KR102371353B1 - Angle head with 2-way machining - Google Patents

Abstract

The present invention relates to an angle head capable of performing two-way machining. Used are a first shaft spindle and a second shaft spindle which are provided on both sides of a horizontal portion of a housing for an installation space and of which rotatably facing ends are interconnected. While the other end of the first shaft spindle is inserted into the other end of the second shaft spindle by a length by a stop nut, and the interconnected state thereof is maintained without change, the first shaft spindle and the second shaft spindle are fixed and installed so that the interconnected state is maintained while pulling force using fastening of a pulling bolt is acting thereon. Thus, unlike the conventional angle head in which only a single cutting tool was mounted, cutting tools are mounted in the first shaft spindle and the second shaft spindle, so that both sides of a workpiece can be machined without replacing the cutting tools, and work efficiency and productivity can be increased. Through the structure of the stop nut and the pulling bolt, the first shaft spindle and the second shaft spindle for coaxial rotation for two-way machining can be connected and installed stably and easily. A first stopper bolt having one end connected to the screw hole of the first shaft spindle through fastening, and a second stopper bolt having one end connected to the pulling bolt in the second shaft spindle through fastening, can be used to inhibit a connected end of a cutting tool from entering a predetermined distance when the cutting tool is installed through the first stopper bolt or the second stopper bolt, and thus the cutting tool can be stably installed.

Description

Angle head with 2-way machining

The present invention relates to an angle head capable of bidirectional machining, and more particularly, a first shaft spindle and a second shaft spindle whose ends rotatably opposite to each other are connected to each other from both sides of a horizontal portion with respect to the installation space of the housing are applied. , in a state in which the other end of the first shaft spindle is inserted for a predetermined length into the other end of the second shaft spindle by a stop nut and the interconnected state is maintained without change, a pulling force is applied through the fastening of the pulling bolt to the first shaft By being fixedly installed so that the connection between the spindle and the second shaft spindle is maintained, cutting tools are mounted on the first and second shaft spindles, respectively, and unlike the conventional single cutting tool, there is no need to replace the cutting tool. It enables work on both sides of the workpiece to improve work efficiency and significantly increase productivity, while coaxial rotation of the first and second shaft spindles for bidirectional work through the stop nut and pull bolt structure The connection installation can be made stably and easily, and in addition, the first stopper bolt, one end of which is connected to the screw hole of the first shaft spindle, and the pull bolt in the second shaft spindle, and the second end are connected through the fastening. By applying the 2 stopper bolts, the first stopper bolt or the second stopper bolt prevents entry of more than a certain distance from the connected end when the cutting tool is installed, so that the cutting tool can be mounted stably. It's about the head.

In general, the angle head is a key part in machine tools and is used when adding shafts.

That is, the machine tool is divided into a vertical type and a horizontal type according to whether the main axis (tool direction) is formed in a vertical or horizontal direction with the table.

In the case of the horizontal type as described above, the angle head, which is mounted on the spindle of the machine tool and used when performing horizontal inner diameter machining on the structure of the workpiece, is a milling machine for machining the inner diameter of the metal bearing used in the grinding machine spindle. After modifying the back so that the bar protrudes vertically, the tool is mounted horizontally on the tip to transmit rotational force and process the workpiece.

When the cutting operation of the workpiece as described above is adopted, a separate index device must be installed in the milling machine, which is a machine tool, to control an arbitrary position, and the machining range of the inner diameter is limited, so only the size of the designated inner diameter is used. It has a disadvantage that it has a structure that cannot be applied to various cutting operations of the workpiece.

Therefore, the current machine tool manufacturer is in a situation in which it is not possible to secure various types of spindle structures for machine tool grinding machines due to difficulties in machining due to structural limitations of metal bearings used in grinding machines.

Moreover, the conventional angle head having various types of structures as well as the above structure has a limitation in that the cutting tool is usually mounted on only one side, for example, the inner side of the workpiece or the machining of one side of the inner diameter. After this is completed, the angle head is rotated to complete the machining of the other non-cut inner side or the other inner diameter side.

In case of the above process, the conventional angle head stops the operation for a certain period of time after the cutting tool cutting operation is completed, and then either removes the cutting tool from the angle head and mounts it on the other side, or rotates the angle head itself to remove the cutting tool. After the position displacement operation process, the uncut surface of the workpiece is processed.

That is, the conventional angle head has a problem in that the operation is stopped while the cutting tool is rotated or removed and installed as described above, and the replacement operation of the cutting tool is cumbersome, thereby reducing the efficiency or productivity of the operation.

Therefore, it is possible to work on both sides of the workpiece without replacing the cutting tool, so that the work efficiency and productivity can be significantly increased, while the connection for coaxial rotation for a pair of spindle shafts for bidirectional work It can be installed stably and easily, and research and development are required for an angle head that prevents the cutting tool from entering the connected end more than a certain distance during installation so that the cutting tool can be stably mounted. .

