KR200480155Y1 - A screw rod forming machine - Google Patents

Abstract

The present invention relates to a spiral rod forming machine.
For this purpose, a spiral rod forming machine is used for this purpose. When the diameter of the workpiece becomes larger, the overlapping machining unit is moved forward to adjust the center point to determine the machining position for the workpiece.
To this end, a plurality of members, such as a single member, a longitudinal position shift member, a lateral position shift member, a main spindle member, a work table, a single workpiece holding member, a single lift member, And one post-and-post position moving unit. The overlapping machining unit includes one power train and one overlapping knife tool, which move up and down with respect to the workpiece in response to the movement of the elevation unit. The front and rear position shifting unit includes a first sliding joint disposed between the longitudinal position shifting unit and the up / down unit and installed at one longitudinal position shifting unit, a second sliding joint provided at one up / down unit, Wherein the first sliding abutment and the second sliding abutment are slidably engaged with each other and assembled and assembled with each other, and the lifting unit is moved back and forth along the first sliding abutment by driving the first power unit.

Description

Technical Field [0001] The present invention relates to a screw rod forming machine,

The present invention relates to a spiral rod forming machine, and more particularly, to a spiral rod forming machine which not only forms a spiral pattern portion of a spiral rod but also forms a sharp edge with respect to a tip portion of a spiral pattern portion, This enables us to improve the quality and reliability of our products, so that we can meet the various needs of our users so that they can provide good images.

As you can see, a traditional rolling machine is a one-time-only machine that only forms a screw thread end of a spiral rod to a workpiece. After forming a spiral pattern on a spiral rod, It is a finished product of a spiral rod to be taken out of the machine and taken back to the mechanism that processes the edge again, and then cut off again.

The traditional spiral rod processing method has the disadvantage that the manufacturing process is cumbersome and complicated, and there are many parts that depend on the working personnel, resulting in higher cost and reduced product amount. Therefore, the Applicant has submitted a new patent application of Taiwan M408429 "Spiral Rod Forming Machine", which aims to solve various problems of traditional spiral rod processing. This molding machine can be divided into one seismic unit, one longitudinal displacement unit, one lateral displacement unit, one spindle unit, one work station, one machining part holding unit, one lift unit, one overlap processing Section. After machining the spiral pattern on the spindle unit, the spiral pattern on the workpiece is machined, and then the overlapping machining unit removes the sharp edges on the spiral pattern. There is a good point to get rid of.

Although the spiral bar forming machine described above solves the artificial edge modifying problem with computer-automation operations, each of the machining knives of the plurality of machining units used to modify the sharp edges is a single tooth-like knife tool. This is because it hangs on one side of the head, which makes it easy to touch when the worker manipulates it. This tooth-shaped knife tool only functions to eliminate the acute angle and is not used for other processing operations.

Therefore, the Applicant has submitted a new patent for the "Spiral Rod Forming Machine" of Taiwan M462634 (the new practical patent for Japan is 2013-003373 and the new model for China is 201320312842.1) . As shown in FIG. 18, this design conceals the overlapping knife 1 in the vertical direction in the lower portion of one longitudinal power train 2, so that when the worker moves the work from the base to disassemble, 1), so that the use problem in the former application can be effectively solved.

Through the practical operation, the molding machine of No. M462634 is designed to process workpieces of various sizes, with the main spindle unit (3) and this overlapping machining unit (7) However, since both of them move in a co-ordinated manner, the relative longitudinal movement is not performed, and when the diameter of the work is increased, (2) can not be constantly machined with respect to the center point of the workpiece, and therefore, the problem of positional shift becomes very serious if the size of the workpiece becomes large, and this overlapping machining unit (7) It can not move forward and backward because it is fixed and does not move.

20, this spindle unit 3 is adjusted so that the horizontal machining operation can be performed in the upright position of FIG. 21 through the rotation of the angular spreading plate 5. However, If the spindle unit 3 is rotated by manipulating the rod (not shown in the drawing), the rotation of the spindle unit 3 is interrupted by the plurality of machining units 7 so that the orientation can not be smoothly changed It is necessary to loosen the spiral stoppers 8 of the ascending and descending unit 9 and rotate the ascending and descending unit 9 again at the same time as turning the duplication processing unit 7 to the side, Is rotated in the upright orientation shown in Fig. Therefore, in order to accomplish the changeover of the main spindle unit 3, the spiral stopper 8 must be loosely loosened and tightened and the operation of changing the direction of the overlapping processing unit 7 must be operated. And it is not possible to achieve automation because it is required to be manpower manipulation.

