CN211516655U - Numerical control aluminum profile looping and cutting integrated machine - Google Patents

Abstract

The utility model discloses a numerical control aluminum profile looping and cutting integrated machine, which comprises a frame, a wire feeding mechanism, a forming mechanism and a cutting mechanism, wherein the wire feeding mechanism comprises a plurality of fixed wire feeding wheels, a plurality of adjustable wire feeding wheels and a plurality of wire pressing adjusting hydraulic cylinders, the adjustable wire feeding wheels are connected with telescopic rods of the wire pressing adjusting hydraulic cylinders, the forming mechanism comprises a forming wheel and a forming servo motor, and the forming wheel is driven by the forming servo motor to move up and down for adjustment; the cutting mechanism comprises an XY-axis movement adjusting mechanism, a cutting adjusting hydraulic cylinder, a bed knife and a cutting machine, the cutting machine and the cutting adjusting hydraulic cylinder are both installed on the XY-axis movement adjusting mechanism, the cutting machine is connected with a telescopic rod of the cutting adjusting hydraulic cylinder, the bed knife is correspondingly fixed on the XY-axis movement adjusting mechanism with a saw blade of the cutting machine, and the cutting machine, the bed knife and the cutting adjusting hydraulic cylinder are driven by the XY-axis movement adjusting mechanism to move and adjust on an X, Y axis together. The utility model discloses it is convenient, efficient to adjust.

Description

Numerical control aluminum profile looping and cutting integrated machine

Technical Field

The utility model relates to a numerical control aluminium alloy looper cutting all-in-one.

Background

Looper is rolling the circle machine again, circle machine, be 2017201198521 a servo looper as patent number, it includes alignment mechanism, send line mechanism, forming mechanism and shearing mechanism, send line mechanism to include the fixed wire feeding wheel and the adjustable wire feeding wheel of upper and lower one-to-one, adjustable wire feeding wheel is installed through first adjustment mechanism, thereby it is adjustable to realize, this first adjustment mechanism includes the threaded rod of vertical setting, adjustable wire feeding wheel is installed at the lower extreme of threaded rod, adjust adjustable wire feeding wheel through rotating the threaded rod, for the adjustment mechanism on the traditional looper, need manual regulation. The forming mechanism comprises a forming wheel installed through a second adjusting mechanism, and the second adjusting mechanism is the same as the first adjusting mechanism in structure and is adjusted through manually adjusting a threaded rod. The shearing mechanism is installed on the first rail through the fixing piece, and cuts off the wire through the upper cutter and the lower cutter which are opposite to each other, and is of a stamping type.

The aluminum profile needs to be looped, but the traditional looping machine is not suitable for looping the aluminum profile. Firstly, the end of the aluminum profile is seriously deformed by a stamping type shearing mechanism of the traditional looper due to the softer material of the aluminum profile; in addition, the manually adjusted wire feeding mechanism is difficult to ensure that the adjustable wire feeding wheel is on the same level, and is not suitable for root aluminum profiles.

Besides the two points, the forming wheel of the traditional looper machine is manually adjusted, and then the small-batch products with high specification requirements are processed, so that workers are required to frequently pause the looper machine, the position of the forming wheel is manually adjusted, the time consumption is high, the adjustment precision is low, and errors can occur. In addition, the shearing mechanism of the looping machine is difficult to adjust and limited, is adjusted mainly by observation, is random and is inconvenient to store.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a numerical control aluminium alloy looper cutting all-in-one that adjusts convenience, efficiency is higher is provided.

Solve above-mentioned technical problem, the utility model discloses a technical scheme as follows:

the utility model provides a numerical control aluminium alloy looper cutting all-in-one, includes frame, send line mechanism, forming mechanism and cuts the mechanism, send line mechanism to include a plurality of fixed line wheels and a plurality of adjustable line wheels that send that the one-to-one set up from top to bottom, forming mechanism is including the shaping wheel, its characterized in that: the wire feeding mechanism also comprises a plurality of wire pressing adjusting hydraulic cylinders which are arranged in one-to-one correspondence with the adjustable wire feeding wheels, the adjustable wire feeding wheels are connected with telescopic rods of the wire pressing adjusting hydraulic cylinders, and the wire pressing adjusting hydraulic cylinders drive the adjustable wire feeding wheels to move up and down for adjustment; the forming mechanism also comprises a forming servo motor, and the forming wheel is driven by the forming servo motor to move up and down for adjustment; the cutting mechanism comprises an XY-axis moving adjusting mechanism, a cutting adjusting hydraulic cylinder, a bed knife and a cutting machine for cutting through a rotating saw blade, the cutting machine is slidably mounted on the XY-axis moving adjusting mechanism through an oblique sliding rail extending along the feeding direction of the cutting machine during cutting, the cutting adjusting hydraulic cylinder is mounted on the XY-axis moving adjusting mechanism, the cutting machine is connected with a telescopic rod of the cutting adjusting hydraulic cylinder, the cutting machine is driven by the cutting adjusting hydraulic cylinder to move along the oblique sliding rail, the bed knife and the saw blade of the cutting machine are correspondingly fixed on the XY-axis moving adjusting mechanism, the cutting machine is driven by the XY-axis moving adjusting mechanism, and the bed knife and the cutting adjusting hydraulic cylinder move and adjust on the X, Y axis together.

Further, the cutting mechanism further comprises an angle adjusting plate and a locking bolt, a rotating center hole and a limiting hole are formed in the XY axis movement adjusting mechanism, an angle of the angle adjusting plate is rotatably installed on the rotating center hole through a rotating shaft, a plurality of adjusting holes are formed in the angle adjusting plate, the adjusting holes are located on the circumference which uses the rotating center hole as the circle center and corresponds to the position of the limiting hole, the locking bolt is connected with one of the adjusting holes and the limiting hole, the cutting machine is installed on the angle adjusting plate through an inclined sliding rail, and a cutting adjusting hydraulic cylinder is also installed on the angle adjusting plate.

Further, the XY axle removes adjustment mechanism includes the bed plate, the Y axle, Y is to the guide rail, Y to the movable plate, Y to the removal nut, the X axle, X is to the guide rail, X is to the movable plate and X is to the removal nut, the bed plate fixed mounting is in the frame, Y is to the movable plate through Y to the guide rail install on the bed plate, Y axle rotatable mounting is on the bed plate, Y is to the movable plate through Y to the removal nut with Y axle cooperation be connected, X is to the movable plate through X to the guide rail install on Y is to the movable plate, X is rotatable to be installed on Y is to the movable plate, X is to the movable plate through X to the removal nut with X axle cooperation be connected, be equipped with the hand wheel respectively in Y axle and X axle.

Further, numerical control aluminium alloy looper cutting all-in-one still includes encoder and measurement moving cylinder, is equipped with in the pivot of encoder to be used for leaning on and drives pivoted runner by the aluminium alloy on the aluminium alloy surface, and the encoder is installed through measuring moving cylinder between wherein two adjustable wire feeding wheels, and the encoder is driven by measuring moving cylinder and reciprocates.

Furthermore, the wire feeding mechanism further comprises a vertical sliding block which is arranged in one-to-one correspondence with the adjustable wire feeding wheel, the vertical sliding block is installed on the rack in a vertically sliding mode, the wire pressing adjusting hydraulic cylinder is vertically installed above the vertical sliding block, the vertical sliding block is connected with a telescopic rod of the wire pressing adjusting hydraulic cylinder, and the adjustable wire feeding wheel is installed on the vertical sliding block.

Further, the forming mechanism further comprises a vertical sliding rail and a forming adjusting sliding block, the vertical sliding rail is vertically installed on the rack, the forming adjusting sliding block is slidably installed on the vertical sliding rail, the forming wheel is installed on the forming adjusting sliding block, the forming servo motor is vertically installed above the forming adjusting sliding block, and the forming adjusting sliding block is connected with a telescopic rod of the forming servo motor.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses an adjustable line wheel that send is adjusted to pneumatic cylinder is adjusted to the line ball, can realize the more accurate regulation to adjustable line wheel that send, adjusts the shaping wheel through shaping servo motor, adds man-hour to small batch, the many products of specification requirement, can practice thrift the plenty of time, and it is more convenient to adjust, has improved work efficiency, the cost is reduced.