Republic of Korea Patent Registration No. 1867211 2018.06.05. registration. Republic of Korea Patent Publication No. 2019-0001137 2019.01.04. open. Republic of Korea Patent Publication No. 2014-0144917 2014.12.22. open. Republic of Korea Patent Registration No. 1169559 2012.07.23. registration. Republic of Korea Patent No. 0859348 2008.09.12. registration.

In order to solve the above problems, the present invention is applied to a first shaft spindle and a second shaft spindle whose ends rotatably opposite to each other are interconnected from both sides of a horizontal portion of the installation space of the housing, and are formed by a stop nut. In a state in which the other end of the first shaft spindle is inserted for a predetermined length into the other end of the second shaft spindle and the interconnected state is maintained without change, a pulling force is applied through the fastening of the pull bolt, and the first shaft spindle and the second shaft By being fixedly installed so that the connection state of the spindle is maintained, cutting tools are mounted on the first and second shaft spindles respectively, and unlike the conventional single cutting tool, there is no need to replace the cutting tool. An object of the present invention is to provide an angle head capable of bi-directional machining that enables work to improve work efficiency and significantly increase productivity.

Another object of the technology according to the present invention is that the other end of the first shaft spindle is inserted for a predetermined length into the other end of the second shaft spindle by a stop nut, and in a state in which the interconnected state is maintained without change, through the fastening of the pull bolt Coaxial rotation with respect to the first shaft spindle and the second shaft spindle for bidirectional operation through the stop nut and pull bolt structure by being fixedly installed so that the connection state of the first shaft spindle and the second shaft spindle is maintained while a pulling force is applied The purpose is to ensure that the connection and installation can be made reliably and easily.

Another object of the technology according to the present invention is a first stopper bolt having one end connected to the screw hole of the first shaft spindle through fastening and a pulling bolt in the second shaft spindle and a second stopper bolt having one end connected through fastening By being applied, the first stopper bolt or the second stopper bolt prevents the cutting tool from entering by more than a certain distance with respect to the connected end when the cutting tool is installed, so that the cutting tool can be stably mounted.

The present invention for achieving the above object is as follows. That is, the angle head capable of bidirectional machining according to the present invention is an angle head capable of bidirectional machining used by being mounted on the spindle of a machine tool to perform a cutting operation using a machine tool, and is mounted on the spindle of the machine tool at the upper part. The cone head is protruded, and the lower end of the shaft extending downward from the lower end of the cone head is rotatable through the bearing in the vertical part for the installation space formed in the 'V' shape while both ends of the horizontal part inside are opened. Doedoe, a housing in which a bevel gear is axially installed at the end of the shaft disposed at the lower end of the vertical part of the installation space, and the tool structure hole is formed to communicate with the outside at the lower center in the longitudinal direction with respect to the horizontal part of the installation space; It is provided as a tubular body having a connection part from one side inserted into the installation space toward the other side, a rotating part extending outwardly from the connection part, and a flange part extending outward with a predetermined thickness from the rotating part end, and a screw hole is penetrated inside the connection part Formed, a fitting groove that communicates with the screw hole in the rotating part and expands obliquely outwardly is formed in communication, and a coupling groove that communicates with the fitting groove and extends outwardly in communication with the end at which the flange part of the rotating part is provided is formed in communication, while surrounding the rotating part a first shaft spindle that is rotatably installed through an opening on one side of a horizontal portion of the lower installation space of the housing in a state in which a plurality of bearings are assembled so as to cover the connection part and a spindle bevel gear is assembled to surround the connection part and supported by the tip of the rotating part; It is provided as a tubular body having a connection part from one side inserted into the installation space toward the other side, and a flange part extending outwardly with a predetermined thickness from an end of the connection part, and the connection part of the first shaft spindle is inserted and connected to one side of the connection part by a certain length. A ball is formed, a fastening hole is formed in communication with the end of the connecting hole, a fitting groove that communicates at a distance from the end of the fastening hole and extends obliquely outward is formed in communication, and the end communicates with the fitting groove at the end where the flange part of the connecting part is provided so that the end is cut A coupling groove extending outward is formed in communication, and a coupling screw is formed over a certain length on the outer surface of one side of the connection part, while a plurality of bearings are assembled to surround the flange part side of the connection part, and one side of the stop nut is attached to the coupling screw of the connection part a second shaft spindle in which a horizontal portion of the lower installation space of the housing is rotatably installed through an opening on the other side in this coupled state, and a connection portion of the first shaft spindle is inserted and connected to one side of the connection portion by a predetermined length; Insert the tool through the tool construction hole and rotate the stop nut so that the end of the stop nut facing the first shaft spindle is in close contact with the spindle bevel gear assembled at the connection part of the first shaft spindle, and then the fastening hole of the second shaft spindle and the , A pulling bolt for fixing the first shaft spindle and the second shaft spindle in an interconnected state while one side is fastened over the threaded hole of the first shaft spindle; a collet having one side fitted and fixed to the fitting groove of the first shaft spindle and the fitting groove of the second shaft spindle; and one end portion of the cutting tool is inserted and fixed from one side of the collet to one side of the collet, and the other side of the collet has a predetermined length in the fitting groove of the first shaft spindle and the fitting groove of the second shaft spindle. It consists of a configuration including a tightening nut coupled to the coupling groove of the first shaft spindle and the coupling groove of the second shaft spindle through a predetermined number of rotations in a state to be inserted.

