JPS5984108A - Device for measuring parallelism for tooth model - Google Patents

Abstract

PURPOSE:To improve operability and precision by forming a movable mechanism for a horizontal arm into a composite linear-rotation type, making the turning of a model table free within a horizontal plane and making inclining- fixing respectively independent in transverse and longitudinal directions. CONSTITUTION:A model table 2 is fitted freely turnably in the front part of a base part by means of a fitting part 3, and a stanchion 4 is erected in the rear part and is fixed in a suitable position. The turning of a head part 8 mounted freely turnably by means of a bearing embedded in the top end of the stanchion 4 is fixed by a screw part 9. A horizontal arm 10 sliding forward and backward is inserted into the part 8 and is fixed to slide freely by a screw part 13. A top end part 14 is provided to the top end of the arm 10 and a vertical cylindrical body 15 is perpendicularly fitted, via a spring 16, to said part and is fixed to slide by means of a screw part 19. The body 15 is smoothly and lightly moved upward and downward by means of a bearing, and permits attachement of an implement 17 such as a measuring rod, carbon bar, undercut gage, spatula for forming a wax pattern or the like as desired by means of a screw part 18 at the top end thereof.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a parallel measuring device for a tooth model for manufacturing dentures, which has been analyzed for its uses and functions, has necessary and sufficient performance, and has good operability.

In other words, the parallel measuring device for tooth models used when making dentures is commonly called a surveyor, and when designing partial dentures, etc., it is used to measure the circumferential line and relative position of the abutment teeth and related tissues. However, it is a parallel measuring device that is widely used for measuring tXX quantities necessary for hook design, and the need for it has been expanding in recent years with the spread of attachments, telescopes, etc. Various parallel measuring devices have been researched and developed and are in use, but most of them, whether they are general parallel measuring devices or measuring devices based on special designs, have a high level of mechanical accuracy and operability. From a balance and perspective, problems remained in various respects.

Parallel measuring devices, namely surveyors, currently used in all aspects of dental prosthetics can be roughly divided into movable 1-naveyors and non-movable surveyors, but the movable surveyors have a vertical cylindrical body that attaches attached tools to pandas. Some have a movable joint mechanism as shown in the graph, and others have a movable horizontal arm.
There is a type of surveyor in which the model stand is fixed on the base plate, but these have the disadvantage that after long-term use, so-called "backlash" occurs and the accuracy that is absolutely necessary for a surveyor is compromised. It had the disadvantage of being large in size.

Non-movable surveyors include models that have a mechanism that locks the movable arm to make it non-movable, and models that have a vertical cylinder whose movable range is vertical and rotational motion and do not have a joint mechanism. Although it is excellent in terms of robustness and accuracy, it has the disadvantage that when manufacturing telescopes and book crowns that have been implemented in recent years, there is no joint on the horizontal axis, which is inconvenient. . In addition, this type of surveyor has a model stand placed on the base plate and must be moved, so the surface of the base plate is finished smooth, so the model stand may fall off the base plate when it is moved, and valuable jaws may be lost. There was a drawback that it could cause fatal accidents such as destruction of models etc. In view of the above points, the present invention improves the movable mechanism of the horizontal arm of the parallel measuring device, and also adds novelty to the vertical movement of the vertical cylinder, the model stand on which each model is placed, etc. It has good mobility and operability, and is compatible with parallel measurement of tooth models for manufacturing wide dentures.

Preferred embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

That is, FIG. 1 shows an overall oblique view of the parallel measuring device according to the present invention, in which a model stand 2 is rotatably fitted in the front part of the base part 1 in the figure in an adapted fitted state by its fitting part 3. It's fitting. A support post 4 is erected at the rear of the base portion 1, and the support post 4 is held in an appropriate position by a shaft portion 5 provided inside and a screw portion 7 that engages with a retaining groove 6 provided in the shaft portion 5. 4 is fixed. Reference numeral 8 denotes a head rotatably mounted on a bearing embedded in the upper end of the column 4, and its rotation can be fixed by a screw portion 9 screwed into the upper portion of the column 4. A horizontal arm 10 that slides in the front and back direction is inserted into the inside of the head 8, and a large number of steel balls are interposed between the sleeve and a sliding groove 11 provided on the circumferential surface of the arm 10.
The bearing part 12 (with a structure that moves by rolling contact)
It has a structure that allows for extremely smooth and light sliding using ball spline type bearings (trade name). Also, the print m1
One effect is that the head 8 is constructed so that it can be freely slid and fixed by means of a screw portion 13 screwed onto the side portion of the head 8.

