JP6595811B2 - Ruler - Google Patents

Description

  The present invention relates to a ruler technique used as medical treatment.

  2. Description of the Related Art Conventionally, a ruler is known as an instrument for marking a target. For example, Patent Document 1 discloses an architectural rule in which a scale for measuring a length dimension is formed on one side forming a right angle of a flat right triangle and a scale for measuring an angle is formed on a hypotenuse. A writing tool is disclosed.

Special table 2006-520002 gazette

  However, in the scribing tool described in Patent Document 1, when trying to draw a scribing line that defines a predetermined angle centered on the target reference point, the reference of the target that is the starting point of the scribing line After marking a point, it is necessary to draw a ruled line that defines a predetermined angle after the mark marking tool is moved to align with the mark. In addition, when drawing a ruled line on a target using a ruler and a protractor that are generally available on the market, if the ruled line is as small as 1 centimeter (cm) or less, the angle you want to accurately mark with the protractor Could not be measured. For this reason, there has been a problem that, for example, in order to process a rectangular plate-shaped artificial bone into a triangle or a trapezoid at a medical site during surgery, it is desired to accurately and easily draw a ruled line on the artificial bone.

  Furthermore, when a ruled line is drawn on a ruled object such as an artificial bone using a ruler, the ruled line may be displaced, and there is a problem that it is desired to prevent such displacement. Moreover, when the scribing tool is composed of a plurality of members, there is a risk that a part of the tool may be lost.

  The present invention has been made to solve the above-described problems, and can be realized as the following forms.

(1) According to one aspect of the present invention, a ruler used for medical purposes is provided. The scriber has a first member having a first scale for measuring a length dimension from a reference point in an object to be marked; and a first angle scale for measuring an angle around the reference point in the object. An angle member; and the first member has a flat base portion, and the reference point and the first angle scale measured with respect to the object arranged on the base portion . Defines a straight line connecting positions. According to the ruler in this form, it is possible to define a ruled line obtained by simultaneously measuring the length of the object from the reference point and the angle centered on the reference point in one operation.

(2) The ruler of the above aspect may further include: a second member slidable in a first direction which is a length direction in which the first scale can be measured with respect to the first member. . According to this type of ruler, the second member fixes the object in the first direction, so that a more accurate ruled line can be defined from the reference point.

(3) In the ruler of the above aspect, the second member has a second scale for measuring a length dimension in a second direction which is a direction orthogonal to the first direction from the reference point in the object. May be. According to the ruler of this form, the second member can fix the object in the first direction and measure the length of the object in the second direction from the reference point.

(4) In the ruler according to the above aspect, further: the second member is slidable in a second direction which is a direction orthogonal to the first direction, and the length in the first direction is measured. A third member may be provided. According to the ruler in this form, a ruled line having a predetermined shape can be defined as a target by the length of the first scale, the length of the second scale, and the length of the third scale.

(5) In the ruler of the above aspect, the first member is disposed on a flat base on which the object is disposed; the angle member may be detachable from the first member. . According to the ruler of this form, since the first member is located higher than the base, it is easy to define a ruled line for the object placed on the base. Further, when the ruler becomes dirty, the first member and the angle member can be easily cleaned separately.

(6) In the ruler of the above aspect, the angle member may have a side surface that contacts the first member. According to the ruler of this aspect, when the separate first member and the angle member are aligned, the side surface of the angle member abuts on the first member, and therefore the first scale and the first angle scale are aligned. Easy to do.

(7) In the ruler of the above aspect, a distance from a surface of the base on which the object is arranged to a surface having the first scale of the first member may be 5 mm or more and 20 mm or less. . According to the ruler in this form, the distance from the surface of the base to the surface of the first scale is about the same as the thickness of the artificial bone before processing as a target used for surgery. The level difference between the placed object and the first scale is small, and it is easy to define the ruled line.

(8) In the ruler of the above aspect, the distance from the surface of the base to the surface having the first scale of the first member, and the surface of the angle member having the first angle scale from the surface of the base May be the same distance. According to the ruler of this form, the distance from the surface of the base to the surface of the first angle scale of the angle member is the same as the distance from the base to the surface of the first member of the first member. It is easier to draw a ruled line on the target without tilting a ruler for marking a straight line across the one scale and the first angle scale.

(9) In the ruler according to the above aspect, a linear member having a planar side surface that defines the straight line connecting the reference point and the position of the measured angle on the first angle scale. You may have. According to the ruler in this form, it is possible to draw a ruled line on an object using a linear member.

(10) In the ruler of the above aspect, the angle member includes an engagement portion that engages with the linear member; the linear member is engaged with the engagement portion so as to be movable with respect to the angle member. May be combined. According to the ruler of this form, the loss of the linear member engaged with the angle member can be suppressed.

(11) In the ruler of the above aspect, the engaging portion may be a groove formed in an arc shape centered on the reference point. According to the ruler of this form, since the linear member is engaged with the angle member with a simple configuration, an increase in the size of the ruler is suppressed.

(12) The ruler according to the above aspect further includes a positioning member that is disposed on a surface of the first member on which the first scale is formed and that defines the reference point on the first scale. Also good. According to this form of the ruler, since the reference point is defined by the positioning member, the ruled line passing through the reference point can be drawn more accurately with respect to the object.

  The present invention can be implemented in various forms other than the ruler. For example, it can be realized in the form of a measuring instrument set including a ruler and a ruler method using a ruler.

