KR101011281B1 - Drilling machine for cubic setting place - Google Patents

Abstract

The present invention relates to a cubic zirconia processing machine for processing the zirconia seated on the outer circumferential surface of the ring to be fixed, by processing the zirconia on the outer surface of the ring for a long time by a skilled artisan, safety accidents and personnel cost increase problem and the best Even a skilled worker is unable to precisely space an algae on the outer curved surface. Technical problem of drilling process, and the ring cast as an alternative to such drilling process has low hardness due to air bubbles in the tissue and poor product quality due to poor gloss. It is possible to make the same drilling process irrespective of the material by making the same manufacturing process irrespective of the material. High added value due to precisely spaced drilling It can produce high-quality rings, and even beginners, not skilled to enable the fast and secure processing features to provide a cubic aljari processing machines which can prevent accidents and labor costs.

The present invention for achieving the above object is the front and rear and by using a rotary lever on the table and the top of the table and the drill head for transmitting the power of the motor to the rotating shaft while the vertical movement by the operating lever along the support and the support from the bottom In the cubic zirconia processing machine comprising a drilling machine consisting of a front and rear and left and right transfer bed stacked in a block form for reciprocating from side to side, semi-circular through extending from the back of the front and rear and left and right transfer bed (13a) (13b) A first rotation shaft locking part 20 formed of two pieces formed to face the ball and a locking lever 21 screwed through the tube to fix the first rotation shaft 22 seated in the semi-circular through hole; A first angle gauge 30 formed at a rear end of the first rotation shaft 22 in a cylindrical shape engraved on an outer circumferential surface thereof; One end of the front side of the first rotary shaft 22 is formed to extend perpendicularly to the axial direction of the first rotary shaft 22 to fix the ring to one end thereof by opening and closing the first rotary shaft locking part 20. A main shaft body 40 formed to be fixed after rotation at an angle; A powder collecting box 50 formed to surround the main shaft body 40 while forming a transparent box shape having only an upper portion fixed to an upper surface of the left and right transfer beds 13b to accumulate precious metal powder to be cut during ring processing; Regarding the cubic alzari processing machine comprising a as the technical gist.

Cubic Alzilla, Spindle Body, Clamp, Clamp Screw, Jig

Description

Cubic Alzali Processing Machine {DRILLING MACHINE FOR CUBIC SETTING PLACE}

The present invention relates to a cubic zirconia processing machine for processing the algi to be fixed to the cubic is seated on the outer circumferential surface of the ring, more specifically, the safety accident and labor costs by processing the zirconia on the outer surface of the ring for a long time by a conventional skilled worker As a result of the technical problem of drilling, which is not possible to raise the algae on the outer surface accurately evenly with the rising problem and even the best skilled workers, and the ring cast as an alternative to such drilling, the hardness is low due to the air bubbles in the tissue and it is not good to be polished. The problem of deterioration and the problem that the manufacturing method is different due to the characteristics of the precious metal material cannot be processed simultaneously.The same drilling process is possible regardless of the material, so that the structure is solid, the light is good, the compatibility is good, and the outer curved surface It is possible to drill at equal intervals precisely with shaving of side and predetermined angle High value-added high-quality ring can be manufactured, and even beginners who are not skilled workers can provide fast and safe processing to provide a cubic alzari processing machine that can prevent accidents and reduce labor costs.

In general, rings are made of precious metals, and various kinds of natural gemstones such as diamonds, rubies and sapphires, synthetic gemstones and artificial gemstones such as zirconia, YAG, GGG, strontium titanate, glass, plastic, ceramics, etc. It adds aesthetics by imposing a number of imitation gems that mimic the shape only and diffusely reflecting light of various colors.

In this way, a small jewel that is inlaid on the surface of ornaments such as rings, necklaces, and earrings is usually called cubic.

However, in order to embed such a small cubic on the surface of the ring, you need to process an egg that can insert a cubic in the original (rubber) or the product itself. Cubic Alzari processing is a drilling method and a casting method, as shown in Figure 9, the drilling method is to first drill the bottom diameter of the small diameter to be penetrated for the inflow of light, and then the diameter is larger than the bottom surface It is processed by performing a cubic seat drilling process in which the cubic is inclined at a predetermined angle toward the center.

