CN105173647A - Machining device used for overturning workpiece - Google Patents

Abstract

The invention discloses a machining device used for overturning a workpiece. The machining device comprises a machine frame (1). A feeding device, a reversing table (3) and a discharging device are sequentially arranged on the machine frame (1). A pulling device used for pulling the workpiece (2) from the reversing table (3) to the discharging device in sequence is arranged on the machine frame (1). The reversing table (3) comprises an arc-shaped section (4) and a concave surface (6). The input end of the arc-shaped section (4) is flush with a discharging port of the feeding device. An opening of the concave surface (6) faces upwards. The concave surface (6) is composed of a first slope (7) and a second slope (8) which intersect with each other. One end of the first slope (7) is tangent with the output end of the arc-shaped section (4). The other end of the first slope (7) intersects with one end of the second slope (8). The other end of the second slope (8) is flush with the discharging device. The machining device used for overturning the workpiece is simple in structure and low in production cost.

Description

For the processing unit (plant) of workpiece turning

Technical field

The present invention relates to the technical field of machinery, particularly relate to a kind of processing unit (plant) for workpiece turning.

Background technology

Current industrial production line often needs by a workpiece from a position transfer to the process of another position, and workpiece is overturn, the different surfaces of workpiece is operated surface of the work upward with aspect subsequent operation personnel upward.Although there are some processing unit (plant)s for workpiece turning in prior art, ubiquity complex structure in these devices, the problem that productive costs is high, just needed to address these problems to improve social production efficiency.

Summary of the invention

The technical problem to be solved in the present invention is, provides the processing unit (plant) for workpiece turning that a kind of structure is simple, productive costs is low.

Technical solution of the present invention is, there is provided a kind of processing unit (plant) for workpiece turning with following structure: comprise frame, described frame is provided with successively for the feed arrangement of workpiece charging transmission, for overturning the commutation platform of workpiece, the drawing mechanism for workpiece discharging transmission, and frame is provided with for pulling workpiece successively from commutation platform to the pull unit of drawing mechanism; Described commutation platform comprises for the segmental arc of workpiece input and the inner concave for accommodating workpiece, and described segmental arc input end flushes with feed arrangement discharging opening; Described inner concave is opening up, and described inner concave is made up of the first inclined-plane intersected and the second inclined-plane, first one end, inclined-plane and segmental arc mouth tangent, the other end is crossing with second one end, inclined-plane, and the second inclined-plane other end flushes with drawing mechanism; The second described inclined-plane is connected with the linear gear rack overturn in inner concave for promoting workpiece, and commutation platform is provided with the third through-hole for linear gear rack sliding block joint, and described third through-hole is arranged on the second inclined-plane, and third through-hole axis is vertical with the second inclined-plane; Described frame is provided with can the first motor of rotating, first motor output shaft is fixedly connected with for the first gear with linear gear rack engaged transmission, and the second inclined-plane lower surface be provided with for linear gear rack sliding block joint to make linear gear rack along the 3rd orienting lug of third through-hole axis movement.

Preferred as one, described pull unit comprises flat board, the first orienting lug, the second orienting lug and to be arranged in frame can the motor of rotating, described flat board is fixedly connected in frame, first orienting lug is connected with the second orienting lug with guide rod by connecting rod, second orienting lug passes through the first pilot bar of vertically setting and dull and stereotyped sliding block joint, motor output shaft is fixedly connected with gear, and described frame is also by horizontally disposed second pilot bar and the second orienting lug sliding block joint; The second described orienting lug be vertically provided with for meshed transmission gear with the first tooth bar making the second orienting lug vertically increase or to decline; Described connecting rod one end vertically screws through guide rod and the second orienting lug, and the connecting rod other end is locked by jam nut; The first described orienting lug is socketed on guide rod, guide rod is provided with for the spacing baffle ring of the first orienting lug and the fourth hole that vertically slides for connecting rod near connecting rod one end, the guide rod other end is combined with hold-down nut, and the first orienting lug is provided with the second tooth bar in the horizontal direction; Described flat board is provided with the first through hole, first described pilot bar one end is fixedly connected with the second orienting lug, the other end and the first through hole sliding block joint or depart from the first through hole, and dull and stereotyped lower surface is provided with for the first pilot bar guiding with the second block making the first pilot bar enter the first through hole, the second block is arranged on the first through hole lower port near the second orienting lug place; The second described orienting lug is provided with the second through hole, second described pilot bar one end is fixedly connected in frame, the other end and the second through hole sliding block joint or depart from the second through hole, and the second orienting lug is provided with for the second pilot bar guiding with the first block making the second pilot bar enter the second through hole, first pilot bar lower end is fixedly connected on the first block, and the first block is arranged on the second through hole right output port near the first orienting lug place; The second described orienting lug lower end edge horizontal direction is provided with horizon bar, and horizon bar is provided with the pulling claw for pulling workpiece movable near feed arrangement one end; The second described orienting lug offers the chute slided for the second pilot bar end on the sidewall of the second pilot bar, and chute is arranged on the second orienting lug and locates immediately below the second through hole; The second described orienting lug straight down or the ultimate range moved up equal the ultimate range of the first block lower surface to the second pilot bar upper surface, the first described orienting lug level to the right or the ultimate range be moved to the left equal the ultimate range of the second right surface of block to the first pilot bar left surface.