Taiwan M408429 (spiral rod forming machine). Taiwan M462634 (Spiral rod forming machine). Japan 2013-003373. There is a Chinese call number 2013-20312842.1.

The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a tilt- A first object of the present invention is to provide a work table and a workpiece holding unit, a lifting unit, an overlapping processing unit, and a front and rear position shifting unit. The second object of the present invention is to form a spiral- In addition to this, it is possible to make a sharp edge to the leading edge of the spiral pattern part and to carry out processing such as groove making and grooving with respect to the workpiece. It is necessary to solve the problem that the position fixed processing can not be done and to rotate the main spindle unit of the present spiral pattern processing machine A fourth aspect of the present invention is to provide a spiral bar forming machine for solving the problem that a plurality of screw caps are unfastened and the lift unit can not move forward and backward. It has a function of shaping a pattern and modifying a sharp edge. It also moves left and right position or moves back and forth with respect to a workpiece. The fifth object is to perform grooving and grooving, In the unit, the elevator unit adjusts the front and rear position movement for the main shaft unit. When the diameter of the working part becomes large, the cooperative position movement of the redundant processing unit is performed through the first power unit. In addition to adjusting the center point of the component to make it work, When the circle is rotated in the longitudinal direction, the elevating / lowering unit is retracted by the operation of the first power unit in the same manner, and the main shaft unit is rotated in the upright direction to fix the position. It is faster and more precise and easier to adjust than manual screwing and unscrewing. The seventh objective is to improve the quality and reliability of the product. A spiral rod forming machine for providing a satisfactory image can be provided.

In order to achieve this purpose, the spiral rod forming machine of the present invention processes a single workpiece, which includes one tilt member, one longitudinal tilt member, one transverse tilt member , One spindle unit, one workbench, one machining part holding unit, one lift unit, one overlapping machining unit, and one front and rear positioning unit. The work table is slidably mounted on the seat unit in the lateral direction by the lateral position moving unit and is moved in the lateral direction in the seat unit under the driving of the lateral position moving unit. The spindle unit is slid to the stator unit by a longitudinal position shifting unit. The spindle unit mainly forms a spiral pattern of a spiral rod, which is formed by a spindle motor and a spindle motor Wherein a spiral pattern forming knife tool is installed on the spindle knife seat, and the spindle unit moves along the forward and backward directions of the stance unit by being driven by the longitudinal position moving unit, so as to approach or move away from the work table. The workpiece clamping unit is located on a workbench and includes a gripper head, a top spine seat and a gripper head rotating power device, wherein a workpiece waiting to be machined is caught between the gripper's head and the upper spine, The workpiece is rotated by the driving of the apparatus. This lift unit is located in the vertical position movement unit. This redundant machining unit includes a power unit in an upright position and an overlapping machining unit tool driven by the power unit. The machining unit is moved up and down by an elevating unit to approach the workpiece Or away. The front and rear position shifting unit is positioned between the longitudinal position shifting unit and the up / down unit, and includes a first sliding joint provided at one longitudinal position shifting unit, a second sliding joint provided at one elevating unit, Wherein the first sliding abutment and the second sliding abutment are slidably assembled with each other and are driven by the first power unit such that the lifting unit is moved back and forth along the first sliding abutment.

In the above-mentioned spiral bar forming machine, the first sliding contact portion has one recessed groove, the first power unit of the front and rear position moving unit is placed in the concave groove of the first sliding contact portion, and at the same time, A single sliding rod driven by a central axis, two bearing seats mounted on both ends of the rolling rod, and a movable sliding seat mounted on one spiral rod, the lower part of which is a sliding sliding seat And the motor drives the rotational movement of the spiral rod so that the movable sliding seat and the elevating and lowering unit cooperate to move along the spiral rod so that the elevating unit is moved in the longitudinal direction moving unit As shown in FIG.

In the above-mentioned spiral bar forming machine, the first sliding abutment portion is one groove track and the second sliding abutment portion has one slip orbit and both have a new tail-like groove, so that they are inlaid and bonded to each other.

In the above-described spiral bar forming machine, the overlapping machining unit and the spindle unit move relative to each other in the longitudinal direction by the front and rear positioning unit.

