CN214561360U

CN214561360U - Feeding device of bobbin end peeling machine

Info

Publication number: CN214561360U
Application number: CN202023209931.2U
Authority: CN
Inventors: 周理; 杨华; 班克东
Original assignee: Taizhou Airui Automation Technology Co ltd; Liuzhou Jingda Automobile Brake Pipe Manufacturing Co ltd
Current assignee: Taizhou Airui Automation Technology Co ltd; Liuzhou Jingda Automobile Brake Pipe Manufacturing Co ltd
Priority date: 2020-12-28
Filing date: 2020-12-28
Publication date: 2021-11-02
Anticipated expiration: 2030-12-28

Abstract

The utility model aims at providing a feeding device of a wire tube end peeling machine, which comprises a workbench b and an automatic sample feeding mechanism; the automatic sample feeding mechanism comprises a storage tank, a jacking feeding mechanism, a positioning table and a pushing mechanism. The utility model aims at providing a spool end peeler material feeding unit, the device have characteristics such as structure scientific and reasonable, convenient operation, degree of automation height.

Description

Feeding device of bobbin end peeling machine

Technical Field

The utility model relates to the field of mechanical equipment, concretely relates to spool end peeler material feeding unit.

Background

The automobile brake pipe, commonly called brake pipe, is a part used in an automobile brake system, and mainly has the main function of transmitting brake media in automobile braking to ensure that the brake force is transmitted to an automobile brake shoe or a brake caliper to generate brake force, so that the braking is effective at any time. The end peeling of the automobile brake pipe is one of the manufacturing processes, and the existing end peeling equipment in the prior art needs manual sample feeding, so that the automation degree is low, the labor cost is high, and the efficiency is low.

Disclosure of Invention

The utility model aims at providing a spool end peeler material feeding unit, the device have characteristics such as structure scientific and reasonable, convenient operation, degree of automation height.

The technical scheme of the utility model as follows:

the feeding device of the wire tube end peeling machine comprises a workbench b and an automatic sample feeding mechanism;

the automatic sample feeding mechanism comprises a storage tank, a jacking feeding mechanism, a positioning table and a pushing mechanism;

the storage tank is arranged on the top surface of the workbench b; the positioning table is arranged on the front side surface of the storage tank, corresponds to the peeling mechanism and is used for placing and positioning the pipe and aligning the pipe to the rotary peeling mechanism of the peeling mechanism; the bottom surface of the storage tank is an inclined surface which is inclined downwards from back to front; the jacking and feeding mechanism is arranged on the front side in the storage tank and is used for jacking and conveying the pipes in the storage tank to the positioning table; the pushing mechanism is arranged on the right side of the workbench b and used for pushing the pipe to the peeling mechanism.

The jacking and feeding mechanism comprises a step platform, an air cylinder a and a jacking mechanism; the ladder platform is arranged on the front side of the bottom surface of the storage tank and comprises a first-stage ladder and a second-stage ladder, the top surfaces of the first-stage ladder and the second-stage ladder are inclined surfaces which incline downwards from back to front, and the side surfaces of the first-stage ladder and the second-stage ladder are vertical surfaces;

a plurality of groups of material ejecting grooves are uniformly arranged on the side surfaces of the first-stage ladder and the second-stage ladder at intervals, a top groove a is arranged on the top surface of the ladder corresponding to each material ejecting groove and communicated with the top of the corresponding material ejecting groove, a top groove b is arranged on the bottom surface of the material storage groove or the top surface of the ladder at the bottom end of each material ejecting groove and communicated with the bottom end of the corresponding material ejecting groove;

the ejection mechanisms are provided with two groups, each group of ejection mechanisms comprises a connecting plate and a plurality of ejector rods, the ejector rods are correspondingly arranged in the ejection grooves respectively, the cross sections of the ejector rods are consistent with the orthographic projection surfaces of the top grooves a and the top grooves b, and the bottom ends of the ejector rods are connected with the connecting plate respectively; two groups of air cylinders a are arranged corresponding to the material ejecting mechanisms, are arranged in the workbench b and are positioned below the material storage tank, piston rods of the air cylinders are vertically arranged upwards, and the upper ends of the piston rods are connected with the connecting plate; the lower ejector rod driven by the cylinder a can stretch out and draw back through the top groove b, the top groove and the top groove a, extend out of the top groove a and extend upwards or retract into the bottom of the top groove b.