The utility model discloses a cutting machine is for cutting through the pivoted saw bit, and is applicable in the cutting to the aluminium alloy, and the cutting machine is for installing on XY axle removes adjustment mechanism, removes adjustment mechanism through the record XY axle and can record the position of cutting machine at X, Y epaxial sizes of removing, according to the record, can adjust the cutting machine to unified standard position to the product of difference, the quality of assurance product that can be better.

In addition, because the length of each aluminum profile required to be processed is about 4 meters, one aluminum profile can be processed quickly, the frequency of putting a new aluminum profile into the aluminum profile looping and cutting integrated machine again can be very high, and if the existing large-circle machine is adopted, the manual adjustment precision, the position of the adjusting wheel and the cutting position of the cutting mechanism cannot reach the unified standard easily, and the time consumption is very large. And the utility model discloses from feeding to the looper shaping cutting lopping as long as 2 minutes just can accomplish a product, original big circle machine has relatively improved production efficiency greatly, has brought obvious benefit.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic structural view of a cutting mechanism of the present invention;

fig. 4 is a schematic perspective view of the XY axis movement adjusting mechanism of the present invention;

FIG. 5 is a schematic perspective view of the wire feeding mechanism and the forming mechanism of the present invention;

fig. 6 is a schematic diagram of the aluminum profile looping device of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples.

As shown in fig. 1 and 2, the numerical control aluminum profile looping and cutting all-in-one machine comprises a frame 1, a wire feeding mechanism 2, a forming mechanism 3 and a cutting mechanism 4, wherein the wire feeding mechanism 2, the forming mechanism 3 and the cutting mechanism 4 are sequentially installed from a feeding end of the aluminum profile looping and cutting all-in-one machine and are installed on the upper portion of the frame, and the right end of the embodiment is the feeding end.

As shown in fig. 5, the wire feeding mechanism 2 includes three fixed wire feeding wheels 2.2, three adjustable wire feeding wheels 2.3 and three wire pressing adjusting hydraulic cylinders 2.1, the three fixed wire feeding wheels 2.2 and the three adjustable wire feeding wheels 2.3 are arranged in a one-to-one correspondence manner from top to bottom, a transverse aluminum profile conveying passage is formed by the three fixed wire feeding wheels 2.2 and the three adjustable wire feeding wheels 2.3, the three wire pressing adjusting hydraulic cylinders 2.1 and the three adjustable wire feeding wheels 2.3 are arranged in a one-to-one correspondence manner, the adjustable wire feeding wheels 2.3 are connected with telescopic rods of the wire pressing adjusting hydraulic cylinders 2.1, and the adjustable wire feeding wheels 2.3 are driven by the wire pressing adjusting hydraulic cylinders 2.1 to move up and down.

The more concrete structure that line ball regulation hydraulic cylinder 2.1 and adjustable wire feeding wheel 2.3 are connected does: the wire feeding mechanism 2 is respectively provided with a vertical sliding block 2.5 corresponding to each adjustable wire feeding wheel 2.3, the left side and the right side of the vertical sliding block 2.5 are respectively provided with a front flange 2.5.1 and a rear flange (the figure shows the rear flange which is symmetrical to the front flange), the rack 1 is correspondingly provided with three sliding installation grooves 2.6 which are penetrated through the rack from front to back, the vertical sliding block 2.5 is matched and installed in the sliding installation groove 2.6, the left side and the right side of the vertical sliding block 2.5 are flatly attached to the left side and the right side of the sliding installation groove 2.6, the front flange 2.5.1 and the rear flange are flatly attached to the front end surface and the rear end surface of the sliding installation groove 2.6 respectively, thereby the vertical sliding block 2.5 can be installed on the rack 1 in an up-down sliding manner, the wire pressing adjusting hydraulic cylinder 2.1 is vertically installed above the sliding installation groove 2.6, the upper end of the sliding installation groove 2.6 is provided with a through hole, the telescopic rod of the wire pressing adjusting hydraulic cylinder 2.1 penetrates into the through hole, the connecting block 2.4 is connected with the vertical sliding block 2.5 through a bolt, the adjustable wire feeding wheel 2.3 is arranged on the vertical sliding block 2.5 through a rotating shaft, and the adjustable wire feeding wheel 2.3 is positioned in front of the vertical sliding block 2.5. A power motor of the numerical control aluminum profile looping and cutting integrated machine drives the adjustable wire feeding wheel 2.3 and the fixed wire feeding wheel to rotate 2.2 through the power transmission wheel. Thereby realize, can the quick adjustment adjustable wire feeding wheel 2.3's position through the flexible of control line ball regulation hydraulic cylinder 2.1, need not the manual work, adjust accurately.