Furthermore, according to the present invention, one end is connected to the screw hole of the first shaft spindle through fastening, and the other end protrudes toward the collet side and pulls in the first stopper bolt and the second shaft spindle to block the side inserted through the collet of the cutting tool. It is preferable that the bolt and one end are connected through fastening, and the other end further includes a second stopper bolt that protrudes toward the collet and blocks the side from being inserted through the collet of the cutting tool.

In addition, when the first shaft spindle rotates, the flange portion of the first shaft spindle engages with each other to have a predetermined gap in the groove and protrusion structure with the periphery of the opening on one side of the installation space of the housing with respect to the flange portion. The flange portion has a guide groove recessed on the surface facing the periphery of the opening on one side of the horizontal portion of the installation space of the housing, while the guide groove of the first shaft spindle is formed around the opening on one side of the horizontal portion of the installation space of the housing. It is preferable that the engaging guide projections are formed to protrude.

In addition, when the second shaft spindle rotates, the flange portion of the second shaft spindle is engaged with each other to have a predetermined gap in the groove and the protrusion structure with the peripheral portion of the other opening of the horizontal portion of the installation space of the housing to rotate. The flange part has a guide groove recessed on the surface facing the periphery of the other opening of the horizontal part of the installation space of the housing, while the guide groove of the second shaft spindle is formed around the opening of the other side of the horizontal part of the installation space of the housing. It is preferable that the engaging guide projections are formed to protrude.

In addition, one or more key grooves are recessed on the outer surface of the connecting portion of the first shaft spindle so that it can be assembled into a key and keyway structure with respect to the assembly of the spindle bevel gear assembled to surround the connecting portion of the first shaft spindle, while the spindle bevel It is preferable that the keyway is also recessed on the inner surface of the gear.

In addition, the first stopper bolt and the second of the pull bolt are connected to one end of the pull bolt disposed in the first shaft spindle through fastening, and the other end protrudes toward the collet side to block the side being inserted through the collet of the cutting tool. It may further include a second stopper bolt having one end connected to the side disposed in the shaft spindle through fastening, and the other end protruding toward the collet side to block the side inserted through the collet of the cutting tool.

The effect of the angle head capable of bidirectional processing according to the present invention will be described as follows.

First, a first shaft spindle and a second shaft spindle whose ends rotatably opposite to each other are interconnected from both sides of a horizontal portion of the installation space of the housing are applied, and the other end of the first shaft spindle is connected to the second shaft by a stop nut In a state in which a certain length is inserted into the other end of the spindle and the interconnected state is maintained without change, a pulling force is applied through the fastening of the pull bolt and the first shaft spindle and the second shaft spindle are fixedly installed so that the connection state is maintained. Unlike the conventional single cutting tool, which is equipped with a cutting tool on the first and second shaft spindles, it is possible to work on both sides of the workpiece without replacing the cutting tool, improving work efficiency and Productivity can be significantly increased.

Second, in a state in which the other end of the first shaft spindle is inserted for a certain length into the other end of the second shaft spindle by the stop nut and the interconnected state is maintained without change, a pulling force is applied through the fastening of the pulling bolt while the first By making the shaft spindle and the second shaft spindle fixedly installed so that the connection state is maintained, the connection installation for coaxial rotation with respect to the first shaft spindle and the second shaft spindle for bidirectional operation through the stop nut and pull bolt structure is stable while can be done easily.

Third, a first stopper bolt having one end connected to the screw hole of the first shaft spindle through fastening, and a second stopper bolt having one end connected to a pull bolt in the second shaft spindle and one end through fastening are applied, so that the first stopper bolt or the second stopper bolt is applied. Stable installation of the cutting tool can be achieved by preventing the 2nd stopper bolt from entering the connected end more than a certain distance when the cutting tool is installed.

