CN218135337U - Automatic material loading pipe cutting device - Google Patents

Abstract

The utility model provides an automatic feeding and pipe cutting device, which comprises a feeding platform, a feeding mechanism, a pipe cutting workbench and a pipe cutting mechanism; the feeding table, the feeding mechanism and the pipe cutting workbench are sequentially arranged along the left and right direction; the top surface of the feeding table is an inclined surface and is arranged obliquely downwards; a plurality of groups of material blocking blocks and material feeding grooves are arranged on one side, close to the feeding mechanism, of the top surface of the feeding table at intervals; the material blocking block is used for blocking the stop steel pipe, and the steel pipe contacting with the material blocking block is positioned right above the feeding chute; the feeding mechanism comprises a feeding working groove, and the bottom surface of the feeding groove is communicated with the left side of the feeding working groove; the material ejecting device a is arranged in the material loading working groove along the front-back direction and is used for ejecting the steel pipe contacting with the material blocking block and conveying the steel pipe into the material loading working groove; a plurality of groups of material ejecting devices b are arranged in the feeding working groove at intervals and are used for ejecting the steel pipe in the feeding working groove and enabling the steel pipe to roll towards the pipe cutting working table; the utility model has the characteristics of full automatic feeding, production efficiency are high.

Description

Automatic material loading pipe cutting device

Technical Field

The utility model belongs to the technical field of the steel pipe cutting, concretely relates to automatic material loading pipe cutting device.

Background

The steel pipe is used for conveying fluid, exchanging heat energy and manufacturing mechanical parts and containers, and is also an economic steel material. The steel pipe is quantitatively cut according to the requirements of customers in the production process, the conventional pipe cutting machine needs manual feeding and pushing, a plurality of operators are needed to assist in feeding together, and the labor cost is high; if the number of the cutting is large, the labor intensity of the operator is increased, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic material loading pipe cutting device to solve the defect of prior art's existence, have full-automatic material loading, production efficiency is high, characteristics that the cost of labor is low.

The technical scheme of the utility model as follows:

the automatic feeding and pipe cutting device comprises a feeding table, a feeding mechanism and a pipe cutting workbench which are sequentially arranged along the left-right direction; the top surface of the feeding platform is an inclined surface and is arranged obliquely downwards in the direction of the feeding mechanism;

a plurality of groups of material blocking blocks and material feeding grooves are arranged on one side, close to the roller bracket a, of the top surface of the material feeding table at intervals; the material blocking block is used for blocking the stop steel pipe, and the steel pipe close to the material blocking block is positioned right above the feeding chute; the feeding trough is internally provided with a material ejecting device a which is used for ejecting the steel pipe close to the material blocking block and conveying the steel pipe to the feeding mechanism;

the feeding mechanism comprises a feeding working groove and roller brackets a, a plurality of groups of roller brackets a are arranged in the feeding working groove at intervals along the front-rear direction, and each group of roller brackets a is used for supporting a steel pipe sent by the material ejecting device a; a plurality of groups of material ejecting devices b are arranged in the feeding working groove at intervals along the front-back direction and are used for ejecting the steel pipe in the feeding working groove to enable the steel pipe to roll towards the pipe cutting working table;

and the pipe cutting worktable is provided with a pipe cutting mechanism for cutting the steel pipe.

The material ejecting device a comprises a rotating shaft seat a, a bearing a, a material supporting plate a, a rotating shaft a, a transverse transmission rod a, a pushing cylinder a and a connecting plate a; the rotating shaft seat a is arranged in the feeding working groove, the rotating shaft a is installed on the rotating shaft seat a through a bearing a, and the rotating shaft a is horizontally arranged along the left-right direction; the lower end of the retainer plate a is arranged on the rotating shaft a and can rotate along with the rotating shaft a;

the pushing cylinder a is arranged in the feeding working groove through a supporting plate a, is positioned below the rotating shaft seat a and is staggered at the position of the rotating shaft seat a; the pushing cylinder a is horizontally arranged along the front-back direction, and a piston rod of the pushing cylinder a is provided with a uniform axial transverse transmission rod a; the lower part of the material supporting plate a is hinged with the upper end of a connecting plate a, and the lower end of the connecting plate a is hinged with a transverse transmission rod a;

the top end of the material supporting plate a is provided with a bracket a and an inclined supporting plate, the inclined supporting plate is positioned under the steel pipe close to the material blocking block, and the top surface of the inclined supporting plate is an inclined surface inclined downwards towards the direction of the pipe cutting workbench; the bracket a is positioned in the feeding working groove and is arranged close to the inclined supporting plate; the pushing cylinder a14 drives the lower material supporting plate a to swing up and down, so that the inclined supporting plate jacks up the steel pipe and conveys the steel pipe into the bracket a.

