CN210125766U

CN210125766U - Full-automatic rotary pipe cutting machine with vertical rods

Info

Publication number: CN210125766U
Application number: CN201920947919.XU
Authority: CN
Inventors: 王永山
Original assignee: Renqiu Jinshi Machine Manufacturing Co
Current assignee: Renqiu Jinshi Machine Manufacturing Co
Priority date: 2019-06-24
Filing date: 2019-06-24
Publication date: 2020-03-06
Anticipated expiration: 2029-06-24

Abstract

The utility model provides a full-automatic rotatory pipe cutting machine of pole setting, comprises three major parts of feed mechanism, cutting main part and shedding mechanism, its characterized in that: the feeding mechanism comprises a feeding frame, a feeding cylinder, a pipe support, channel steel, a pushing cylinder, a pushing disc and a pushing cylinder seat, wherein the feeding cylinder is fixed on the feeding frame, the channel steel for installing the pipe support is arranged at the front end of the feeding frame, the pushing cylinder is installed on the pushing cylinder seat at one end of the channel steel, the cutting main body comprises a main body base, a feeding device, a main rotating device, a cutting device, a power control box and a water tank, the feeding device, the main rotating device and the cutting device are all fixed above the main body base, the discharging mechanism comprises a discharging frame, a discharging device, a positioning device and a pipe support, the positioning device is fixed above the discharging frame, and a group of discharging devices and three pipe supports are further arranged on the discharging frame. The utility model discloses a full automatic cutout, save time, laborsaving, production efficiency is high, with low costs.

Description

Full-automatic rotary pipe cutting machine with vertical rods

Technical Field

The utility model discloses equipment relates to the automatic cutout field, especially a pole setting full-automatic rotatory pipe cutting machine.

Background

The existing upright rod of the scaffold is cut off by using an alloy saw blade, and the method has the advantages of time and labor waste, low production efficiency and high cost due to manual feeding. One worker can only operate one device, and the product is not competitive.

Disclosure of Invention

To the not enough of above-mentioned technical problem existence, the utility model aims to provide a full-automatic rotatory pipe cutting machine of pole setting.

The utility model provides a full-automatic rotatory pipe cutting machine of pole setting comprises three major parts of feed mechanism, cutting main part and shedding mechanism, and feed mechanism and shedding mechanism install the both sides in the cutting main part, its characterized in that: the feeding mechanism comprises a feeding frame (1), a feeding cylinder (2), a pipe support (3), channel steel (4), a pushing cylinder (5), a pushing disc (6) and a pushing cylinder seat (7), wherein the upper end of the feeding frame (1) is provided with a certain inclination angle, the feeding cylinder (2) is fixed on the feeding frame (1) through bolts, the channel steel (4) used for installing the pipe support (3) is arranged at the front end of the feeding frame (1), the pushing cylinder (5) is installed on the pushing cylinder seat (7) at one end of the channel steel (4), the pushing disc (6) is installed on a cylinder rod of the pushing cylinder (5), a pipe laid on the feeding frame (1) is pushed to a cutting main body through the pushing disc (6), and the cutting main body comprises a main body base (24), a feeding device (12), a main rotating device (14), The pipe cutting machine comprises a cutting device (18), a power supply control box (8) and a water tank (20), wherein the feeding device (12), a main rotating device (14) and the cutting device (18) are fixed above a main body base (24), the power supply control box (8) and the water tank (20) are arranged inside the main body base (24), a pipe is clamped, rotated and cut through a cutting main body and then is conveyed into a material basket through a discharging mechanism, the discharging mechanism comprises a discharging frame (26), a discharging device (27), a positioning device (28) and pipe supports (3), the positioning device (28) is fixed above the discharging frame (26), and a group of discharging devices (27) and three pipe supports (3) are further arranged on the discharging frame (26).

