KR20060086094A - 3D modeling machine - Google Patents

Abstract

The present invention relates to a 3D modeling machine, and more particularly, to a body vertical base (11), a body horizontal table (12) connected to a lower part of the body vertical base, and a body housing (13) attached to a lower part of the body horizontal table. A main shaft motor which is attached to the front of the main body 10 and the main body vertical base 11, which is configured to be movable in a vertical direction, and a main shaft motor which is modularly attached to the front surface of the vertical transport unit ( 20) and the workpiece chuck 21 detachably attached to the rotating shaft of the main shaft motor and the main body horizontal base table 12, and attached to the front and rear conveying unit 50 capable of moving in the front and rear directions and the upper and the rear conveying unit. And a left and right conveying unit 40 capable of movement in the left and right directions, a detachable vice 60 at the upper side of the left and right conveying unit, and a cutting tool fixing tool stand 61 detachable at the upper side of the left and right conveying unit. A horizontal spindle motor fixing part 70 attached to an upper portion of the main body horizontal base and a main shaft motor control module 80 and the main housing which are attached to the inside of the main housing and control the rotation direction and the rotation speed of the main shaft motor; It relates to a 3D modeling machine, characterized in that it comprises a power supply 81 attached to the interior of the.

As described above, the present invention has an effect that it is possible to practice and educate various processing methods such as drilling or milling lathe as a relatively simple and inexpensive processing device.

Educational, Machining Tools, Lathes, Milling

Description

Three-Die Modeling Machine {.}

1: Perspective view of a 3D modeling machine according to an embodiment of the present invention

Figure 2: Shanghai Songbu perspective view of the 3D modeling machine according to an embodiment of the present invention

Figure 3 is a perspective view of the left and right transfer unit of the 3D modeling machine according to an embodiment of the present invention

Figure 4 is a perspective view of the front and rear transfer unit of the 3D modeling machine according to an embodiment of the present invention

Figure 5 is a perspective view of the lathe operation of the 3D modeling machine according to an embodiment of the present invention

<Description of Symbols Used in Main Parts of Drawing>

10: body 11: body vertical base

12: main body horizontal base table

20: spindle motor 21: workpiece chuck

30: Shanghai Song 40: Left and right transport

50: front and rear transfer unit 60: vise

70: horizontal spindle motor fixing part

80: spindle motor control module

90: feed control module

The present invention relates to a 3D modeling machine, and more particularly, a transfer unit consisting of a vertical transfer unit, a front-rear transfer unit, a left-right transfer unit, a reversible spindle motor and a detachable workpiece fixing vise and a removable workpiece by changing positions. The present invention relates to a 3D modeling machine that can simultaneously perform cutting operations required by precision machining departments such as lathe work and milling work using a fixed stand.

Existing CNC machines or industrial processing equipments are large in size and require a lot of effort and cost for installation, maintenance, and repair, and their prices are very expensive, so it is inappropriate to practice with a large number of training equipment. Had a problem.

The present invention has been made to solve the above problems, the most important general-purpose machine tools in precision mechanics, CNC machine tools related to cutting theories and practical instruction when cutting the actual machine can be produced in a simple and inexpensive structure It aims to minimize the constraints of time and space, to easily acquire relevant knowledge, and to utilize various measuring instruments and tools necessary for processing, and to provide an education and training medium that can show the processing process in a classroom.

In order to achieve the above object, the present invention includes a main body vertical base 11, a main body horizontal table 12 connected to a lower part of the main body vertical base, and a main body housing 13 attached to a lower part of the main body horizontal table. 10 and the main shaft vertically attached to the front surface of the main body 11, the vertical transfer portion 30 is possible to move in the vertical direction and the main shaft motor 20 is modularized and detachably attached to the front surface of the vertical transfer portion; It is attached to the upper part of the workpiece chuck 21 and the main body horizontal base table 12 which are detachable to the rotating shaft of the main shaft motor, and are attached to the front and rear conveying part 50 and the upper and rear conveying part, which are capable of moving in the front and rear direction, and the left and right directions. Left and right conveying unit 40 capable of movement to the upper and lower sides of the left and right conveying unit vice 60, Removable cutting tool fixing tool stand 61 and the main body detachable to the upper and left transfer unit The horizontal spindle motor fixing part 70 attached to the upper portion of the horizontal base and the main shaft motor control module 80 attached to the inside of the main body housing and capable of controlling the rotational direction and the rotation speed of the main shaft motor and the interior of the main body housing. It characterized in that it comprises a power supply 81 attached to.

