KR102137342B1 - Dental midline measuring device - Google Patents

Abstract

A dental midline measuring device is disclosed. The dental midline measuring device includes: a wearing structure (100) worn on a patient′s head; a facing structure (200) connected at two or more points above and below the wearing structure (100) and positioned in front of a patient′s face to face the patient′s face; and a laser beam irradiation unit (300) disposed on the facing structure (200) and irradiating a vertical laser beam (L1) coinciding with a midline of the patient′s face and a horizontal laser beam (L2) orthogonal to the vertical laser beam (L1).

Description

Dental midline measuring device

The present invention relates to a dental midline measuring device, and more particularly, to a dental midline measuring device that accurately measures a midline of a face orthogonal to an occlusal plane line using a horizontal and vertical laser beam crossing at a right angle.

The midline mismatch refers to a mismatch between the facial midline and the midline of the teeth connecting the nose and throat, which may be one of the most aesthetic concerns of dental patients or plastic surgery. Therefore, it is very important to accurately measure the midline in the manufacture of dental prostheses or dentures, orthodontics, and the like. In other words, it is very important in dental treatment/procedure/surgery, such as the manufacture of dental prosthesis or dentures, orthodontics, by accurately measuring the midline passing through the nose and throat while intersecting at right angles to the occlusal plane line. . Despite this importance, artificial teeth, prostheses, and/or dentures are manufactured based on the midline marked on the wax (or bite) in the patient's mouth, depending on the dentist's eyes. It is the cause of treatment/procedure/surgery. On the other hand, a device called a face bow is used to check the tooth occlusal plane and to open a pattern to fit the occlusal plane. In the use of such a mechanism, the tooth arrangement of the exchange is confirmed by causing the resin-coated bite to be opened in a state of being leveled as a reference point of occlusion. However, this causes asymmetry during the operation and does not find the front and rear planes, so the operator has to make a lateral side, and in this process, the occlusal plane is not correct, and is sent to the dental laboratory as it is, making reliable dental treatment/procedure/surgery difficult. Can. As described above, there have been several problems due to the measurement of the occlusal plane line and the orthogonal midline perpendicular to the doctor's neck.

Japanese Patent Application Publication No. 2019-187489 (2019.10.31.)

Accordingly, a problem to be solved by the present invention is to provide a dental midline measuring device that accurately measures a midline of a face orthogonal to an occlusal plane line using a horizontal and vertical laser beam crossing at a right angle.

Dental midline measuring device according to an aspect of the present invention, the wear structure worn on the patient's head (100); An opposite structure 200 connected to the wear structure 100 at two or more points up and down and positioned in front of the patient's face to face the patient's face; And a laser beam irradiation unit 300 disposed on the opposing structure 200 and irradiating a vertical laser beam L1 coinciding with the midline of the patient's face and a horizontal laser beam L2 orthogonal to the vertical laser beam L1. It includes.

According to one embodiment, the wearing structure 100 has an earpiece 111 fitted at one end to the patient's left ear and a left arm 110 extending forward of the patient's face, and an earpiece fitted to the patient's right ear (121) is provided at one end and includes a light arm 120 extending forward of the patient's face and a head loop 130 fitted to the patient's head, and the opposing structure 200 comprises the left arm ( The arm guide block 210 is slidably supporting the left arm 110 and the light arm 120 so that the gap between the light arm 120 and the light arm 120 can be widened or narrowed, and is located in the center of the front of the patient's face. ), a shaft guide block 220 formed on an upper portion of the arm guide block 210, a nose shaft 231 slidably installed back and forth on the shaft guide block 220, and a tip end of the nose shaft 231 A nose piece 232 which is coupled to the nose and forehead of the patient and is formed on an upper portion of the shaft guide block 220 and connected to the head loop 130 with a loop connection 240 and the arm guide block The lower connection part 250 formed at the lower part of the 210 and the left and right movements of the vertical laser beam L1 from the laser beam irradiation unit 300 and disposed on the lower connection part 250 and the laser beam irradiation unit 300 It includes a laser beam adjustment allowance unit 260 to allow the vertical movement of the horizontal laser beam (L2) from ).