In the spiral bar forming machine described above, the motor has an electronic brake as a server motor.

In the spiral bar forming machine described above, the spindle unit includes an angular spreading plate and a server motor, which are placed in one longitudinal position unit, which rotates under the driving of the angular display unit and the main spindle unit .

In the above-described spiral bar forming machine, the longitudinal position shifting unit is fixed to the pressing plate of one first sliding joint to adjust the degree of looseness and tightness between the first and second sliding joints.

As described in detail above, the present invention relates to an apparatus and a method for controlling a position and a position of a seat in a vertical direction, a longitudinal sliding member and a horizontal position moving unit, a sliding member in a horizontal direction and a spindle unit, Overlapping machining unit and front and rear positioning unit are provided.

In addition to forming the spiral pattern of the spiral rods, the present invention also provides a sharp edge to the tip of the spiral pattern and allows the workpiece to be machined such as grooving and grooving will be.

In addition, the present invention solves the problem that the current spiral pattern machining unit can not be fixed before and after the overlapping process unit, and when rotating the main spindle unit of the current spiral pattern machining unit, And a problem that the lifting and lowering unit can not be moved forward and backward, and the like.

In the present invention, the spiral rod forming machine has a function of forming a spiral pattern in order by computer automation and modifying the sharp edge, and the left and right position shifting or the forward and rearward shifting processing are performed for the working parts.

In addition, the present invention also carries out grooving and grooving, and the post-moving unit moves the elevator unit to adjust the front and rear positions relative to the main shaft unit. When the diameter of the working parts increases, In addition to the simultaneous position movement of the unit, this double-edged knife tool adjusts the center point of the workpiece, and in addition to the front and rear position movement and position fixation, the main axis unit rotates in the longitudinal direction, 1, the lift unit is retracted by the operation of the power unit, and the main shaft unit is rotated in the upright direction to fix the position.

In addition, the design is automated, allowing for faster manual operation and more precise and accurate adjustment when compared to manual screwing and unscrewing.

This design greatly improves the quality and reliability of the product due to the above-mentioned effect, and thus it is a very useful design which can provide a good image by satisfying various needs of users.

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

Fig. 1 is a perspective view of a spiral bar forming machine according to the present invention. Fig.
FIG. 2 is a side view of a helical bar forming machine of the present invention,
Diagram showing a child's vertical position movement unit and horizontal position movement unit
if.
Fig. 3 is a side view of a spiral bar forming machine according to the present invention,
A drawing showing a direction movement unit and a horizontal direction movement unit.
4 is a main-axis sectional view of the present invention;
5 is a cross-sectional view of the main assembly of the spindle motor and the spindle motor of the present invention.
Fig. 6 is a local enlarged view of a bar portion completed with the present invention working part. Fig.
Fig. 7 is a graph showing the results of a comparison between a finished spiral pattern part and a post-
Partial enlargement.
8 is an assembled cross-sectional view of the elevating unit and the main shaft unit of the present invention.
Fig. 9 is a cross-sectional view of a working part of the present invention formed in a longitudinal groove. Fig.
Fig. 10 is a cross-sectional view of a working part of the present invention formed by grooving. Fig.
Fig. 11 is a cross-sectional view of a working part of the present invention formed by making a lateral groove. Fig.
Fig. 12 is a cross-sectional view showing the front and rear machining sections of the present invention,
Degree.
Fig. 13 is a schematic view showing the front and rear machining sections of the present invention,
Degree.
Fig. 14 is a graph showing the relationship between the front and rear machining sections of the present invention
FIG.
Fig. 15 is a graph showing the relationship between the front and rear machining sections of the present invention
Fig.
Fig. 16 is a schematic view showing another three-dimensional road of the spiral bar forming machine according to the present invention,
This section describes how to use the unit to retract the elevator unit backward.
if.
Fig. 17 is another three-dimensional road of a spiral rod forming machine according to the present invention,
To the upright machining position.
18 is a perspective view of a conventional spiral bar forming machine.
Fig. 19 shows another example of the processing of the existing spiral rod forming machine
Fig. 3 is a view showing that the rotation of the shaft unit and the movement of the position are obstructed.
Fig. 20 is a view showing another three-dimensional road of a conventional spiral rod forming machine
To rotate away from the main spindle unit.
21 shows another three-dimensional road of a conventional spiral rod forming machine,
FIG. 5 is a view showing rotation to a position.