The feeding device (12) of the cutting main body comprises a shaft support (29), a motor support plate (30), a leather wheel (31), a connecting rod (32), a pressing cylinder (33), a pressing cylinder seat (34), a speed reducer (35), a feeding motor (36) and a shaft (37), wherein the feeding motor (36) is arranged on the motor support plate (30), the feeding motor (36) is connected with a power control box (8) through a circuit, an output shaft of the feeding motor (36) is connected with an input shaft of the speed reducer (35), the leather wheel (31) is arranged on an output shaft of the speed reducer (35), the upper end of the motor support plate (30) is connected with the connecting rod (32) through a bolt, the connecting rod (32) is arranged on a cylinder rod of the pressing cylinder (33), the pressing cylinder (33) is connected with the pressing cylinder seat (34) arranged on a main body base (24) through a bolt, the lower air cylinder (33) is connected with the electromagnetic air valve (9) through an air pipe, and the electromagnetic air valve (9) is connected with the power control box (8) through a circuit; the lower end of the motor supporting plate (30) is connected with a shaft bracket (29) welded on the main body base (24) through a shaft (37).

The main rotary device (14) of cutting main part include, box (38), main rotation axis (39), lock mother (40), big belt pulley (41), pressure bearing (42), well air chuck (43), the top at main part base (24) is fixed in box (38), it has pressure bearing (42) to inlay at the inside both ends of box (38), main rotation axis (39) one end is passed two pressure bearing (42) and is connected with well air chuck (43), install big belt pulley (41) on main rotation axis (39), install lock mother (40) on the main rotation axis (39) of big belt pulley (41) one end, big belt pulley (41) be connected with belt pulley (23) of rotating electrical machines (21) through V-belt (22), rotating electrical machines (21) gain of electricity, it is rotatory to drive main rotation axis (39) through V-belt (22).

The cutting device (18) of the cutting main body comprises a synchronous belt pulley (45), a sliding table base (48), a guide rail A (49), a tool rest (50), a cutter (51), a sliding table movable plate (53), a bearing seat (54), bearings (55), a lead screw (56), a nut slider (57) and a guide rail B (73), wherein the sliding table base (48) is fixed above the main body base (24), the guide rail A (49) is arranged at two ends of the sliding table base (48), the guide rail B (73) is arranged at two ends of the sliding table movable plate (53), the guide rail A (49) is meshed and connected with the guide rail B (73), the bearing seat (54) is fixed on the sliding table base (48), the two bearings (55) are embedded in the bearing seat (54), one end of the lead screw (56) penetrates through the two bearings (55) and is fixedly connected with the nut slider (57) on the sliding table movable plate (53, install synchronous pulley (45) at the tip of lead screw (56), synchronous pulley (45) through synchronous belt (47) and step motor (44) belt pulley connection, install knife rest (50) on the upper portion of slip table movable plate (53), install cutter (51) on knife rest (50), step motor (44) are electrified, drive synchronous pulley (45) rotation through synchronous belt (47), make lead screw (56) back-and-forth movement, and then drive cutter (51) cutting pipe.

Install water inlet nozzle (58) and outlet pipe (52) on knife rest (50), water inlet nozzle (58) one end connect outlet pipe (52), the other end passes through the pipe and is connected with the delivery port of water pump (19), water pump (19) are fixed on water tank (20), are connected with power control box (8) through the circuit, after water pump (19) got the electricity, begin to send water upwards, water flows cooling cutter (51) through outlet pipe (52), cuts the pipe according to the cutting distance that has set for.

The positioning device (28) of the discharging mechanism comprises a positioning disc (59), a guide post (60), a fixing plate (61), a chain (62), a positioning cylinder (63), a positioning bracket (64), a portal frame (65) and a guide sleeve (66), wherein the portal frame (65) is clamped above the discharging frame (26), the position of the portal frame (65) is adjusted as required and is fixedly connected with the discharging frame (26) by bolts, the fixing plate (61) is installed on the portal frame (65), one end of the guide sleeve (66) is connected with the fixing plate (61), the other end of the guide sleeve (66) is connected with the positioning bracket (64), the guide post (60) is installed in the guide sleeve (66), the positioning disc (59) is installed at the end part of the guide post (60), one end of the chain (62) is connected with the positioning bracket (64), the other end of the chain is connected with the guide post (60), the positioning cylinder (63), the cylinder rod of the positioning cylinder (63) is connected with the middle part of the chain (62), the positioning cylinder (63) is connected with the electromagnetic air valve (9) through an air pipe, the pipe is sent to the positioning device (28) and stops feeding after touching the positioning disc (59), the pipe is clamped by a hollow air chuck (43) of the main rotating device (14), the main rotating shaft (39) rotates, and the cutter (51) of the cutting device (18) starts to move forwards to cut off the pipe.