1 is a cross-sectional view showing an angle head capable of bidirectional machining according to the present invention, showing an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle are connected to be rotated together.
2 is a partially separated cross-sectional view showing an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle are connected to be rotated together in an angle head capable of bidirectional machining according to the present invention.
3 to 7 are cross-sectional views illustrating the installation state step by step showing the installation state of the shaft spindle in which the first shaft spindle and the second shaft spindle are connected to rotate together in the angle head capable of bidirectional processing according to the present invention.
8 is a cross-sectional view showing a state of use of the angle head capable of bidirectional machining according to the present invention, showing a state in which a cutting tool is mounted on the first shaft spindle and the second shaft spindle, respectively.
9 is a partially separated cross-sectional view illustrating an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle are connected to be rotated together in an angle head capable of bidirectional machining according to another embodiment of the present invention.
10 is a cross-sectional view showing an angle head capable of bidirectional machining according to another embodiment of the present invention, and showing an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle, which are main parts, are connected to rotate together.

Hereinafter, a preferred embodiment of an angle head capable of bidirectional processing according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing an angle head capable of bidirectional machining according to the present invention, showing an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle are connected to be rotated together.

2 is a partially separated cross-sectional view illustrating an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle are connected to be rotated together in an angle head capable of bidirectional machining according to the present invention.

3 to 7 are cross-sectional views illustrating the installation state step by step showing the installation state of the shaft spindle in which the first shaft spindle and the second shaft spindle are connected to be rotated together in the angle head capable of bidirectional processing according to the present invention.

8 is a view showing the use state of the angle head capable of bidirectional machining according to the present invention, and is a cross-sectional view showing a state in which a cutting tool is mounted on the first shaft spindle and the second shaft spindle, respectively.

1 to 8, the angle head capable of bidirectional machining according to a preferred embodiment of the present invention is mounted on the spindle of the machine tool to perform cutting work using the machine tool, and is broadly classified as a housing. 100 , a first shaft spindle 200 , a second shaft spindle 300 , a pull bolt 400 , a collet 600 and a tightening nut 700 .

Specifically, in the housing 100, the cone head 110 mounted on the spindle of the machine tool is formed to protrude from the upper portion, and both ends of the horizontal part inside the lower side are opened to the installation space 120 formed in the shape of an 'X'. The lower end of the shaft 130 extending downwardly from the lower end of the cone head 110 to the vertical portion of the shaft 130 is installed so as to be rotatable through the bearing (B), the shaft 130 disposed at the lower end of the vertical portion of the installation space 120 . ) at the end of the bevel gear 150 is chukseol.

In particular, in the housing 100 , it is preferable that the tool construction hole 120a is formed through the center lower side in the longitudinal direction with respect to the horizontal portion of the installation space 120 to communicate with the outside.

In addition, the first shaft spindle 200 includes a connection part 210 from one side inserted into the installation space 120 toward the other side, a rotating part 220 extending outwardly from the connection part 210, and a rotating part (220) It is provided as a tubular body having a flange portion 230 extending outwardly with a predetermined thickness from the end.

In particular, in the first shaft spindle 200 as described above, a screw hole 211 is formed through the inside of the connection part 210, and a fitting groove that communicates with the screw hole 211 in the rotating part 220 and extends obliquely outward ( 221) is formed in communication, and it is preferable that a coupling groove 223 that communicates with the fitting groove 221 and extends outwardly in communication with the end at which the flange portion 230 of the rotation unit 220 is provided is formed in communication.

The first shaft spindle 200 has a plurality of bearings B assembled to surround the rotating part 220, and a spindle bevel gear 200a is assembled to surround the connecting part 210, and the rotating part 220 is supported at the tip. As a result, it is rotatably installed through an opening on one side of the horizontal part of the lower installation space 120 of the housing 100 .

Furthermore, when the first shaft spindle 200 as described above is rotatably installed through an opening on one side of the horizontal part of the installation space 120 , the side opposite to the flange part 230 of the bearing B is the installation space It is preferable to be restrained and supported through a constraint step (unsigned) protruding at a certain distance inward from the opening on one side of the horizontal part of the installation space 120 of the 120 .

On the other hand, the second shaft spindle 300 has a connection part 310 from one side inserted into the installation space 120 toward the other side, and a flange part 320 extending outward from an end of the connection part 310 to a predetermined thickness. It is provided as a tube with

The second shaft spindle 300 has a connection hole 311 in which the connection portion 210 of the first shaft spindle 200 is inserted and connected to one side of the connection portion 310 by a predetermined length is formed on one side of the connection portion 310, and at the end of the connection hole 311 The fastening hole 313 communicates with each other, and a fitting groove 315 that communicates at a distance from the end of the fastening hole 313 and extends outwardly inclinedly is formed in communication.

In addition, the second shaft spindle 300 as described above communicates with the fitting groove 315 at the end at which the flange portion 320 of the connection portion 310 is provided, and a coupling groove 316 that extends outwardly is communicated. It is formed, and it is preferable that the coupling screw 318 is formed on the outer surface of one side of the connection part 310 over a predetermined length.