The top surface of the pipe cutting workbench is sequentially provided with a guide rail a, a cutting working groove and a guide rail b along the left-right direction, more than one group of guide seats are arranged on the guide rail a at intervals, the top surface of each guide seat is provided with a guide block, and the top surface of each guide block is an inclined surface which inclines towards the cutting working groove and extends downwards; the top surface of the material guide seat is provided with a clamping block I;

more than one group of pipe cutting mechanisms are arranged on the guide rail b at intervals corresponding to the material guide seats; the pipe cutting mechanism and the material guide seat slide back and forth along the guide rails a and b under the manual pushing action, and the lower parts of the pipe cutting mechanism and the material guide seat are provided with fixing mechanisms for fixing the pipe cutting mechanism and the material guide seat on the top surface of the pipe cutting workbench;

each group of pipe cutting mechanisms is provided with an air cylinder a corresponding to the clamping block I, the air cylinders a are horizontally arranged, and piston rods of the air cylinders a face the direction of the clamping block I; the clamping block II is arranged on a piston rod of the air cylinder a and is driven by the air cylinder a to be matched with the clamping block I to clamp the steel pipe; the opposite side surfaces of the clamping block I and the clamping block II are provided with steel pipe arc grooves;

a plurality of groups of roller brackets b are arranged in the cutting working groove at intervals along the front-back direction, and each group of roller brackets b28 is used for supporting the steel pipe sent by the material ejecting device b; and a plurality of groups of material ejecting devices c are arranged in the cutting working groove at intervals along the front-back direction and are used for ejecting the steel pipe in the cutting working groove and enabling the steel pipe to rise to the steel pipe arc groove positions of the clamping block I and the clamping block II.

The fixing mechanism comprises a positioning plate and a screw rod; a plurality of groups of screw holes a are formed in the top surface of the pipe cutting workbench at intervals along the front-back direction; and the lower parts of the guide seat and the pipe cutting mechanism are provided with positioning plates, screw holes b are arranged on the positioning plates corresponding to the screw holes a, and screws are screwed into the screw holes b and the screw holes a at corresponding positions to fix the positions of the guide seat and the pipe cutting mechanism on the guide rails a and the guide rails b.

The material ejecting device c comprises a rotating shaft seat c, a bearing c, a material supporting plate c, a rotating shaft c, a transverse transmission rod c, a pushing cylinder c and a connecting plate c; the rotating shaft seat c is arranged in the cutting working groove, the rotating shaft c is arranged on the rotating shaft seat c through a bearing c, and the rotating shaft c is horizontally arranged along the left-right direction; the lower end of the material supporting plate c is arranged on the rotating shaft c and can rotate along with the rotating shaft c;

the pushing cylinder c is arranged in the cutting working groove through a supporting plate c, is positioned below the rotating shaft seat c and is staggered with the rotating shaft seat c; the pushing cylinder c is horizontally arranged along the front-back direction, and a piston rod of the pushing cylinder c34 is provided with a uniform axial transverse transmission rod c; the lower part of the retainer plate c is hinged with the upper end of a connecting plate c35, and the lower end of the connecting plate c is hinged with a transverse transmission rod c;

the top end of the material supporting plate c is provided with a bracket c, and the bracket a is positioned in the cutting working groove; and the pushing cylinder c drives the lower material supporting plate c to swing up and down, so that the steel pipe is jacked and conveyed into the material supporting groove c.

A support is arranged at one side of the feeding working groove, which is close to the pipe cutting working table, corresponding to the position of the material ejecting device b, and the support is vertically and upwards arranged to extend out of the feeding working groove and be higher than the highest position of the top surface of the material guide block; the top surface of the bracket is an inclined surface which inclines downwards from the feeding mechanism to the pipe cutting workbench;

the material ejecting device b comprises a supporting plate b, an ejecting cylinder and an ejecting plate; the supporting plate b is arranged in the feeding working groove; the cylinder body of the material ejecting cylinder is fixedly arranged on the support plate II, and the piston rod of the material ejecting cylinder is vertically arranged upwards;

the ejector plate is arranged at the upper end of a piston rod of the ejector air cylinder, the top surface of the ejector plate is an inclined surface which inclines downwards from the feeding mechanism to the pipe cutting workbench, and a stop rod is arranged on one side, away from the pipe cutting workbench, of the inclined surface.