It is the schematic which shows the ruler and artificial bone in 1st Embodiment. It is a disassembled perspective view of a ruler. It is detail drawing of a 1st block. It is detail drawing of an angle block. It is detail drawing of a 2nd block and a 3rd block. It is the schematic which shows the state of the joint part of a human joint vicinity. It is explanatory drawing which shows an example of the ruled method of drawing a ruled line on an artificial bone. It is a perspective view of the 1st block and angle block of a 2nd embodiment. It is explanatory drawing which shows an example of the ruled method of drawing a ruled line on an artificial bone. It is the schematic which shows the ruler and artificial bone in 4th Embodiment. It is detail drawing of the 1st block and positioning block in 4th Embodiment. It is an enlarged view of the cross section X1 in FIG. It is detail drawing of engagement with the angle block and ruled ruler in a modification.

A. First embodiment:
A-1. The structure of the scriber:
FIG. 1 is a schematic diagram showing a ruler 100 and an artificial bone 110 in the first embodiment. FIG. 2 is an exploded perspective view of the ruler 100. FIG. 1 and FIG. 2 show an artificial bone 110 as an object to be marked, and a ruler 100 for drawing a ruled line on the artificial bone 110. 1A shows a front view of the ruler 100 and the artificial bone 110, and FIG. 1B shows a side view of the ruler 100 as viewed from the lower side of the drawing. . As shown in FIG. 1A and FIG. 2, the ruler 100 includes a first block 10, a second block 20, a third block 30, an angle block 50, and a ruler ruler 60. ing.

  FIG. 3 is a detailed view of the first block 10. 3A shows a front view of the first block 10, and FIG. 3B shows a side view of the first block 10 viewed from the lower side of the drawing. The first block 10 includes a base portion 12 formed in a planar shape, and a first scale portion 11 formed on the outer peripheral portion (left side of the paper surface) on the base portion 12. The first scale portion 11 has a first scale 11 a that measures a linear length along the first scale portion 11. In the following, the length direction in which the first scale can be measured is defined as the Y-axis direction as shown in FIG. At the same time, a plane parallel to the base portion 12 is defined as an XY plane, and an axis orthogonal to the Y axis is defined as an X axis. In the X axis, the right side shown in FIG. An axis orthogonal to the XY plane is defined as the Z axis, and the direction from the back side to the front side shown in FIG. In the present embodiment, the first scale 11a has a scale of 7 millimeters (mm) in the positive direction of the Y axis and a scale of 2 mm in the negative direction of the Y axis with respect to the reference zero point.

  Further, as shown in FIG. 3B, a first engagement portion 11b extending along the Y axis is formed on the engagement side surface 11d which is the YZ plane on the X axis positive direction side of the first scale portion 11. ing. A second engagement portion 20b of a second block 20 described later is engaged with the first engagement portion 11b. The first block 10 has a side surface 10c parallel to the Z axis from the Y axis positive direction side to the X axis positive direction side. The side surface 10c includes a ZX side surface 11c1, an arc side surface 12c2, and a YZ side surface 12c3. The ZX side surface 11c1 is a surface parallel to a surface (ZX plane) perpendicular to the Y axis. The arc side surface 12c2 and the YZ side surface 12c3 will be described later.

  The base 12 is a table on which the artificial bone 110 is placed when a ruled line is drawn on the artificial bone 110. As shown in FIG. 3A, a base angle scale 12a, which is a scale having an angle centered on the zero point of the first scale 11a, is formed on the surface 12b of the base portion 12 on the positive side in the Z-axis direction. . The base angle scale 12a is a straight scale drawn according to an angle of 10 degrees from 0 degrees to 90 degrees, with the straight line from the zero point of the first scale 11a in the positive direction of the X-axis as a reference for the zero angle. It is. The base angle scale 12a is drawn from the zero point to the arc side surface 12c2 formed in an arc shape with the zero point as the center. The circular arc side surface 12c2 is a side surface formed in a range of 0 degrees or more and 90 degrees or less around the zero point. Therefore, the X-axis positive direction side of the ZX side surface 11c1 is connected to the X-axis negative direction side of the arc side surface 12c2. The YZ side surface 12c3 is a side surface parallel to the YX plane formed on the X axis positive direction side of the side surface 10c of the first block 10, and is connected to the Y axis negative direction side of the arc side surface 12c2.

  As shown in FIG. 3B, in this embodiment, the thickness of the base portion 12 along the Z-axis direction is a length H2. Similarly, the height along the Z-axis direction from the surface 12b of the base part 12 to the surface 11c on which the first scale 12a of the first scale part 11 is described is a length H1. In the present embodiment, the length H1 is set to be 5 mm or more and 20 mm or less. In other embodiments, the length H1 may be less than 5 mm or may exceed 20 mm. When the 1st scale part 11 and the base part 12 are integrated and the 1st block 10 is formed like this embodiment, the 1st block 10 of this embodiment is made into the 1st member in a claim. Can also be regarded as In other embodiments, the first block 10 may not include the base portion 12 and may be configured only by the first scale portion 11.

  FIG. 4 is a detailed view of the angle block 50. FIG. 4A shows a front view of the angle block 50, and FIG. 4B shows a side view of the angle block 50 as viewed from the lower side of the drawing. The angle block 50 includes a base portion 52 formed on the XY plane, and an angle scale portion 51 formed in an arc shape on the X axis positive direction side and the Y axis positive direction side of the base portion 52. . An angle at which the angle 51 can be measured with respect to the zero point of the first scale 11a of the first block 10 when the first block 10 contacts the surface 51c of the angle scale 51 on the surface 52a of the base 52. A scale 51a is formed. When the first block 10 abuts on the surface 52a of the base portion 52, the side surface 51b connecting the step between the surface 51c of the angle scale portion 51 and the surface 52a of the base portion 52 is It contacts the side surface 10c. The side surface 51b includes a ZX side surface 51b1 formed as a surface parallel to the ZX plane, an arc side surface 51b2, and a YZ side surface 51b3 formed as a surface parallel to the YZ plane. The arc side surface 51b2 is formed as an arc-shaped surface centered on the zero point of the first scale 11a when the first block 10 and the angle block 50 come into contact with each other. Therefore, when the first block 10 and the angle block 50 come into contact with each other, the ZX side surface 11c1, the arc side surface 12c2, and the YZ side surface 12c3 of the first block 10, the ZX side surface 51b1, the arc side surface 51b2, and the YZ of the angle block 50, respectively. Each of the side surfaces 51b3 comes into contact.