The top surface of the first-stage ladder in the two-stage ladder of the ladder platform is provided with a detection groove close to the side surface of the second-stage ladder, a photoelectric switch with a vertical upward detection direction is arranged in the detection groove, when the photoelectric switch cannot detect the pipe, the cylinder a at the first-stage ladder is controlled to act, and the ejector rod is jacked to jack the pipe and convey the pipe to the top surface of the first-stage ladder.

The top surfaces of two steps of the step platform are parallel to each other, the front side of the top surface of the ejector rod is provided with an inclined top platform parallel to the top surface of the step, and the rear side of the top surface of the ejector rod is provided with an inclined platform a with the inclination direction opposite to that of the inclined top platform; the highest point of the inclined top platform is connected with the highest point of the inclined platform a.

The positioning tables are provided with a plurality of groups and are arranged on the front side surface of the storage tank at intervals, each positioning table comprises an inclined table b, a positioning groove and a stop block, the inclined table b is arranged at the top of the front side of the working table b, the top surface of the inclined table b is an inclined surface which inclines forwards and downwards from back to front, and the rear side edge of the top surface of the inclined table b is connected with the front side edge of the top surface of the second-stage step of the step table through a buffer surface; a stop block is arranged on the front side of the sloping platform b, and a positioning groove corresponding to the shape of the pipe is arranged on the contact part of the front edge of the top surface of the sloping platform b and the stop block; the left side face or the right side face of the left positioning table is provided with a photoelectric switch which is vertically upward in the detection direction, and when the photoelectric switch detects a pipe, the pushing mechanism is controlled to be started to push the pipe into the peeling mechanism. The photoelectric switch model can be selected from: ohlong E3Z-D61.

The automatic sample feeding mechanism comprises an installation frame, a guide rail a, a linear cylinder, a hoisting plate, a push rod a and a push plate, wherein the installation frame is installed on the front side of a workbench a through upright posts at two ends, the guide rail a is arranged on the installation frame, and the direction of the guide rail a is the left-right direction; the linear cylinder is arranged on the guide rail a, a vertical and downward extending hoisting plate is arranged on a cylinder body of the linear cylinder, a guide sleeve is arranged at the lower end of the hoisting plate, the push rod a is arranged in the guide sleeve, a fixing screw hole is formed in the guide sleeve, and the position of the push rod a is fixed by inserting a bolt into the fixing screw hole; the left end of the push rod a is provided with a push plate, the push plate corresponds to the pipe on the positioning table, and the pipe is pushed into the working part of the peeling mechanism under the driving of the linear cylinder.

The blanking mechanism comprises a mounting side plate, a guide rail c, a push rod b, a cylinder e, a connecting plate, a cylinder f and a cylinder clamping jaw; the mounting side plate is arranged on the left side of the workbench b, and a space is reserved on the front side of the mounting side plate to allow the automatic sample conveying mechanism to convey the pipe to pass through; the guide rail c is arranged at the upper part of the left side surface of the installation side plate along the front-back direction, and the push rod b is arranged on the guide rail c; the cylinder e is arranged on the front side of the mounting side plate and is positioned above the guide rail c, and a piston rod of the cylinder e horizontally extends backwards; the front end of a piston rod of the air cylinder e is connected with the rear end of the push rod b through a connecting plate, and the front end of the push rod b is provided with an air cylinder f; the piston rod of the air cylinder f is vertically arranged downwards, and the front end of the piston rod of the air cylinder f is provided with an air cylinder clamping jaw for clamping the peeled pipe and blanking.

The upper portion of the left and right side walls of the stock chest is provided with slide bars which are reversed along the left and right directions, the slide bars are provided with partition plates through sliding sleeves, the partition plates are arranged corresponding to the front and rear sections of the space in the stock chest, the sliding sleeves are provided with positioning screw holes, and the relative positions of the sliding sleeves on the slide bars are fixed through screw-in bolts.

Except the linear cylinder, other cylinders all are equipped with stroke sensor, when detecting the cylinder stroke and target in place, start next process, stroke sensor model can choose: CS-30E.

The linear cylinder magnetic ring inductor can be selected from the following types: and CS-9D, controlling the stroke of the linear cylinder, and performing the next action after the stroke is in place.

The model of the photoelectric switch can be ohm dragon E3Z-D61.

