JP2010197338A - Measuring device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a measuring device enhancing measurement power by a simple structure. <P>SOLUTION: This measuring device for measuring the size of a measuring object from a moving amount of a spindle 20 includes a body 10, the spindle 20 provided movably in a vertical direction on the body 10, and an energizing means 30 for energizing the spindle 20 in a direction wherein the lower end of the spindle 20 is projected downward. An auxiliary weight 60 having a plurality of weight adjusting plates A, B, C is mounted detachably between the lower end of the spindle 20 and a gage head 22 by utilizing screw parts thereof. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a measuring instrument that measures the size of an object to be measured from the amount of movement of a spindle. For example, the present invention relates to a measuring instrument that can vary a measuring force in an indicator, a dial gauge, or the like.

  A main body, a spindle provided on the main body so as to be movable in the vertical direction, and an urging means for urging the spindle in a direction in which the lower end of the spindle protrudes downward. Known measuring instruments for measuring dimensions include, for example, an indicator, a dial gauge, and a dimension measuring instrument that moves a spindle up and down by a driving source such as a motor.

Conventionally, some of these measuring instruments are known to have a low measuring force so that even a relatively soft object to be measured can accurately measure a thickness dimension and the like without damaging the object to be measured.
For example, an indicator, a dial gauge, or the like has a structure in which a biasing force downward of the spindle is weakened by using a relatively weak spring.
In the dimension measuring instrument, the spindle is vertically supported by a lifting body that is raised and lowered by a motor via a parallel link mechanism, and a weight is attached to the side opposite to the side of the parallel link mechanism that supports the spindle so that the position can be adjusted. A structure in which the measuring force is set low by adjusting the position of the weight is known (see Patent Document 1).

JP-A-2-221807

When trying to measure a thin sheet-like object using a measuring instrument with low measuring force, if the measuring object of the former (indicator, dial gauge, etc.) is warped, the spindle will be measured. Since the force cannot correct the warp of the object to be measured, that is, it cannot be flattened by pressing the warp, the thickness of the object to be measured may not be measured accurately.
With the latter (dimension measuring device), it is possible to increase the measuring force by adjusting the position of the weight. However, when adjusting the position of the weight, open the main body case and place the hand inside the main body case to adjust the position. Therefore, the adjustment operation is troublesome and time consuming.
For this reason, there is a demand for easily increasing the measuring force even with a measuring instrument having a low measuring force.

  An object of the present invention is to provide a measuring instrument that can respond to such a demand and can increase the measuring force with a simple structure.

The measuring instrument of the present invention comprises a main body, a spindle provided on the main body so as to be movable in the vertical direction, and an urging means for urging the spindle in a direction in which a lower end of the spindle protrudes downward. In the measuring instrument for measuring the dimension of the object to be measured from the moving amount of the spindle, an auxiliary weight is detachably attached to the spindle.
According to such a configuration, the measuring force can be increased by mounting the auxiliary weight on the spindle. Therefore, even when the object to be measured has a warp or the like, since the warp of the object to be measured can be corrected and flattened by bringing the spindle into contact with each other, the thickness of the object to be measured can be accurately measured.
In particular, according to the present invention, since the auxiliary weight can be directly mounted on the spindle, the measuring force can be increased with a simple structure and a simple mounting operation. Of course, if the auxiliary weight is removed from the spindle, the measuring force can be maintained at the original low measuring force, so that the applicable range of the object to be measured can be expanded.

In the measuring instrument of the present invention, it is preferable that the auxiliary weight is configured to be adjustable in weight.
According to such a configuration, by adjusting the weight of the auxiliary weight, it is possible to measure the object to be measured with an optimum measuring force that matches the material or shape of the object to be measured. Therefore, highly accurate measurement can be realized.

In the measuring instrument according to the present invention, a female screw portion is formed at the lower end of the spindle, and a measuring element having a male screw portion screwed to the female screw portion is detachably attached to the lower end of the spindle, and the auxiliary weight Is preferably detachably mounted between the lower end of the spindle and the measuring element.
According to such a configuration, in existing indicators, dial gauges, and the like, the probe is configured to be detachable from the spindle by the threaded portion, so the members such as the spindle and the probe and the structure of the main body are changed. Therefore, it is possible to easily attach an auxiliary weight later between the spindle and the measuring element of the existing measuring instrument.