  As shown in FIG. 4B, in the present embodiment, the height along the Z-axis direction from the surface 52a of the base portion 52 to the surface 51c of the angle scale portion 51 is a length H3. In the present embodiment, the length H3 of the angle block 50 is set to be the sum of the length H1 and the length H2 of the first block 10. The angle block 50 corresponds to the angle member in the claims, and the angle scale 51a corresponds to the first angle scale in the claims.

  FIG. 5 is a detailed view of the second block 20 and the third block 30. 5A shows a front view of the second block 20 and the third block 30, and FIG. 5B shows the second block 20 and the third block 30 as viewed from the lower side of the drawing. A side view is shown, and FIG. 5C shows a side view of the second block 20 and the third block 30 as viewed from the right side of the drawing. As shown in FIGS. 5A and 5B, the second block 20 is a rectangular parallelepiped member having a second scale 20a formed linearly along the X-axis direction. As shown in FIG. 5A, the second scale 20 a is formed on the surface of the second block 20 on the Z axis positive direction side. When the first block 10 and the second block 20 are engaged, the second scale 20a has a length in a direction perpendicular to the first scale 11a with reference to the Y axis passing through the zero point of the first scale 11a. It is a measurable scale. In the present embodiment, on the second scale 20a, scales from 0 mm to 7 mm are formed every 0.1 mm along the X axis.

  As shown in FIG. 5B, the second block 20 has a second engagement portion 20b for engaging with the first engagement portion 11b of the first block 10 on the X axis negative direction side. In the present embodiment, the second engaging portion 20b has a flat plate portion 20b1 parallel to the YZ plane and a shaft portion 20b2 formed with a smaller cross-sectional area along the YZ plane than the flat plate portion 20b1. . The first engaging portion 11b of the first block 10 is formed in a concave shape corresponding to the convex second engaging portion 20b in order to engage with the second engaging portion 20b. Therefore, when the first engagement portion 11 b and the second engagement portion 20 b are engaged, the second block 20 is a length that allows the first scale 11 a to be measured with respect to the first scale portion 11 of the first block 10. Can slide in the vertical direction. Further, the movement of the second block 20 in the direction orthogonal to the length direction in which the second block 20 can slide is restricted. In other embodiments, the shape for engaging the first engaging portion 11b and the second engaging portion 20b may be different from the present embodiment.

  As shown in FIG. 5C, the second block 20 is formed with a third engaging portion 20c for engaging with the third block 30 along the X-axis direction. A fourth engagement portion 30c of a third block 30 described later is engaged with the third engagement portion 20c. The third engagement portion 20c and the fourth engagement portion 30c are similar in shape to the engagement of the first engagement portion 11b of the first block 10 and the second engagement portion 20b of the second block 20. Engage by shape. As shown in FIG. 5B, the height of the second block 20 along the Z axis is a length H4. The second block 20 corresponds to the second member in the claims.

  As shown in FIG. 5A, the third block 30 is a rectangular parallelepiped member having a third scale 30a formed linearly along the Y-axis direction. The third scale 30 a is formed on the surface of the third block 30. The third scale 30 a is a scale capable of measuring the same length direction as the first scale 11 a of the first block 10 when engaged with the second block 20 engaged with the first block 10. In the present embodiment, on the third scale 30a, scales from 0 mm to 3 mm are formed every 0.1 mm along the Y axis with the zero point as a reference. As shown in FIG. 5C, the height of the third block 30 along the Z-axis is a length H5. In the present embodiment, the length H5 of the third block 30 and the length H4 of the second block 20 are set to the same length as the length H1 in the first block 10.

  As shown in FIG. 1, the ruler ruler 60 defines a straight line from a reference point serving as a reference on the first scale 11 a of the first block 10 to an angular position indicating a predetermined angle on the angle scale 51 a of the angle block 50. It is a member to do. Therefore, the ruler ruler 60 is formed in a flat plate shape longer than the radius of the arc to the side surface 10c of the first block 10 with reference to the zero point of the first scale 11a. In FIG. 1, the reference point is shown as a zero point, and the angular position is shown as 35 degrees, but the reference point and the angular position can be variously modified by ruled lines drawn on the artificial bone 110. The ruler ruler 60 corresponds to a straight member in the claims.

A-2. Folding method:
Hereinafter, an example of a method for drawing a ruled line on the artificial bone 110 before processing in order to produce the processed artificial bone 115 which is a processed artificial bone used for a human bone will be described. FIG. 6 is a schematic diagram showing the state of the joint 200 near the human joint. As shown in FIG. 6, the joint unit 200 includes a first bone 201, a second bone 202, and a third bone 203. In the present embodiment, the third bone 203 is formed with a wedge-shaped chipped portion 203a cut out by surgery. The chipped portion 203a has a shape similar to a triangle having a length D1 as one side and an angle of a vertex facing D1 being an angle θ1.