The working process of the utility model is as follows:

the workbench a and the workbench b are arranged side by side or connected into a whole, and the workbench a is positioned on the left side of the workbench b; the peeling mechanism is arranged on the workbench a, and the automatic sample feeding mechanism and the blanking mechanism are arranged on the workbench b; adjusting the position of the partition plate to enable the distance between the partition plate and the left side face in the material storage tank to be slightly larger than the length of the pipe, filling a brake pipe into the material storage tank, arranging the brake pipe on the bottom face of the material storage tank side by side, starting a switch, synchronously starting the cylinders a of the first step and the second step, jacking the pipe to a stroke, transmitting the pipe to a positioning table, and simultaneously supplementing the material to the top face of the first step; when the photoelectric switch at the positioning table detects the pipe, the pushing mechanism is started to send the pipe into the peeling mechanism according to the stroke of the pushing mechanism.

After peeling is finished, the blanking mechanism cylinder f drives the cylinder clamping jaw to move downwards to clamp the pipe, then the cylinder f resets, the cylinder e starts the driving cylinder clamping jaw to extend forwards to a stroke, the cylinder clamping jaw is loosened to finish blanking, and then the cylinder e resets.

The utility model discloses a cylinder stroke cooperation stroke sensor has realized the continuous butt joint between each process, and automated control simple structure is reliable, and the cost is lower, has successfully realized automatic sample presentation.

The utility model has the characteristics of convenient operation, degree of automation are high, the trouble is few to the cost budget of comprehensive consideration has better application prospect.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a partial enlarged view of the jacking feeding mechanism of the present invention;

FIG. 3 is a schematic structural view of the automatic sample feeding mechanism and the blanking mechanism of the present invention;

fig. 4 is a schematic structural view of the peeling mechanism of the present invention;

fig. 5 is a schematic structural view of the material ejecting mechanism of the present invention;

the names and serial numbers of the parts in the figure are as follows:

1-workbench a, 2-workbench b, 3-stock chest, 4-jacking feeding mechanism, 5-positioning bench, 6-pushing mechanism, 7-stair bench, 8-cylinder a, 9-first stair, 10-second stair, 11-jacking groove, 12-top surface groove a, 13-top surface groove b, 14-connecting plate, 15-ejector rod, 16-detection groove, 17-oblique jacking platform, 18-oblique platform a, 19-positioning groove, 20-stop block, 21-buffer surface, 22-mounting rack, 23-guide rail a, 24-linear cylinder, 25-hoisting plate, 26-push rod a, 27-push plate, 28-guide sleeve, 60-mounting side plate, 61-guide rail c, 62-push rod b, 63-cylinder e, 64-connecting plate, 65-cylinder f, 66-cylinder clamping jaw, 67-sliding rod, 68-sliding block, 69-partition plate and 70-inclined table b.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings and examples.

Example 1

As shown in fig. 1-5, the feeding device of the wire tube end peeler comprises a workbench b2 and an automatic sample feeding mechanism;

the automatic sample feeding mechanism comprises a storage tank 3, a jacking and feeding mechanism 4, a positioning table 5 and a pushing mechanism 6;

the storage tank 3 is arranged on the top surface of the workbench b 2; the positioning table 5 is arranged on the front side surface of the storage tank 3, corresponds to the peeling mechanism, and is used for placing and positioning the pipe and aligning the pipe to the rotary peeling mechanism 32 of the peeling mechanism; the bottom surface of the storage tank 3 is an inclined surface which is inclined downwards from back to front; the jacking and feeding mechanism 4 is arranged on the front side in the storage tank 3 and is used for jacking and conveying the pipes in the storage tank 3 to the positioning table 5; the pushing mechanism 6 is arranged on the right side of the workbench b2 and used for pushing the pipe to the peeling mechanism.

In embodiment 1, the peeling mechanism is provided on the table a1 and is located on the left side of the pushing mechanism 6.

The jacking and feeding mechanism 4 comprises a step platform 7, a cylinder a8 and a jacking mechanism; the ladder platform 7 is arranged on the front side of the bottom surface of the storage tank 3, the ladder platform 7 comprises a first-stage ladder 9 and a second-stage ladder 10, the top surfaces of the first-stage ladder 9 and the second-stage ladder 10 are inclined surfaces which incline downwards from back to front, and the side surfaces of the first-stage ladder 9 and the second-stage ladder 10 are vertical surfaces;

a plurality of groups of material ejecting grooves 11 are uniformly arranged on the side surfaces of the first-stage ladder 9 and the second-stage ladder 10 at intervals, top surface grooves a12 are arranged on the top surface of the ladder corresponding to the material ejecting grooves 11, the top surface grooves a12 are communicated with the tops of the corresponding material ejecting grooves 11, top surface grooves b13 are arranged on the bottom surface of the material storage tank 3 or the top surface of the ladder at the bottom end of each material ejecting groove 11, and the top surface grooves b13 are communicated with the bottom ends of the corresponding material ejecting grooves 11;