However, this drilling method has some problems.

First, it is very difficult to divide and process the outer circumferential surface of the ring at equal intervals.

Even if it is a skilled skilled worker, it is very difficult not only to divide and process the outer circumferential surface of a ring-shaped ring at equal intervals, but also to precisely process it.

Second, it is impossible to machine the outer peripheral surface inclined at a predetermined angle of the ring. In addition, it was not possible to machine the surface if the side was curved.

Conventionally, it is possible for a skilled worker to process an egg on the center or plane side of the outer circumferential surface of a ring. Do.

In addition, when the cross-sectional shape of the ring is curved, the machining itself is very difficult or impossible due to the sliding of the drill.

Third, when drilling the ring, the number of processes is large because the first bottom drilling and the second cubic seat drilling work.

First, the conventional work of holding the correct position by the first lower surface drilling operation, and performing the second cubic seat drilling using the diameter drilled in the lower surface drilled through hole, has to be performed twice and the work of replacing the tool, etc. There was a problem because the efficiency is low.

Fourth, even a skilled skilled worker is very dangerous due to grasping the ring with one hand and drilling tool with the other hand.

Drilling tools for metalworking are not only very sharp, but also turn very quickly, so the risk of safety accidents is very high.

By the way, in the case of ring ring processing, the work is rotated at equal intervals or in the case of the work tilted at a predetermined angle, it is more dangerous to hold the ring by hand because it requires a delicate work.

Fifth, if the same ring is repeatedly produced, even a skilled skilled worker can not continue to produce the same quality ring, there was a problem that can not guarantee the quality.

Sixth, there was a problem in that the same processing work differently for each material, the characteristics are very different depending on the material of the ring.

Skilled workers should work very carefully by varying the degree and speed of pressing force depending on the material of the ring. If the wrong characteristics of the material, there is a risk that the ring during operation.

Due to the problems listed above, after making the original (rubber) of the ring, the casting mold is selected by floating the mold.

However, the precious metal products such as rings produced by casting work have a lot of bubbles inside the tissue after the casting work, so that the tissue is not hard, and there is a problem that the light does not shine even when the work is performed to shine during finishing processing.

The present invention is devised to solve the conventional problems as described above, by processing the seat on the outer surface of the ring for a long time by the conventional skilled workers safety accidents and labor costs, even the best skilled workers evenly spaced on the outer surface It is not possible to machine the algae with the technical problem of drilling, and the ring cast as an alternative to such drilling is manufactured according to the problem of low hardness and poor gloss due to air bubbles in the tissue and the deterioration of merchandise and the characteristics of precious metal materials. Different methods are used to improve the problem that simultaneous machining is not possible, and the same drilling process is possible regardless of the material, so that the structure is solid, the light is good, the compatibility is excellent, and the outer surface as well as the side and the predetermined angle are precisely spaced. It is possible to manufacture high quality rings with high added value Providing even the novice cubic aljari machined to the accident prevention and labor savings can be processed fast and secure non-relevant ball has its purpose.

The present invention for achieving the above object is a front and rear by using a rotary lever on the table and the top of the table and the drill head for transmitting the power of the motor to the rotating shaft while the vertical movement by the operating lever along the support and the support from the bottom And a drilling machine comprising a front and rear and left and right conveying beds stacked in a block form reciprocating from side to side, wherein the front and rear and left and right conveying beds 13a and 13b extend upwards from the rear surface of the semicircular shape. A first rotation shaft locking part 20 formed of two pieces formed so that the through holes face each other and a locking lever 21 screwed through them to fix the first rotation shaft 22 seated in the semi-circular through hole; A first angle gauge 30 formed at a rear end of the first rotation shaft 22 in a cylindrical shape engraved on an outer circumferential surface thereof; One end of the front side of the first rotary shaft 22 is formed to extend perpendicularly to the axial direction of the first rotary shaft 22 to fix the ring to one end thereof by opening and closing the first rotary shaft locking part 20. A main shaft body 40 formed to be fixed after rotation at an angle; Powder collection box 50 is formed to surround the main shaft body 40 to form a transparent box shape only the upper portion fixed to the upper surface of the left and right transfer bed 13b to accumulate the precious metal powder to be cut during the ring processing The object is achieved by providing a cubic albic processing machine comprising;