In the second shaft spindle 300 as described above, a plurality of bearings B are assembled to surround the flange portion 320 side of the connection portion 310 , and a stop nut 300a is attached to the coupling screw 318 of the connection portion 310 . ) in a state in which one side of the housing 100 is coupled, the horizontal part of the lower installation space 120 of the housing 100 is rotatably installed through the opening on the other side, and the first shaft spindle 200 is located on one side of the connection part 310 . ) of the connection part 210 is inserted and connected to a certain length.

Furthermore, when the second shaft spindle 300 as described above is installed to be rotatable through the opening on the other side of the horizontal part of the installation space 120 , the side opposite to the flange part 320 of the bearing (B) is the installation space It is preferable to be constrained and supported through a constraint step (unsigned) protruding at a certain distance inward from the opening on the other side of the horizontal portion of the installation space 120 of the 120 .

In addition, as shown in the figure, the stop nut 300a has a large diameter on the side coupled to the coupling screw 318 of the second shaft spindle 300 and a small diameter on the opposite side, so that the diameter is relatively large. A spiral is formed on the inner surface of the groove (unsigned) that is recessed into a tier on the large side, and a through hole (unsigned) passes through the side with a relatively small diameter to communicate with the recessed groove on the side with a relatively large diameter. It is desirable to form.

At this time, it is preferable that the through hole (unsigned) is formed to have the same diameter as the outer diameter of the connection part 210 of the first shaft spindle 200 with respect to its diameter.

On the other hand, the pull bolt 400 puts a tool through the tool construction hole 120a and rotates the stop nut 300a so that the end of the stop nut 300a toward the first shaft spindle 200 is the first shaft spindle ( After rotating so as to be in close contact with the spindle bevel gear 200a assembled to the connection part 210 of the 200 , the fastening hole 313 of the second shaft spindle 300 and the screw hole 211 of the first shaft spindle 200 . ) while one side is fastened over the first shaft spindle 200 and the second shaft spindle 300 to be fixed in an interconnected state.

This pulling bolt 400 has a tool manipulation groove (unsigned) for rotating with a tool on the surface opposite to the side fastened to the fastening hole 313 of the second shaft spindle 300 with a '-' character or ' It is preferable to be recessed in a +' shape.

Furthermore, the pulling bolt 400 preferably has a screw groove 410 with a predetermined depth inwardly formed in the center of the surface where the tool operation groove (unsigned) is formed, and a second stopper bolt to be described later through this screw groove 410 . One end of the 520 is to be able to be connected through the fastening.

In other words, it is preferable that the pulling bolt 400 has a tool manipulation groove (unsigned) having a '-' or '+' shape along the circumference of the surface where the screw groove 410 is recessed.

In addition, one side of the collet 600 is fixed to the fitting groove 221 of the first shaft spindle 200 and the fitting groove 315 of the second shaft spindle 300 .

This collet 600 is applied to mount the cutting tool 600a in a conventional angle head, and a detailed description thereof will be omitted.

And the tightening nut 700 is coupled to one side of the collet 600 after one end of the cutting tool 600a is inserted and fixed by a predetermined length from one side of the collet 600, and the first shaft spindle 200 The coupling of the first shaft spindle 200 through a predetermined number of rotations while the other side of the collet 600 is inserted into the fitting groove 221 and the fitting groove 315 of the second shaft spindle 300 by a predetermined length. It is coupled to the groove 223 and the coupling groove 316 of the second shaft spindle 300 .

This tightening nut 700 is also applied to mount the cutting tool 600a in a conventional angle head, similar to the collet 600, and a detailed description thereof will be omitted.

Moreover, the angle head capable of bidirectional processing according to the present invention configured as described above may further include a first stopper bolt 510 and a second stopper bolt 520 .

At this time, one end of the first stopper bolt 510 is connected to the screw hole 211 of the first shaft spindle 200 through fastening, and the other end protrudes toward the collet 600 side, and the collet ( 600) to block the side being inserted through.

The first stopper bolt 510 has a tool manipulation groove (unsigned) for rotating with a tool on the surface opposite to the side fastened to the screw hole 211 of the first shaft spindle 200 '- It is preferable to be recessed in a 'character' or '+' shape.

And the second stopper bolt 520 has one end connected to the pull bolt 400 in the second shaft spindle 300 through fastening, and the other end protrudes toward the collet 600 side to the collet 600 of the cutting tool 600a. ) to block the side being inserted through it.

In other words, one end of the second stopper bolt 520 is connected while being fastened through the screw groove 410 of the pull bolt 400 , and can be connected while adjusting the length protruding from the pull bolt 400 .

In addition, the second stopper bolt 520 as described above is a tool manipulation groove for rotating with a tool on the surface of the other end opposite to the one end, which is the side connected through fastening with the pull bolt 400 in the second shaft spindle 300 . It is preferable that (unsigned) is recessed in a '-' or '+' shape.