the two groups of the ejection mechanisms are arranged, each group of the ejection mechanisms comprises a connecting plate 14 and a plurality of ejector rods 15, the ejector rods 15 are correspondingly arranged in the ejection grooves 11 respectively, the cross sections of the ejector rods are consistent with the orthographic projection surfaces of the top grooves a12 and the top grooves b13, and the bottom ends of the ejector rods 15 are connected with the connecting plate 14 respectively; two groups of cylinders a8 corresponding to the material ejecting mechanism are arranged in the workbench b2 and located below the material storage tank 3, piston rods of the cylinders are arranged vertically upwards, and the upper ends of the piston rods are connected with the connecting plate 14; the lower ejector rod 15 driven by the cylinder a8 can extend and retract through the top groove b13, the ejector groove 11 and the top groove a12, and extend out of the top groove a12 or retract into the top groove b 13.

The top surface of a first-stage ladder 9 in two stages of ladders of the ladder platform 7 is provided with a detection groove 16 close to the side surface of a second-stage ladder 10, a photoelectric switch with a vertical upward detection direction is arranged in the detection groove, when the photoelectric switch can not detect the pipe, the cylinder a at the first-stage ladder 9 is controlled to act, and the ejector rod 15 is jacked to jack the pipe and send the pipe to the top surface of the first-stage ladder 9.

The top surfaces of the two steps of the step platform 7 are parallel to each other, the front side of the top surface of the mandril 15 is provided with an inclined top platform 17 parallel to the top surface of the step, and the rear side of the top surface of the mandril 15 is provided with an inclined platform a18 with the opposite inclined direction to the inclined top platform; the highest point of the sloping roof 17 is connected with the highest point of the sloping roof a 18.

The positioning table 5 is provided with a plurality of groups, the positioning table 5 is arranged on the front side surface of the material storage tank 3 at intervals, the positioning table 5 comprises an inclined table b70, a positioning groove 19 and a stop block 20, the inclined table b70 is arranged at the top of the front side of the workbench b2, the top surface of the inclined table b70 is an inclined surface which inclines forwards and downwards from back to front, and the rear side edge of the top surface of the inclined table b70 is connected with the front side edge of the top surface of the second-stage ladder 10 of the ladder table 7 through a buffer surface 21; a stop block 20 is arranged on the front side of the sloping platform b70, and a positioning groove 19 corresponding to the shape of the pipe is arranged on the contact part between the front edge of the top surface of the sloping platform b70 and the stop block 20; the left side face or the right side face of the left positioning table 5 is provided with a photoelectric switch which is vertically upward in the detection direction, and when the photoelectric switch detects a pipe, the push mechanism 6 is controlled to be started to push the pipe into the peeling mechanism.

The automatic sample feeding mechanism comprises an installation frame 22, a guide rail a23, a linear air cylinder 24, a hoisting plate 25, a push rod a26 and a push plate 27, wherein the installation frame 22 is installed on the front side of a workbench a1 through upright posts at two ends, the guide rail a23 is arranged on the installation frame 22, and the direction of the guide rail a23 is the left-right direction; the linear cylinder 24 is mounted on the guide rail a23, a cylinder body of the linear cylinder 24 is provided with a hoisting plate 25 which extends vertically and downwards, the lower end of the hoisting plate 25 is provided with a guide sleeve 28, the push rod a26 is arranged in the guide sleeve 28, the guide sleeve 28 is provided with a fixing screw hole, and the position of the push rod a26 is fixed by inserting a bolt into the fixing screw hole; the left end of the push rod a26 is provided with a push plate 27, the push plate 27 corresponds to the pipe on the positioning table 5, and the pipe is pushed into the working part of the peeling mechanism under the driving of the linear air cylinder 24.

The blanking mechanism comprises a mounting side plate 60, a guide rail c61, a push rod b62, an air cylinder e63, a connecting plate 64, an air cylinder f65 and an air cylinder clamping jaw 66; the mounting side plate 60 is arranged on the left side of the workbench b2, and a space is reserved on the front side of the mounting side plate 60 for the automatic sample feeding mechanism to convey the tube to pass through; the guide rail c61 is arranged at the upper part of the left side surface of the installation side plate 60 along the front-back direction, and the push rod b62 is arranged on the guide rail c 61; the air cylinder e63 is arranged on the front side of the mounting side plate 60 and is positioned above the guide rail c61, and the piston rod of the air cylinder e63 horizontally extends backwards; the front end of a piston rod of the air cylinder e63 is connected with the rear end of a push rod b62 through a connecting plate 64, and the front end of the push rod b62 is provided with an air cylinder f 65; the piston rod of the air cylinder f65 is vertically arranged downwards, and the front end of the piston rod of the air cylinder f65 is provided with an air cylinder clamping jaw 66 for clamping the peeled pipe and blanking.