In addition, in the cubic zirconia processing machine, the main shaft body 40 is formed to extend at one end for fixing the ring, the first tapered portion 41a is reduced to a predetermined slope is formed and the first female screw portion at the end A clamp 41 on which a 41b is formed; The second and third taper portions 42a and 42b are formed in a cylindrical shape in which one side is cut in close contact with the inner surface of the ring, and both openings are reduced inwardly with a predetermined slope, and the same slope as the clamp 41 is formed. Jig 42 formed; The first male thread portion 43a corresponding to the first female thread portion 41b of the clamp 41 is formed to have a predetermined length, and the fourth taper portion 43b is formed to be expanded to the same slope as the clamp 41. A protrusion is formed on the outer circumferential surface and a clamp screw 43 integrally formed with a cylindrical screw portion 43c having a hexagonal wrench groove at an end thereof.

Further, in the cubic zirconia processing machine, the clamp (41) is extended from the center of rotation to the back side and coupled to the center of the split gear (44) embedded in the main shaft body (40); A disk-shaped dial 45 having a rotational unevenness formed on an outer circumferential surface thereof, and a second male screw portion 45a formed at the center thereof is screwed to the second female screw portion 44a formed at the center of the dividing gear 44; A ball-shaped locking hole 46 is installed in the main shaft body 40 so as to interfere with the teeth of the cog wheels of the split gear 44 so that the cog wheels of the dividing gear 44 rotates; When the dial 45 is rotated, the teeth of the cog wheels of the split gear 44 are rotated one by one, thereby being caught by the catch 46, so that the outer circumferential surface of the ring is equally spaced using the number of cog wheels of the split gear 44. It is preferable that it can be easily divided into.

In addition, in the cubic zirconia processing machine, the push bar 47 is installed in the main shaft body 40 in a linear elastic motion by the spring 47c in the tangential direction of the cog wheel of the split gear 44. Each time the pressing portion 47a formed in the shape of a button is pressed, the projection 47b at the other end is preferably formed to push and rotate the teeth of the gear one by one.

Further, in the cubic zirconia processing machine, a bar 12d is formed to extend from a lower side of the drill head 12; By installing the measuring projection of the dial gauge 60 extending from the table or the first rotating shaft locking portion 20 of the drilling machine so as to contact the bar 12d; It is preferable that the drill head descends and the drill 12e fixed to the chuck of the rotating shaft can measure the depth at which the outer peripheral surface of the ring is processed.

Further, in the cubic zirconia processing machine, the operating lever of the drill head is formed to be rotatably connected to a second angle gauge (12a1) formed in a cylindrical shape engraved on the outer circumferential surface; It is preferable that the angle at which the operating lever is rotated can be accurately measured.

In addition, in the cubic zirconia processing machine, the illumination magnifier 70 is fixed to the upper side of the drill head, the magnifier 71 is installed at the center, and the illumination 72 is installed at the bottom along the edge thereof. To form; It is desirable to be able to work more precisely.

The effects of the present invention are as follows.