Hereinafter, a 3D modeling machine according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The present invention is composed of a main body 10, the spindle motor 20, the shanghai conveying unit 20, the left and right conveying unit 30, the front and rear conveying unit 40.

First, the main body 10 will be described. The main body 10 includes a main body vertical base 11, a main body horizontal table 12 connected to a lower part of the main body vertical base, and a main body housing 13 attached to a lower part of the main body horizontal base. The main body vertical base 11 is attached to the shanghai transport unit 30, the main body horizontal table 12 is attached to the front and rear transfer unit 40 and the horizontal spindle motor fixing portion 70. The body housing 13 has a space for installing a main shaft motor control module 80, a power supply 81, a feed control module 91, and the like, while allowing the working position to be at an appropriate height. In addition, in the space of the main body housing 13 in the implementation of the present invention, tools and mechanism storage boxes that can be systematically organized and housed in a variety of tools, such as tools, bites, drill blades, etc. used according to the work type It is desirable to install it. On the other hand, the lower portion of the main body 13 is preferably equipped with a wheel for movement 14 for the ease of movement of the processing device. The moving wheel 14 preferably uses a caster type or the like so as to be able to move in all directions, and also has a brake function that can be fixed by stopping the rotation of the wheel for stability and fixation during processing with ease of movement. It is preferable to have.

Next, the main shaft motor 20 will be described. The main shaft motor is modularized so that the mounting position can be easily changed to the quick change method according to the work type, and the work shaft chuck 21 is attached to the rotating shaft to fix the tool or the work according to the work type. In the case of milling or drilling, the spindle motor 20 is mounted on the spindle motor mounting fixing part 22 attached to the shanghai sending part 30, as shown in FIG. On the other hand, in the case of lathe work, as shown in Figure 5 is mounted to the horizontal spindle motor mounting fixing portion 70. The main shaft motor 20 can be rotated in the forward or reverse direction by the main shaft motor control module 80, it is also possible to control the rotation speed.

Next, the Shanghai delivery unit 30 will be described. As shown in FIG. 2, the shanghai sending part 30 includes an up and down rotating shaft handle 31, an up and down screw gear 32 and an up and down sliding base structure 33 connected to the handle.

 When the upper and lower rotary shaft knob 31 is rotated, the upper and lower screw gears 32 connected to the vertical rotary shaft knob also rotate together, and the vertical screw gear is fixed to the main body vertical base 11. The upper and lower screw gears 32 penetrate the female screw portions of the upper and lower screw gears attached to the upper and lower sliding base structures 33, and the upper and lower sliding base structures 33 are in close contact with the main body vertical base 11. It is desirable that there is no deviation or shaking when moving to. Meanwhile, the vertical sliding base structure 33 is connected to the main shaft motor mounting fixing portion 22 as shown in FIG. When the vertical screw gear 32 is rotated, it is possible to move up and down by a spiral pitch interval. The finer the adjustment value is, the larger the radius of rotation of the knob and the smaller the pitch interval of the screw gear is, but the movement distance value decreases relatively. Meanwhile, in addition to the manual operation method described above, the shanghai sending unit 30 may also enable automatic control using the transfer control module 90 and the servo motor 91.