The pipe cutting mechanism comprises a fixing plate and a pipe cutting machine; the fixed plate is arranged on the guide rail b; and the cylinder a and the pipe cutting machine are arranged on the top surface of the fixing plate.

The pipe cutting machine is a full-automatic pipe cutting machine, and the disc saw teeth of the pipe cutting machine are located above the cutting working groove and are vertically arranged downwards.

A plurality of groups of conveying roller wheel assemblies are arranged on the feeding mechanism and the pipe cutting workbench at intervals along the front-rear direction; the conveying roller wheel assemblies are connected through a gear chain transmission mechanism, a roller bracket a or a roller bracket b is installed on the conveying roller wheel assemblies, the conveying roller wheel assembly at the leftmost end is connected with an output shaft of a conveying motor through the gear chain transmission mechanism, and the conveying roller wheel assembly rotates under the driving of the conveying motor to convey the steel pipes from left to right.

The right end of the feeding mechanism is provided with a baffle plate for limiting and positioning the conveying position of the steel pipe.

The working process of the utility model is as follows:

placing a steel pipe to be processed on a feeding table, blocking the steel pipe rolled down from the top of the feeding table through a baffle plate, jacking the steel pipe through an inclined supporting plate of a jacking device a and dropping into a supporting groove a, rotating the jacking device a backwards to place the steel pipe on a roller bracket a, jacking the steel pipe through a jacking device b to roll along a guide inclined surface of a support to the direction of a material guide block of a pipe cutting working table, and enabling the steel pipe to obliquely drop into a supporting groove c of a jacking device c along the guide inclined surface of the material guide block; at the moment, the clamping block II is matched with the clamping block I under the driving of the air cylinder a to clamp the steel pipe left and right, the pipe cutting mechanism starts to cut, the clamping block II and the clamping block I are loosened after the cutting is finished, the material ejecting device c rotates backwards to place the steel pipe on the roller bracket b, and the steel pipe is conveyed to the next procedure from front to back through the conveying roller assembly.

The utility model discloses an under liftout device an, liftout device b mutually support, accomplish the automatic feeding process, can also accomplish a steel pipe and cut into multistage work simultaneously, wherein liftout device an and liftout device b's setting can save the manual work and lift up the loaded down with trivial details of location with the steel pipe, very big reduction artifical intensity of labour.

The pipe cutting mechanism of the utility model is provided with a plurality of groups which are arranged in a straight line shape; each group of pipe cutting mechanisms are arranged on the guide rail b, the cutting distance can be adjusted according to steel pipes with different lengths, the machining efficiency is greatly improved, the working difficulty of operators is reduced, and the labor cost is reduced.

The utility model discloses preferred scheme has designed the baffle for the restriction is fixed a position the delivery position of steel pipe.

Drawings

Fig. 1 is a top view of the automatic feeding and pipe cutting device of the present invention;

FIG. 2 is a front view of the automatic loading and pipe cutting apparatus of the present invention;

FIG. 3 is an enlarged view of the automatic feeding and pipe cutting device of the present invention at the A position;

FIG. 4 is a schematic view of the material guiding seat of the present invention;

fig. 5 is a schematic structural diagram of the feeding mechanism of the present invention;

FIG. 6 is a schematic structural view of a cutting groove of the pipe cutting table of the present invention;

part names and sequence numbers in the figure are as follows:

1-feeding table, 2-feeding mechanism, 3-tube cutting table, 4-tube cutting mechanism, 5-roller bracket a, 6-material blocking block, 7-feeding groove, 8-feeding working groove, 9-rotating shaft seat a, 10-bearing a, 11-material supporting plate a, 12-rotating shaft a, 13-transverse transmission rod a, 14-pushing cylinder a, 15-connecting plate a, 16-supporting plate a, 17-bracket a, 18-inclined supporting plate, 19-guide rail a, 20-cutting working groove, 21-guide rail b, 22-material guiding seat, 23-material guiding block, 24-clamping block I, 25-cylinder a, 26-clamping block II, 27-steel tube arc groove, 28-roller bracket b, 29-rotating shaft seat c, 30-bearing c, 31-material supporting plate c, 32-rotating shaft c, 33-transverse transmission rod c, 34-pushing cylinder c, 35-supporting plate c, 36-supporting plate c, connecting plate 37-bracket c, 38-bracket, 39-bracket fixing plate, 40-tube cutting machine, 40-material supporting plate, 42-tube cutting machine, screw rod assembly, 42-positioning plate, 45-conveying screw 44-positioning plate, and conveying motor 46-positioning plate;