The discharging device (27) of the discharging mechanism comprises a discharging cylinder plate (67), a slope plate (68), a round rod (69) and a discharging cylinder (70), wherein the discharging cylinder plate (67) is installed on a discharging frame (26), the discharging cylinder (70) is installed on the discharging cylinder plate (67), the slope plate (68) is fixed on a cylinder rod of the discharging cylinder (70), the discharging cylinder (70) is connected with an electromagnetic air valve (9) through an air pipe, the slope plate (68) is driven to move up and down through the discharging cylinder (70), then a cut-off pipe is ejected to slide into a material basket, in order to prevent the slope plate (68) from swinging left and right, a round hole is formed in the discharging cylinder plate (67), and the round rod (69) penetrates through the round hole to be connected and fixed with the slope plate (68).

All be equipped with pipe support (3) on feed mechanism, cutting main part and discharge mechanism, pipe support (3) include pipe support frame (71), pipe support bottom plate (72) and universal ball (10), be equipped with pipe support frame (71) on pipe support bottom plate (72), be equipped with universal ball (10) that are used for holding in the palm the pipe at the both ends inboard of pipe support frame (71), make the pipe smooth and easy slip.

A feeding controller bracket (25) used for installing a feeding controller (11) is arranged on the main body base (24), and the feeding controller (11) is connected with the power supply control box (8) through a circuit.

Be equipped with protection casing (13) in the outside of material feeding unit (12), main rotary device (14) and feeding controller (11), protection casing (13) be connected fixedly through bolt and main part base (24), be equipped with on protection casing (13) and start button (17), touch-sensitive screen (16) and stop button (15), start button (17), touch-sensitive screen (16) and stop button (15) be connected with power control box (8) through the circuit respectively.

The utility model realizes full-automatic cutting, automatic feeding and discharging, and only a worker needs to open and tile the whole bundle of materials and put the bundle of materials on the feeding frame, the cutting size is adjusted, the starting button is pressed, the round pipe is automatically sent to the cutting position according to the set program, and the round pipe is clamped and rotated; the motor drives the cutter to cut, the material is automatically discharged after being cut off, then the material is automatically fed to the positioning position to be cut circularly, 2 devices can be operated by one worker, and the machine is time-saving, labor-saving, high in production efficiency and low in cost.

Drawings

Fig. 1 is a schematic front view of the cutting body of the present invention;

fig. 2 is a schematic top view of the cutting body of the present invention;

fig. 3 is a left side view structure diagram of the cutting main body of the present invention;

fig. 4 is a right-view structural schematic diagram of the cutting main body of the present invention;

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

fig. 6 is a schematic side view of the feeding mechanism of the present invention;

fig. 7 is a schematic top view of the feeding mechanism of the present invention;

fig. 8 is a schematic front view of the discharging mechanism of the present invention;

fig. 9 is a schematic side view of the discharging mechanism of the present invention;

fig. 10 is a schematic top view of the discharging mechanism of the present invention;

fig. 11 is a schematic front view of the feeding device of the present invention;

fig. 12 is a schematic top view of the feeding device of the present invention;

fig. 13 is a schematic diagram of the right-side view structure of the feeding device of the present invention;

fig. 14 is a front view schematically illustrating the main rotating device of the present invention;

fig. 15 is a left side view schematically illustrating the main rotating device of the present invention;

fig. 16 is a front view schematically illustrating the cutting device of the present invention;

fig. 17 is a left side view schematically illustrating the cutting device of the present invention;

fig. 18 is a schematic top view of the cutting device of the present invention;

fig. 19 is a schematic front view of the positioning device of the present invention;

fig. 20 is a schematic top view of the positioning device of the present invention;

fig. 21 is a left side view schematically illustrating the positioning device of the present invention;

fig. 22 is a left side view schematic structure of the discharging device of the present invention;

fig. 23 is a schematic front view of the discharging device of the present invention;

fig. 24 is a schematic top view of the discharging device of the present invention;

fig. 25 is a schematic view of the structure of the tube support of the present invention.