The upper portion of the left and right side walls of the stock chest 3 is provided with slide bars 67 which are reversed left and right, partition plates 69 are arranged on the slide bars 67 through sliding sleeves, the partition plates 69 are arranged corresponding to the front and rear sections of the space in the stock chest 3, the sliding sleeves are provided with positioning screw holes, and the relative positions of the sliding sleeves on the slide bars 67 are fixed through screwing bolts.

In the description of the present embodiment, the terms "upper", "lower", "left", "right", "front", "rear", and the like are used in the orientation or positional relationship shown in fig. 1 for convenience of description and simplicity of operation, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and therefore should not be construed as limiting the present invention.

Claims

1. A feeding device of a bobbin end peeling machine comprises a workbench b (2) and an automatic sample feeding mechanism; the method is characterized in that:

the automatic sample feeding mechanism comprises a storage tank (3), a jacking and feeding mechanism (4), a positioning table (5) and a pushing mechanism (6);

the storage tank (3) is arranged on the top surface of the workbench b (2); the positioning table (5) is arranged on the front side surface of the storage tank (3), corresponds to the peeling mechanism, and is used for placing and positioning the pipe and aligning the pipe to the rotary peeling mechanism (32) of the peeling mechanism; the bottom surface of the storage tank (3) is an inclined surface which is inclined downwards from back to front; the jacking and feeding mechanism (4) is arranged on the front side in the storage tank (3) and is used for jacking and conveying the pipes in the storage tank (3) to the positioning table (5); the pushing mechanism (6) is arranged on the right side of the workbench b (2) and used for pushing the pipe to the peeling mechanism.

2. The conduit end stripper feed arrangement of claim 1, wherein:

the jacking and feeding mechanism (4) comprises a step platform (7), an air cylinder a (8) and a jacking mechanism; the stepped platform (7) is arranged on the front side of the bottom surface of the storage tank (3), the stepped platform (7) comprises a first-stage step (9) and a second-stage step (10), the top surfaces of the first-stage step (9) and the second-stage step (10) are inclined surfaces which incline forwards and downwards from back to front, and the side surfaces of the first-stage step (9) and the second-stage step (10) are vertical surfaces;

a plurality of groups of material ejecting grooves (11) are uniformly arranged on the side surfaces of the first-stage ladder (9) and the second-stage ladder (10) at intervals, top surface grooves a (12) are arranged on the top surface of the first-stage ladder corresponding to the positions of the material ejecting grooves (11), the top surface grooves a (12) are communicated with the tops of the corresponding material ejecting grooves (11), top surface grooves b (13) are arranged on the bottom surfaces of the material storage grooves (3) at the bottom end positions of the material ejecting grooves (11) or the top surfaces of the ladders, and the top surface grooves b (13) are communicated with the bottom ends of the corresponding material ejecting grooves (11);

the two groups of the ejection mechanisms are arranged, each group of the ejection mechanisms comprises a connecting plate (14) and a plurality of ejector rods (15), the ejector rods (15) are respectively and correspondingly arranged in the ejection grooves (11), the cross sections of the ejector rods are consistent with the orthographic projection surfaces of the top grooves a (12) and b (13), and the bottom ends of the ejector rods (15) are respectively connected with the connecting plate (14); two groups of air cylinders a (8) are arranged corresponding to the material ejecting mechanisms, are arranged in the workbench b (2) and are positioned below the material storage tank (3), piston rods of the air cylinders are vertically arranged upwards, and the upper ends of the piston rods are connected with a connecting plate (14); the lower ejector rod (15) is driven by the cylinder a (8) to extend out of the top surface groove a (12) or retract into the top surface groove b (13) through the top surface groove b (13), the ejector groove (11) and the top surface groove a (12);

the top surface of a first-stage ladder (9) in two stages of ladders of the ladder platform (7) is provided with a detection groove (16) close to the side surface of a second-stage ladder (10), a photoelectric switch with a vertical upward detection direction is arranged in the detection groove, and when the photoelectric switch cannot detect a pipe, the cylinder a at the first-stage ladder (9) is controlled to act, a jacking ejector rod (15) jacks up the pipe, and the pipe is conveyed to the top surface of the first-stage ladder (9).