In the measuring instrument according to the present invention, the auxiliary weight has a male screw portion screwed into the female screw portion of the spindle at one end and a female screw portion screwed into the female screw portion of the measuring element at the other end. It is preferable to include a joint member and a plurality of weight adjustment plates that are detachably attached to the outer periphery of the joint member.
According to such a configuration, in an existing indicator, dial gauge, or the like, the auxiliary weight can be attached using the internal thread portion of the spindle and the external thread portion of the measuring element. The auxiliary weight is composed of a joint member and a plurality of weight adjustment plates that can be attached to and detached from the joint member. Therefore, if the number of weight adjustment plates is changed, the weight of the auxiliary weight can be simplified. Can be changed.

In the measuring instrument according to the present invention, the weight adjustment plate includes first, second, and third weight adjustment plates formed in a disk shape having the same thickness dimension and different outer diameters, and the first weight adjustment plate includes: The second weight adjusting plate is formed to be twice the weight of the first weight adjusting plate, and the third weight adjusting plate is formed of the second weight adjusting plate. It is preferable that the weight is twice the weight of the two-weight adjusting plate.
According to such a configuration, the measuring force can be increased stepwise by the combination of the joint member and the weight adjusting plate.

In the measuring instrument of the present invention, the first weight adjustment plate, the second weight adjustment plate, and the third weight adjustment plate are sequentially attached to the joint member from the bottom. preferable.
According to such a configuration, the outer diameter dimension of the weight adjustment plate on the side close to the probe is minimized, and the outer diameter dimension of the weight adjustment plate increases stepwise as it goes upward. Visibility is not hindered. Therefore, even if the measuring element is brought into contact with a narrow measurement site of the object to be measured, it can be performed without any trouble.

An embodiment in which the measuring instrument of the present invention is applied to an indicator will be described with reference to the drawings.
FIG. 1 is a diagram showing an indicator of this embodiment, and FIG. 2 is a partially enlarged exploded view. The indicator of the present embodiment includes a vertically long box-shaped main body 10, a spindle 20 provided on the main body 10 so as to be movable in the vertical direction, and a lower end of the spindle 20 in a downward direction (a direction protruding from the main body 10). A biasing means 30 that biases the spindle 20, a rotation regulating means 40 that regulates the rotation of the spindle 20, a displacement detector 50 that detects the amount of movement of the spindle 20, and an auxiliary weight 60 that is detachably attached to the spindle 20. It has.

The main body 10 is formed in a vertically long box shape having an upper wall 11, a lower wall 12, a side wall 13, a back wall 14, and a front wall (not shown). Bearing cylinders 15 and 16 are provided on the upper wall 11 and the lower wall 12 so as to face each other in the vertical direction. A guide groove 41 is formed on the inner surface of the side wall 13 along the vertical direction.
The spindle 20 extends through the bearing cylinders 15 and 16 of the main body 10 so as to be movable in the vertical direction. A probe 22 is detachably attached to the lower end of the spindle 20. That is, the measuring element 22 is detachably mounted by screwing the threaded portion 21 formed on the lower end surface of the spindle 20 and the external threaded portion 23 formed on the upper end of the measuring element 22. A contact ball 24 is attached to the lower end of the probe 22.

The urging means 30 is constituted by a spring 31. The spring 31 has an upper end locked to a spring locking portion 33 of a bracket 32 attached in the middle of the spindle 20, and a lower end locked to the inner surface of the lower wall 12 of the main body 10 to urge the spindle 20 downward in the vertical direction. is doing.
The rotation restricting means 40 includes a guide groove 41 formed in the main body 10, and a guide pin 42 that protrudes from the bracket 32 at a right angle with respect to the spindle 20 and whose tip moves along the guide groove 41. .
The displacement detector 50 is a detector 51 fixed to the bracket 32 so as to be opposed to the scale 51 with a predetermined clearance in the main body 10 in parallel with the spindle 20 and along the moving direction of the spindle 20. And a head 52.