  FIG. 7 is an explanatory diagram showing an example of a ruled line drawing method for drawing a ruled line on the artificial bone 110. As shown in FIG. 7, the artificial bone 110 is attached to the first block 10 such that the end of the side surface of the artificial bone 110 overlaps the position of the length D1 from the zero point on the first scale 11 a of the ruler 100. It arrange | positions to the base part 12. FIG. Thereafter, with reference to the zero point, the ruler ruler 60 is placed between the first scale portion 11 and the artificial bone 110 and the angle scale portion 51 so that the angle θ1 of the angle scale 51a of the angle block 50 is an angular position. Arrange so as to straddle. Then, the artificial bone 110 is marked with a knife or the like from the zero point formed by the ruler ruler 60 to the angular position. As a result, the shape of the artificial bone 115 after processing in which the length of one side indicated by hatching is the length D1 and the angle of the apex facing the one side of the length D1 is a triangle having the angle θ1 is moved once. With this, the artificial bone 110 can be marked.

  As described above, in the ruler 100 of the present embodiment, a straight line connecting the zero point as the reference point on the first scale 11a of the first block 10 and the angular position on the angle scale 51a of the angle block 50 is It can be defined on the artificial bone 110 that is the object to be marked. Therefore, in the ruler 100 according to the present embodiment, a ruled line obtained by simultaneously measuring the length and angle from the reference point in the artificial bone 110 by one operation can be defined in the artificial bone 110.

  Further, in the ruler 100 of the present embodiment, the second block 20 that slides in the direction parallel to the first scale 11 a is included with respect to the first block 10, so that the ruled line is formed on the artificial bone 110. Is pulled, the second block 20 fixes the artificial bone 110 in a slidable direction. Thereby, a more accurate ruled line can be defined in the artificial bone 110.

  In the ruler 100 of the present embodiment, the second block 20 is formed with a second scale 20a capable of measuring a length dimension in a direction orthogonal to the first scale 11a of the first block 10. Therefore, the ruler 100 according to the present embodiment can simultaneously measure the length of the artificial bone 110 in the direction in which the first scale 11a can be measured and the length in the direction perpendicular to the first scale 11a. .

  Further, in the ruler 100 of the present embodiment, the first scale portion 11 is disposed on the flat base portion 12, and the angle block 50 is detachable from the first block 10 including the first scale portion 11. It is formed as a separate member. For this reason, in the ruler 100 according to the present embodiment, since the first scale portion 11 is located higher than the base portion 12, it is easy to define a ruled line with respect to the artificial bone 110 disposed on the base portion 12. . Moreover, since the 1st block 10 and the angle block 50 are formed as another member which can be attached or detached, it is easy to wash | clean the 1st block 10 and the angle block 50. FIG.

  Further, in the ruler 100 of the present embodiment, the side surface 10c of the first block 10 abuts on the side surface 51b of the angle block 50, which is a separate member, and therefore the first block 10 having the first scale 11a and the angle scale 51a. It is easy to align the scales with the angle block 50 having.

  In the ruler 100 of the present embodiment, in the first block 10, the length H1 from the surface 12b of the base portion 12 to the surface 11c of the first scale portion 11 is set to 5 mm or more and 20 mm or less. Since the artificial bone 110 for medical use before processing has many products with a thickness of 5 mm or more and 20 mm or less as ready-made products, in the ruler 100 according to the present embodiment, the first from the surface 12 b of the base portion 12. The length H1 to the surface 11c of the 1 scale part 11 is set to be approximately the same as the thickness of the artificial bone 110 that is widely distributed. Accordingly, the distance in the height direction between the artificial bone 110 arranged on the base portion 12 and the ruler ruler 60 for drawing the ruled line is small, and the ruled line is easily defined on the artificial bone 110.

  In the ruler 100 of the present embodiment, the sum of the length H1 from the surface 12b of the base portion 12 to the surface 11c of the first scale portion 11 and the length H2 in the thickness direction of the base portion 12 is an angle. This is the same as the length H3 from the surface 52a of the base portion 52 of the block 50 to the surface 51c of the angle scale portion 51. In other words, the length H1 from the surface 12b of the base portion 12 to the surface 11c of the first scale portion 11 is determined from the length H3 from the surface 52a of the base portion 52 to the surface 51c of the angle scale portion 51, from the first block 10. This is the same as the length obtained by subtracting the length H2 of the base portion 12 in the thickness direction. Therefore, the ruler 100 according to the present embodiment is arranged so as to straddle the first scale part 11 of the first block 10 and the angle scale part 51 of the angle block 50 when drawing a ruled line on the artificial bone 110. Since the ruler ruler 60 is maintained in the horizontal direction, it is easy to draw a ruled line on the artificial bone 110.

  Further, in the ruler 100 of the present embodiment, the ruler ruler 60 has a portion that defines a straight line for drawing a ruled line on the artificial bone 110 when the reference point and the angular position are determined. Therefore, a ruled line can be drawn on the artificial bone 110.

B. Second embodiment:
FIG. 8 is a perspective view of the first block 10A and the angle block 50A of the second embodiment. In the ruler 100A of the second embodiment, the shape of the first block 10A and the shape of the angle block 50A are different from those of the first embodiment, and other configurations and shapes are the ruler of the first embodiment. The same as the vessel 100. The angle block 50A of the second embodiment includes a first convex portion 58 and a second convex portion 59 instead of the base portion 52 of the first embodiment. The 1st convex part 58 is a flat plate part formed so that it might protrude on the X-axis negative direction side of the angle block 50A to the Y-axis negative direction side. The 1st convex part 58 is formed in the 90 degree side edge part of angle scale 51aA, and the Z-axis negative direction side. The 2nd convex part 59 is a flat plate part formed so that it might protrude to the X-axis negative direction side at the Y-axis negative direction side of the angle block 50A. The 2nd convex part 59 is formed in the edge part of 0 degree side of the angle scale 51aA, and the Z-axis negative direction side. The first convex portion 58 and the second convex portion 59 have the same shape, although the positions formed with respect to the angle block 50A are different.