According to one embodiment, the laser beam adjusting permission unit 260 is a vertical guide unit 262 to allow the vertical movement of the laser beam irradiation unit 300, and the left and right movement of the laser beam irradiation unit 300. Includes left and right guide portion 264 to allow.

According to the present invention, by using a horizontal and vertical laser beam that intersects at a right angle, the midline of the face orthogonal to the occlusal plane line is accurately measured and used for the manufacture of dental prosthesis, dental surgery, dental surgery and/or treatment, After treatment, dental surgery, and surgery, the midline mismatch can be resolved.

1 is a left side view showing a patient wearing a dental midline measuring device according to an embodiment of the present invention.
Figure 2 is a right side view showing a patient wearing a dental midline measuring device according to an embodiment of the present invention
3 is a front view showing a patient wearing a dental midline measuring device according to an embodiment of the present invention.
4 is a plan view showing a patient wearing a dental midline measuring device according to an embodiment of the present invention.
5 is a view for explaining an example of a cross laser beam irradiation unit according to an embodiment of the present invention.
6 is a view for explaining another example of a cross laser beam irradiation unit according to an embodiment of the present invention.

Prior to explaining the details for the practice of the present invention, terms or words used in the specification and claims can be appropriately defined by the inventor to define the concept of terms in order to best describe his or her invention. Based on the principles, it should be interpreted as meanings and concepts consistent with the technical spirit of the present invention. In addition, it should be noted that when it is determined that the detailed description of the known functions and configurations related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description is omitted.

1 is a left side view showing a patient wearing a dental midline measurement device according to an embodiment of the present invention, Figure 2 is a patient showing a dental midline measurement device according to an embodiment of the present invention Right side view, Figure 3 is a front view showing a patient wearing a dental midline measuring device according to an embodiment of the present invention, Figure 4 is a patient wearing a dental midline measuring device according to an embodiment of the present invention 5 is a view for explaining an example of a cross laser beam irradiation unit according to an embodiment of the present invention, and FIG. 6 is another example of a laser beam irradiation unit according to an embodiment of the present invention. It is a figure for illustration.

1 to 4, the dental midline measuring apparatus according to an embodiment of the present invention, orthogonal to the occlusal plane line by using linear vertical and horizontal laser beams L1 and L2 intersecting at right angles A dental midline measuring device for accurately measuring a midline of a face, which is worn on a patient's head and is connected to the wear structure 100 at two or more points above and below the wear structure 100 and connected to the front of the patient's face Positioned facing the patient's face, the opposing structure 200 and the vertical laser beam L1 disposed on the opposing structure 200 and coinciding with the midline of the patient's face and perpendicular to the vertical laser beam L1 It includes a laser beam irradiation unit 300 for irradiating a horizontal laser beam (L2) matching the mouth of the.

In this embodiment, the wearing structure 100 is provided with an earpiece 111 fitted to the patient's left ear at one end and a left arm 110 extending forward of the patient's face, and fitted to the patient's right ear at one end It includes an earpiece 121 at one end and includes a light arm 120 extending forward of the patient's face and a head loop 130 fitted to the patient's head.

In addition, the left arm 110, the length is adjusted through the loosening and tightening of the first side adjustment screw 112, but the left horizontal sidebar 110a extending horizontally and extending toward the front, and the left horizontal sidebar ( And a left horizontal front bar 110b connected at right angles to the left horizontal sidebar 110a at the front end of 110a). In addition, the light arm 120, the length is adjusted through the loosening and tightening of the second side adjustment screw 122, the light horizontal sidebar 120a extending horizontally and extending toward the front, and the light horizontal sidebar ( And a light horizontal front bar 120b connected at right angles to the light horizontal sidebar 120b at the front end of 120a).