Next, the left and right transfer unit 40 will be described. As shown in FIG. 3, the left and right conveying part 40 includes a left and right rotating shaft knob 41, a left and right screw gear 42 and a left and right sliding base 43 connected to the handle, a left and right guide 44 and a left and right guide rail ( 45). Holding the left and right rotary shaft handle 41 and rotating the left and right screw gears 42 connected with the left and right rotary shaft handles also rotates the left and right screw gears as shown in FIG. 3. It is fixed. The female screw portion of the left and right screw gear 42 is attached to the lower portion of the left and right sliding base 43. On the other hand, considering the load of the workpiece or the load during processing, unlike the shanghai conveying portion 30, in order to prevent the shaking phenomenon during the transfer or processing of the left and right conveying portion 40 is shown in Figure 3 the left and right guide rails 45 It is preferable to install two places on the upper and rear sliding base structure 53 as shown in the figure, and the left and right guides 44 installed on the lower left and right sliding base 43 on the left and right guide rails 45 are positioned. To induce movement in the left and right directions. The conveying method of the left and right conveying unit 40 is the same method as the conveying method of the shanghai conveying unit 30, when the left and right screw gear 42 is rotated, it is possible to transfer to the left and right by the spiral pitch interval. The finer the adjustment value is, the larger the radius of rotation of the knob and the smaller the pitch interval of the screw gear is, but the movement distance value decreases relatively. Meanwhile, in addition to the manual operation method described above, the left and right transfer unit 40 may also enable automatic control using the transfer control module 90 and the servo motor 91. On the other hand, in consideration of the object of the present invention as a 3D modeling machine, the left and right sliding base 43 is preferably to use a transparent material such as acrylic within the limit to secure the strength to observe the processing state of the workpiece in detail. .

Next, the front-back transfer part 50 is demonstrated. As shown in FIG. 4, the front and rear conveying unit 50 includes a front and rear rotation shaft knob 51, a front and rear screw gear 52 and a front and rear sliding base 53, a front and rear guide 54, and a front and rear guide rail ( 55). The configuration and operation principle are the same as the above-mentioned left and right conveying part, except that only the installation direction is the front-rear direction instead of the left-right direction, and that the front and rear guide rails 55 are attached to the upper part of the main body horizontal table 12. There is. On the other hand, in consideration of the object of the present invention as a 3D modeling machine, it is preferable that the front and rear sliding base 53 also uses a transparent material such as acrylic within the limit of securing strength so that the processing state of the workpiece can be observed in detail. .

Next, the vise 60 will be described. The vise 60 is modularized so as to be detachably attached to the upper part of the left and right sliding base 43 of the left and right conveying unit 40, and serves to fix the workpiece during drilling or milling operation. On the other hand, in consideration of the object of the present invention as a 3D modeling machine, it is preferable that the vise 60 uses a transparent material such as acrylic within the limit of securing strength so that the processing state of the workpiece can be observed in detail.

Next will be described with respect to the cutting tool stationary 61. The cutting tool fixing tool stand 61 is modularized so as to be detachably attached to an upper portion of the left and right sliding base 43 of the left and right conveying unit 40, and the cutting tool when the present invention is used as a lathe processing device. Has the function of attaching.

Next, the horizontal spindle motor fixing part 70 will be described. The horizontal spindle motor fixing part 70 is fixed to the side of the front and rear conveying part 50 of the upper portion of the main body horizontal table 12, and when the present invention is used as a lathe machining device, the spindle motor 20 is mounted. Used to.

Next, the main shaft motor control module 80 will be described. The main shaft motor control module 80 functions to control the current supplied to the main shaft motor 20 to enable forward or reverse rotation and speed control of the main shaft motor. The main shaft motor control module 80 is supplied with the necessary power by the power supply 81. On the other hand, as the method of controlling the speed of the main shaft motor 20 in the main shaft motor control module 80, a method of adjusting the voltage is possible first. In view of this, it is preferable to use a PWM control method. The speed control method of the DC motor by the PWM control method is well known in the technical field to which the present invention belongs, so a detailed description thereof will be omitted. On the other hand, in view of the fact that the user of the present invention is an educated student or a beginner, when a dangerous situation occurs, a safety switch for quick stop is installed in an easily accessible position, such as the front portion of the body horizontal table 12 It is desirable to.

Next, the transfer control module 90 will be described. The transfer control module 90 is installed inside the main body housing 13, and has functions such as driving load detection and rotation load direction detection by using a microprocessor, an encoder and a decoder, and have a user-specified value or a pre-programmed value. By sending a control signal to the servo motor 91 according to the content has a function to control the position and movement of the shanghai sending unit 30, the left and right transfer unit 40 and the front and rear transfer unit 50. The servo motor 91 is composed of a DC step motor and a control circuit. On the other hand, it is preferable that the transfer control module 90 accepts HPGL and G-Code so as to be able to connect with various CAD / CAM software currently used. Since the method of controlling the position and motion by controlling the servomotor using a microprocessor is well known in the art, detailed description thereof will be omitted. On the other hand, when controlling the position and movement of each transfer unit using the transfer control module it is preferable to exclude the rapid transfer in consideration of safety.