A tip 14 is provided at the tip of the horizontal arm 10, and a vertical cylindrical body 15 is vertically fitted through a spring 16, and is moved up and down smoothly and lightly by an internal bearing. The vertical cylindrical body 15 is screwed onto the side of the tip portion 14 so that an instrument 17 such as a rod, a carbon rod (pencil lead), an undercut gauge, a wax-forming tweezer, etc. can be freely attached by the mounting screw portion 18. The structure is such that the fi 21 can be smoothly and easily slid and fixed by the one-piece part 19. In addition, by using a cutting device that also serves as a taper measurement device for manufacturing a denture retaining device, which is applied at the same time as the present invention, as the attached instrument 17, the functions of the present invention can be fully and effectively exerted. It is something. FIG. 2 is a side view of the model stand 2. By rotating the shaft parts 22 and 23, which are screwed onto the support stand 20 and the support support part 21, respectively, the model stand 2 can be tilted and moved laterally. It is constructed so that it can be tilted and fixed separately.

Further, a fixed model support rod 24 is provided on the surface of the model stand 2, and a support rod 27 is configured to be movable within a groove 26 by rotation of a screw portion 25. FIG. 3 is a partial sectional view showing the rear structure of the base portion 1, showing a shaft portion 5 provided inside the support column 4 and a stopper groove 6 provided on the shaft portion 5. Further, a storage part 28 is attached to the rear end of the base part 1 to store instruments 17 such as measuring rods, carbon rods (pencil leads), undercut gauges, wax-shaped brooms, and the like. The inside of the storage section 28 constitutes a stepped section 29 with high and low heights, so as to make it convenient to take out and store various instruments 19. It is a ## structure designed to store. FIG. 4 is a partial cross-sectional view showing the structure of the bearing part 12 in the head 8 and the horizontal arm 10. In other words, surveyors are mainly used in the design and manufacture of partial dentures, but they also have a wide range of uses in prosthetics in general in fields that require parallel movement of instruments (enamel cutting instruments). In particular, in order to perform wax cutting on conus and telescopes, a movement mechanism in which the horizontal arm can move is required, and the horizontal arm 1 of the present invention
0 is optimal, and by clarifying the role sharing with the parallelometer (a therapeutic or technical instrument used to measure and obtain parallelism), its function and operability may be impaired. This prevents That is, in the production of conus and telescopes, the shaft of the wax crown on the model stand 2 is cut along its entire circumference with a cutting tool 17 fitted and attached to the tip of the vertical circle B body 15 while giving it a set taper. Since this requires a lot of work, the two-dimensional parallel movement of the horizontal arm 10 in the horizontal plane is capable of complex movements such as translational motion plus rotation in addition to the complex motion of rotation plus rotation performed by a conventional surveyor. In other words, the feature of the linear-acting, one-rotation compound mechanism of the present invention is that it can prevent the instrument 17 from moving inadvertently even if the hand is removed from the vertical cylinder 15 during work, and it can also move the vertical cylinder at any position in the horizontal plane. The present invention has the effect of fixing the body 15, and in particular, compared to the conventional Pandagraph type surveyor which uses a linear motion plus rotation mechanism as an auxiliary for fixing the horizontal arm, the present invention is much more effective. Excellent in operability and accuracy. That is, in this mechanism, the movement of the linear motion part tends to become stiff during use, but the present invention does not use conventional bearings that slide against each other through sliding contact, but instead uses a large number of steel balls interposed between the spline shaft and the sleeve. Since the bearing 12 of the type that moves by rolling contact is used, the linear movement of the horizontal arm 10 is extremely light and smooth, and there is an effect that infinite stroke movement is possible. Furthermore, the model table 2 does not change its inclination, and the working position of the model on the table can be changed to the support 4.
A mechanism is required that can move the model stand 2 from one position to the other, and since the model stand 2 can freely rotate in a horizontal plane in the present invention, if it is difficult to manipulate the parts of the model during work, move the model stand 2 to the shaft 2.
2.23 operation allows the operator to easily move to the best working position, allowing the operator to continue working. In addition, the mechanism for tilting the model stand has traditionally been a two-axis separation type that can adjust the horizontal and lateral inclinations separately, but for example, when determining the attachment/detachment direction, the pointed inclination remains the same and the lateral inclination remains the same. The operation was difficult when only the direction slope needed to be changed, but the present invention is sufficient.
・For experts, it is possible to analyze the model in more detail, and for beginners, it is easier to handle the apical slope and lateral slope, which are referred to in design theory, as they can be handled separately. It is possible to determine the proper attachment/detachment direction. Furthermore, the same mechanism is an isoelectric line 1.