Preferred as one, described motor is connected with frame by strut bar, and strut bar one end is fixedly connected in frame, and the other end is connected with motor.

Preferred as one, the second described through hole and the first tooth bar are crisscross arranged on the second orienting lug, and the port of the second through hole is not in the width range of the first tooth bar.

Preferred as one, be provided with the first stage clip between the first described orienting lug and hold-down nut, the first compression spring sleeve is connected on guide rod, and first stage clip one end and the first orienting lug end face push against, and the other end and hold-down nut end face push against; Be provided with the second stage clip between the first described orienting lug and baffle ring, the second compression spring sleeve is connected on guide rod, and second stage clip one end and the first orienting lug end face push against, and the other end and baffle ring push against.

Preferred as one, be provided with the 3rd stage clip between described guide rod and the second orienting lug, the 3rd compression spring sleeve is connected on connecting rod, and the 3rd stage clip one end and guide rod lower surface push against, and the other end and the second orienting lug upper surface push against.

Preferred as one, described feed arrangement refers to, by motor-driven first tape handler.

Preferred as one, described drawing mechanism refers to, by motor-driven second tape handler.

After adopting above structure, the present invention compared with prior art, has the following advantages:

1), after the workpiece in the present invention enters feed arrangement continuously, move on feed arrangement under the state that the A of workpiece faced up before this, B faces a left side; Through commutation platform, the A face run-off the straight of workpiece, the A of workpiece is towards right upset; First motor drives the first gear to rotate counterclockwise, the first gear rotated counterclockwise can drive linear gear rack to slide along the 3rd orienting lug, and to promote, workpiece left-half in inner concave is raised, right half part is resisted against the second inclined-plane free end, workpiece overturns in inner concave, namely workpiece B towards directly over upset, workpiece is that A faces the right side, the supine state of B; Now, pull unit moves down near workpiece, and then, pull unit pulls workpiece to move to drawing mechanism again, and workpiece enters next process under the drive of drawing mechanism; Wherein, workpiece motion amplitude in the process of upset is little, simple and the parts cost related to is low for the structure of drawing workpiece movable, so, the device for overturning workpiece that a kind of structure is simple, productive costs is low is provided;

2) arranging of segmental arc can make workpiece move in commutation platform from feed arrangement, and segmental arc input end flushes with feed arrangement discharging opening and facilitates workpiece can not meet with obstruction in moving process, can move reposefully; And inner concave arranges upward and can successfully make workpiece overturn; Wherein, the second inclined-plane is arranged linear gear rack can effectively order about workpiece occur in inner concave clws rotate, make workpiece A face right upset;

3) structure of pull unit can ensure that pulling claw obtains one first along the path of motion moving straight down, horizontally moving right, and then when guaranteeing that workpiece faces up at B, A faces the right side, pulling claw stretchy workpiece moves right and enters into drawing mechanism.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention for the processing unit (plant) of workpiece turning.

Fig. 2 is that the present invention is for another structural representation in the processing unit (plant) of workpiece turning.

Fig. 3 is that the present invention is for the structural representation again in the processing unit (plant) of workpiece turning.