Hereinafter will be described the operation of the 3D modeling machine according to an embodiment of the present invention.

First, when the present invention is used for drilling, the spindle motor 20 is first mounted on the spindle motor mounting fixture 22, and the workpiece to be machined is fixed to the vise 60, and then the left and right transfer parts ( 40) and the position of the front and rear transfer part 50 to fix the required machining position of the workpiece and then rotate the drill fixed to the workpiece chuck 21 of the spindle motor 20 while rotating the vertical transfer portion 30 up and down To machine the workpiece.

On the other hand, when using the present invention for the milling operation, first mounted the spindle motor 20 on the spindle motor mounting fixture 22, and fixed the workpiece to be processed in the vise 60 and then the spindle motor Rotate the work tab fixed to the workpiece chuck 21 of 20 to adjust the positions of the left and right transfer unit 40, the front and rear transfer unit 50 and the vertical transfer unit 30 to process the workpiece.

Next, the case where the present invention is used for lathe work will be described. In this case, the main shaft motor 20 is first mounted on the horizontal spindle motor fixing part 70, and the cutting tool fixing tool rest 61 is mounted on the upper left and right sliding bases of the left and right conveying parts 40. The workpiece to be machined is fixed to the workpiece chuck 21 of the spindle motor 20, and an appropriate work tap is mounted on the cutting tool fixing tool stand 61. After rotating the spindle motor to rotate the workpiece, the left and right transfer unit 40 and the front and rear transfer unit 50 is adjusted to perform the required lathe work. On the other hand, in this case, the vertical transfer unit 30 is preferably raised as much as possible for the safety of work.

As described above, the present invention has an effect that it is possible to practice and educate various processing methods such as drilling or milling lathe as a relatively simple and inexpensive processing device.

As described above, according to the present invention, the mounting position of the spindle motor 20 is changed, and the vise 60 or the cutting tool fixing tool stand 61 is detached as needed for the machining operation. By adjusting the position of the sending unit 30, the left and right transfer unit 40 and the front and rear transfer unit 50, there is an advantage that can be practiced and trained almost all the work required for precision machining even with a simple and inexpensive device.

In addition, in the case of using the feed control module 90 and the servomotor 91 using a microprocessor to adjust the position of the feeder, the process of pre-programming the machining process can also be practiced. It can also be possible to process by remote control using a.

Claims (5)

A main body (10) comprising a main body vertical base (11), a main body horizontal table (12) connected to a lower part of the main body vertical base, and a main body housing (13) attached to a lower part of the main body horizontal table; A vertical transfer part 30 attached to the front surface of the main body vertical base 11 to enable movement in the vertical direction; A main shaft motor 20 which is modularized and attached to a front surface of the vertical transfer part so as to be detachable; A workpiece chuck 21 detachable from the rotary shaft of the main shaft motor; A front and rear transfer part 50 attached to an upper portion of the main body horizontal base table 12 and capable of movement in the front and rear directions; A left and right transfer unit 40 attached to an upper and rear transfer unit and capable of movement in a left and right direction; A detachable vise 60 on top of the left and right transfer part; A cutting tool fixing tool stand (61) detachable to the upper left and right transfer parts; A horizontal spindle motor fixing part 70 attached to an upper portion of the main body horizontal base; ; A main shaft motor control module 80 attached to the inside of the main body housing and capable of controlling a rotation direction and a rotation speed of the main shaft motor; 3D modeling machine, characterized in that consisting of a power supply 81 attached to the inside of the main body housing The method according to claim 1 The front and rear transfer unit 50, the left and right transfer unit 40 and the vertical transfer unit 30 are 3D modeling machine, characterized in that the automatic control using the servo motor 91 and the transfer control module 90 is possible. The method according to claim 1 or 2, 3D modeling machine, characterized in that the fixed wheel 14 is attached to the lower part of the body housing 13 The method according to claim 3 3D modeling machine, characterized in that the installation box for the storage of tools and tools inside the main body housing 13 The method according to claim 4 3D modeling machine, characterized in that the safety switch for fast stop is installed on the front surface of the main body horizontal table (12)

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