As shown in FIG. 5, the forming mechanism 3 includes a forming wheel 3.2, a forming servo motor 3.1, a vertical slide rail 3.3 and a forming adjusting slide block 3.6, the upper portion of the frame 1 is correspondingly provided with a limiting groove 3.4 penetrating the frame from front to back, the vertical slide rail 3.3 is vertically installed at two side edges of the notch of the limiting groove 3.4 and is located at the front surface of the upper portion of the frame 1, the forming adjusting slide block 3.6 is slidably installed on the vertical slide rail 3.3 through a slide block, the forming wheel 3.2 is installed on the forming adjusting slide block 3.6 through a rotating shaft, the rear end of the forming adjusting slide block 3.6 is provided with a sliding limiting block 3.5 embedded in the limiting groove 3.4, the left and right side surfaces of the sliding limiting block 3.5 are flush with the left and right side surfaces of the limiting groove 3.4, a through hole is arranged above the limiting groove 3.4, the forming servo motor 3.1 is vertically installed above the limiting groove 3.4, the telescopic rod of the forming servo motor 3.1 penetrates into the limiting groove 3.4 through the through hole, thereby make the shaping wheel 3.2 can be by the regulation that reciprocates of shaping servo motor 3.1 drive, need not the manual work, adjust accurately.

As shown in fig. 3, the cutting mechanism includes an XY axis movement adjusting mechanism 4.6, a cutting adjusting hydraulic cylinder 4.2, a bed knife 4.5, a cutter 4.1, an angle adjusting plate 4.3, and a locking bolt 4.8, and the cutter 4.1 performs cutting by a rotating saw blade 4.1.1.

As shown in fig. 4, the XY-axis movement adjusting mechanism 4.6 includes a base plate 4.6.1, a Y-axis 4.6.4, a Y-direction guide rail 4.6.2, a Y-direction moving plate 4.6.5, a Y-direction moving nut, an X-axis 4.6.7, an X-direction guide rail 4.6.8, an X-direction moving plate 4.6.9 and an X-direction moving nut, the base plate 4.6.1 is fixedly installed on the frame 1, the Y-direction moving plate 4.6.5 is installed on the base plate 4.6.1 through the Y-direction guide rail 4.6.2, the Y-axis 4.6.4 is rotatably installed on the base plate 4.6.1 through a bearing, the Y-axis is provided with an external thread, the Y-direction moving plate 4.6.5 is in threaded fit with the Y-axis 4.6.4 through the Y-direction moving nut, the X-direction moving plate 4.6.5 is installed on the Y-direction moving plate 4.6.5 through the X-direction guide rail 4.6.8, the X-axis 4.6.7 is installed on the Y-direction moving plate 4.6.5 through a bearing 3, the X-axis 4.6.7 is also provided with a moving plate, the X-direction moving, therefore, the hand wheel rotating the Y axis and the X axis can move and adjust in the Y axis direction and the X axis direction. In order to record specific positions, a scale can be arranged like a hand wheel of a numerical control lathe.

A rotating center hole 4.6.10 and a limiting hole 4.6.11 are arranged on the X-direction moving plate 4.6.9, the rotating center hole 4.6.10 is located at the lower right corner, the limiting hole 4.6.11 is located at the upper left corner, the lower corner of the angle adjusting plate 4.3 is rotatably installed on the rotating center hole 4.6.10 through a rotating shaft 4.7, five adjusting holes 4.3.1 are arranged at the upper corner of the angle adjusting plate 4.3, the adjusting holes 4.3.1 are located on a circle which takes the rotating center hole 4.6.10 as the center and corresponds to the position of the limiting hole 4.6.11, a locking bolt 4.8 is connected with one of the adjusting holes 4.3.1 and the limiting hole 4.6.11, different adjusting holes are connected with the limiting hole through the locking bolt 4.8, and the angle of the angle adjusting plate can be adjusted.