3. The conduit end stripper feed arrangement of claim 2, wherein: the top surfaces of two steps of the stair platform (7) are parallel to each other, the front side of the top surface of the ejector rod (15) is provided with an inclined top platform (17) parallel to the top surface of the steps, and the rear side of the top surface of the ejector rod (15) is provided with an inclined platform a (18) with the inclination direction opposite to that of the inclined top platform; the highest point of the inclined top platform (17) is connected with the highest point of the inclined platform a (18).

4. The conduit end stripper feed arrangement of claim 2, wherein: the positioning table (5) is provided with a plurality of groups, the positioning table is arranged on the front side face of the storage tank (3) at intervals, the positioning table (5) comprises an inclined table b (70), a positioning groove (19) and a stop block (20), the inclined table b (70) is arranged at the top of the front side of the workbench b (2), the top face of the inclined table b (70) is an inclined face which inclines forwards and downwards from back to front, and the rear side edge of the top face of the inclined table b (70) is connected with the front side edge of the top face of the second-stage ladder (10) of the ladder table (7) through a buffer face (21); a stop block (20) is arranged on the front side of the sloping platform b (70), and a positioning groove (19) corresponding to the shape of the pipe is arranged on the contact part of the front edge of the top surface of the sloping platform b (70) and the stop block (20); the left side surface or the right side surface of the left positioning table (5) is provided with a photoelectric switch which is vertically upward in the detection direction, and when the photoelectric switch detects a pipe, the pushing mechanism (6) is controlled to be started to push the pipe into the peeling mechanism.

5. The conduit end stripper feed arrangement of claim 2, wherein: the automatic sample feeding mechanism comprises an installation frame (22), a guide rail a (23), a linear air cylinder (24), a hoisting plate (25), a push rod a (26) and a push plate (27), wherein the installation frame (22) is installed on the front side of the workbench a (1) through upright posts at two ends, the guide rail a (23) is arranged on the installation frame (22), and the direction of the guide rail a (23) is the left-right direction; the linear air cylinder (24) is mounted on the guide rail a (23), a cylinder body of the linear air cylinder (24) is provided with a vertically and downwardly extending hoisting plate (25), the lower end of the hoisting plate (25) is provided with a guide sleeve (28), the push rod a (26) is arranged in the guide sleeve (28), the guide sleeve (28) is provided with a fixing screw hole, and the position of the push rod a (26) is fixed by inserting a bolt into the fixing screw hole; the left end of the push rod a (26) is provided with a push plate (27), the push plate (27) corresponds to the pipe on the positioning table (5), and the pipe is pushed into the working part of the peeling mechanism under the driving of the linear air cylinder (24).

6. The conduit end stripper feed arrangement of claim 1, wherein: the blanking mechanism comprises a mounting side plate (60), a guide rail c (61), a push rod b (62), a cylinder e (63), a connecting plate (64), a cylinder f (65) and a cylinder clamping jaw (66); the mounting side plate (60) is arranged on the left side of the workbench b (2), and a space is reserved on the front side of the mounting side plate (60) for the automatic sample conveying mechanism to convey the pipe to pass through; the guide rail c (61) is arranged at the upper part of the left side surface of the mounting side plate (60) along the front-back direction, and the push rod b (62) is arranged on the guide rail c (61); the cylinder e (63) is arranged on the front side of the mounting side plate (60) and is positioned above the guide rail c (61), and a piston rod of the cylinder e extends horizontally backwards; the front end of a piston rod of the air cylinder e (63) is connected with the rear end of the push rod b (62) through a connecting plate (64), and the front end of the push rod b (62) is provided with an air cylinder f (65); the piston rod of cylinder f (65) vertical downward setting, the front end of the piston rod of cylinder f (65) is equipped with cylinder clamping jaw (66) for the tubular product and the unloading after the centre gripping is skinned and is accomplished.

7. The conduit end stripper feed arrangement of claim 1, wherein: the upper portion of the left and right side walls of the stock chest (3) is provided with slide bars (67) which are reversed along the left and right directions, partition plates (69) are arranged on the slide bars (67) through sliding sleeves, the partition plates (69) correspond to the front and rear cross sections of the inner space of the stock chest (3), the sliding sleeves are provided with positioning screw holes, and the relative positions of the sliding sleeves on the slide bars (67) are fixed through screw-in bolts.