Regardless of the material, the same drilling process is possible, so that the structure is hard, the light is good, the compatibility is excellent, and the outer surface as well as the side and the predetermined angle can be drilled at equal intervals. It is a very useful invention that can provide a cubic egg processing machine that can be safe and prevent accidents and reduce labor costs even for beginners can be fast and safe processing.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, Figure 1 is a side schematic view showing the configuration of the embodiment to which the present invention is applied, Figure 2 is a front schematic view showing the configuration of the embodiment to which the present invention is applied, Figure 3 is an exploded front view of the configuration of the main shaft body of the embodiment to which the present invention is applied 4 is an exploded schematic view showing a state in which the ring is closely fixed when the main shaft body is coupled to the embodiment to which the present invention is applied, and FIG. 5 is a drilling state of the main spindle body to the embodiment to which the present invention is applied and an operation structure of the split gear. Figure 6 is a schematic view, Figure 6 is a schematic view showing a state of processing a ring at a predetermined angle of inclination of an embodiment to which the present invention is applied, Figure 7 is a split gear of an embodiment to which the present invention is applied, the teeth are rotated by a push bar one by one. Figure 8 is a schematic view, Figure 8 is a perspective and planar view showing the appearance of a cubic zodiac processed ring in an embodiment to which the present invention is applied A.

The cubic zirconia processing machine 1 of the present invention includes a first rotating shaft locking unit 20, a main shaft body 40, a powder collection box 50, and an illumination magnifying glass 70 in a drilling machine 10.

The conventional drilling machine 10 has a drill head for transmitting the power of the motor to the rotating shaft while moving up and down by the operation lever along the support, a table for supporting the support from the bottom, and the front and rear using the rotation lever on the table. And it consists of a front and rear and left and right transfer bed laminated in the form of blocks reciprocating from side to side.

Next, the first rotation shaft locking portion 20 extends upwardly from the rear surfaces of the front and rear and left and right transfer beds 13a and 13b, but has two pieces formed so that the semi-circular through holes face each other and a locking lever for screwing through them. A first angle formed with a cylindrical shape formed on the outer circumferential surface of the first rotating shaft 22 and fixed to the semi-circular through hole, and having an angle measuring scale formed at an end of the rear side of the first rotating shaft 22. Gauge 30 is provided.

Next, the main shaft body 40 is formed so as to extend vertically with respect to the axial direction of the first rotation shaft 22 at one end of the front side of the first rotation shaft 22 to fix the ring at one end thereof to the first rotation shaft. By opening and closing the locking portion 20 is formed to be fixed after rotation at a predetermined angle.

Next, the powder collection box 50 is a transparent box-shaped open only the upper portion fixed to the upper surface of the left and right transfer bed (13b) to accumulate the precious metal powder to be cut during the ring processing, the main shaft body 40 It is formed to surround.

In addition, the main shaft body 40, the first tapered portion (41a) is formed extending to one end for fixing the ring is reduced to a predetermined slope is formed in the end of the clamp (41) 41); The second and third taper portions 42a and 42b are formed in a cylindrical shape in which one side is cut in close contact with the inner surface of the ring, and both openings are reduced inwardly with a predetermined slope, and the same slope as the clamp 41 is formed. Jig 42 formed; The first male thread portion 43a corresponding to the first female thread portion 41b of the clamp 41 is formed to have a predetermined length, and the fourth taper portion 43b is formed to be expanded to the same slope as the clamp 41. A projection screw is formed on the outer circumferential surface and a clamp screw 43 integrally formed with a cylindrical screw portion 43c provided with a hexagon wrench groove 43d at an end thereof.

In addition, the clamp 41 is extended from the center of rotation to the rear side and coupled to the center of the split gear 44 in the main shaft body 40; A disk-shaped dial 45 having a rotational unevenness formed on an outer circumferential surface thereof, and a second male screw portion 45a formed at the center thereof is screwed to the second female screw portion 44a formed at the center of the dividing gear 44; A ball-shaped locking hole 46 is installed in the main shaft body 40 so as to interfere with the cog wheels of the split gear 44 so that the cogwheel of the split gear 44 rotates; When the dial 45 is rotated, the teeth of the cog wheels of the split gear 44 are rotated one by one, thereby being caught by the catch 46, so that the outer circumferential surface of the ring is equally spaced using the number of cog wheels of the split gear 44. It can be easily divided into

In addition, while the push bar 47 is installed in the main shaft body 40 in a linear elastic motion by the spring 47c in the tangential direction of the cogwheel of the split gear 44, the push portion 47a formed in a button shape at one end thereof. Each time pressing), the other end of the projection 47b is formed to rotate by pushing the teeth of the gear one by one.