It is also an extremely effective device based on the same theory when reproducing the attachment/detachment direction using . As described above with respect to the embodiments, the present invention (1) has a horizontal arm movable mechanism of a linear single-rotation complex type, which significantly improves operability compared to the conventional horizontal arm fixed type and pandagraph type movable type. Improvements have been made. (2) Although the base of the model stand is fixed, it can be rotated in the horizontal plane to prevent the operational parts of the model from being hidden behind the supports and hindering the operation. . (1) Since the tilting and fixing of the model table can be done independently in the anteroposterior direction and the left stone direction, it is possible to analyze a more N-dense model, which has extremely great practical effects for denture manufacturing. This is a parallel measuring device for tooth models.

[Brief explanation of drawings]

Figure 1 is an overall slope view. FIG. 2 is a partial side view showing the model stand. 'The third figure is a partially cross-sectional side view showing the support section. FIG. 4 is an enlarged partial sectional view showing the internal structure of the head. ...Base part 2...Model stand 3...
... Fitting part 4 ... Support column 5 ...
Shaft part 6... Upper groove 7... Screw capital
8...Head 9.13. ], 8.19.25...
...Status part 1o...Horizontal arm IJ
...Sliding r/It 12...Bearing part 14...Tip 15...Vertical cylindrical body 16...Spring 17... ...Instrument 20...Abutment 21...Abutment receiving part 2' 2, 23...Shaft part 24.27...
River/support frame 26...Groove 28...
...Storage section 29...Double part Patent applicant Katsuya Mizuno and 3 others Figure 2 Procedural amendment 1. Indication of the case Patent Application No. 193525 2 of 1980, Title of the invention Parallel measuring device for tooth model 3, Person making the correction Relationship to the case Patent applicant Address 4-52-3 Mizu, Minamidai, Nakano-ku, Tokyo
Name Katsuya Mizuno and 3 others 4, Agent 5, Date of amendment order Voluntary amendment 6, Subject of amendment "Drawings" Figure 1 Kamo Figure 2 Figure 3

Claims (3)

[Claims] (1) The model table, which is rotatably fitted to the front part of the base surface, can be tilted and fixed separately for conventional tilt and lateral tilt by rotating the two shaft parts. As far as possible, the height of the pillar installed at the rear of the basal gyrus can be adjusted by means of a shaft provided inside, and a bearing is buried in the upper end of the pillar so that it can be fixed with a screw part, so that it can rotate freely. A horizontal arm having a sliding groove is inserted into the head for installation, and is made to slide freely by a bearing inside the head, and the tip of the horizontal arm is fixed so that the head and the horizontal arm can be fixed respectively by screws. A parallel measuring device for a tooth model for manufacturing dentures, in which a vertical cylindrical body having an instrument attachment part at its tip can be fixed by a vertical penetrating screw part via a spring. (2) A large number of steel balls are interposed between the slide arR of the horizontal arm and the sleeve in the head which is rotatably attached to the upper end of the column, forming a bearing part that moves by rolling contact. A parallel measuring device for a tooth model according to claim 1. (3) The parallel measuring device for a tooth model as set forth in claim 1, characterized in that a housing section is attached to the rear end of the base portion, in which a step section with a height and a height is placed inside.