  A first recess 18 and a second recess 19 are formed in the first block 10A of the second embodiment with respect to the first block 10 of the first embodiment. The 1st recessed part 18 is a rectangular parallelepiped recessed part formed in the Z-axis negative direction side in the base part 12A, and the Y-axis positive direction side. The second recess 19 is a rectangular parallelepiped recess formed on the Z-axis negative direction side and the X-axis positive direction side in the base portion 12A. The first recess 18 and the second recess 19 are formed in positions and shapes so that the first block 10A and the angle block 50A are engaged. That is, the first concave portion 18 and the second concave portion 19 have the same shape as the first convex portion 58 and the second convex portion 59.

  As described above, in the ruler 100A of the second embodiment, the angle block 50A does not have the base portion 52, and instead of the base portion 52, the first recess 18 and the second block of the first block 10A. It has the 1st convex part 58 and the 2nd convex part 59 which engage with the recessed part 19. As shown in FIG. Thus, in the ruler 100A, the angle block 50A does not have to include the base portion 52. Similarly, in other embodiments, the first block may not have the base portion 12. Even without the base portion 52 and the base portion 12, it is possible to measure the length from the reference point and to define the ruled line with the angle measured for the artificial bone 110.

C. Third embodiment:
FIG. 9 is an explanatory diagram showing an example of a ruled line drawing method for drawing a ruled line on the artificial bone 110. In the third embodiment, a ruled line for the artificial bone 110 is defined without using the angle scale 51 a of the angle block 50. In the third embodiment, the artificial bone using the second scale 20a of the second block 20 and the third scale 30a of the third block 30 using the zero point of the first scale 11a of the first block 10 as a reference. A ruled line is defined for 110. As shown in FIG. 9, in the third embodiment, the end of the artificial bone 110 in the Y-axis positive direction is arranged at a position away from the zero point by a length D2 in the Y-axis direction. Then, using the second scale 20a, a position away from the zero point by a length D3 in the X-axis positive direction is set as a reference position of the third block 30. Thereafter, using the third scale 30a, a position away from the set reference position by a length D3 in the Y-axis positive direction is set. Thereby, a ruled line that satisfies the length D2 of the first scale 11a, the length D3 of the second scale 20a, and the length D4 of the third scale 30a can be defined in the artificial bone 110.

  As described above, in the ruler 100 according to the third embodiment, the second scale 20a of the second block 20 and the third scale 30a of the third block 30 are used without using the angle scale 51a of the angle block 50. Thus, a ruled line for the artificial bone 110 is defined. As described above, the scale used to define the ruled line for the artificial bone 110 can be variously modified.

D. Fourth embodiment:
FIG. 10 is a schematic diagram showing the ruler 100B and the artificial bone 110 in the fourth embodiment. In the ruler 100B of the fourth embodiment, the following (1) to (3) are mainly different from the ruler 100 of the first embodiment.
(1) The first block 10B and the angle block 50B are integrally formed. (2) The ruler ruler 60B is slidably engaged with the angle block 50B. (3) The first block. The positioning block 70 is disposed on a part of the surface 11Bc of the first scale portion 11B in 10B. Other differences include the shape of the second block 20B and the third block 30B, and the first of the first block 10B. The scale 11Ba, the second scale 20Ba of the second block 20B, the third scale 30Ba of the third block 30B, the angle scale 51Ba of the angle block 50B, and the like are different. Since these are configurations that can be variously modified, in the fourth embodiment, descriptions of these configurations are omitted, and the configurations (1) to (3) are described.

  As shown in FIG. 10, the ruler 100B includes a base portion 12B, a first block 10B (angle block 50B), a second block 20B, a third block 30B, a ruler ruler 60B, and a positioning block 70. And an engaging pin 80 having a male threaded portion, and a wing nut 90 having a female threaded portion that engages with the male threaded portion of the engaging pin 80. In the third embodiment, the angle block 50B formed integrally with the first block 10B is also referred to as the first block 10B, while the first block 10B is also referred to as the angle block 50B.

  FIG. 10 shows an artificial bone 110 disposed on the base portion 12B of the first block 10B in addition to the ruler 100B. Although a detailed configuration will be described later, an engagement pin 80 that engages with the arc-shaped arc groove 55 formed in the first block 10B, a wing nut 90 that engages with the engagement pin 80, and the first scale 11Ba. The ruler 60B defines a straight line for marking the artificial bone 110 by the positioning block 70 that defines the zero point.

  FIG. 11 is a detailed view of the first block 10B and the positioning block 70 in the fourth embodiment. FIG. 11A shows a front view of the first block 10B and the positioning block 70. FIG. FIG. 11B shows a side view of the first block 10B and the positioning block 70 as viewed from the lower side of the drawing. FIG. 11C shows a side view of the first block 10B and the positioning block 70 as viewed from the left side of the drawing. As shown in FIGS. 11A and 11C, the positioning block 70 is fixed to the surface 11Bc of the first scale portion 11B in the first block 10B. As shown in FIG. 11A, the positioning block 70 is formed in the shape of a right triangle having an apex 70a whose apex is the zero point of the first scale 11Ba on the XY plane. The positioning block 70 is formed in a column shape that protrudes in the positive Z-axis direction with respect to the first scale portion 11B. The positioning block 70 corresponds to a positioning member in the claims.