In addition, the head loop 130 is worn on the upper portion of the patient's head. In this embodiment, the main band 131 is configured to wrap around the patient's head side, and one end of the loop band 131 One side of the upper surface is connected to the top of the head and the other end of the main band 131 may include an upper arch band 132 connected to the upper surface. Although not illustrated, one lower arch band connected to one lower surface of the main band 131 and a tartan passing under the patient's chin to the lower lower surface of the main band 131 may be additionally provided. have.

The left arm 110 and the light arm 120 and the head loop 130 are connected to the opposing structure 200 facing the patient's face, and thus, the opposing structure 200 and the wearing structure 100 ) Are connected to each other at two or more points. This allows the opposing structure 200 to be perfectly parallel to the patient's face (assuming it is a plane). The laser beam irradiation unit 300 installed in the opposing structure 200 arranged as described above is capable of irradiating the cross-shaped laser beam toward the face in a state arranged in parallel with the patient's face.

In the present embodiment, the opposing structure 200 is provided with a left horizontal front bar 110b of the left arm 110 so that the gap between the left arm 110 and the light arm 120 can be widened or narrowed. And an arm guide block 210 slidably supporting the light horizontal front bar 120b of the light arm 120. At this time, the arm guide block 210 is located in the center of the front of the patient's face. Accordingly, the front components installed on the upper and lower portions of the arm guide block 210 can also be located in the center of the front of the patient's face. In a state in which the arm width adjusting screws 215 and 216 provided in the arm guide block 210 are loosened, the width between the left arm 110 and the light arm 120 is adjusted, and after adjustment, the arm The left arm 110 and the light arm 120 can be firmly fixed by tightening the width adjusting screws 215 and 216 again.

The opposing structure 200 includes the above-described front components, a shaft guide block 220 formed on the arm guide block 210, and a nose shaft slidably installed back and forth on the shaft guide block 220 ( 231), a nose piece 232 that is coupled to the tip of the nose shaft 231 to contact between the nose and forehead of the patient, and is formed on the upper portion of the shaft guide block 220 and to the head loop 130 It includes a connected loop connection portion 240, and a lower connection portion 250 formed under the arm guide block 210.

In addition, the opposing structure 200 is disposed on the lower connection part 250, vertical movement of the horizontal laser beam L2 from the laser beam irradiation unit 300 and vertical laser from the laser beam irradiation unit 300. It includes a laser beam adjustment allowance unit 260 to allow the left and right movement of the beam (L1). In the present embodiment, the laser beam adjustment permission unit 260 is a vertical guide unit 262 to allow the vertical movement of the laser beam irradiation unit 300, and the left and right movement of the laser beam irradiation unit 300. Left and right guide portions 264 may be included.

The laser beam irradiation unit 300 may be configured to irradiate a cross-shaped laser low beam composed of a vertical laser beam L1 and a horizontal laser beam L2 as shown in FIG. 5. In this case, the vertical laser beam L1 may be moved left and right by moving the entire laser beam irradiation unit 300 including the cross-shaped laser light source to the left and right, and the laser beam irradiation unit 300 including the cross-shaped laser light source ) By moving the whole up and down, the horizontal laser beam L2 can be moved up and down.

Alternatively, as shown in FIG. 6, the laser beam irradiation unit 300 includes a vertical linear laser light source that irradiates a vertical laser beam L1 and a horizontal linear laser light source that irradiates a horizontal laser beam L2. can do. In this case, the vertical laser beam L1 can be moved left and right by moving the vertical linear laser light source to the left and right, and the horizontal laser beam L2 is moved up and down by moving the horizontal linear laser light source up and down. Can be moved.