91-supporting plate b, 92-ejection cylinder, 93-ejector plate and 94-stop lever.

Detailed Description

The following detailed description of the embodiments of the present invention is provided to illustrate the present invention, with reference to the accompanying drawings and examples.

Examples

As shown in fig. 1-6, the automatic feeding and pipe cutting device comprises a feeding table 1, a feeding mechanism 2, a pipe cutting table 3 and a pipe cutting mechanism 4;

the feeding table 1, the feeding mechanism 2 and the pipe cutting workbench 3 are sequentially arranged along the left and right direction; the top surface of the feeding platform 1 is an inclined surface and is arranged downwards in an inclined way towards the direction of the feeding mechanism 2;

a plurality of groups of material blocking blocks 6 and material feeding grooves 7 are arranged on one side, close to the roller bracket a5, of the top surface of the material feeding table 1 at intervals; the material blocking block 6 is used for blocking the stop steel pipe, and the steel pipe close to the material blocking block 6 is positioned right above the feeding chute 7; the feeding chute 7 is internally provided with a material ejecting device a which is used for ejecting the steel pipe close to the material blocking block 6 and conveying the steel pipe to the feeding mechanism 2;

the feeding mechanism 2 comprises a feeding working groove 8 and roller brackets a5, a plurality of groups of roller brackets a5 are arranged in the feeding working groove 8 at intervals along the front-back direction, and each group of roller brackets a5 is used for supporting a steel pipe sent by the material ejecting device a; a plurality of groups of material ejecting devices b are arranged in the feeding working groove 8 at intervals along the front-back direction and are used for ejecting the steel pipes in the feeding working groove 8 and enabling the steel pipes to roll towards the pipe cutting working table 3;

and the pipe cutting worktable 3 is provided with a pipe cutting mechanism 4 for cutting the steel pipe.

The material ejecting device a comprises a rotating shaft seat a9, a bearing a10, a material supporting plate a11, a rotating shaft a12, a transverse transmission rod a13, a pushing cylinder a14 and a connecting plate a15; the rotating shaft seat a9 is arranged in the feeding working groove 8, the rotating shaft a12 is arranged on the rotating shaft seat a9 through a bearing a10, and the rotating shaft a12 is horizontally arranged along the left-right direction; the lower end of the retainer plate a11 is arranged on the rotating shaft a12 and can rotate along with the rotating shaft a 12;

the pushing cylinder a14 is arranged in the feeding working groove 8 through a supporting plate a16, is positioned below the rotating shaft seat a9 and is staggered at the position of the rotating shaft seat a 9; the pushing cylinder a14 is horizontally arranged along the front-back direction, and a piston rod of the pushing cylinder a14 is provided with a uniform axial transverse transmission rod a13; the lower part of the retainer plate a11 is hinged with the upper end of a connecting plate a15, and the lower end of the connecting plate a15 is hinged with a transverse transmission rod a13;

the top end of the material supporting plate a11 is provided with a bracket a17 and an inclined supporting plate 18, the inclined supporting plate 18 is positioned under the steel pipe close to the material blocking block 6, and the top surface of the inclined supporting plate 18 is an inclined surface inclined downwards towards the pipe cutting workbench 3; the bracket a17 is positioned in the feeding working groove 8 and is arranged close to the inclined supporting plate 18; the pushing cylinder a14 drives the lower material supporting plate a11 to swing up and down, so that the inclined supporting plate 18 jacks up the steel pipe and conveys the steel pipe into the bracket a 17.

