JPH0533112U - Couple force adjustment device for microscope vertical movement handle - Google Patents

Abstract

(57) [Summary] [Object] The present invention relates to a couple adjusting device for a microscope vertical movement handle in which the couple of the handle is stabilized. [Structure] A pinion shaft 1 that is rotatably fitted to bearings 2a and 2b and has a screw 1b formed at one of its left and right ends, and a screw 1b at the end of the pinion shaft 1 where the screw 1b is formed. The handle 3a that is rotatably fitted together, the first friction members 6a and 6b that generate a first frictional force for restricting the rotation of the pinion shaft 1, the pinion shaft 1 and the handle 3a. And a second friction member 4a that generates a second frictional force for restricting the rotation between the second friction member 4a and the second friction member 4a. The second frictional force is set to be larger than the first frictional force.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a couple adjusting device for a microscope vertical movement handle in which the couple of the handle is stabilized.

[0002]

[Prior Art]

 As a couple adjusting device for a microscope vertical movement handle of this type, for example, there is a technique disclosed in Japanese Patent Application No. 53-74238. This technology is applied to either one of the pinion shafts in a vertical movement device in which a pair of vertical movement handles are provided on both left and right ends of a pinion shaft rotatably fitted to a fixed shaft via first friction members. A second screw with a male screw is formed, and a female screw that engages with the male screw is formed on either one of the vertical movement handles, and a synthetic resin material that facilitates self-tapping is used, and a hole is formed in the approximate center. The member serves as a rotation stopper for the handle, and is provided so as to substantially match the hole formed in the handle. The second friction member is self-tabbed through the handle with the male screw formed on the pinion shaft, This is a technique in which the frictional force between the pinion and the handle by the second frictional member is larger than the frictional force between the handle and the fixed shaft by the frictional member.

[0003]

[Problems to be solved by the device]

 In the case of the above-mentioned conventional technique, self-tapping to the friction member is necessary. Generally, in order to perform self-tapping, accuracy is required for the prepared hole diameter and tap, and the obtained frictional force also varies depending on the tapping method, resulting in variation in couple. easy. Furthermore, the frictional force of the friction member made of synthetic resin decreases over time due to the creep rupture peculiar to synthetic resin, so the couple will gradually decrease even when it is left unused.

As a result, the frictional force between the pinion shaft and the handle due to the second friction member is smaller than the frictional force between the handle and the fixed shaft due to the first friction member in the above-mentioned prior art, resulting in malfunction. Occurs.

The present invention has been made to solve the above problems, and an object thereof is to provide a couple adjusting device for a microscope vertical movement handle that does not require self-tapping and can obtain a stable couple. I am trying.

[0006]

[Means for Solving the Problems]

 The rotation stopping mechanism of the couple adjusting device for the microscope vertical movement handle of the present invention has a pinion shaft that is rotatably fitted to a fixed bearing and has a screw formed on either the left or right end, and a screw of the pinion shaft. A handle rotatably fitted to the end portion formed with the screw by screwing, and a first friction member for generating a first friction force for restricting rotation of the pinion shaft, A second friction member for generating a second frictional force for restricting the rotation between the pinion shaft and the handle, and the second frictional force is set to be larger than the first frictional force. In the rotation stopping mechanism of the couple adjusting device for the microscope vertical movement handle, the second friction member is a member having a ring-like elasticity that engages with the handle and is screwed into the screw of the pinion shaft.

The second friction member has a taper that engages with the handle, and the second friction force can be adjusted and adjusted by adjusting the engagement relationship between the handle and the second friction member due to the taper. It is also characterized by.

[0008]

[Action]

 With such a configuration, the second friction member can press the handle against the screw of the pinion shaft by its elastic force, and can always maintain the second friction force larger than the first friction force. Further, the couple force can be set to a necessary and sufficient force by making the second frictional force adjustable.

[0009]

Embodiment An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a sectional view of the handle portion of the first embodiment. In the figure, the pinion shaft 1 is rotatably fitted to the bearings 2a and 2b, and a pinion 1a is provided substantially in the center thereof. The pinion 1a meshes with a rack (not shown), A stage and a lens barrel (not shown) can be moved vertically through the rack. Further, a male screw 1b is formed at the right end in the figure to be fitted with the handle 3a.

A female screw member that is insert-molded integrally with the handle 3a is formed with a female screw that is screwed into the male screw of the pinion shaft 1, and the handle 3a is attached to the pinion shaft 1 through this screwing. It is fitted. The other handle 3b is fixed to the pinion shaft 1 by a pin 5.

First friction members 6a and 6b are provided between the handles 3a and 3b and the bearings 2a and 2b, and the handle 3a and the bearing 2a and the handle 3b and the bearing 2b are provided by the friction members 6a and 6b. The first frictional force between them and at least allows the stage and the lens barrel to be moved by the rotation of the pinion shaft 1.