  In the positioning block 70 of the fourth embodiment, the angle of the vertex 70a in the XY plane is 60 degrees. In another embodiment, the angle of the vertex 70a on the XY plane is determined in consideration of the relationship with the ruler ruler 60B that contacts the vertex 70a when ruled lines are drawn on the artificial bone 110. May be set according to the upper limit value of the angle scale 51Ba. For example, when the upper limit of the angle scale 51Ba is 40 degrees, the angle of the vertex 70a in the XY plane is preferably 50 degrees or less.

  As shown in FIGS. 11A and 11B, an arc groove 55 penetrating along the Z axis is formed in the vicinity of the angle scale 51Ba of the first block 10B. As shown in FIG. 11A, the arc groove 55 is formed in an arc shape centered on the zero point of the first scale 11Ba. The circular arc groove 55 is formed at a position farther from the zero point than the angle scale 51Ba of the first block 10B. In the fourth embodiment, the central angle of the arc of the arc groove 55 in the XY plane is formed to be larger than the upper limit of 30 degrees of the angle scale 51Ba. As shown in FIG. 11B, the arc groove 55 is located on the Z-axis positive direction side on the Z-axis positive direction side and on the Z-axis negative direction side, and has a cross-sectional area larger than that of the upper groove portion 55a on the XY plane. And a large lower groove 55b. The ruler ruler 60B is formed to be slidable with respect to the first block 10B by arranging a shaft portion of an engagement pin 80 described later so as to penetrate the upper groove portion 55a along the Z-axis. .

  FIG. 12 is an enlarged view of a cross section X1 in FIG. FIG. 12 shows a state in which the position (including the orientation) of the ruler ruler 60B is fixed with respect to the first block 10B by the tightening force of the wing nut 90. Note that the ruler 60B can change its position relative to the first block 10B by loosening the tightening force of the wing nut 90. Therefore, an accurate ruled line can be drawn on the artificial bone 110 by fixing the position of the ruled ruler 60B with respect to the first block 10B by the tightening force of the wing nut 90.

  As shown in FIG. 12, a through hole 61 is formed at one end of the ruler ruler 60B along the Z-axis direction. The engaging pin 80 includes a cylindrical shaft portion 82 formed along the Z axis, a nut stopper 81 formed at the end of the shaft portion 82 on the positive side of the Z axis, and the Z axis of the shaft portion 82. And a lower end stopper 83 formed at the end on the negative direction side. Further, a male screw portion 82a for engaging with a female screw portion of a wing nut 90 described later is formed on the surface of a part of the side surface of the shaft portion 82 on the Z-axis positive direction side. When the ruler ruler 60B is arranged so as to engage with the first block 10B, the male thread portion 82a is formed to have a length that protrudes more to the Z axis positive direction side than the ruler ruler 60B. As shown in FIG. 12, the width of the lower end stopper 83 is larger than the width of the upper groove 55 a of the arc groove 55 in the cross section along the width direction of the arc groove 55 and the Z axis. Therefore, the movement of the position of the engagement pin 80 along the Z-axis direction is restricted by the positional relationship between the lower end stopper 83 and the upper groove 55a.

  The wing nut 90 has a female thread portion 92 that engages with the male thread portion 82a of the engagement pin 80, and a holding portion 91 that rotates along the axis OL that is the central axis of the engaged engagement pin 80. ing. When the wing nut 90 rotates clockwise around the axis OL when the Z-axis is viewed from the positive direction to the negative direction, the wing nut 90 moves toward the negative direction of the Z-axis, which is the direction in which the first block 10B and the ruler 60B are tightened. Moving. Conversely, when the wing nut 90 rotates counterclockwise about the axis OL, the wing nut 90 moves to the positive Z-axis direction, which is the direction in which the tightening of the first block 10B and the ruler ruler 60B is loosened.

  In the XY plane, the cross-sectional area of the nut stopper 81 is formed larger than the cross-sectional area of the female thread 92 of the wing nut 90 that engages with the male thread 82a of the shaft 82. Therefore, the movement of the position in the Z-axis direction of the wing nut 90 that engages with the engagement pin 80 is restricted and does not come off the engagement pin 80. Therefore, the ruler ruler 60B is movably engaged with the first block 10B by the engagement pin 80 and the wing nut 90. Further, the tightening force between the ruler ruler 60B and the first block 10B is controlled by rotating the wing nut 90 engaged with the engagement pin 80 about the axis OL. By controlling the tightening force, the position of the through hole 61 of the ruler ruler 60B with respect to the arc groove 55 of the first block 10B can be fixed. More specifically, the position of the ruler 60B with respect to the axis OL, which is the central axis of the engagement pin 80, can be fixed. With the configuration shown in FIG. 12, the ruler ruler 60B is formed to be slidable with respect to the first block 10B (angle block 50B) along the XY plane in which the arc groove 55 is formed. In addition, the circular arc groove 55 in 4th Embodiment is equivalent to the engaging part in a claim. Further, the ruler ruler 60B, the engaging pin 80, and the wing nut 90 in the fourth embodiment correspond to a linear member engaged with the engaging portion in the claims.

  As described above, in the ruler 100B according to the fourth embodiment, the ruler ruler 60B can change the position with respect to the first block 10B (angle block 50B) and is engaged with the first block 10B. . Therefore, in the ruler 100B of the fourth embodiment, the loss of the ruler ruler 60B necessary for drawing a ruled line on the artificial bone 110 can be suppressed.

  In the ruler 100B according to the fourth embodiment, the ruler ruler 60B is slidable along the arc groove 55 formed in an arc shape centering on the zero point of the first scale 11Ba of the first block 10B. It is. Therefore, in the ruler 100B of the fourth embodiment, when drawing a ruled line with the zero point of the first scale 11Ba as a reference, the ruler ruler 60B having a fixed length can be of any angle. It is also possible to draw ruled lines. Therefore, the ruler ruler 60B which is longer than necessary is not necessary, and the ruler 100B can be downsized.