The auxiliary weight 60 is detachably mounted between the lower end of the spindle 20 and the measuring element 22 and is configured such that its weight can be adjusted.
Specifically, the auxiliary weight 60 includes a joint member 61 connected between the lower end of the spindle 20 and the measuring element 22, and a plurality of weight adjustment plates A that are detachably attached to the outer periphery of the joint member 61. , B, and C.

  The joint member 61 has an outer diameter that is substantially the same as the outer diameter of the spindle 20 and has a cylindrical shape. One end (upper end) of the joint member 61 is screwed into the female screw portion 21 of the spindle 20 and the other end (lower end) of the joint member 61. Each of the external thread parts 23 of the measuring element 22 has a female thread part 63 to be screwed, and has a threaded part 64 on the outer periphery.

The weight adjustment plate includes three weight adjustment plates having different weights, that is, first, second, and third weight adjustment plates A, B, and C.
The first, second, and third weight adjustment plates A, B, and C have a female thread portion 65 that is screwed into the male thread portion 64 of the joint member 61 at the center, and have the same thickness and an outer diameter. It is formed in a different disk shape. Here, the outer diameter of the second weight adjustment plate B is larger than the outer diameter of the first weight adjustment plate A, and the outer diameter of the third weight adjustment plate C is larger than the outer diameter of the second weight adjustment plate B. Is formed.
Thereby, the first weight adjustment plate A is formed to have a weight twice as large as the weight of the joint member 61, and the second weight adjustment plate B is formed to have a weight twice as large as the weight of the first weight adjustment plate A. The third weight adjustment plate C has a weight twice that of the second weight adjustment plate B.

In this embodiment, the weight of the joint member 61 is set to 5 gf, the weight of the first weight adjusting plate A is set to 10 gf, the weight of the second weight adjusting plate B is set to 20 gf, and the weight of the third weight adjusting plate C is set to 40 gf. .
Therefore, for example, if the joint member 61, one first weight adjustment plate A, one second weight adjustment plate B, and two third weight adjustment plates C are aligned, the combination of these is shown in FIG. As shown in FIG. 3, the measuring force can be increased from 0.05N to 0.95N in 10 steps by 0.1N.

  In addition, since it is constituted by the first, second, and third weight adjusting plates A, B, and C formed in such a configuration, that is, disk shapes having the same thickness dimension and different outer diameters, the joint member 61 Can be made as short as possible. For example, when weight adjustment plates having the same outer diameter are stacked in the axial direction of the spindle 20, the length of the joint member 61 becomes longer, which may cause inconvenience in measurement. According to this, such inconvenience can be avoided.

  Moreover, the first, second, and third weight adjustment plates A, B, and C are the first weight adjustment plate A, the second weight adjustment plate B, and the third weight adjustment plate from the bottom with respect to the joint member 61. Since C is configured to be attached in order, that is, the outer diameter of the first weight adjustment plate A on the side closer to the measuring element 22 is minimized, and the outer sides of the weight adjustment plates B and C are increased toward the upper side. Since the diameter dimension increases stepwise, the visibility to the object to be measured is not hindered. Therefore, even if the measuring element 22 is brought into contact with a narrow measurement site of the object to be measured, it can be performed without any trouble.

<Modification>
The present invention is not limited to the above-described embodiment, and modifications, improvements, and the like within the scope that can achieve the object of the present invention are included in the present invention.
In the embodiment, the auxiliary weight 60 is detachably attached to the lower end of the spindle 20. However, the auxiliary weight 60 may be attached at the upper end of the spindle 20 or in the middle of the spindle 20.

For example, FIG. 4 is an example in which the auxiliary weight 60 is detachably attached to the upper end of the spindle 20. A female screw portion 25 is formed at the upper end of the spindle 20, and a male screw portion 62 of the auxiliary weight 60 is screwed to the female screw portion 25. In FIG. 4, the third weight adjustment plate C, the second weight adjustment plate B, and the first weight adjustment plate A are sequentially attached from the bottom. However, the present invention is not limited to this, and the combination position may be arbitrary. .
Further, in FIG. 5, an auxiliary weight 60 is detachably attached to the lower end of the spindle 20, and a foot rod 71 is detachably connected to the lower end of the auxiliary weight 60. Are detachably connected to each other. Even with such a configuration, the measurement force can be increased as in the above-described embodiment.