The top surface of the pipe cutting workbench 3 is sequentially provided with a guide rail a19, a cutting working groove 20 and a guide rail b21 along the left-right direction, the guide rail a19 is provided with more than one group of guide seats 22 at intervals, the top surface of the guide seats 22 is provided with a guide block 23, and the top surface of the guide block 23 is an inclined surface which inclines towards the cutting working groove 20 and extends downwards; the top surface of the material guide seat 22 is provided with a clamping block I24;

more than one group of pipe cutting mechanisms 4 are arranged on the guide rail b21 corresponding to the guide seat 22 at intervals; the pipe cutting mechanism 4 and the material guiding seat 22 slide back and forth along the guide rail a19 and the guide rail b21 under the manual pushing, and fixing mechanisms are arranged at the lower parts of the pipe cutting mechanism 4 and the material guiding seat 22 and are used for fixing the pipe cutting mechanism 4 and the material guiding seat 22 on the top surface of the pipe cutting workbench 3;

each group of pipe cutting mechanisms 4 is provided with an air cylinder a25 corresponding to the clamping block I24, the air cylinders a25 are horizontally arranged, and piston rods of the air cylinders a25 face the direction of the clamping block I24; the clamping block II 26 is arranged on a piston rod of the air cylinder a25, and the clamping block II 26 is driven by the air cylinder a25 to be matched with the clamping block I24 to clamp the steel pipe; the opposite side surfaces of the clamping block I24 and the clamping block II 26 are provided with steel pipe arc grooves 27;

a plurality of groups of roller brackets b28 are arranged in the cutting working groove 20 at intervals along the front-back direction, and each group of roller brackets b28 is used for supporting a steel pipe sent by the material jacking device b; and a plurality of groups of material ejecting devices c are arranged in the cutting working groove 20 at intervals along the front-back direction and are used for ejecting the steel pipe in the cutting working groove 20 to enable the steel pipe to rise to the steel pipe arc grooves 27 of the clamping blocks I24 and II 26.

The fixing mechanism comprises a positioning plate 45 and a screw rod 46; a plurality of groups of screw holes a44 are arranged on the top surface of the pipe cutting workbench 3 at intervals along the front-back direction; the lower parts of the material guide seat 22 and the pipe cutting mechanism 4 are provided with a positioning plate 45, a screw hole b is arranged on the positioning plate 45 corresponding to the position of the screw hole a44, and a screw 46 is screwed into the screw hole b and the screw hole a44 at the corresponding position for fixing the positions of the material guide seat 22 and the pipe cutting mechanism 4 on the guide rail a19 and the guide rail b 21.

The material ejecting device c comprises a rotating shaft seat c29, a bearing c30, a material supporting plate c31, a rotating shaft c32, a transverse transmission rod c33, a pushing cylinder c34 and a connecting plate c35; the rotating shaft seat c29 is arranged in the cutting working groove 20, the rotating shaft c32 is arranged on the rotating shaft seat c29 through a bearing c30, and the rotating shaft c32 is horizontally arranged along the left-right direction; the lower end of the retainer plate c31 is arranged on the rotating shaft c32 and can rotate along with the rotating shaft c 32;

the pushing cylinder c34 is arranged in the cutting working groove 20 through a supporting plate c36, is positioned below the rotating shaft seat c29 and is staggered with the rotating shaft seat c 29; the pushing cylinder c34 is horizontally arranged along the front-back direction, and a piston rod of the pushing cylinder c34 is provided with a uniform axial transverse transmission rod c33; the lower part of the retainer plate c31 is hinged with the upper end of a connecting plate c35, and the lower end of the connecting plate c35 is hinged with a transverse transmission rod c33;

the top end of the retainer plate c31 is provided with a bracket c37, and the bracket a37 is positioned in the cutting working groove 20; the pushing cylinder c34 drives the lower retainer plate c31 to swing up and down, and the steel pipe is jacked up and conveyed into the bracket c 37.

A support 38 is arranged at a position, corresponding to the material ejecting device b, on one side of the feeding working groove 8 close to the pipe cutting working table 3, and the support 38 is vertically and upwards arranged to extend out of the feeding working groove 8 and be higher than the highest position of the top surface of the guide block 23; the top surface of the bracket 38 is an inclined surface which inclines downwards from the feeding mechanism 2 to the pipe cutting workbench 3;

the ejection device b comprises a supporting plate b91, an ejection cylinder 92 and an ejection plate 93; the supporting plate b91 is arranged in the feeding working groove 8; the cylinder body of the material ejecting cylinder 92 is fixedly arranged on the support plate II 91, and the piston rod of the material ejecting cylinder 92 is vertically arranged upwards;

the ejector plate 93 is arranged at the upper end of a piston rod of the ejector cylinder 92, the top surface of the ejector plate 93 is an inclined surface which inclines downwards from the feeding mechanism 2 to the pipe cutting workbench 3, and a stop lever 94 is arranged on one side of the inclined surface, which is far away from the pipe cutting workbench 3.