  In the ruler 100B according to the fourth embodiment, the positioning block 70 is arranged in the first block 10B so that the vertex 70a of the positioning block 70 defines the zero point of the first scale 11Ba of the first block 10B. . Therefore, in the ruler 100B of the fourth embodiment, when a ruled line is drawn on the artificial bone 110, the ruler ruler 60B is defined at the zero point position by the vertex 70a of the positioning block 70. Since the position of the zero point is fixed, a more accurate scoring line can be drawn on the artificial bone 110 as compared with the case where the positioning block 70 is not provided.

E. Variations:
In addition, this invention is not limited to the said embodiment, It can implement in a various aspect in the range which does not deviate from the summary, For example, the following deformation | transformation is also possible.

E-1. Modification 1:
In the above-described embodiment, the ruler 100 includes the first block 10, the second block 20, the third block 30, the angle block 50, and the ruler ruler 60. May not be provided. The ruler 100 only needs to include the first block 10 having the first scale 11a and the angle block 50 having the angle scale 51a as a minimum configuration. Further, the unit of each scale such as the first scale 11a and the angle scale 51a and the upper and lower limits of the scale can be variously modified. Moreover, in the said embodiment, although the 1st scale part 11 of the 1st block 10, the 2nd block 20, etc. were rectangular parallelepiped shapes, shapes other than a rectangular parallelepiped may be sufficient.

  In the above embodiment, the second block 20 is slidable along the X axis with respect to the first block 10, but may be fixed with respect to the first block 10. For example, the second block 20 may be fixed to the first block 10 so as to overlap the zero point of the first scale 11 a of the first block 10 and the second scale 20 a of the second block 20. Similarly, the third block 30 may not be slidable on the second block 20 but may be fixed to the second block 20. Further, the second block 20 is not formed with the second scale 20a, and the second block 20 may be used for positioning the artificial bone 110.

  In the said embodiment, the 2nd scale 20a of the 2nd block 20 and the 3rd scale 30a of the 3rd block 30 parallel to the Y-axis direction which can measure the 1st scale 11a of the 1st block 10 are parallel. However, the relationship between these scales is not necessarily orthogonal or parallel, and a predetermined angle may be formed.

  In the said 1st Embodiment, although the side surface 10c of the base part 12 of the 1st block 10 and the side surface 51b of the base part 52 of the angle block 50 contact | abutted, the 1st block 10 and the angle block 50 necessarily contact | abut. It does not have to have a part. Further, the first block 10 may not have the base portion 12, and the angle block 50 may not have the base portion 52. Moreover, in the said embodiment, although the 1st block 10 and the angle block 50 were the structures which can be attached or detached as another member, you may form as an integral member. Moreover, the base part 12 and the angle block 50 may be formed as an integral member.

  In the said embodiment, length H1 from the surface 12b of the base part 12 of the 1st block 10 in which the artificial bone 110 is arrange | positioned to the surface 11c of the 1st scale part 11 is from the surface 52a of the base part 52 of the angle block 50. The length obtained by subtracting the length H2 that is the thickness of the base portion 12 of the first block 10 from the length H3 to the surface 51c of the angle scale portion 51 was the same, but regarding the relationship between these lengths Various modifications are possible.

E-2. Modification 2:
In the fourth embodiment, the positioning block 70 having the vertex 70a for defining the zero point of the first scale 11Ba of the first block 10B has been described with a specific example. However, the positioning block 70 may be variously modified. Is possible. For example, the positioning block 70 may have a shape having an area as a polygon other than a triangle in the XY plane, or may have a shape like an arrow for defining the zero point of the first scale 11Ba. . In addition, the positioning block 70 has a columnar shape along the Z-axis direction. However, as another shape, for example, a shape having a gradient along the Z-axis direction may be used. Further, the positioning block 70 defines the zero point of the first scale 11Ba, but may define other points.

  In the fourth embodiment, the ruler ruler 60B is formed to be slidable with respect to the first block 10B along the arc groove 55 formed in the first block 10B (angle block 50B). The relationship between the writing ruler 60B and the first block 10B can be variously modified. For example, the arc groove 55 does not need to be arc-shaped, and may be a through groove extending in the Y axis parallel to the first scale 11Ba, or may not be a through groove along the Z axis direction. The angle block 50B may not be penetrated.

  Further, the configuration for forming the ruler 60B to be slidable with respect to the first block 10B is other than the configuration in which the arc groove 55, the engagement pin 80, and the wing nut 90 are combined as shown in FIG. But you can. FIG. 13 is a detailed view of the engagement between the angle block 50C and the ruled ruler 60C in the modified example. FIG. 13 shows a cross-sectional view of a modified example corresponding to the cross-sectional view shown in FIG. 12 of the fourth embodiment. Unlike the fourth embodiment, the ruler 100C of the modified example does not have the arc groove 55, the engagement pin 80, and the wing nut 90 formed in the angle block 50B. Instead, the ruler ruler 60C has a straight line defining part 65, a side wall part 66, and an engaging convex part 67 as a configuration for engaging the ruler ruler 60C with the angle block 50C. Further, the modified angle block 50C has a side recess 57 on the side surface on the X-axis positive direction side for engaging with the engagement protrusion 67 of the ruler ruler 60C. In this modified example, the ruler ruler 60C is slidably engaged with the angle block 50C by the engagement convex portion 67 and the side concave portion 57 engaging.

  The dimensional relationship between the arc groove 55 and the engagement pin 80 in the fourth embodiment can be variously modified. For example, the arc groove 55 is a through groove having a constant cross-sectional area in the XY plane, and the engagement pin 80. A shape in which the length in the Z-axis direction of the shaft portion 82 in the fourth embodiment is such that the lower-end stopper 83 is located at the lower end along the Z-axis direction of the first block 10B may be used.