In the figure: the automatic pipe feeding device comprises a feeding frame 1, a feeding cylinder 2, a pipe support 3, a channel steel 4, a feeding cylinder 5, a feeding disc 6, a feeding cylinder seat 7, a power supply control box 8, an electromagnetic air valve 9, a universal ball 10, a feeding controller 11, a feeding device 12, a protective cover 13, a main rotating device 14, a stop button 15, a touch screen 16, a start button 17, a cutting device 18, a water pump 19, a water tank 20, a rotating motor 21, a triangular belt 22, a belt pulley 23, a main body base 24, a feeding controller support 25, a discharging frame 26, a discharging device 27, a positioning device 28, a shaft support 29, a motor support plate 30, a leather pulley 31, a connecting rod 32, a pressing cylinder 33, a pressing cylinder seat 34, a speed reducer 35, a feeding motor 36, a shaft 37, a box body 38, a main rotating shaft 39, a lock nut 40, a large belt pulley 41, a pressure bearing 42, a hollow pneumatic chuck 43, a stepping motor 44, the device comprises a stepping motor plate 46, a synchronous belt 47, a sliding table base 48, a guide rail A49, a tool rest 50, a cutter 51, a water outlet pipe 52, a sliding table movable plate 53, a bearing seat 54, a bearing 55, a lead screw 56, a nut slide block 57, a water inlet nozzle 58, a positioning disc 59, a guide pillar 60, a fixing plate 61, a chain 62, a positioning cylinder 63, a positioning bracket 64, a portal frame 65, a guide sleeve 66, a discharging cylinder plate 67, a slope plate 68, a round stick 69, a discharging cylinder 70, a pipe support frame 71, a pipe support bottom plate 72 and a guide rail B73.

Detailed Description

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9 and fig. 10, the full-automatic rotary pipe cutting machine with vertical rods comprises three major parts, namely a feeding mechanism, a cutting main body and a discharging mechanism, wherein the feeding mechanism and the discharging mechanism are arranged on two sides of the cutting main body, and the full-automatic rotary pipe cutting machine with vertical rods is characterized in that: the feeding mechanism comprises a feeding frame 1, a feeding cylinder 2, a pipe support 3, a channel steel 4, a pushing cylinder 5, a pushing disc 6 and a pushing cylinder seat 7, wherein the upper end of the feeding frame 1 is provided with a certain inclination angle, the feeding cylinder 2 is fixed on the feeding frame 1 through bolts, the front end of the feeding frame 1 is provided with the channel steel 4 for installing the pipe support 3, the pushing cylinder seat 7 at one end of the channel steel 4 is provided with the pushing cylinder 5, the pushing disc 6 is arranged on a cylinder rod of the pushing cylinder 5, a pipe laid on the feeding frame 1 is pushed to a cutting main body through the pushing disc 6, the cutting main body comprises a main body base 24, a feeding device 12, a main rotating device 14, a cutting device 18, a power supply control box 8 and a water tank 20, the feeding device 12, the main rotating device 14 and the cutting device 18 are all fixed above the main body base 24, the power control box 8 and the water tank 20 are arranged inside the main body base 24, the pipe is clamped, rotated and cut by the cutting main body and then is conveyed into the material basket by the discharging mechanism, the discharging mechanism comprises a discharging frame 26, a discharging device 27, a positioning device 28 and pipe supports 3, the positioning device 28 is fixed above the discharging frame 26, and the discharging frame 26 is also provided with a group of discharging devices 27 and three pipe supports 3.

As shown in fig. 11, 12 and 13, the feeding device 12 for cutting the body comprises a shaft bracket 29, a motor supporting plate 30, a pulley 31, a connecting rod 32, a pressing cylinder 33, a pressing cylinder seat 34, a speed reducer 35, a feeding motor 36 and a shaft 37, a feeding motor 36 is arranged on the motor supporting plate 30, the feeding motor 36 is connected with the power supply control box 8 through a circuit, an output shaft of the feeding motor 36 is connected with an input shaft of a speed reducer 35, a belt pulley 31 is arranged on an output shaft of the speed reducer 35, the upper end of the motor supporting plate 30 is connected with a connecting rod 32 through a bolt, the connecting rod 32 is arranged on a cylinder rod of a lower pressure cylinder 33, the lower pressure cylinder 33 is connected with a lower pressure cylinder seat 34 arranged on the main body base 24 through a bolt, the lower air cylinder 33 is connected with the electromagnetic air valve 9 through an air pipe, and the electromagnetic air valve 9 is connected with the power supply control box 8 through a line; the lower end of the motor support plate 30 is connected to a shaft bracket 29 welded to the body base 24 through a shaft 37.