In addition, a bar 12d is formed to extend from the lower side of the drill head 12; By installing the measuring projection of the dial gauge 60 extending from the table or the first rotating shaft locking portion 20 of the drilling machine so as to contact the bar 12d; As the drill head descends, the drill 12e fixed to the chuck of the rotating shaft can measure the depth of processing the outer circumferential surface of the ring.

In addition, the operating lever of the drill head is formed so that the angle measuring scale is rotatably connected to the second angle gauge (12a1) formed in a cylindrical shape engraved on the outer peripheral surface; The angle of rotating the operating lever can be measured precisely.

In addition, by forming an illumination magnifying glass 70 is fixedly stretchable on the upper side of the drill head, the magnifier 71 is installed at the center and the illumination 72 is installed at the bottom along the edge thereof; More precise work is possible.

Hereinafter, the present invention will be described in detail through preferred embodiments. However, the present embodiments should be understood to explain the present invention in a better way, and should not be construed as limiting the present invention thereto.

Example 1

As shown in Figure 1 to 2 of the cubic azure processing machine 1 of the present invention is a conventional drilling machine 10, the first rotating shaft locking portion 20, the main shaft body 40 and the powder collection box 50 and It further comprises an illumination magnifying glass 70.

The drilling machine 10 is a bottom surface of the drill head 12 and the support 11 for transmitting the power of the motor 12b to the rotating shaft 12c while moving up and down by the operation lever 12a along the support 11. Front and rear and right and left transfer bed (13a) (13b) stacked in the form of a block to reciprocate back and forth and left and right by using a rotary table 13c (13d) on the table 13 and the table 13 supported by the It consists of.

First, as shown in FIG. 2, two pieces extending upward from the rear surface of the upper side of the left and right transfer bed 13b (left side in FIG. 1) are formed so that the semi-circular through-holes 23 face each other and are screwed therethrough. Is formed of a locking lever 21 to form a first rotating shaft locking portion 20 for fixing the first rotating shaft 22 seated in the semi-circular through hole (23).

Next, as shown in FIGS. 1 and 2, one end of the front side of the first rotation shaft 22 is formed to extend perpendicularly to the axial direction of the first rotation shaft 22 to fix the ring at one end thereof. 1 by rotating the rotation shaft locking portion 20 to form a main shaft body 40 is formed to be fixed after the rotation at a predetermined angle.

As shown in Figures 3 to 4, the main shaft body 40 is formed to extend at one end for fixing the ring, the first tapered portion 41a is reduced to a predetermined slope is formed and the first female screw portion 41b at the end Clamp 41 is formed; The second and third taper portions 42a and 42b are formed in a cylindrical shape in which one side is cut in close contact with the inner surface of the ring, and both openings are reduced inwardly with a predetermined slope, and the same slope as the clamp 41 is formed. Jig 42 formed; The first male thread portion 43a corresponding to the first female thread portion 41b of the clamp 41 is formed to have a predetermined length, and the fourth taper portion 43b is formed to be expanded to the same slope as the clamp 41. A protrusion is formed on the outer circumferential surface and a clamp screw 43 integrally formed with a cylindrical screw portion 43c having a hexagonal wrench groove at an end thereof so as to include a ring having an inner diameter of a predetermined size in the jig 42. Insert one side of the jig 42 into the clamp 41, and then put the clamp screw 43 on the other side and screwed.

As shown in FIG. 4, as the clamp screw 43 is tightened to the clamp 41 side, the second and third taper portions 42a and 42b are reduced in a predetermined slope inwardly in both openings of the jig 42. ) Is opened by the clamp 41 and the first and fourth taper portions 43b of the clamp screw 43, and the jig 42 having one side cut out is continuously enlarged to securely close the inner surface of the ring A. Will be done.

The jig 42 is preferably made of a plurality of different outer diameter so that all can be applied to No. 1 to No. 30 in accordance with the inner diameter size of the ring.