The pipe cutting mechanism 4 comprises a fixing plate 39 and a pipe cutting machine 40; the fixed plate 39 is arranged on the guide rail b 21; the cylinder a25 and the pipe cutting machine 40 are both arranged on the top surface of the fixing plate 39.

The pipe cutting machine 40 is a full-automatic pipe cutting machine, and the disc saw teeth of the pipe cutting machine 40 are positioned above the cutting work groove 20 and are vertically arranged downwards.

A plurality of groups of conveying roller wheel assemblies 41 are arranged on the feeding mechanism 2 and the pipe cutting workbench 3 at intervals along the front-back direction; the conveying roller wheel assemblies 41 are connected through a gear chain transmission mechanism, the roller bracket a5 or the roller bracket b28 is installed on the conveying roller wheel assemblies 41, the conveying roller wheel assembly 41 at the leftmost end is connected with an output shaft of the conveying motor 42 through the gear chain transmission mechanism, and the conveying roller wheel assembly is driven by the conveying motor 42 to rotate so as to convey the steel pipe from left to right.

And a baffle 43 is arranged at the right end of the feeding mechanism 2 and used for limiting and positioning the conveying position of the steel pipe.

The working process of the embodiment is as follows:

the working process of the utility model is as follows:

placing a steel pipe to be processed on a feeding table 1, blocking the steel pipe rolled down from the top of the feeding table 1 through a material baffle 6, jacking the steel pipe through an inclined supporting plate 18 of a jacking device a and dropping into a supporting groove a17, enabling the jacking device a to rotate backwards to place the steel pipe on a roller supporting frame a5, jacking the steel pipe through a jacking device b and rolling towards the direction of a material guide block 23 of a pipe cutting working table 3 along a guide inclined plane of a support 38, and enabling the steel pipe to obliquely drop into a supporting groove c37 of a jacking device c along the guide inclined plane of the material guide block 23; at the moment, the clamping block II 26 is matched with the clamping block I24 under the driving of the air cylinder a25 to clamp the steel pipe left and right, the pipe cutting mechanism 4 starts to cut, the clamping block II 26 is released from the clamping block I24 after the cutting is finished, the material ejecting device c rotates backwards to place the steel pipe on the roller bracket b28, and the steel pipe is conveyed to the next process from front to back through the conveying roller wheel assembly 41.

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

Claims (10)

1. The utility model provides an automatic material loading pipe cutting device, includes material loading platform (1), feed mechanism (2), pipe cutting workstation (3), pipe cutting mechanism (4), its characterized in that:

the feeding table (1), the feeding mechanism (2) and the pipe cutting workbench (3) are sequentially arranged along the left and right direction; the top surface of the feeding platform (1) is an inclined surface and is arranged obliquely downwards towards the feeding mechanism (2);

a plurality of groups of material blocking blocks (6) and material feeding grooves (7) are arranged on one side, close to the roller bracket a (5), of the top surface of the material feeding platform (1) at intervals; the material blocking block (6) is used for blocking the stop steel pipe, and the steel pipe close to the material blocking block (6) is positioned right above the feeding groove (7); the feeding trough (7) is internally provided with a material ejecting device a which is used for ejecting the steel pipe close to the material blocking block (6) and conveying the steel pipe into the feeding mechanism (2);

the feeding mechanism (2) comprises a feeding working groove (8) and roller brackets a (5), a plurality of groups of roller brackets a (5) are arranged in the feeding working groove (8) at intervals along the front-back direction, and each group of roller brackets a (5) is used for supporting the steel pipe sent by the material ejecting device a; a plurality of groups of material ejecting devices b are arranged in the feeding working groove (8) at intervals along the front-back direction and are used for ejecting the steel pipe in the feeding working groove (8) to enable the steel pipe to roll towards the pipe cutting working table (3);

and the pipe cutting workbench (3) is provided with a pipe cutting mechanism (4) for cutting the steel pipe.