On the other hand, the angle head capable of bidirectional machining according to the present invention having the configuration as described above is a horizontal part of the installation space 120 of the housing 100 with respect to the flange part 230 when the first shaft spindle 200 rotates. It is important to engage and rotate to have a certain gap between the perimeter of the opening on one side and the groove and protrusion structure.

To this end, in the flange portion 230 of the first shaft spindle 200 , the guide groove 231 is recessed in the surface facing the periphery of the opening on one side of the horizontal part of the installation space 120 of the housing 100 . it is preferable

In addition, around the opening on one side of the horizontal portion of the installation space 120 of the housing 100, a guide protrusion 172 that is engaged with the guide groove 231 of the first shaft spindle 200 is formed to protrude. it would be desirable

In addition, the angle head capable of bidirectional processing according to the present invention having the configuration as described above is a horizontal part of the installation space 120 of the housing 100 with respect to the flange part 320 when the second shaft spindle 300 rotates. It is also important to engage and rotate to have a certain gap between the perimeter of the opening on the other side and the groove and protrusion structure.

Accordingly, in the flange portion 320 of the second shaft spindle 300 , the guide groove 321 is recessed in the surface facing the periphery of the other side opening of the horizontal part of the installation space 120 of the housing 100 . it is preferable

In addition, a guide protrusion 173 engaged with the guide groove 321 of the second shaft spindle 300 is protruded around the opening on the other side of the horizontal part of the installation space 120 of the housing 100 . it would be desirable

Moreover, the angle head capable of bidirectional machining according to the present invention having the configuration as described above is a key and a keyway for the assembly of the spindle bevel gear 200a that is assembled to surround the connection part 210 of the first shaft spindle 200 It is important to be able to assemble into a structure.

To this end, one or more key grooves 213 are recessed on the outer surface of the connection part 210 of the first shaft spindle 200, while the key grooves (unsigned) are recessed also on the inner surface of the spindle bevel gear 200a.

At this time, the keyway 213 formed on the outer surface of the connection part 210 of the first shaft spindle 200 as described above and the keyway (unsigned) formed on the inner surface of the spindle bevel gear 200a have one side and the other side of the key (not shown). It is preferable that the half parts of each are inserted and fixed.

9 is a partially separated cross-sectional view illustrating an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle are connected to be rotated together in an angle head capable of bidirectional processing according to another embodiment of the present invention, FIG. As showing an angle head capable of bidirectional processing according to another embodiment of the present invention, it is a cross-sectional view showing an installation structure of a shaft spindle in which a first shaft spindle and a second shaft spindle, which are main parts, are connected to be rotated together.

The embodiment as shown in FIGS. 9 and 10 further includes a first stopper bolt and a second stopper bolt from the embodiment described with reference to FIGS. 1 to 8, but the first stopper bolt and the second stopper bolt are both sides of the pulling bolt. It has a difference only in that it is connected through fastening to one side of each other and that the screw hole is formed through the pulling bolt, and detailed descriptions of the components having the same reference numerals will be omitted below.

9 and 10, the angle head capable of bidirectional processing according to another embodiment of the present invention is a housing 100, a first shaft spindle 200, a second shaft spindle 300, a pulling bolt 400, It includes a collet 600 and a tightening nut 700 , and further includes a first stopper bolt 510 and a second stopper bolt 520 .

At this time, the pulling bolt 400 passes through the center to form a screw hole 410', and a first stopper bolt 510 and a second stopper bolt ( 520) can be connected through fastening.

On the other hand, the first stopper bolt 510 has one end connected to the side disposed in the first shaft spindle 200 of the pull bolt 400 through fastening, and the other end protrudes toward the collet 600 side to the cutting tool 600a ) to block the side being inserted through the collet 600.

In other words, as shown in FIGS. 9 and 10 , one end of the first stopper bolt 510 is connected through fastening through a screw hole 410 ′ formed through the center of the pull bolt 400 , and the other end is connected to the first stopper bolt 510 . It protrudes toward the collet 600 and can block the side inserted through the collet 600 of the cutting tool 600a.

The first stopper bolt 510 has a tool manipulation groove (unsigned) for rotating with a tool on the surface opposite to the side to which the screw hole 410' of the pull bolt 400 is fastened with a '-' It is preferable to be recessed in the shape of a ruler or '+'.

In addition, the second stopper bolt 520 has one end connected to a side disposed in the second shaft spindle 300 of the pull bolt 400 through fastening, and the other end protrudes toward the collet 600 side to the cutting tool 600a ) to block the side being inserted through the collet 600.

In other words, as shown in FIGS. 9 and 10 , the second stopper bolt 520 has a screw hole 410 ′ formed through the center of the pull bolt 400 disposed in the second shaft spindle 300 . Once through, it is connected through this fastener.