As shown in fig. 14 and 15, the main rotating device 14 for cutting the main body includes a case 38, a main rotating shaft 39, a locking nut 40, a large pulley 41, a pressure bearing 42, and a hollow air chuck 43, wherein the case 38 is fixed above the main body base 24, the pressure bearing 42 is embedded in both ends of the inside of the case 38, one end of the main rotating shaft 39 is connected to the hollow air chuck 43 through the two pressure bearings 42, the large pulley 41 is installed on the main rotating shaft 39, the locking nut 40 is installed on the main rotating shaft 39 at one end of the large pulley 41, the large pulley 41 is connected to the pulley 23 of the rotating motor 21 through the v-belt 22, the rotating motor 21 is powered on, and the main rotating shaft 39 is driven to rotate through the v-belt 22.

As shown in fig. 16, 17 and 18, the cutting device 18 for cutting a main body includes a synchronous pulley 45, a sliding table base 48, a guide rail a49, a tool rest 50, a cutter 51, a sliding table plate 53, a bearing seat 54, a bearing 55, a lead screw 56, a nut slider 57 and a guide rail B73, wherein the sliding table base 48 is fixed above the main body base 24, the guide rail a49 is arranged at both ends of the sliding table base 48, the guide rail B73 is arranged at both ends of the sliding table plate 53, the guide rail a49 is engaged with the guide rail B73, the bearing seat 54 is fixed on the sliding table base 48, the two bearings 55 are embedded inside the bearing seat 54, one end of the lead screw 56 passes through the two bearings 55 and is connected and fixed with the nut slider 57 on the sliding table plate 53 through a bolt, the synchronous pulley 45 is installed at the end of the lead screw 56, the synchronous pulley 45 is connected with the pulley 45 of the stepping motor 44 through a synchronous belt 47, the cutter 51 is arranged on the cutter frame 50, the stepping motor 44 is powered on, the synchronous belt pulley 45 is driven to rotate through the synchronous belt 47, the lead screw 56 moves back and forth, and the cutter 51 is driven to cut the pipe.

A water inlet nozzle 58 and a water outlet pipe 52 are installed on the tool rest 50, one end of the water inlet nozzle 58 is connected with the water outlet pipe 52, the other end of the water inlet nozzle is connected with a water outlet of the water pump 19 through a pipe, the water pump 19 is fixed on the water tank 20 and is connected with the power supply control box 8 through a line, after the water pump 19 is powered on, water starts to be supplied upwards, flows out of the cooling cutter 51 through the water outlet pipe 52, and the pipe is cut according to the set cutting distance.

As shown in fig. 19, 20 and 21, the positioning device 28 of the discharging mechanism comprises a positioning disc 59, a guide post 60, a fixing plate 61, a chain 62, a positioning cylinder 63, a positioning bracket 64, a portal frame 65 and a guide sleeve 66, wherein the portal frame 65 is clamped above the discharging frame 26, the position of the portal frame 65 is adjusted as required, the portal frame 65 is fixedly connected with the discharging frame 26 by bolts, the fixing plate 61 is installed on the portal frame 65, one end of the guide sleeve 66 is connected with the fixing plate 61, the other end of the guide sleeve 66 is connected with the positioning bracket 64, the guide post 60 is installed in the guide sleeve 66, the positioning disc 59 is installed at the end part of the guide post 60, one end of the chain 62 is connected with the positioning bracket 64, the other end of the chain is connected with the guide post 60, the positioning cylinder 63 is installed on the positioning bracket 64, the cylinder rod of the positioning cylinder 63 is connected with the middle part of, when the positioning disc 59 is touched, the feeding is stopped, the hollow air chuck 43 of the main rotating device 14 clamps the pipe, the main rotating shaft 39 rotates, and the cutter 51 of the cutting device 18 starts to move forward to cut off the pipe.