Referring to FIGS. 1 to 4 again, the dental midline measuring apparatus according to the present embodiment is worn on the patient's head using the wearing structure 100. At this time, a dental model such as a metal frame or wax or the like is disposed in the patient's mouth. The left arm 110 and the light arm 120 provided in the wearing structure 100 can be adjusted according to the length and at the same time can be adjusted to each other, so it can be worn according to the patient's head size or conditions. The head loop 130 can also be adapted to the patient's head size by adjusting the lengths of the bands 131 and 132. In addition, the wear structure 100 and 2 by an operation such as fitting the nose piece 232 coupled to the tip of the nose shaft 231 to the nose of the patient and being centered between the left arm 110 and the light arm 120. The facing structure 100 connected at a point above the point may be positioned in parallel with the patient's face in front of the patient's face. In this state, the laser beam irradiation unit 300 is operated to irradiate the vertical laser beam L1 and the horizontal laser beam L2 around the patient's face mouth. The vertical laser beam (L1) is aligned with the midline, and the horizontal laser (L2) is aligned with the vertical line (the boundary line between the lips and lips). In this state, lines matching the vertical laser beam L1 and the horizontal laser beam L2 are displayed on the model in the patient's mouth. In this way, it is possible to obtain a tooth model reflecting the midline of the face.

100...............Wearing structure
200..............Counter structure
200...............Laser beam irradiation unit
110...............Left arm
120............Light arm
130............head loop
210............ Arm guide block
220..................shaft guide block
231............nose shaft
232............nose piece
240...............Loop connection
250...............lower connection
260.............Laser beam adjustment allowable part

Claims (3)

A left horizontal sidebar (110a) having an earpiece (111) fitted to the patient's left ear at one end and the length adjusted through loosening and tightening of the first side adjustment screw (112), extending horizontally and extending forward, A left arm 110 including a left horizontal front bar 110b connected at right angles to the left horizontal side bar 110a at the front end of the left horizontal side bar 110a and extending toward the front of the patient's face;
A light horizontal sidebar (120a) having an earpiece (121) fitted to the patient's right ear at one end and the length adjusted through loosening and tightening of the second side adjustment screw (122), extending horizontally and extending forward, A light horizontal front bar 120b connected at right angles to the light horizontal sidebar 120b at the front end of the light horizontal sidebar 120a and extending forward of the patient's face and separated from the left horizontal front bar 110b. ) Including a light arm 120;
The main band 131 and one end configured to surround the patient's head circumference are connected to one upper surface of the main band 131 and the other end passing the top of the head is connected to the upper surface opposite the main band 131. Head loop 130 is fitted to the patient's head, including the arch band 132;
Each of the left horizontal front bar 110b and the light horizontal front bar 120b is slidably supported so that the gap between the left arm 110 and the light arm 120 can be widened or narrowed, and the patient is always Arm guide block 210 is set to be located in the center between the left and right of the front of the face;
A shaft guide block 220 integrally formed on the upper portion of the arm guide block 210 and positioned in the center between the left and right sides of the patient's front face together with the arm guide block 210;
A nose shaft 231 slidably installed back and forth on the shaft guide block 220;
A nose piece 232 coupled to the tip of the nose shaft 231 to contact between a patient's nose and forehead;
It is integrally formed on the upper portion of the shaft guide block 220, the arm guide block 210 and the shaft guide block 220 is located in the center between the left and right of the front of the patient's face, and the head loop 130 Connected loop connection 240;
It is formed integrally with the lower portion of the arm guide block 210, and is located in the center between the left and right of the front of the patient's face together with the arm guide block 210, the shaft guide block 220, and the loop connecting portion 240 Lower connection portion 250;
An upper and lower guide portion 262 and a left and right guide portion 264, the laser beam adjusting permission portion 260 disposed on the lower connection portion 250; And
The vertical laser beam (L1) and the vertical laser beam (L1), which are disposed on the lower connection part (250) so as to be moved up and down and left and right by the laser beam adjustment allowable part (260), It includes a laser beam irradiation unit 300 for irradiating an orthogonal horizontal laser beam (L2),
The head loop 130 is worn on the patient's head and the nose piece 232 contacts between the patient's nose and forehead and one end of the earpiece 111 and the light level of the left horizontal sidebar 110a Sidebar (120b) by the end of the earpiece 121 is inserted into each of the patient's left and right ears, the laser beam irradiation unit 300 is a dental midline measuring device, characterized in that parallel to the patient's face.
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