  Further, the configuration of the auxiliary weight 60 is not limited to the configuration of the embodiment. For example, as shown in FIG. 6, if a probe having an outer diameter of the probe 22 larger than the outer diameter of the spindle 20 is used, the probe 22 is removed from the spindle 20 and then the lower end of the spindle 20 is removed. If the weight adjusting plates A, B, and C are inserted and the measuring element 22 is screwed into the lower end of the spindle 20, the measuring element 22 functions as a stopper for the weight adjusting plates A, B, and C. In contrast, there is an advantage that the joint member 61 can be omitted. In this case, only the insertion hole 66 need be formed at the center of the weight adjustment plates A, B, and C.

Moreover, although the said embodiment demonstrated the example applied to the indicator, it is not restricted to this.
For example, the dial gauge shown in FIG. 7 can be applied to a structure in which an auxiliary weight 60 is detachably mounted between the spindle 20 and the measuring element 22. Furthermore, the dimension measuring device shown in FIG. 8 can be applied to a structure in which an auxiliary weight 60 is detachably mounted between the spindle 20 and the measuring element 22.

  The present invention can be used for all measuring instruments that measure the dimension of an object to be measured from the amount of movement of a spindle, such as a dial gauge and a dimension measuring instrument, in addition to an indicator.

The figure which shows one Embodiment of the measuring device which concerns on this invention. The partially expanded exploded view of embodiment same as the above. The figure which shows the relationship between the combination of a weight adjustment plate and measurement force in embodiment same as the above. The figure which shows the modification 1 of the measuring device which concerns on this invention. The figure which shows the modification 2 of the measuring device which concerns on this invention. The figure which shows the modification 3 of the measuring device which concerns on this invention. The figure which shows the modification 4 of the measuring device which concerns on this invention. The figure which shows the modification 5 of the measuring device which concerns on this invention.

10 ... body,
20 ... Spindle,
21 ... Female thread,
22: Measuring element,
30 ... biasing means,
60 ... Auxiliary weight,
61 ... Joint member,
62 ... external thread,
63 ... female thread,
64 ... male thread,
A ... 1st weight adjustment plate,
B ... Second weight adjustment plate,
C: Third weight adjustment plate.

Claims (6)

A main body, a spindle provided on the main body so as to be movable in the vertical direction, and an urging means for urging the spindle in a direction in which a lower end of the spindle protrudes downward; In a measuring instrument that measures the dimensions of an object,
A measuring instrument, wherein an auxiliary weight is detachably attached to the spindle. The measuring instrument according to claim 1, wherein
The auxiliary weight is configured to be adjustable in weight. The measuring instrument according to claim 1 or 2,
A female screw part is formed at the lower end of the spindle, and a measuring element having a male screw part screwed into the female screw part is detachably attached to the lower end of the spindle,
The auxiliary weight is detachably mounted between a lower end of the spindle and the measuring element. The measuring instrument according to claim 3,
The auxiliary weight includes a joint member having a male screw portion screwed into the female screw portion of the spindle at one end and a female screw portion screwed into the male screw portion of the measuring element at the other end, and the joint member And a plurality of weight adjusting plates detachably mounted on the outer periphery of the measuring instrument. The measuring instrument according to claim 4, wherein
The weight adjustment plate is composed of first, second and third weight adjustment plates formed in a disk shape having the same thickness dimension and different outer diameters,
The first weight adjustment plate is formed to have a weight twice the weight of the joint member,
The second weight adjustment plate is formed to have a weight twice the weight of the first weight adjustment plate,
The measuring device according to claim 1, wherein the third weight adjusting plate is formed to have a weight twice the weight of the second weight adjusting plate. The measuring instrument according to claim 5, wherein
The measuring instrument, wherein the first weight adjustment plate, the second weight adjustment plate, and the third weight adjustment plate are attached to the joint member in order from the bottom.

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