Moreover, the second stopper bolt 520 as described above is rotated with a tool on the surface of the other end opposite to one end, which is the side connected through fastening with the side disposed in the second shaft spindle 300 of the pull bolt 400. It is preferable that the tool manipulation groove (unsigned) for the purpose is recessed in a '-' or '+' shape.

According to the angle head capable of bidirectional machining according to the present invention having the configuration as described above, a first shaft spindle and a second shaft spindle whose ends rotatably opposite to each other are interconnected from both sides of the horizontal portion with respect to the installation space of the housing. is applied, the other end of the first shaft spindle is inserted for a certain length into the other end of the second shaft spindle by the stop nut, and in a state in which the interconnected and connected state is maintained without change, a pulling force is applied through the fastening of the pulling bolt The first shaft spindle and the second shaft spindle are fixedly installed so that the connection state is maintained, so that the cutting tools are respectively mounted on the first shaft spindle and the second shaft spindle. Without this, it is possible to work on both sides of the workpiece, so that it is possible to improve work efficiency and significantly increase productivity.

In addition, in a state in which the other end of the first shaft spindle is inserted for a predetermined length into the other end of the second shaft spindle by the stop nut and the interconnected state is maintained without change, a pulling force is applied through the fastening of the pulling bolt while the first By making the shaft spindle and the second shaft spindle fixedly installed so that the connection state is maintained, the connection installation for coaxial rotation with respect to the first shaft spindle and the second shaft spindle for bidirectional operation through the stop nut and pull bolt structure is stable while that can be done easily.

Furthermore, a first stopper bolt having one end connected to the screw hole of the first shaft spindle through fastening and a pulling bolt in the second shaft spindle and a second stopper bolt having one end connected through fastening are applied to the first stopper bolt or the second stopper bolt. The two stopper bolts prevent the cutting tool from entering the connected end more than a certain distance during installation, so that the cutting tool can be installed stably.

Although specific embodiments of the present invention have been described in detail above, the present invention is not limited thereto, and various modifications can be made by those skilled in the art to which the present invention pertains. are included within the scope of the present invention.

100: housing 110: cone head
120: installation space 120a: tool construction hole
130: shaft 150: bevel gear
172, 173: guide projection 200: first shaft spindle
210: connection 211: screw hole
213: keyway 220: rotating part
221: fitting groove 223: coupling groove
230: flange portion 231: guide groove
200a: spindle bevel gear 300: second shaft spindle
310: connection part 311: connection hole
313: fastening hole 315: fitting groove
316: coupling groove 318: coupling screw
320: flange portion 321: guide groove
300a: stop nut 400: pull bolt
410: screw groove 410': screw hole
510: first stopper bolt 520: second stopper bolt
600: collet 700: tightening nut
600a: cutting tool
B: bearing

Claims (6)