The first frictional force causes the handle 3a to be screwed with respect to the male screw 1b of the pinion shaft 1, thereby adjusting the distance between the handle 3a and the handle 3b, and thus the handle 3a, the handle 3b, and the bearing 2a. By adjusting the contact pressure between the bearing 2b and the friction members 6a and 6b, it is possible to adjust to an appropriate friction force.

For the female screw forming portion of the female screw member 4 of the handle 3a, a second friction member 4a having a ring-like elasticity that is screwed into the male screw 1b of the pinion shaft 1 is used as a fastening means such as press fitting. As shown in the enlarged cross-sectional view of FIG. 2, the friction member 4a is elastically pressed against the thread sloping surface 1c of the male screw 1b of the pinion shaft 1 between the handle 3a and the pinion shaft 1. It is configured to generate the second frictional force. The second frictional force is set to be stronger than the first frictional force.

In this embodiment configured as described above, the handle 3a is screwed from the pinion shaft 1 against the second frictional force to change the distance between the handles 3a and 3b. Adjust the frictional force of 1 to adjust the couple to your desired strength. In normal use, the second frictional force is set to be larger than the first frictional force, so that the handle 3a does not idle with respect to the pinion shaft 1.

FIG. 3 shows a second embodiment. Similar to the first embodiment, the pinion shaft 1 is rotatably fitted to the bearings 2a and 2b, and the pinion 1a is provided substantially in the center thereof, and the pinion 1a is not shown. It engages with the rack and moves the stage and lens barrel (not shown) vertically through the rack. In addition, a screw 1b is formed at the right end in the figure to be fitted with the handle 3a. Further, first friction members 6a and 6b are provided between the handles 3a and 3b and the bearings 2a and 2b, and the handle 3a and the bearing 2a and the handle 3b are provided by the friction members 6a and 6b. A first frictional force is generated between the bearing 2b and the bearing 2b so that at least the stage and the lens barrel can be moved by the rotation of the pinion shaft 1.

In this embodiment, the tip portion 1c of the pinion shaft 1 has a taper 7a whose shape is shown in FIG. 4, and a ring-shaped second friction member 7 having a cut is fitted therein. It is supposed to be done. A pressing member 8 that is screwed into the handle 3a is provided inside the handle 3a, and the friction member 7 is pressed by the pressing member 8 into the inside of the handle 3a via the tapered portion 7a. It is like this. Further, the coil spring 9 is provided so that the second friction member 7 follows the pressing member 8 when the handle 3a is loosened with respect to the male screw 1b. By adjusting the pressing force of the pressing member 8, the second frictional force between the handle 3a and the pinion shaft 1 is adjusted.

In this embodiment, by rotating the handle 3a with respect to the pinion shaft 1, the friction member 7 is also screwed, and the first friction force can be adjusted by moving the friction member 7 in the left-right direction of the pinion shaft 1. By screwing the pressing member 8, the second frictional force can be set larger than the first frictional force, and can be set with an arbitrary force and precision. The present invention is not limited to the above embodiment, and can be modified and implemented within the scope not changing the gist.

[0018]

[Effect of the device]

 Since the couple adjusting device for the microscope vertical movement handle according to the present invention does not require self-tapping, it can be assembled easily and inexpensively with a small force, and a stable couple can be obtained.

Further, the second friction member is provided with a taper, and the taper is used to adjust the engagement relationship between the handle and the second friction member to adjust the second friction force to an arbitrary value. it can.

[Brief description of drawings]

FIG. 1 is a sectional view for explaining a first embodiment of the present invention.

FIG. 2 is an enlarged sectional view of a male screw portion of the embodiment.

FIG. 3 is a sectional view for explaining a second embodiment.

FIG. 4 is an explanatory view of the shape of a second friction member of the same embodiment.

[Explanation of symbols]

1 ... Pinion shaft 1a ... Pinion 1
b ... Male screw 1c ... Tip 2a, 2b ... Bearing 3
a, 3b ... Handle 4 ... Female screw member 4a ... Second friction member 5
...... Pins 6a, 6b ... First friction member 7 ... Second friction member 7a ... Taper 8
...... Pressing member 9 ...... Coil spring

Claims (2)

[Scope of utility model registration request] 1. A pinion shaft rotatably fitted to a fixed bearing and having a screw formed at either of its left and right ends, and said screw at the end of said pinion shaft where said screw is formed. A handle that is rotatably fitted together, a first friction member that generates a first frictional force for restricting the rotation of the pinion shaft, and a rotation between the pinion shaft and the handle. And a second friction member for generating a second frictional force for regulating the rotation of the couple adjusting device for the microscope up-and-down moving handle in which the second frictional force is set to be larger than the first frictional force. In the stopping mechanism, the second friction member is a member having ring-like elasticity that engages with the handle and is screwed into the screw of the pinion shaft. . 2. The second friction member has a taper that engages with the handle, and the second friction force can be adjusted and adjusted by adjusting the engagement relationship between the handle and the second friction member due to the taper. The couple adjusting device for a microscope vertical movement handle according to claim 1, wherein