In addition, as shown in FIG. 2, the first angle gauge 30 is formed at one end of the rear side of the first rotation shaft 22 in a cylindrical shape engraved on an outer circumferential surface thereof, and the first rotation shaft is formed. When releasing the locking portion 20 and rotating the main shaft body 40 at a desired angle, the first angle gauge 30 can be precisely rotated while looking at the first angle gauge 30. After the precision is rotated through the first angle gauge 30, the angle is fixed by tightening by rotating the first rotation shaft locking part 20 in reverse.

When the ring is processed in a state rotated at a predetermined angle, as shown in FIG. 6, the inclined side may be processed among the outer surfaces of the ring.

By the way, since the main shaft body 40 for fixing the drill 12e and the ring is processed in a stable state, there is no slip, and the ring of high quality can be manufactured by processing precisely and accurately.

Next, the clamp 41 is extended from the center of rotation to the rear side and coupled to the center of the split gear 44 in the main shaft body 40, and the second female screw portion formed at the center of the split gear 44. A second male threaded portion 45a screwed to the 44a is formed at the center thereof, and a disk-shaped dial 45 is formed on the outer circumferential surface thereof, and the gear wheel of the split gear 44 rotates. A ball-shaped locking hole 46 is installed in the main shaft body 40 so as to interfere with the cog wheels of the split gear 44 so that the 44 44 is engaged. When the dial 45 is rotated, the teeth of the split gear 44 are rotated. As the teeth of the wheel are rotated one by one, the locking holes 46 are locked, so that the outer circumferential surface of the ring can be easily divided at equal intervals by using the number of gears of the split gear 44.

For example, the number of teeth of the split gear 44 used in this embodiment used 30 pieces as shown in FIGS. 5 and 7.

In this case, in the case of forming the cubic eggshell by dividing the outer diameter of the ring by 30, the dial 45 is rotated and " clicked " while being rotated until a catch is generated in the catch 46, and thus every one-third divided position. If you want to form a cubic eggshell by fifteen divisions, turn the dial 45 to "click" and turn it twice until a jam occurs in the catch 46. If you want to divide 10 times, if you want to divide 10 times, turn the dial 45 to "click" and turn it three times until a jam occurs. If you turn the dial (45) five times until you hear a "click" to rotate every sixth divided position, if you want to divide five times to "click" if you turn six times Position divided by one Is being rotated, if you want to 3 divided by turning the dial 45 is turning 10 times, until a "click" sound will be rotated each day divided into a position one-third.

Of course, when a different division is required, the number of cog wheels of the division gear 44 may be changed to another division gear, thereby allowing infinite deformation.

In addition, while the push bar 47 is installed in the main shaft body 40 in a linear elastic motion by the spring 47c in the tangential direction of the cogwheel of the split gear 44, the push portion 47a formed in a button shape at one end thereof. Each time pressing the), the other end of the projection (47b) is formed so as to push the teeth of the gear one by one to rotate, so that each time the pressing portion (47a) is pressed without rotating the dial (45) manually Can be. In addition, the pressing portion 47a is also configured to be pushed automatically whenever the drill head 12 is lowered by being formed by extending the extension bar to the pressing portion 47a at the bottom of the bar 12d rather than manually. can do.

In addition, a powder collecting box 50 surrounding the main shaft body 40 is formed in a transparent box shape in which only an upper portion fixed to the upper surface of the left and right transfer beds 13b is accumulated so as to accumulate precious metal powder cut during ring processing. Thus, the ring made of precious metals can be collected and recycled so as not to lose the crushed powder when processing the cubic azure.

In addition, the bar 12d is formed to extend from the lower side of the drill head 12, the measuring projection of the dial gauge 60 is formed to extend from the table or the first rotating shaft locking portion 20 of the drilling machine By installing the drill head 12d in contact with the bar 12d, the drill 12e fixed to the chuck of the rotating shaft can accurately measure the depth at which the outer circumferential surface of the ring is machined to produce a more precise and high quality ring. It becomes possible.