The spiral rod forming machine applied to the present invention is configured as shown in Figs. 1 to 17.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

1 and 2 illustrate an example of a spiral rod forming machine according to the present invention. The spiral rod forming machine includes a stator unit 10, a longitudinal position shifting unit 20, One main spindle unit 40, one work station 50, one machining part holding unit 60, one lift unit 70, one overlapping machining unit 80 And a front and rear positioning unit 90.

The spiral bar forming machine of the present invention processes a spiral pattern portion 110 and an angular portion 120 with respect to one workpiece 100. The spiral bar forming machine shown in FIG. And FIG. 7 shows the process of machining the corner 120 after the spiral pattern 110 has already been completed.

As in Figures 2 and 3, this longitudinal position shifting unit 20 includes one longitudinal sliding track mechanism 21, one first spiral rod 22 and one first power mechanism 23 do.

The main spindle unit 40 is slidably mounted on the striking unit 10 in the front-rear direction through the longitudinal slip track mechanism 21.

This first spiral rod 22 is disposed in this anterior seam 10 in the anteroposterior direction and this spindle unit 40 is installed on the first spiral rod 22 and is mounted on the spindle unit 40 Is turned and installed on the first spiral rod (22) by a single spiral joint part (401).

This first power mechanism 23 provides the power to turn the first spiral rod 22, whereby the spindle unit 40 linearly moves in the front-rear direction.

As shown in Figs. 1-3, the transverse positioning unit 30 includes one lateral sliding track mechanism 31, one second spiral rod 32 and one second power mechanism 33 .

The transverse sliding skid orbit mechanism 31 is disposed in the transducer 10 in the transverse direction and the work table 50 is slidably installed in the transducer 10 in the transverse direction via the transverse sliding skid orbit mechanism 31 do.

The second spiral rod 32 is disposed in the left stance unit 10 in the left and right direction, and the work table 50 is rotated and installed on the second spiral rod 32.

The second power mechanism (33) is a source of the force transmitted by the second spiral rod (32), whereby the work table (50) moves linearly in the left and right direction.

As shown in FIGS. 1, 2, 4 and 5, the main spindle unit 40 is slidably mounted on the main spindle unit 10 through a longitudinal positioning unit 20 (see FIG. 2) Spiral forming on the workpiece 100, which includes one spindle motor 41 and a spindle knife seat 42 that is driven by one spindle motor 41. A spiral pattern forming knife tool 43 is installed on the main spindle knife seat 42 and the main spindle unit 40 is moved in the front and rear direction in the seating unit 10 by the driving of the longitudinal position moving unit 20 Approach or move away from work bench 50. After the spindle motor 41 is operated, the belt wheel mechanism 46 is transmitted to the wheel mechanism 47 so that the power is transmitted to the spindle chute 42 via the umbrella wheel 33, (See FIG. 1). In addition, in order to adjust the speed ratio of the teeth wheel in accordance with the necessity of the work, the thread spool portion 45 of the thread spool 45 You can change the full rate through adjustment.

Referring to FIGS. 4 and 5, a single wheel mechanism 47 and a belt wheel mechanism 46 are provided between the main shaft motor 41 and the main shaft knife seat 42 so that the power of the main shaft motor 41 is transmitted to the main shaft And then transmits the resultant to the seat 42 and further drives the spiral forming chute mechanism 43.

The main spindle unit 40 further includes an angle spread plate 48 and a server motor 49 placed in one longitudinal position moving unit 20 and is connected to the angle spread plate 48 Rotation is generated in the spindle unit 40 and the rotation angle of the spindle unit 40 is displayed by the angle spread plate 48 and reference is made to adjust the machining angle and position.

The work table 50 is slidably mounted on the seat 10 in the lateral direction by the lateral position shifting unit 30 and is moved in the left and right direction on the seat 10 in response to the driving of the lateral positioning unit 30 Move along.

Referring to FIG. 1, the workpiece-holding unit 60 is mounted on a worktable 50, which includes a head 61, a top seat 62, and a gravity- . The work 100 is driven by a head rotating power device 63 held between the holding head 61 and the top seat 62 to rotate the work 100.