Shown in figure: 1, frame, 2, workpiece, 3, commutation platform, 4, segmental arc, 5, 3rd orienting lug, 6, inner concave, 7, first inclined-plane, 8, second inclined-plane, 9, linear gear rack, 10, third through-hole, 11, first motor, 12, dull and stereotyped, 13, first orienting lug, 14, second orienting lug, 15, second motor, 16, connecting rod, 17, guide rod, 18, second gear, 19, first pilot bar, 20, second pilot bar, 21, first tooth bar, 22, jam nut, 23, baffle ring, 24, hold-down nut, 25, fourth hole, 26, second tooth bar, 27, first through hole, 28, second through hole, 29, first block, 30, second block, 31, horizon bar, 32, pulling claw, 33, chute, 34, strut bar, 35, first stage clip, 36, second stage clip, 37, 3rd stage clip, 38, first tape handler, 39, second tape handler, 40, first gear.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

Principle of work: as shown in Figure 1, 2, 3, A faces up, B faces left workpiece 2 and can enter into the segmental arc 4 commutated on platform 3 continuously under the first tape handler 38 of left end drives, workpiece 2 bottom surface is moved along segmental arc 4 and the first inclined-plane 7 and is dropped in inner concave 6, and the side that workpiece 2 is kept right is resisted against on the second inclined-plane 8, then, first motor 11 works to drive the first gear 40 to rotate counterclockwise, first gear 40 drives the oblique upper left corner of linear gear rack 9 to move to head on workpiece 2 and overturns, workpiece 2 left side is lifted gradually, workpiece 2 rotates clockwise, the benchmark that workpiece 2 left side is rotated is the inclined-plane that the first inclined-plane 7 keeps left, and the benchmark that workpiece 2 right-hand part rotates is the inclined-plane of keeping right, the second inclined-plane 8 or free end, first motor 11 drive linear gear rack 9 work complete after, second motor 15 drives the second gear 18 to rotate clockwise, the second gear 18 rotated clockwise is by moving down to drive the second orienting lug 14 with the first tooth bar 21 engaged transmission, and the first pilot bar 19 vertically slides to provide a motion benchmark to moving down of the second orienting lug 14 in the first through hole 27, vertically slide to prevent the second orienting lug 29 from occurring in folding process in the chute 33 also on the second orienting lug 14 of the left part of the second pilot bar 20 partially sliding, until the first block 29 lower surface on the second orienting lug 14 abuts to the second pilot bar 20 left part in frame 1, the first pilot bar 19 this moment corrects and departs from the first through hole 27, the left end of the second pilot bar 20 is just in time just to the right output port of the second through hole 28, as shown in Figure 2, in the process that the second orienting lug 14 moves down, horizon bar 31 and pulling claw 32 also synchronously move down, and pulling claw 32 just moves down into workpiece 2 upper surface position once, and pulling claw 32 is corresponding with workpiece 2 sidewall, after the second gear 18 and the first tooth bar 21 are meshed and transmitted to the limit, second gear 18 will engage with the second tooth bar 26 to drive the first orienting lug 13 level to move right, and then drive the second orienting lug 14 and pulling claw 32 synchronously to move right to pull workpiece 2 to move to the second tape handler 39 from commutation platform 3, because the second gear 18 is switched to the process of the second tooth bar 26 will certainly causes certain impact to the first orienting lug 13 from the first tooth bar 21, and can be cushioned these well impact by arrange the first extension spring 35 and the second extension spring 36 respectively at the first orienting lug 13 two ends, in the process that the second gear 18 drives the second tooth bar 26 to move right, second gear 18 can drive the second tooth bar 26 to move right to compress the second extension spring 36, then the second gear 18 drives the first orienting lug 13, guide rod 17 moves right along the second pilot bar 20 axis direction together with the second orienting lug 14, as shown in Figure 3,

In the return of pulling claw 32, second motor 15 drives the second gear 18 to rotate counterclockwise, and then drive the second tooth bar 26 to be moved to the left along the second pilot bar 20 axis, until the first pilot bar 19 upper end on the first block 29 abuts on the right side of the second block 30 of dull and stereotyped 12 lower surfaces; Then, second gear 18 is being switched to the process of the first tooth bar 21 engaged transmission with the second tooth bar 26 engaged transmission, in order to avoid the second gear 18 is to the impact of the first tooth bar 21 and the second tooth bar 26, compressible 3rd stage clip 37 of second orienting lug 14 is to cushion the impact of the second gear 18 to the first tooth bar 21, and the second gear 18 and the first tooth bar 21 engaged transmission reset to drive the second orienting lug 14 to move up along the first pilot bar 19 axis then.