2. The automatic loading and pipe cutting device according to claim 1, wherein: the material ejecting device a comprises a rotating shaft seat a (9), a bearing a (10), a material supporting plate a (11), a rotating shaft a (12), a transverse transmission rod a (13), a pushing cylinder a (14) and a connecting plate a (15); the rotating shaft seat a (9) is arranged in the feeding working groove (8), the rotating shaft a (12) is installed on the rotating shaft seat a (9) through a bearing a (10), and the rotating shaft a (12) is horizontally arranged along the left-right direction; the lower end of the material supporting plate a (11) is arranged on the rotating shaft a (12) and can rotate along with the rotating shaft a (12);

the pushing cylinder a (14) is arranged in the feeding working groove (8) through a supporting plate a (16), is positioned below the rotating shaft seat a (9), and is staggered at the position of the rotating shaft seat a (9); the push cylinder a (14) is horizontally arranged along the front-back direction, and a piston rod of the push cylinder a (14) is provided with a uniform axial transverse transmission rod a (13); the lower part of the retainer plate a (11) is hinged with the upper end of a connecting plate a (15), and the lower end of the connecting plate a (15) is hinged with a transverse transmission rod a (13);

the top end of the material supporting plate a (11) is provided with a bracket a (17) and an inclined supporting plate (18), the inclined supporting plate (18) is positioned under a steel pipe close to the material blocking block (6), and the top surface of the inclined supporting plate (18) is an inclined surface inclined downwards towards the direction of the pipe cutting workbench (3); the bracket a (17) is positioned in the feeding working groove (8) and is arranged closely to the inclined supporting plate (18); the pushing cylinder a (14) drives the lower material supporting plate a (11) to swing up and down, so that the inclined supporting plate (18) jacks up the steel pipe and conveys the steel pipe into the bracket a (17).

3. The automatic loading and pipe cutting device according to claim 1, wherein:

the pipe cutting workbench (3) is characterized in that a guide rail a (19), a cutting working groove (20) and a guide rail b (21) are sequentially arranged on the top surface of the pipe cutting workbench (3) along the left-right direction, more than one group of guide seats (22) are arranged on the guide rail a (19) at intervals, a guide block (23) is arranged on the top surface of each guide seat (22), and the top surface of each guide block (23) is an inclined surface which is inclined towards the cutting working groove (20) and extends downwards; a clamping block I (24) is arranged on the top surface of the material guide seat (22);

more than one group of pipe cutting mechanisms (4) are arranged on the guide rail b (21) at intervals corresponding to the guide seats (22); the pipe cutting mechanism (4) and the material guide seat (22) slide back and forth along the guide rail a (19) and the guide rail b (21) under the manual pushing, and fixing mechanisms are arranged at the lower parts of the pipe cutting mechanism (4) and the material guide seat (22) and are used for fixing the pipe cutting mechanism (4) and the material guide seat (22) on the top surface of the pipe cutting workbench (3);

each group of pipe cutting mechanisms (4) is provided with an air cylinder a (25) corresponding to the clamping block I (24), the air cylinder a (25) is horizontally arranged, and a piston rod of the air cylinder a (25) faces the direction of the clamping block I (24); the clamping block II (26) is arranged on a piston rod of the air cylinder a (25), and the clamping block II (26) is driven by the air cylinder a (25) to be matched with the clamping block I (24) to clamp the steel pipe; the opposite side surfaces of the clamping block I (24) and the clamping block II (26) are provided with steel pipe arc grooves (27);

a plurality of groups of roller brackets b (28) are arranged in the cutting working groove (20) at intervals along the front-back direction, and each group of roller brackets b (28) is used for supporting a steel pipe sent by the material jacking device b; and a plurality of groups of material ejecting devices c are arranged in the cutting working groove (20) at intervals along the front-back direction and are used for ejecting the steel pipe in the cutting working groove (20) to enable the steel pipe to ascend to reach the positions of the steel pipe arc grooves (27) of the clamping block I (24) and the clamping block II (26).

4. The automatic loading and pipe cutting device according to claim 3, wherein: the fixing mechanism comprises a positioning plate (45) and a screw (46); a plurality of groups of screw holes a (44) are arranged on the top surface of the pipe cutting workbench (3) at intervals along the front-back direction; and the lower parts of the material guide seat (22) and the pipe cutting mechanism (4) are provided with positioning plates (45), screw holes b are arranged on the positioning plates (45) corresponding to the screw holes a (44), and screws (46) are screwed into the screw holes b and the screw holes a (44) at corresponding positions to fix the positions of the material guide seat (22) and the pipe cutting mechanism (4) on the guide rail a (19) and the guide rail b (21).