Be equipped with the slant slide rail 4.4 that the direction of feed when following the cutting machine cutting extends on angle adjusting plate 4.3 (because the utility model discloses a cutting machine cut through the pivoted saw bit, consequently at the in-process of cutting, the cutting machine need be to the aluminium alloy direction feeding), cutting machine 4.1 passes through the slider and installs at slant slide rail 4.4, and cutting machine 4.1's saw bit 4.1.1 is parallel with slant slide rail 4.4 to make the whole slope installation of cutting machine. The bed knife 4.5 is fixedly arranged on the angle adjusting plate 4.3 and corresponds to the position of the saw blade 4.1.1 of the cutting machine 4.1, and a tangent plane 4.5.1 is arranged on one side of the bed knife 4.5 corresponding to the cutting machine 4.1. The cutting adjusting hydraulic cylinder 4.2 is also installed on the angle adjusting plate 4.3 and is located above the cutting machine 4.1, the telescopic direction of the telescopic rod of the cutting adjusting hydraulic cylinder 4.2 is parallel to the direction of the oblique slide rail 4.4, the telescopic rod of the cutting adjusting hydraulic cylinder 4.2 is connected with the cutting machine 4.1, and the cutting adjusting hydraulic cylinder 4.2 drives the cutting machine 4.1 to move along the oblique slide rail 4.4, so that the automatic feeding of the cutting machine 4.1 during cutting can be realized.

The structure realizes that the hand wheel 4.6.3 which rotates the XY axis movement adjusting mechanism 4.6 can drive the cutting machine 4.1, the bed knife 4.5 and the cutting adjusting hydraulic cylinder 4.2 to move and adjust together on the X, Y axis, thereby realizing the adjustment of the cutting position and adjusting the cutting angle by adjusting the angle adjusting plate. Therefore, the numerical control aluminum profile looping and cutting integrated machine is more accurate and rapid in cutting adjustment.

In order to obtain the length information of the aluminum profile that sends into, this embodiment has set up encoder 6 and measurement moving cylinder 7, be equipped with in encoder 6's the pivot and be used for leaning on and drive pivoted runner by the aluminum profile on the aluminum profile surface, measurement moving cylinder 7 is installed perpendicularly between the adjustable wire feeding wheel of left side and centre, encoder 6 is installed at the lower extreme of measurement moving cylinder's telescopic link, move up and down the regulation by measurement moving cylinder 7 drive encoder 6. When the aluminum profile feeding mechanism is used, the measuring moving cylinder 7 drives the encoder 6 to descend until the rotating wheel is abutted against the upper surface of the aluminum profile, and the aluminum profile drives the rotating wheel to rotate in the process that the aluminum profile is continuously fed through the feeding mechanism.

Of course, the numerical control aluminum profile looping and cutting all-in-one machine is provided with the controller 5 as well as the existing looping machine, the control panel 5.1 is arranged in front of the controller 5, and the controller 5 can control the action of the forming servo motor 3.1, the stretching of the line pressing adjusting hydraulic cylinder 2.1, the stretching of the cutting adjusting hydraulic cylinder 4.2 and the stretching of the measuring moving cylinder 7.

As shown in fig. 6, which is a schematic view of looping the aluminum profile 100 by using the numerical control aluminum profile looping and cutting all-in-one machine of the embodiment, a circle has been made on the aluminum profile 100.

The above embodiments of the present invention are not right the utility model discloses the limited protection scope, the utility model discloses an embodiment is not limited to this, all kinds of basis according to the above-mentioned of the utility model discloses an under the above-mentioned basic technical thought prerequisite of the utility model, right according to ordinary technical knowledge and the conventional means in this field the modification, replacement or the change of other multiple forms that above-mentioned structure made all should fall within the protection scope of the utility model.