Wherein, the stroke structure that moves down of the second orienting lug 14 raised the height of pulling claw 32 to guarantee that workpiece 2 can enter in inner concave 6 before entering into inner concave 6 at workpiece 2, avoids workpiece 2 to be blocked by pulling claw 32 in the process entering inner concave 6; Connecting rod 16 the mounting or dismounting that can facilitate guide rod 17, the 3rd stage clip 37 and the second orienting lug 14 are set, hold-down nut 24 the assembling that can facilitate the first orienting lug 13, first stage clip 35 and the second stage clip 36 is set.

The processing unit (plant) that the present invention is used for workpiece turning comprises frame 1, described frame 1 is provided with successively for the feed arrangement of workpiece 2 charging transmission, for overturning the commutation platform 3 of workpiece 2, the drawing mechanism for workpiece 2 discharging transmission, and frame 1 is provided with for pulling workpiece 2 successively from commutation platform 3 to the pull unit of drawing mechanism; Described commutation platform 3 comprises for the segmental arc 4 of workpiece 2 input and the inner concave 6 for accommodating workpiece 2, and described segmental arc 4 input end flushes with feed arrangement discharging opening; Described inner concave 6 is opening up, and described inner concave 6 is made up of the first inclined-plane 7 intersected and the second inclined-plane 8, first one end, inclined-plane 7 and segmental arc 4 mouth tangent, the other end is crossing with second one end, inclined-plane 8, and second inclined-plane 8 other end flushes with drawing mechanism; The second described inclined-plane 8 is connected with the linear gear rack 9 overturn in inner concave 6 for promoting workpiece 2, commutation platform 3 is provided with the third through-hole 10 for linear gear rack 9 sliding block joint, described third through-hole 10 is arranged on the second inclined-plane 8, and third through-hole 10 axis is vertical with the second inclined-plane 8; Described frame 1 is provided with can the first motor 11 of rotating, first motor 11 output shaft is fixedly connected with for the first gear 40 with linear gear rack 9 engaged transmission, and the second inclined-plane 8 lower surface be provided with for linear gear rack 9 sliding block joint to make linear gear rack 9 along the 3rd orienting lug 5 of third through-hole 10 axis movement.

Described pull unit comprises dull and stereotyped 12, first orienting lug 13, second orienting lug 14 and to be arranged in frame 1 can the second motor 15 of rotating, described flat board 12 is fixedly connected in frame 1, first orienting lug 13 is connected with the second orienting lug 14 with guide rod 17 by connecting rod 16, first pilot bar 19 and dull and stereotyped 12 sliding block joints of the second orienting lug 14 by vertically arranging, second motor 15 output shaft is fixedly connected with the second gear 18, and described frame 1 is also by horizontally disposed second pilot bar 20 and the second orienting lug 14 sliding block joint; The second described orienting lug 14 be vertically provided with for the second gear 18 engaged transmission with the first tooth bar 21 making the second orienting lug vertically increase or to decline; Described connecting rod 16 one end vertically screws through guide rod 17 and the second orienting lug 14, and connecting rod 16 other end is locked by jam nut 22; The first described orienting lug 13 is socketed on guide rod 17, guide rod 17 is provided with for the spacing baffle ring 23 of the first orienting lug 13 and the fourth hole 25 that vertically slides for connecting rod 16 near connecting rod 16 one end, guide rod 17 other end is combined with hold-down nut 24, and the first orienting lug 13 is provided with the second tooth bar 26 in the horizontal direction; Described flat board 12 is provided with the first through hole 27, first described pilot bar 19 one end is fixedly connected with the second orienting lug 14, the other end and the first through hole 27 sliding block joint or depart from the first through hole 27, and dull and stereotyped 12 lower surfaces are provided with the second block 30, second block 30 leading to make the first pilot bar 19 enter the first through hole 27 for the first pilot bar 19 is arranged on the first through hole 27 lower port near the second orienting lug 14 place; The second described orienting lug 14 is provided with the second through hole 28, second described pilot bar 20 one end is fixedly connected in frame 1, the other end and the second through hole 28 sliding block joint or depart from the second through hole 28, and the second orienting lug 14 is provided with and leads to make the second pilot bar 20 enter the first block 29 of the second through hole 28 for the second pilot bar 20, first pilot bar 19 lower end is fixedly connected on the first block 29, and the first block 29 is arranged on the second through hole 28 right output port near the first orienting lug 13 place; The second described orienting lug 14 lower end edge horizontal direction is provided with horizon bar 31, and horizon bar 31 is provided with the pulling claw 32 for pulling workpiece 2 movement near feed arrangement one end; The second described orienting lug 14 offers the chute 33 slided for the second pilot bar 20 end on the sidewall of the second pilot bar 20, and chute 33 is arranged on the second orienting lug 14 and locates immediately below second through hole 28; The second described orienting lug 14 straight down or the ultimate range moved up equal the ultimate range of the first block 29 lower surface to the second pilot bar 20 upper surface, the first described orienting lug 13 level to the right or the ultimate range be moved to the left equal the ultimate range of the second right surface of block 30 to the first pilot bar 19 left surface.