In addition, the operating lever 12a of the drill head 12 is formed so as to be rotatably connected to the second angle gauge (12a1) formed in a cylindrical shape engraved on the outer peripheral surface, the operating lever (12a) It is possible to accurately measure the angle of rotation.

It is possible to process carefully while precisely measuring the degree of rotation of the operating lever 12a and the machining depth of the drill 12e, so that the same machining can be performed regardless of the material.

In addition, by forming an illumination magnifier 70 which is fixed to the upper one side of the drill head and is provided with a magnifier 71 at the center and the lighting 72 is installed at the bottom along the edge thereof. It is possible.

Looking at the ring processed using the cubic azure processing device 1 of the present invention as described above, for example, as shown in Figure 8 (a) is a ring processing the outer peripheral surface center and side center portion of the cylindrical ring, ( b) is the ring with the 45 ° inclined edge centered and 45 ° inclined edge, and (c) the outer periphery of the ring with rounded edges and the rounded ring without slipping I'm showing a processed ring.

In addition, it can be spaced at equal intervals by precise division, and stable machining allows drilling and cubic seat drilling at the same time, thus improving work efficiency and learning how to use the processing device of the present invention. It is a very useful invention that can be repeatedly processed.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

The effects of the present invention that can be expected by the configuration and action as described above are as follows.

As a conventional skilled worker processes an egg on the outer surface of the ring for a long time, it is a technical problem of the drilling process that it is impossible for the safety accident and labor cost increase and even the best skilled worker to accurately process the egg on the outer surface at equal intervals. As an alternative, the cast ring has a low hardness and poor light due to bubbles in the tissue, and the merchandise deteriorates, and the manufacturing method varies depending on the characteristics of the precious metal material. The same drilling process is possible, so the structure is hard, the light is good, the compatibility is good, and the outer surface as well as the side and the predetermined angle can be drilled at equal intervals, so that it is possible to manufacture high quality rings with high added value. Even quick and safe processing is possible to prevent accidents and It is a very useful invention that can provide a cubic egg processing machine that can reduce labor costs.

1 is a side schematic view showing the configuration of an embodiment to which the present invention is applied

Figure 2 is a front schematic view showing the configuration of an embodiment to which the present invention is applied

3 is an exploded front view of the configuration of the main shaft body of the embodiment to which the present invention is applied;

Figure 4 is an exploded schematic view showing a state in which the ring is fixed in close contact when the main shaft body of the embodiment to which the present invention is applied

Figure 5 is a schematic diagram showing the operating state of the drilling state and the split gear of the main spindle body of the embodiment to which the present invention is applied

Figure 6 is a schematic diagram showing a state of processing the ring at a predetermined angle of inclination of the embodiment to which the present invention is applied

Figure 7 is a schematic diagram showing a state in which the teeth are rotated one by one by the push bar divider gear of the embodiment to which the present invention is applied.

Figure 8 is a perspective and plan view showing a state of the cubic alzari processed ring in an embodiment to which the present invention is applied

<Description of the symbols for the main parts of the drawings>

1: Cubic Egg Processing Machine A: Ring

10: drilling machine 11: prop

12: drill head 12a: operating lever

12a1: second angle gauge 12b: motor

12c: axis of rotation 12d: bar

12e: Drill 13: Table

13a, 13b: front and rear and right and left transfer bed 13c, 13d: rotary lever

20: first rotating shaft locking portion 21: locking lever

22: first rotating shaft 23: semi-circular through hole

30: first angle gauge 40: main shaft body

41: clamp 41a: first tapered portion

41b: 1st female thread part 42: jig

42a, 42b: second and third taper portions 43: clamp screw

43a: first male thread portion 43b: fourth taper portion

43c: thumbscrew 43d: hexagonal wrench groove

44: Split Gear 44a: Second Female Thread

44b: tooth 45: dial

45a: second male thread 46: latch

47: push bar 47a: pressing part

47b: projection 47c: spring

50: Powder Collection Box 60: Dial Gauge

70: lighting magnifier 71: magnifying glass

72: lighting

Claims (7)