Claims (6)

1. The utility model provides a numerical control aluminium alloy looper cutting all-in-one, includes frame, send line mechanism, forming mechanism and cuts the mechanism, send line mechanism to include a plurality of fixed wire feeding wheels and a plurality of adjustable wire feeding wheels that upper and lower one-to-one set up, forming mechanism includes forming wheel, its characterized in that: the wire feeding mechanism also comprises a plurality of wire pressing adjusting hydraulic cylinders which are arranged in one-to-one correspondence with the adjustable wire feeding wheels, the adjustable wire feeding wheels are connected with telescopic rods of the wire pressing adjusting hydraulic cylinders, and the wire pressing adjusting hydraulic cylinders drive the adjustable wire feeding wheels to move up and down for adjustment; the forming mechanism also comprises a forming servo motor, and the forming wheel is driven by the forming servo motor to move up and down for adjustment; the cutting mechanism comprises an XY-axis moving adjusting mechanism, a cutting adjusting hydraulic cylinder, a bed knife and a cutting machine for cutting through a rotating saw blade, the cutting machine is slidably mounted on the XY-axis moving adjusting mechanism through an oblique sliding rail extending along the feeding direction of the cutting machine during cutting, the cutting adjusting hydraulic cylinder is mounted on the XY-axis moving adjusting mechanism, the cutting machine is connected with a telescopic rod of the cutting adjusting hydraulic cylinder, the cutting machine is driven by the cutting adjusting hydraulic cylinder to move along the oblique sliding rail, the bed knife and the saw blade of the cutting machine are correspondingly fixed on the XY-axis moving adjusting mechanism, and the cutting machine, the bed knife and the cutting adjusting hydraulic cylinder are driven by the XY-axis moving adjusting mechanism to move and adjust on an X, Y axis together.

2. The numerical control aluminum profile looping and cutting integrated machine according to claim 1, characterized in that: the cutting mechanism further comprises an angle adjusting plate and a locking bolt, a rotating center hole and a limiting hole are formed in the XY-axis moving adjusting mechanism, one angle of the angle adjusting plate is rotatably installed on the rotating center hole through a rotating shaft, a plurality of adjusting holes are formed in the angle adjusting plate, the adjusting holes are located on a circle which takes the rotating center hole as a circle center and corresponds to the limiting hole in position, the locking bolt is connected with one of the adjusting holes and the limiting hole, the cutting machine is installed on the angle adjusting plate through the inclined sliding rail, and the cutting adjusting hydraulic cylinder is also installed on the angle adjusting plate.

3. The numerical control aluminum profile looping and cutting integrated machine according to claim 1, characterized in that: XY axle removes adjustment mechanism includes bed plate, Y axle, Y to guide rail, Y to movable plate, Y to mobile nut, X axle, X to guide rail, X to movable plate and X to mobile nut, the bed plate fixed mounting be in the frame, Y passes through to the movable plate Y is installed to the guide rail on the bed plate, Y axle rotatable mounting be in on the bed plate, Y passes through to the movable plate Y to mobile nut with Y axle cooperation is connected, X passes through to the movable plate X is installed to the guide rail Y on to the movable plate, X axle rotatable mounting be in on the Y moves to the movable plate, X passes through to the movable plate X move the nut with X axle cooperation is connected Y axle outer end and X axle are equipped with the hand wheel respectively.

4. The numerical control aluminum profile looping and cutting integrated machine according to claim 1, characterized in that: numerical control aluminium alloy looper cutting all-in-one still includes encoder and measurement moving cylinder, be equipped with in the pivot of encoder and be used for leaning on and drive pivoted runner by the aluminium alloy on the aluminium alloy surface, the encoder is installed wherein two through measuring moving cylinder between the adjustable wire feeding wheel, the encoder by measurement moving cylinder drives and reciprocates.

5. The numerical control aluminum profile looping and cutting integrated machine according to claim 1, characterized in that: the wire feeding mechanism further comprises vertical sliding blocks which are arranged in one-to-one correspondence with the adjustable wire feeding wheels, the vertical sliding blocks are installed on the rack in a vertically sliding mode, the wire pressing adjusting hydraulic cylinder is vertically installed above the vertical sliding blocks, the vertical sliding blocks are connected with telescopic rods of the wire pressing adjusting hydraulic cylinders, and the adjustable wire feeding wheels are installed on the vertical sliding blocks.

6. The numerical control aluminum profile looping and cutting integrated machine according to claim 1, characterized in that: the forming mechanism further comprises a vertical sliding rail and a forming adjusting sliding block, the vertical sliding rail is vertically installed on the rack, the forming adjusting sliding block is slidably installed on the vertical sliding rail, a forming wheel is installed on the forming adjusting sliding block, a forming servo motor is vertically installed above the forming adjusting sliding block, and the forming adjusting sliding block is connected with a telescopic rod of the forming servo motor.

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