5. The automatic loading and pipe cutting device according to claim 3, wherein: the material ejecting device c comprises a rotating shaft seat c (29), a bearing c (30), a material supporting plate c (31), a rotating shaft c (32), a transverse transmission rod c (33), a pushing cylinder c (34) and a connecting plate c (35); the rotating shaft seat c (29) is arranged in the cutting working groove (20), the rotating shaft c (32) is installed on the rotating shaft seat c (29) through a bearing c (30), and the rotating shaft c (32) is horizontally arranged along the left-right direction; the lower end of the material supporting plate c (31) is arranged on the rotating shaft c (32) and can rotate along with the rotating shaft c (32);

the pushing cylinder c (34) is arranged in the cutting working groove (20) through a supporting plate c (36), is positioned below the rotating shaft seat c (29), and is staggered at the position of the rotating shaft seat c (29); the pushing cylinder c (34) is horizontally arranged along the front-back direction, and a piston rod of the pushing cylinder c (34) is provided with a uniform axial transverse transmission rod c (33); the lower part of the retainer plate c (31) is hinged with the upper end of a connecting plate c (35), and the lower end of the connecting plate c (35) is hinged with a transverse transmission rod c (33);

the top end of the retainer plate c (31) is provided with a bracket c (37), and the bracket c (37) is positioned in the cutting work groove (20); the pushing cylinder c (34) drives the lower material supporting plate c (31) to swing up and down, so that the steel pipe is jacked up and conveyed into the bracket c (37).

6. The automatic loading and pipe cutting device according to claim 3, wherein:

a support (38) is arranged at a position, corresponding to the material ejecting device b, on one side of the feeding working groove (8) close to the pipe cutting working table (3), and the support (38) is vertically and upwards arranged to extend out of the feeding working groove (8) and is higher than the highest position of the top surface of the guide block (23); the top surface of the bracket (38) is an inclined surface which inclines downwards from the feeding mechanism (2) to the pipe cutting workbench (3);

the material ejecting device b comprises a supporting plate b (91), an ejecting cylinder (92) and an ejecting plate (93); the supporting plate b (91) is arranged in the feeding working groove (8); the cylinder body of the material ejecting cylinder (92) is fixedly arranged on a supporting plate b (91), and the piston rod of the material ejecting cylinder (92) is vertically arranged upwards;

the ejector plate (93) is arranged at the upper end of a piston rod of the ejector cylinder (92), the top surface of the ejector plate (93) is an inclined surface which inclines downwards from the feeding mechanism (2) to the pipe cutting workbench (3), and a stop lever (94) is arranged on one side of the inclined surface, which is far away from the pipe cutting workbench (3).

7. The automatic loading and pipe cutting device according to claim 3, wherein: the pipe cutting mechanism (4) comprises a fixing plate (39) and a pipe cutting machine (40); the fixed plate (39) is arranged on the guide rail b (21); and the air cylinder a (25) and the pipe cutting machine (40) are arranged on the top surface of the fixing plate (39).

8. The automatic loading and pipe cutting device according to claim 7, wherein: the pipe cutting machine (40) is a full-automatic pipe cutting machine, and disc sawteeth of the pipe cutting machine (40) are located above the cutting working groove (20) and are vertically arranged downwards.

9. The automatic loading and pipe cutting device according to claim 1, wherein:

a plurality of groups of conveying roller wheel assemblies (41) are arranged on the feeding mechanism (2) and the pipe cutting workbench (3) at intervals along the front-back direction; the conveying roller wheel assemblies (41) are connected through a gear chain transmission mechanism, a roller bracket a (5) or a roller bracket b (28) is arranged on the conveying roller wheel assemblies (41), the conveying roller wheel assembly (41) at the leftmost end is connected with an output shaft of a conveying motor (42) through the gear chain transmission mechanism, and is driven by the conveying motor (42) to rotate so as to convey the steel pipe from left to right.

10. The automatic loading and pipe cutting device according to claim 9, wherein: and a baffle (43) is arranged at the right end of the feeding mechanism (2) and used for limiting and positioning the conveying position of the steel pipe.

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