As shown in fig. 22, 23, and 24, the discharging device 27 of the discharging mechanism includes a discharging cylinder plate 67, a slope plate 68, a round rod 69, and a discharging cylinder 70, the discharging cylinder plate 67 is mounted on the discharging frame 26, the discharging cylinder 70 is mounted on the discharging cylinder plate 67, the slope plate 68 is fixed on a cylinder rod of the discharging cylinder 70, the discharging cylinder 70 is connected with the electromagnetic air valve 9 through an air pipe, the slope plate 68 is driven by the discharging cylinder 70 to move up and down, and the cut pipe is ejected to slide into the material basket, in order to prevent the slope plate 68 from swinging left and right, a round hole is opened on the discharging cylinder plate 67, and the round rod 69 passes through the round hole and is connected and fixed with the slope plate 68.

As shown in fig. 1, 2, 5, 6, 7, 8, 9, 10 and 25, the feeding mechanism, the cutting body and the discharging mechanism are provided with the pipe support 3, the pipe support 3 includes a pipe support 71, a pipe support bottom plate 72 and universal balls 10, the pipe support 71 is provided on the pipe support bottom plate 72, and the universal balls 10 for supporting the pipe are provided on the inner sides of both ends of the pipe support 71, so that the pipe can slide smoothly.

As shown in fig. 1 and 2, a loading controller support 25 for mounting the loading controller 11 is provided on the main body base 24, and the loading controller 11 is connected to the power control box 8 through a line.

As shown in fig. 1, 2, 3 and 4, a protective cover 13 is arranged outside the feeding device 12, the main rotating device 14 and the feeding controller 11, the protective cover 13 is fixedly connected with a main body base 24 through bolts, a start key 17, a touch screen 16 and a stop key 15 are arranged on the protective cover 13, and the start key 17, the touch screen 16 and the stop key 15 are respectively connected with the power control box 8 through circuits.

The method comprises the steps of flatly laying the pipes on an inclined feeding frame 1, pressing a starting button 17, enabling a feeding air cylinder 2 to act, ejecting the pipes out and sending the pipes to three parallel pipe supports 3 of the feeding frame 1, enabling a material pushing air cylinder 5 to act again, enabling the feeding controller 11 to detect signals after the pipes are pushed to the position of a feeding controller 11, enabling the feeding air cylinder 2 to reset, enabling the material pushing air cylinder 5 to continue to push the pipes for a period of time, and sending the pipes to the position below a belt pulley 31 of a feeding device 12. The feeding motor 36 and the pressing cylinder 33 act simultaneously, the belt pulley 31 rotates to press the pipe, the pipe slides forwards on the pipe support 3 of the cutting body and is sent to the positioning disc 59 through the main rotating shaft 39, the positioning disc 59 senses a signal, the feeding motor 36 stops, the pressing cylinder 33 resets, and the hollow air chuck 43 acts simultaneously to clamp the pipe. After clamping, the rotating motor 21 is powered to rotate, and the triangle belt 22 drives the main rotating shaft 39 to rotate, so as to drive the pipe to rotate. When the pipe rotates, the positioning cylinder 63 acts to drive the positioning disc 59 to retreat, and meanwhile, the stepping motor 44 is powered on, and the screw rod 56 is driven by the synchronous belt 47 to rotate, so that the cutter 51 is driven to move forwards to cut the pipe. Simultaneously, the water pump 19 is also powered to start to send water upwards, and the water flows out of the cooling cutter 51 through the water outlet pipe 52. The pipe is cut according to the set cutting distance, and after the pipe is cut off, the discharging air cylinder 70 acts to push the cut pipe out of the pipe bracket 3 of the discharging mechanism, and the pipe slides to the material frame along the slope plate 68. At the same time, the stepping motor 44 is reversely rotated back to the initial position and the hollow air chuck 43 is released, and the rotary motor 21 is stopped. After the discharging time is up, the discharging cylinder 70 and the positioning cylinder 63 are reset. And simultaneously, the feeding motor 36 and the pressing cylinder 33 act again to start feeding, and the steps are repeated. When the feeding controller 11 does not detect a signal, the feeding cylinder 2 acts to start feeding, then the pushing cylinder 5 acts again to push the pipe to the position of the feeding controller 11, and the above actions are repeated, repeated and repeated, and continuously operated until no pipe exists.