The second described motor 15 is connected with frame 1 by strut bar 34, and strut bar 34 one end is fixedly connected in frame 1, and the other end is connected with the second motor 15.

The second described through hole 28 and the first tooth bar 21 are crisscross arranged on the second orienting lug 14, and the port of the second through hole 28 is not in the width range of the first tooth bar 21.The port of the second described through hole 28 does not refer in the width range of the first tooth bar 21, and shared by the port that the second through hole 28 is offered and the first tooth bar 21, the second orienting lug 14 left side does not exist common factor.

Being provided with the first stage clip 35, first stage clip 35 between the first described orienting lug 13 and hold-down nut 24 is socketed on guide rod 17, and first stage clip 35 one end and the first orienting lug 13 end face push against, and the other end and hold-down nut 24 end face push against; Being provided with the second stage clip 36, second stage clip 36 between the first described orienting lug 13 and baffle ring 23 is socketed on guide rod 17, and second stage clip 36 one end and the first orienting lug 13 end face push against, and the other end and baffle ring 23 push against.

Being provided with the 3rd stage clip the 37, three stage clip 37 between described guide rod 17 and the second orienting lug 14 is socketed on connecting rod 16, and the 3rd stage clip 37 one end and guide rod 17 lower surface push against, and the other end and the second orienting lug 14 upper surface push against.

Described feed arrangement refers to, by motor-driven first tape handler 38.

Described drawing mechanism refers to, by motor-driven second tape handler 39.

The foregoing is only preferred embodiment of the present invention, not for limiting the scope of the invention.All within the claims in the present invention, any amendment done, equivalent replacement and improvement etc., all should be included within protection scope of the present invention.

Claims (8)

1. the processing unit (plant) for workpiece turning, comprise frame (1), it is characterized in that: described frame (1) is provided with successively for the feed arrangement of workpiece (2) charging transmission, for overturning the commutation platform (3) of workpiece (2), the drawing mechanism for workpiece (2) discharging transmission, and frame (1) is provided with for pulling workpiece (2) successively from commutation platform (3) to the pull unit of drawing mechanism; Described commutation platform (3) comprises the segmental arc (4) that inputs for workpiece (2) and the inner concave (6) for accommodating workpiece (2), and described segmental arc (4) input end flushes with feed arrangement discharging opening; Described inner concave (6) is opening up, described inner concave (6) is made up of the first inclined-plane (7) intersected and the second inclined-plane (8), (7) one end, first inclined-plane and segmental arc (4) mouth tangent, the other end is crossing with the second inclined-plane (8) one end, and the second inclined-plane (8) other end flushes with drawing mechanism; Described the second inclined-plane (8) is connected with the linear gear rack (9) overturn in inner concave (6) for promoting workpiece (2), commutation platform (3) is provided with the third through-hole (10) for linear gear rack (9) sliding block joint, described third through-hole (10) is arranged on the second inclined-plane (8), and third through-hole (10) axis is vertical with the second inclined-plane (8); Described frame (1) is provided with can first motor (11) of rotating, first motor (11) output shaft is fixedly connected with for the first gear (40) with linear gear rack (9) engaged transmission, and the second inclined-plane (8) lower surface be provided with for linear gear rack (9) sliding block joint to make linear gear rack (9) along the 3rd orienting lug (5) of third through-hole (10) axis movement.