8, the lifting unit 70 includes one fixed seat 71, one lifting spiral rod 72, one sliding seat 73 and one second power unit 74 . In this embodiment, the fixed seat 71 is provided on the main shaft unit 40, and the lifting spiral rod 72 is provided on the fixed seat 71. The sliding seat 73 is movable up and down, Which is slidably provided on the front side of the slide member 71 and has a spiral fitting part 731 which is connected to one elevating spiral rod 72 so as to be rotated with respect to each other, And the second power unit 74 drives the electric motor of the lifting spiral rod 72 and moves the sliding seat 73 up and down.

In this embodiment, the second power unit 74 employs a motor, for example, a server motor.

8, one additional space 711 is provided in the fixed seat 71 of the elevation unit 70. The space 711 has one long upright inlet 712 And the lifting spiral rod 72 is installed in the spool space 711 so that the spiral fitting part 731 of the sliding spool 73 is inserted into the spool space 711 through the long inlet 712, (72). Further, the lifting unit 70 has a pressure pot 75 interlocked with one sliding seat 73, thereby assisting a force for raising and lowering the sliding seat 73.

In the present embodiment, the overlapping machining unit 80 includes a power tool 81 positioned in one lift unit 70 and a plurality of machining knives 82 one after another. This power train 81 is located on the front side of the elevating unit 70 and the power train 81 has one central axis 811. The power train 81 has a double- The workpiece 100 is moved up and down through the elevation unit 70 so that the workpiece 100 is moved toward or away from the workpiece 100. [ The double-edged knife tool 82 in this embodiment is held at the center axis 811 with one milling cutter and hangs above the front side of the main shaft unit 40. [

In addition, the overlapping machining unit 80 is connected to the spindle unit 40 through the elevation unit 70, so that the overlapping machining tool 82 of the plurality of machining units 80 is connected to the vertically- The workpiece 100 is moved forward and backward by the seating unit 10 under the control of the control unit 20 and the machining operation of the grooving 130 in the forward and backward directions is performed on the workpiece 100 as shown in FIG.

Similarly, the overlapped processing unit 80 is positioned above the transverse positioning unit 30 and the work 100 is positioned such that when the transverse positioning unit 30 is moved to the left and right orientation, The workpiece 100 is moved in the left and right direction relative to the overlapping tool knife 82 so that the workpiece 100 is subjected to a linear machining process to form a machining operation of the grooving machine 140, (130) of the left and right direction.

12-13, in the present embodiment, the front and rear position shifting unit 90 is located between the vertical position shifting unit 20 and the right simple circle 70, and the vertical shifting unit 20 A second sliding contact portion 92 provided at a lower portion of one of the elevating and lowering members 70 and a second sliding contact portion 92 provided at a position of one recessed groove 911 provided on the first sliding contact portion 91, The first sliding contact portion 91 and the second sliding sliding contact portion 92 are slidably assembled in correspondence with each other so as to be linearly moved. By driving the first sliding contact portion 93, The elevation unit 70 moves back and forth along the first joint 91. [ In the present embodiment, the first sliding joint 91 is one groove orbit and the second sliding joint 92 is inlaid and coupled to each other in a slip orbit into a bird-shaped groove. The longitudinal position shifting unit 90 further includes a pressing plate 94 which is fixed to one second sliding contact portion 92 so that the first and second sliding contact portions 91 and 92 ) To adjust the degree of looseness and tightness.

The first power unit 93 includes a motor 931, a spiral rod 932 that is driven by the shaft center of the motor 931, bearing springs 933 and 934 that are installed on both ends of the spiral rod 932, Which has a movable sliding surface 935 mounted on the spiral rod 932 and a locking joint 936 which in this embodiment has a sliding spiral 935 and has a spiral rod 932 Lt; / RTI > This motor 931 is a server motor and has an electronic brake function. The lower part of the lifting unit 70 is fixed to the upper portion of the sliding sliding member 935 and is driven by the motor 931 to move the sliding member 935 and the lifting unit 70, So that the lifting and lowering unit 70 is moved forward and backward in the longitudinal direction shifting unit 20. Thus, when the diameter of the workpiece 100 becomes large, the first power unit 93 drives the cooperative position movement of the elevator unit 70 and the overlapping machining unit 80, The double-edged knife tool 82 is precisely calibrated so as to match the center point of the workpiece 100 and is advantageous for the processing of the double-edged knife tool 82. At the same time, the double- In addition to machining the center point to move the position and fix the position, it is machined off center.

