moving shaft penetrating the hole portion of the test body is moved. As a result, a part of the fixed portion into which the moving shaft is inserted is expanded in diameter. Then, the inner surface of the reference diameter portion of the test body is pressed by the fixing portion, so that the test body is fixed to the fixing device. Therefore, even when the reference diameter of the reference diameter portion of the test body has an inner diameter tolerance and the reference diameter is not constant, the test body can be pressed and fixed by the fixing portion.
The center of rotation of all the test bodies can be made constant, and it is possible to prevent measurement errors from occurring during the balance test. Further, since the fixed portion expands in diameter by the downward movement of the moving shaft to fix the test body, it is necessary to tighten the screw shaft 105 to fix the test body 102 as in the conventional fixed spigot type fixing device. Since it does not exist, it has good workability and is suitable for automating the fixation of test specimens.

According to the second aspect of the invention, it is needless to say that the same effect as that of the first aspect of the invention can be obtained, and in particular, when the moving shaft is moved downward, the taper is formed. The inner diameter portion of the collet is moved downward along the taper portion provided on the main body portion to be expanded in diameter. Then, the expansion ring into which the collet is inserted is expanded in conjunction with the expansion of the collet, and the outer diameter portion of the expanded expansion ring presses the inner surface of the reference diameter portion of the test body. As a result, the test body is fixed to the fixing device. Therefore, since the inner surface of the reference diameter portion of the test body is pressed by the tightening effect when the collet and the expansion ring are expanded, the test body can be more reliably fixed.

[Brief description of drawings]

FIG. 1 is a vertical cross-sectional view showing a chuck open state before fixing a test body of a fixing device according to the present invention.

FIG. 2 is a longitudinal sectional view showing a chuck clamp state after fixing a test body of the fixing device according to the present invention.

FIG. 3 is a plan view (a) showing details of a collet, and A-
It is an A section longitudinal cross-sectional view (b).

FIG. 4 is a plan view (a) showing the details of the expansion ring, and B.
FIG. 6B is a vertical sectional view (b) of the B part.

FIG. 5 is a view for explaining a conventional fixed inlay type fixing device.

[Explanation of symbols]

1 fixing device 2 rotation axes 3 Device body (body) 31 Taper shaft part (taper part) 4 moving axes 5 Collet (fixed part) 52 pickpocket 6 Specimen support (support) 7 Expansion ring (fixed part) 71 pickpocket R reference diameter part S test body

Claims (2)

[Claims] 1. A test body having a concave reference diameter portion on an upper surface around a through hole is rotated by rotation of a rotary shaft to test the balance state of the test body on the rotary shaft. A fixing device for fixing a body, wherein a moving shaft that penetrates through the hole of the test body and moves in a vertical direction, and the moving shaft is inserted inside, and is fixed to the rotating shaft. A support part provided on the main body part for supporting the test body; and a fixing part to which the moving shaft is attached and which fixes the test body, wherein the fixing part is provided for moving the moving shaft. Based on the above, the fixing device for the test body in the balance testing machine is configured to press the inner surface of the reference diameter portion to fix the test body by partially expanding the diameter. . 2. The fixing device for a test body in a balance testing machine according to claim 1, wherein the fixing portion includes a collet provided with a slit, and an expansion ring provided with the collet inside and provided with a slit. The collet is formed such that the inner diameter portion thereof is tapered so as to engage with the taper portion provided on the main body portion, and the taper is tapered based on the downward movement of the moving shaft. Is configured to move downward along the portion to expand the diameter, the expansion ring expands in conjunction with the expansion of the collet, and the outer diameter portion of the expansion ring is an inner surface of the reference diameter portion. An apparatus for fixing a test body in a balance testing machine, characterized in that the test body is fixed by pressing.