Claims

1. The utility model provides a full-automatic rotatory pipe cutting machine of pole setting comprises three major parts of feed mechanism, cutting main part and shedding mechanism, and feed mechanism and shedding mechanism install the both sides in the cutting main part, its characterized in that: the feeding mechanism comprises a feeding frame (1), a feeding cylinder (2), a pipe support (3), channel steel (4), a pushing cylinder (5), a pushing disc (6) and a pushing cylinder seat (7), wherein the upper end of the feeding frame (1) is provided with a certain inclination angle, the feeding cylinder (2) is fixed on the feeding frame (1) through bolts, the channel steel (4) used for installing the pipe support (3) is arranged at the front end of the feeding frame (1), the pushing cylinder (5) is installed on the pushing cylinder seat (7) at one end of the channel steel (4), the pushing disc (6) is installed on a cylinder rod of the pushing cylinder (5), a pipe laid on the feeding frame (1) is pushed to a cutting main body through the pushing disc (6), and the cutting main body comprises a main body base (24), a feeding device (12), a main rotating device (14), a cutting device (18), The pipe cutting machine comprises a power supply control box (8) and a water tank (20), wherein the feeding device (12), a main rotating device (14) and a cutting device (18) are fixed above a main body base (24), the power supply control box (8) and the water tank (20) are arranged inside the main body base (24), a pipe is clamped, rotated and cut through a cutting main body and then is conveyed into a material basket through a discharging mechanism, the discharging mechanism comprises a discharging frame (26), a discharging device (27), a positioning device (28) and pipe supports (3), the positioning device (28) is fixed above the discharging frame (26), and a group of discharging device (27) and three pipe supports (3) are further arranged on the discharging frame (26).

2. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: the feeding device (12) of the cutting main body comprises a shaft support (29), a motor support plate (30), a leather wheel (31), a connecting rod (32), a pressing cylinder (33), a pressing cylinder seat (34), a speed reducer (35), a feeding motor (36) and a shaft (37), wherein the feeding motor (36) is arranged on the motor support plate (30), the feeding motor (36) is connected with a power control box (8) through a circuit, an output shaft of the feeding motor (36) is connected with an input shaft of the speed reducer (35), the leather wheel (31) is arranged on an output shaft of the speed reducer (35), the upper end of the motor support plate (30) is connected with the connecting rod (32) through a bolt, the connecting rod (32) is arranged on a cylinder rod of the pressing cylinder (33), the pressing cylinder (33) is connected with the pressing cylinder seat (34) arranged on a main body base (24) through a bolt, the lower air cylinder (33) is connected with the electromagnetic air valve (9) through an air pipe, and the electromagnetic air valve (9) is connected with the power control box (8) through a circuit; the lower end of the motor supporting plate (30) is connected with a shaft bracket (29) welded on the main body base (24) through a shaft (37).

3. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: the main rotary device (14) of cutting main part includes, box (38), main rotation axis (39), lock mother (40), big belt pulley (41), pressure bearing (42), well pneumatic chuck (43), the top at main part base (24) is fixed in box (38), it has pressure bearing (42) to inlay at the inside both ends of box (38), main rotation axis (39) one end is passed two pressure bearing (42) and is connected with well pneumatic chuck (43), install big belt pulley (41) on main rotation axis (39), install lock mother (40) on the main rotation axis (39) of big belt pulley (41) one end, big belt pulley (41) be connected with belt pulley (23) of rotating electrical machines (21) through V-belt (22), rotating electrical machines (21) are got electric, it is rotatory to drive main rotation axis (39) through V-belt (22).

4. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: the cutting device (18) of the cutting main body comprises a synchronous belt pulley (45), a sliding table base (48), a guide rail A (49), a tool rest (50), a cutter (51), a sliding table movable plate (53), a bearing seat (54), bearings (55), a lead screw (56), a nut slider (57) and a guide rail B (73), wherein the sliding table base (48) is fixed above a main body base (24), the guide rail A (49) is arranged at two ends of the sliding table base (48), the guide rail B (73) is arranged at two ends of the sliding table movable plate (53), the guide rail A (49) is in occlusion connection with the guide rail B (73), the bearing seat (54) is fixed on the sliding table base (48), the two bearings (55) are embedded in the bearing seat (54), one end of the lead screw (56) penetrates through the two bearings (55) and is fixedly connected with the nut slider (57) on the sliding table movable plate (, install synchronous pulley (45) at the tip of lead screw (56), synchronous pulley (45) through synchronous belt (47) and step motor (44) belt pulley connection, install knife rest (50) on the upper portion of slip table movable plate (53), install cutter (51) on knife rest (50), step motor (44) are electrified, drive synchronous pulley (45) rotation through synchronous belt (47), make lead screw (56) back-and-forth movement, and then drive cutter (51) cutting pipe.

5. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 4, wherein: install water inlet nozzle (58) and outlet pipe (52) on knife rest (50), water inlet nozzle (58) one end connect outlet pipe (52), the other end passes through the pipe and is connected with the delivery port of water pump (19), water pump (19) are fixed on water tank (20), are connected with power control box (8) through the circuit, after water pump (19) got the electricity, begin to send water upwards, water flows cooling cutter (51) through outlet pipe (52), cuts the pipe according to the cutting distance that has set for.

6. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: the positioning device (28) of the discharging mechanism comprises a positioning disc (59), a guide post (60), a fixing plate (61), a chain (62), a positioning cylinder (63), a positioning bracket (64), a portal frame (65) and a guide sleeve (66), wherein the portal frame (65) is clamped above the discharging frame (26), the position of the portal frame (65) is adjusted as required and is fixedly connected with the discharging frame (26) by bolts, the fixing plate (61) is installed on the portal frame (65), one end of the guide sleeve (66) is connected with the fixing plate (61), the other end of the guide sleeve (66) is connected with the positioning bracket (64), the guide post (60) is installed in the guide sleeve (66), the positioning disc (59) is installed at the end part of the guide post (60), one end of the chain (62) is connected with the positioning bracket (64), the other end of the chain is connected with the guide post (60), the positioning cylinder (63), the cylinder rod of the positioning cylinder (63) is connected with the middle part of the chain (62), the positioning cylinder (63) is connected with the electromagnetic air valve (9) through an air pipe, the pipe is sent to the positioning device (28) and stops feeding after touching the positioning disc (59), the pipe is clamped by a hollow air chuck (43) of the main rotating device (14), the main rotating shaft (39) rotates, and the cutter (51) of the cutting device (18) starts to move forwards to cut off the pipe.

7. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: the discharging device (27) of the discharging mechanism comprises a discharging cylinder plate (67), a slope plate (68), a round rod (69) and a discharging cylinder (70), wherein the discharging cylinder plate (67) is installed on a discharging frame (26), the discharging cylinder (70) is installed on the discharging cylinder plate (67), the slope plate (68) is fixed on a cylinder rod of the discharging cylinder (70), the discharging cylinder (70) is connected with an electromagnetic air valve (9) through an air pipe, the slope plate (68) is driven to move up and down through the discharging cylinder (70), then a cut-off pipe is ejected to slide into a material basket, in order to prevent the slope plate (68) from swinging left and right, a round hole is formed in the discharging cylinder plate (67), and the round rod (69) penetrates through the round hole to be connected and fixed with the slope plate (68).

8. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: all be equipped with pipe support (3) on feed mechanism, cutting main part and discharge mechanism, pipe support (3) include pipe support frame (71), pipe support bottom plate (72) and universal ball (10), be equipped with pipe support frame (71) on pipe support bottom plate (72), be equipped with universal ball (10) that are used for holding in the palm the pipe at the both ends inboard of pipe support frame (71), make the pipe smooth and easy slip.

9. A pole full automatic rotary pipe cutter according to claim 2, 3 or 4, characterized in that: a feeding controller bracket (25) used for installing a feeding controller (11) is arranged on the main body base (24), and the feeding controller (11) is connected with the power control box (8) through a line.

10. The full-automatic rotary pipe cutting machine with upright rods as claimed in claim 1, wherein: be equipped with protection casing (13) in the outside of material feeding unit (12), main rotary device (14) and feeding controller (11), protection casing (13) be connected fixedly through bolt and main part base (24), be equipped with on protection casing (13) and start button (17), touch-sensitive screen (16) and stop button (15), start button (17), touch-sensitive screen (16) and stop button (15) be connected with power control box (8) through the circuit respectively.