1, after the spiral pattern forming knife 43 of the main spindle unit 40 completes the processing of the spiral pattern portion 110 of the workpiece 100, the spiral pattern forming knife tool 43 has X The overlapping machining unit 80 is moved downward from the elevating unit 70 and the overlapping machining tool 82 is approached to the workpiece 100 The sharp edges of the spiral pattern portion 110 of the workpiece 100 are removed by machining the portions 120 of the spiral pattern portion 110 of the workpiece 100.

In addition, when the spindle unit 40 rotates to the upright state of FIG. 17, the workpiece 100 can be machined, for example, machining of one stopper portion 150 at its end (FIG. 6 Note) This is a square plug or hexagon plug shown in Fig.

Therefore, the spiral bar forming machine according to the present invention can be manufactured by a computer automation process, in which a spiral pattern forming knife tool 83 processes a spiral pattern, and a double-edged knife tool 82 eliminates a sharp edge, It is possible for the lifting unit 70 to adjust the forward and backward movement relative to the main shaft unit 50 due to the external front and rear position shifting unit 90 having the first power unit It is possible to move the elevator unit 70 and the overlapping machining unit 80 in a cooperative position through the operation unit 93 and the overlapping machining unit 80 and the overlapping cut tool 82 can be moved ), It is possible to move forward and backward as well as to move the workpiece in the longitudinal direction. For example, as shown in Figures 16 and 17, the spindle unit 40 may also include a first power unit (not shown) when machining in the longitudinal direction of Figure 17 is required (e.g., machining of the stopper portion 150 of Figure 6) The elevation unit 70 is first retracted (arrow in FIG. 16) by fixing the sliding joint positions of the first and second sliding joints 91 and 92 and then the main shaft unit 40 is moved to the upright position When the position is fixed by turning to the state, the former manual screw cap is unscrewed and tightened, and the automated operation model from the present server motor of the present invention makes the machining faster, more precise and precise.

On the other hand, the present invention uses a server motor 49 to control the angle section 48 and the rotation of the main shaft 40, making the operation more convenient and fully automatic.

In the meantime, the present invention can be variously modified and can take various forms in applying the above components.

It should be understood, therefore, that the appended claims are not to be interpreted as limiting the invention to the particular forms set forth in the foregoing description, but rather should be construed to include all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

The technical idea of the present invention is that the same result can be repeatedly practiced. Especially, by implementing such a design, it is possible to contribute to industrial development by promoting technological development and it is worth protecting.

Description of the Related Art
(Prior art)
1 Duplicated cutting tool 2 Power unit
3 Spindle Unit 4 Vertical Positioning Unit
5 Angle Shield 6 Shaft
7 Duplication Unit 8 Screw cap
9 lift unit
(The present invention)
10 Quotient Unit 20 Longitudinal Positioning Unit
21 longitudinal slip track instrument 22 1st spiral rod
23 1st power unit 30 transverse positioning unit
31 transverse sliding track mechanism 32 second spiral rod
33 2nd power unit 40 main shaft unit
401 Spiral joint parts 41 Spindle motor
42 spiral knife tool seat 43 spiral pattern knife tool
44 umbrella shape wheel 45 tooth bar
46 belt wheel mechanism 47 wheel tool
48 Angle marking 49 Server motor
50 Workbench 60 Cutting parts
61 Catching head 62 Head of top head
63 Catching head rotating power unit 70 Lift unit
71 Fixed Left 711 Space
712 Long Entry 72 Lift Spiral Bar
73 Slide 731 Spiral joint parts
74 No. 2 Power unit 75 Pressure vessel
80 Duplicate machining unit 81 Power unit
811 Center axis 82 Duplicated cutting tool
90 Position Movement Unit 91 The first sliding abutment
911 concave groove 92 second sliding abutment
93 1st power unit 931 Motor
932 spiral rod 933 bearing seat
934 bearing seat 935 moving slide
936 Locking joints 94 Pressure plate
100 Work piece 110 Spiral pattern part
120 Create each 130 home
140 Grooving 150 Stopper

Claims (12)