In the form of a block in which the drill head transfers the power of the motor to the rotating shaft while moving up and down by the operation lever along the support, the table supporting the support from the bottom, and the block lever reciprocating back and forth and left and right using the rotary lever at the top of the table. In the cubic zirconia processing machine comprising a drilling machine consisting of laminated front and rear and right and left transfer bed, Two pieces extending upwardly from the rear surface of the front and rear and right and left conveying beds 13a and 13b, the semicircular through-holes facing each other, and locking levers 21 screwed through them, are seated in the semi-circular through-holes. A first rotation shaft locking part 20 for fixing the first rotation shaft 22; A first angle gauge 30 formed at a rear end of the first rotation shaft 22 in a cylindrical shape engraved on an outer circumferential surface thereof; One end of the front side of the first rotary shaft 22 is formed to extend perpendicularly to the axial direction of the first rotary shaft 22 to fix the ring to one end thereof by opening and closing the first rotary shaft locking part 20. A main shaft body 40 formed to be fixed after rotation at an angle; A powder collecting box 50 formed to surround the main shaft body 40 while forming a transparent box shape having only an upper portion fixed to an upper surface of the left and right transfer beds 13b to accumulate precious metal powder to be cut during ring processing; Cubic azure processing machine comprising a. The method of claim 1, wherein the main shaft body 40, A clamp 41 extending in one end to fix the ring and having a first tapered portion 41a reduced in a predetermined slope, and a first female screw portion 41b formed at an end thereof; The second and third taper portions 42a and 42b are formed in a cylindrical shape in which one side is cut in close contact with the inner surface of the ring, and both openings are reduced inwardly with a predetermined slope, and the same slope as the clamp 41 is formed. Jig 42 formed; The first male thread portion 43a corresponding to the first female thread portion 41b of the clamp 41 is formed to have a predetermined length, and the fourth taper portion 43b is formed to be expanded to the same slope as the clamp 41. And a clamp screw (43) having a protrusion formed on an outer circumferential surface thereof and having a cylindrical hand screw portion (43c) provided with a hexagon wrench groove at an end thereof. The method of claim 2, The clamp 41 is extended from the center of rotation thereof to the rear side and coupled to the center of the split gear 44 in the main shaft body 40; A disk-shaped dial 45 having a rotational unevenness formed on an outer circumferential surface thereof, and a second male screw portion 45a formed at the center thereof is screwed to the second female screw portion 44a formed at the center of the dividing gear 44; A ball-shaped locking hole 46 is installed in the main shaft body 40 so as to interfere with the cog wheels of the split gear 44 so that the cogwheel of the split gear 44 rotates; When the dial 45 is rotated, the teeth of the cog wheels of the split gear 44 are rotated one by one, thereby being caught by the catch 46, so that the outer circumferential surface of the ring is equally spaced using the number of cog wheels of the split gear 44. Cubic azure processing machine, characterized in that it can be easily divided into. The method of claim 3, wherein In the tangential direction of the cogwheel of the split gear 44, the push bar 47, which is a linear elastic movement by the spring 47c, is installed in the main shaft body 40. A cubic egg processing machine, characterized in that the protrusion (47b) of the other end is formed so as to push and rotate the teeth of the gear one by one each time it is pressed. The method of claim 1, A bar 12d is formed to extend from a lower side of the drill head 12; By installing the measuring projection of the dial gauge 60 extending from the table or the first rotating shaft locking portion 20 of the drilling machine so as to contact the bar 12d; And a drill (12e) fixed to the chuck of the rotating shaft to measure the depth at which the drill head descends to process the outer circumferential surface of the ring. The method of claim 1, The operating lever of the drill head is formed to be rotatably connected to a second angle gauge (12a1) formed in a cylindrical shape engraved on the outer peripheral surface of the angle measuring scale; Cubic azure processing machine, characterized in that to accurately measure the angle to rotate the operating lever. The method of claim 1, Forming an illumination magnifying glass 70 which is fixedly extendable on an upper side of the drill head, a magnifier is installed in the center, and illuminates on the bottom along its edge; Cubic Alzali processing machine, characterized in that more precise work.

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