2. the processing unit (plant) for workpiece turning according to claim 1, it is characterized in that: described pull unit comprises flat board (12), first orienting lug (13), second orienting lug (14) and be arranged in frame (1) can second motor (15) of rotating, described flat board (12) is fixedly connected in frame (1), first orienting lug (13) is connected with the second orienting lug (14) with guide rod (17) by connecting rod (16), second orienting lug (14) is by vertical the first pilot bar (19) arranged and dull and stereotyped (12) sliding block joint, second motor (15) output shaft is fixedly connected with the second gear (18), described frame (1) is also by horizontally disposed second pilot bar (20) and the second orienting lug (14) sliding block joint, described the second orienting lug (14) be vertically provided with for the second gear (18) engaged transmission with the first tooth bar (21) making the second orienting lug vertically increase or to decline, described connecting rod (16) one end vertically screws through guide rod (17) and the second orienting lug (14), and connecting rod (16) other end is by jam nut (22) locking, described the first orienting lug (13) is socketed on guide rod (17), guide rod (17) is provided with near connecting rod (16) one end for the spacing baffle ring (23) of the first orienting lug (13) and the fourth hole (25) that vertically slides for connecting rod (16), guide rod (17) other end is combined with hold-down nut (24), and the first orienting lug (13) is provided with the second tooth bar (26) in the horizontal direction, described flat board (12) is provided with the first through hole (27), described the first pilot bar (19) one end is fixedly connected with the second orienting lug (14), the other end and the first through hole (27) sliding block joint or depart from the first through hole (27), and dull and stereotyped (12) lower surface is provided with for the first pilot bar (19) guiding with the second block (30) making the first pilot bar (19) enter the first through hole (27), the second block (30) is arranged on the first through hole (27) lower port near the second orienting lug (14) place, described the second orienting lug (14) is provided with the second through hole (28), described the second pilot bar (20) one end is fixedly connected in frame (1), the other end and the second through hole (28) sliding block joint or depart from the second through hole (28), and the second orienting lug (14) is provided with for the second pilot bar (20) guiding with the first block (29) making the second pilot bar (20) enter the second through hole (28), first pilot bar (19) lower end is fixedly connected on the first block (29), first block (29) is arranged on the second through hole (28) right output port near the first orienting lug (13) place, described the second orienting lug (14) lower end edge horizontal direction is provided with horizon bar (31), and horizon bar (31) is provided with the pulling claw (32) for pulling workpiece (2) movement near feed arrangement one end, described the second orienting lug (14) offers the chute (33) slided for the second pilot bar (20) end on the sidewall of the second pilot bar (20), and chute (33) is arranged on immediately below upper second through hole (28) of the second orienting lug (14) and locates, described the second orienting lug (14) straight down or the ultimate range moved up equal the ultimate range of the first block (29) lower surface to the second pilot bar (20) upper surface, described the first orienting lug (13) level to the right or the ultimate range be moved to the left equal the ultimate range of the second block (30) right surface to the first pilot bar (19) left surface.

3. the processing unit (plant) for workpiece turning according to claim 2, it is characterized in that: described the second motor (15) is connected with frame (1) by strut bar (34), strut bar (34) one end is fixedly connected in frame (1), and the other end is connected with the second motor (15).

4. the processing unit (plant) for workpiece turning according to claim 2, it is characterized in that: described the second through hole (28) and the first tooth bar (21) are crisscross arranged on the second orienting lug (14), and the port of the second through hole (28) is not in the width range of the first tooth bar (21).

5. the processing unit (plant) for workpiece turning according to claim 2, it is characterized in that: between described the first orienting lug (13) and hold-down nut (24), be provided with the first stage clip (35), first stage clip (35) is socketed on guide rod (17), first stage clip (35) one end and the first orienting lug (13) end face push against, and the other end and hold-down nut (24) end face push against; The second stage clip (36) is provided with between described the first orienting lug (13) and baffle ring (23), second stage clip (36) is socketed on guide rod (17), second stage clip (36) one end and the first orienting lug (13) end face push against, and the other end and baffle ring (23) push against.

6. the processing unit (plant) for workpiece turning according to claim 2, it is characterized in that: between described guide rod (17) and the second orienting lug (14), be provided with the 3rd stage clip (37), 3rd stage clip (37) is socketed on connecting rod (16), 3rd stage clip (37) one end and guide rod (17) lower surface push against, and the other end and the second orienting lug (14) upper surface push against.

7. the processing unit (plant) for workpiece turning according to claim 1, is characterized in that: described feed arrangement refers to, by motor-driven first tape handler (38).

8. the processing unit (plant) for workpiece turning according to claim 1, is characterized in that: described drawing mechanism refers to, by motor-driven second tape handler (39).