One member of a team;
One longitudinal positioning unit;
One transverse positioning unit;
A work table slidably installed on the seat member through the lateral position moving unit and moved in the lateral direction on the seat member by being driven by the lateral position moving unit;
And is provided with a spindle motor and a spindle knife seat which is driven by the spindle motor. The spindle knife seat is provided with a spindle motor A single spindle unit having a spiral pattern forming knife tool installed therein and being moved in the forward and backward direction by the movement of the longitudinal position moving unit and approaching or moving away from the work table;
The machine is positioned on the workbench and includes a single catcher head, a single spine seat and a single catcher head rotating power device, which is held between the head and the top seat holding the parts waiting to be machined, A workpiece holding part for rotating the part;
A vertical lift unit positioned in the vertical position shift unit;
An overlapping machining unit which is driven by a power train and a power train, which is placed in an upright unit in an upright unit, and which is moved up and down in response to the driving of the up and down unit to approach or move away from the work; And
A first sliding abutment which is positioned between the longitudinal direction movement unit and the ascending / descending unit and which is provided at one longitudinal position moving unit, a second sliding abutment installed at the elevation unit, and a first power unit, 1 sliding contact portion and the second sliding contact portion are mutually slid and assembled and one front and rear position moving unit in which the lifting and lowering unit is moved back and forth along the first sliding joint by the driving of the first power unit Spiral rod forming machine.
The method according to claim 1,
Wherein the first sliding joint has one recess and the first power unit of the front and rear position shifting unit is positioned in the concave groove of the first sliding joint and comprises a single motor, a spiral rod which is driven by the central axis of the motor, It includes a bearing seat installed on both ends of the electric rod and two sliding slides installed on the spiral rod. The lower part of the lift unit is fixed to this moving slide, and the motor slides on the spiral rod And the elevation unit is moved in the forward and backward directions with respect to the longitudinal direction moving unit in the longitudinal direction moving unit by allowing the seat and the elevating unit to move along the spiral rod.
The method according to claim 1 or 2,
Wherein the first sliding contact portion is one groove track and the second sliding contact portion is in one slip orbit and the two sliding contact portions are inlaid to each other in a groove shape of a bird shape.
The method according to claim 1 or 2,
Wherein the spiral rod forming machine is configured to perform a longitudinal relative movement between the coprocessing unit and the main spindle unit through a front and rear position moving unit.
The method of claim 2,
Wherein the motor has an electromagnetic brake as a server motor.
The method according to claim 1,
Wherein the overlapping machining unit is connected to the spindle unit by the elevating unit, and the overlapping machining tool of the overlapping machining unit is moved back and forth in the seating unit under the control of the vertical positioning unit.
The method according to claim 1,
The overlapped working unit is located above the transverse positioning unit and when the work is moved to the left and right orientation by the transverse positioning unit, the work is moved to the left and right with respect to the overlapped processing tool, Wherein the processing of the straight line processing or the left and right direction is carried out.
The method according to claim 1,
The elevating /
A fixed rod is provided above the spindle unit, and one raised rod is installed on the fixed rod, and is provided with one sliding rod, which is installed on the front side of the fixed rod by the up and down movement, Has a spiral joint part which is connected to one lifting spiral rod, and this overlapping working unit is installed on a sliding position, and one second power unit is moved up and down by receiving a power of a lifting spiral rod Features a spiral rod forming machine.
The method according to claim 1,
Wherein the longitudinal position shifting unit comprises:
One longitudinal slip track mechanism and main spindle unit are slidably mounted on the stance unit in the forward and backward directions by the longitudinal slip track mechanism, and one first spiral rod, which is joined to the stance unit in the forward and backward directions, Wherein the spiral rod forming machine is characterized in that the spiral rod forming machine is characterized in that the spiral rod forming machine is arranged to be turned on one spiral rod and the one power device is a power source of the first spiral rod motor.
The method according to claim 1,
Wherein the transverse position shifting unit comprises:
One transverse sliding track mechanism, which is arranged in the transducer unit in the transverse direction and the work table is slidably mounted on the seated unit in the transverse direction by a transverse sliding track mechanism, and one second spiral rod, Wherein the work platform is mounted on a second spiral bar and one of the second power mechanisms is a power source of the second spiral bar drive so that the work platform is linearly moved in the left and right direction, .
The method according to claim 1,
The main spindle unit includes:
Wherein the server motor includes an angular indexing unit and a server motor positioned in a longitudinal position shift unit, wherein the server motor rotates by driving angular indexing and spindle units.
The method according to claim 1,
Wherein the longitudinal position shifting unit comprises:
And a pressure plate fixed to one second sliding joint so as to adjust the degree of tightness and tightness between the first and second sliding joints.

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