In an angle head capable of bidirectional machining used by being mounted on a spindle of a machine tool to perform a cutting operation using a machine tool,
The cone head 110 mounted on the spindle of the machine tool is protruded on the upper part, and the cone head 110 is formed in a vertical part with respect to the installation space 120 formed in the shape of an 'V' while both ends of the horizontal part inside the lower part are opened. ), the lower end of the shaft 130 extending downward from the lower end is installed so as to be rotatable through the bearing (B), and the bevel gear 150 is located at the end of the shaft 130 disposed at the lower end of the vertical part of the installation space 120 . A housing 100 which is axially installed, and through which a tool structure hole 120a is formed to communicate with the outside at the lower center in the longitudinal direction with respect to the horizontal portion of the installation space 120;
The connection part 210 from one side inserted into the installation space 120 toward the other side, the rotation part 220 extending outwardly from the connection part 210, and the rotation part 220 extending outward with a predetermined thickness from the end It is provided as a tubular body having a flange portion 230, a screw hole 211 is formed through the inside of the connection portion 210, and is communicated with the screw hole 211 in the rotating unit 220 to extend outwardly inclinedly. Fitting groove 221 This communication is formed, and a coupling groove 223 that communicates with the fitting groove 221 at the end at which the flange portion 230 of the rotation unit 220 is provided and extends outwardly at the end is formed in communication, while the rotation unit 220 is formed in communication. A plurality of bearings (B) are assembled to surround, and a spindle bevel gear (200a) is assembled to surround the connection part (210), and the lower installation space (120) of the housing (100) in a state supported by the tip of the rotating part (220) a first shaft spindle 200 that is rotatably installed through an opening on one side of the horizontal part;
It is provided as a tubular body having a connection part 310 from one side inserted into the installation space 120 toward the other side, and a flange part 320 extending outward with a predetermined thickness from an end of the connection part 310, and the connection part 310 is provided. A connection hole 311 into which the connection portion 210 of the first shaft spindle 200 is inserted and connected to a predetermined length is formed on the side, and a connection hole 313 is formed in communication with an end of the connection hole 311, and the connection hole 313 ) A fitting groove 315 that communicates at a distance from the end and extends obliquely outwardly is formed in communication, and communicates with the fitting groove 315 at the end at which the flange portion 320 of the connection part 310 is provided to extend outwardly step by step A coupling groove 316 is formed in communication, and a coupling screw 318 is formed over a predetermined length on one side of the outer surface of the connection part 310 , while a plurality of bearings surround the flange part 320 side of the connection part 310 . (B) is assembled and in a state where one side of the stop nut 300a is coupled to the coupling screw 318 of the connection part 310, the horizontal part of the lower installation space 120 of the housing 100 closes the other side opening The second shaft spindle 300 is installed so as to be rotatable through the connection part 210 of the first shaft spindle 200 to one side of the connection part 310 is inserted and connected to a predetermined length;
Insert the tool through the tool construction hole 120a and rotate the stop nut 300a so that the end of the stop nut 300a facing the first shaft spindle 200 is assembled to the connection part 210 of the first shaft spindle 200 After rotating to be in close contact with the spindle bevel gear 200a, one side is fastened across the fastening hole 313 of the second shaft spindle 300 and the screw hole 211 of the first shaft spindle 200 a pulling bolt 400 for fixing the first shaft spindle 200 and the second shaft spindle 300 in an interconnected state;
a collet 600 having one side fitted and fixed to the fitting groove 221 of the first shaft spindle 200 and the fitting groove 315 of the second shaft spindle 300; and
One end of the cutting tool 600a from one side of the collet 600 is inserted and fixed by a predetermined length, and then is coupled to one side of the collet 600, the fitting groove 221 and the second of the first shaft spindle 200 The coupling groove 223 and the second shaft of the first shaft spindle 200 through a predetermined number of rotations while the other side of the collet 600 is inserted into the fitting groove 315 of the shaft spindle 300 by a predetermined length. An angle head capable of bidirectional machining comprising a tightening nut 700 coupled to the coupling groove 316 of the spindle 300 .
According to claim 1,
One end is connected to the screw hole 211 of the first shaft spindle 200 through fastening, and the other end protrudes toward the collet 600 side to block the side inserted through the collet 600 of the cutting tool 600a. 1 stopper bolt (510) and
One end is connected to the pull bolt 400 in the second shaft spindle 300 through fastening, and the other end protrudes toward the collet 600 side to block the side inserted through the collet 600 of the cutting tool 600a. An angle head capable of bidirectional machining, characterized in that it further comprises two stopper bolts (520).
According to claim 1,
When the first shaft spindle 200 rotates, the flange part 230 is engaged with each other so as to have a predetermined gap between the horizontal part of the installation space 120 of the housing 100 and the groove and the protrusion structure on one side of the opening part and rotate. so that you can,
In the flange portion 230 of the first shaft spindle 200, a guide groove 231 is recessed in the surface facing the periphery of the opening on one side of the horizontal portion of the installation space 120 of the housing 100,
A guide protrusion 172 that is engaged with the guide groove 231 of the first shaft spindle 200 is formed to protrude around the opening on one side of the horizontal part of the installation space 120 of the housing 100 Angle head for bi-directional machining.
According to claim 1,
When the second shaft spindle 300 rotates, it engages and rotates with respect to the flange part 320 so as to have a predetermined gap with each other in a groove and a protrusion structure with the peripheral part of the other side of the horizontal part of the installation space 120 of the housing 100 . so that you can,
In the flange portion 320 of the second shaft spindle 300, a guide groove 321 is recessed in a surface facing the periphery of the other side opening of the horizontal portion of the installation space 120 of the housing 100,
A guide protrusion 173 engaged with the guide groove 321 of the second shaft spindle 300 is formed to protrude around the opening on the other side of the horizontal part of the installation space 120 of the housing 100. Angle head for bi-directional machining.
According to claim 1,
For the assembly of the spindle bevel gear 200a assembled to surround the connection part 210 of the first shaft spindle 200, it can be assembled into a key and a keyway structure,
The connection portion 210 of the first shaft spindle 200 is formed with one or more key grooves 213 recessed on the outer surface,
An angle head capable of bidirectional machining, characterized in that a keyway is also recessed on the inner surface of the spindle bevel gear (200a).
According to claim 1,
The side and one end disposed in the first shaft spindle 200 of the pull bolt 400 are connected through fastening, and the other end protrudes toward the collet 600 side and is inserted through the collet 600 of the cutting tool 600a. A first stopper bolt 510 to prevent and
The side and one end disposed in the second shaft spindle 300 of the pull bolt 400 are connected through fastening, and the other end protrudes toward the collet 600 side and is inserted through the collet 600 of the cutting tool 600a. An angle head capable of bidirectional processing, characterized in that it further comprises a second stopper bolt 520 to block the.

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