  The wing nut 90 is a member that engages with the male screw portion 82a of the shaft portion 82. However, the wing nut 90 is not necessarily engaged with the male screw portion 82a, and a hex nut is used instead of the wing nut 90. Alternatively, the wing nut 90 itself may be omitted. For example, the male screw portion 82a and the female screw portion 92 are not provided, and the ruler ruler 60B and the first block 10B may be simply formed so as not to be separated. Further, the wing nut 90 in the fourth embodiment may be omitted. In this case, the movement of the position of the ruler ruler 60B along the Z-axis direction is restricted by the cross-sectional area relationship in the XY plane between the through hole 61 of the ruler ruler 60 and the nut stopper 81 of the engagement pin 80. Is done.

  In the said 4th Embodiment, although the 1st block 10B and the angle block 50B were integrally formed, you may form as another member like 1st Embodiment. Further, the presence / absence of the second block 20B and the third block 30B of the fourth embodiment shown in FIG. 10, the shape, the upper limit value of the scale of dimensions, and the like can be variously modified. For example, the length along the X-axis direction of the second block may be shorter than the second block 20B of the fourth embodiment. In this case, as shown in FIG. 10, the second block 20 </ b> B can move to the Y axis positive direction side along the first scale 11 </ b> Ba, and the types of ruled lines drawn on the artificial bone 110 increase.

  The present invention is not limited to the above-described embodiments, examples, and modifications, and can be realized with various configurations without departing from the spirit of the present invention. For example, the technical features in the embodiments, examples, and modifications corresponding to the technical features in each form described in the summary section of the invention are appropriately determined in order to solve part or all of the above-described problems. It is possible to replace or combine them. Further, if the technical feature is not described as essential in the present specification, it can be deleted as appropriate.

θ1 ... Angle 10 ... First block 10c ... Side surface of the first block 11 ... First graduation part 11a ... First graduation 11b ... First engagement part 11c ... Surface of the first graduation part 11c1 ... ZX side face 11d ... First graduation Engagement side surface 12 ... Base portion 12a ... Base angle scale 12b ... Base portion 12c2 ... Arc side surface 12c3 ... YZ side surface 18 ... First recess 19 ... Second recess 20 ... Second block 20a ... Second scale 20b ... Second Engaging portion 20b1 ... Flat plate portion 20b2 ... Shaft portion 20c ... Third engaging portion 30 ... Third block 30a ... Third scale 30c ... Fourth engaging portion 50 ... Angle block 51 ... Angle scale portion 51a ... Angle scale 51b ... Side surface 51b1 ... ZX side surface 51b2 ... Arc side surface 51b3 ... YZ side surface 51c ... Surface of angle scale part 52 ... Base part 52a ... Surface of base part 55 ... Arc groove 5 a ... Upper groove portion 55b ... Lower groove portion 57 ... Side concave portion 58 ... First convex portion 59 ... Second convex portion 60 ... Rule marking ruler 61 ... Through hole 65 ... Linear defining portion 66 ... Side wall portion 67 ... engaging convex portion 70a ... apex 80 ... engagement pin 81 ... nut stopper 82 ... shaft 82a ... male thread 83 ... lower end stopper 90 ... wing nut 91 ... holder 92 ... female thread 100 ... ruler 110 ... artificial bone 115 ... artificial bone 200 after processing 200 ... joint part 201 ... first bone 202 ... second bone 203 ... third bone 203a ... chipped part OL ... axis X1 ... cross section

Claims (12)

A ruler used for medical purposes,
A first member having a first scale for measuring a length dimension from a reference point in a ruled object;
An angle member having a first angle scale for measuring an angle around the reference point in the object,
The first member has a flat base portion, and defines a straight line connecting the reference point and the measured position of the first angle scale with respect to the object arranged on the base portion. A scribing machine. The ruler of claim 1, further comprising:
A scriber comprising a second member slidable in a first direction, which is a length direction in which the first scale can be measured, with respect to the first member. A ruler according to claim 2, wherein
The second member is a ruler having a second scale for measuring a length dimension in a second direction which is a direction orthogonal to the first direction from the reference point in the object. The ruler according to claim 2 or 3, further comprising:
A scriber comprising a third member that is slidable in a second direction that is perpendicular to the first direction with respect to the second member and that measures a length in the first direction. A ruler according to any one of claims 1 to 4, wherein
The angle member is a ruler that is detachable from the first member. The ruler according to claim 5, wherein
The angle member has a side surface that comes into contact with the first member. It is a ruler as described in any one of Claim 1- Claim 6,
A scriber in which a distance from a surface of the base portion on which the object is arranged to a surface having the first scale of the first member is 5 mm or more and 20 mm or less. The ruler according to claim 7,
The distance from the surface of the base portion to the surface having the first graduation of the first member, and the distance from the surface of the base portion to the surface of said angle member having a first angle scale, the same distance A ruler. The ruler according to any one of claims 1 to 8, further comprising:
A scriber comprising a linear member having a planar side surface defining the straight line connecting the reference point and the position of the measured angle on the first angle scale. The ruler according to claim 9, wherein
The angle member has an engaging portion that engages with the linear member;
The linear member is a scriber engaged with the engaging portion so as to be movable with respect to the angle member. The ruler according to claim 10, wherein
The scriber is a ruler that is a groove formed in an arc shape centered on the reference point. The scribing device according to any one of claims 1 to 11, further comprising:
A ruler that is disposed on a surface of the first member on which the first scale is formed and has a positioning member that defines the reference point on the first scale.

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