CN217597208U - Cutting device of electric power pipe production usefulness - Google Patents

Abstract

The utility model discloses a cutting device for producing electric power tubes, which comprises a frame, a cutting box body arranged on the frame and a PLC controller arranged on the frame and used for controlling the cutting box body, and is characterized by also comprising a recovery mechanism arranged at the bottom of the frame and connected with the cutting box body, symmetrical stabilizing mechanisms arranged at two sides of the cutting box body, a cutting mechanism arranged on the cutting box body and an adjusting and supporting mechanism arranged on the frame; the utility model adopts an annular cutting mode for the outer wall of the pipe by the arrangement of the cutting mechanism, and the blade is slowly stretched into the inner wall of the pipe while cutting, thereby improving the cutting efficiency and the cutting quality; through stabilizing mean's setting, wear out from the opposite side after tubular product gets into the cutting box, utilize the stabilizing mean who installs in cutting box both sides to fix spacingly as tubular product to make the terminal surface of cutting level and smooth, promote tubular product cutting quality.

Description

Cutting device of electric power pipe production usefulness

Technical Field

The utility model relates to a tubular product production technical field specifically is a cutting device of electric power pipe production usefulness.

Background

The electric power pipe needs to be cut in the production process, the existing pipe cutting adopts a mode of directly cutting from top to bottom, and the two sides of the pipe are not well limited and fixed during cutting, so that the end surface of the cut pipe is uneven, the cutting efficiency is low, and the product quality is reduced; meanwhile, scraps generated during cutting are left in the cutting box and cannot be removed in time; therefore, it is necessary to provide a cutting device for producing power pipes.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problems and providing a cutting device for electric power pipe production.

In order to achieve the above purpose, the utility model provides a following technical scheme: including the frame, install the cutting box in the frame and install the PLC controller that is used for controlling the cutting box in the frame, its characteristic is still including installing in the frame bottom and the recovery mechanism who is connected with the cutting box, installing at symmetrical stabilizing mean in cutting box both sides, installing the cutting mechanism on the cutting box and installing the regulation supporting mechanism in the frame, cutting mechanism including install on the cutting box and with the servo motor that the PLC controller is connected, install on the cutting box and with the gear disc that the servo motor transmission is connected, install on the gear disc and with the cutting cylinder that the PLC controller is connected and install the cutting knife on cutting cylinder piston rod, the cutting box on install the stopper with gear disc looks adaptation, recovery mechanism including install in the frame and with the fan that the PLC controller is connected, install on the cutting box and with the cover that induced drafts that the fan is connected, fan one end be connected with the recovery box other end and be connected with the cover that induced drafts through flexible pipe.

Preferably, the cutting box body is provided with a feeding hole, a discharging hole and a driving mechanism which is arranged on the rack and connected with the cutting box body, and the driving mechanism is connected with the PLC.

Preferably, the driving mechanism comprises a sliding groove arranged at the bottom of the cutting box body, a sliding rail arranged on the rack and matched with the sliding groove, and a driving cylinder arranged on the rack and connected with the PLC, and the driving cylinder is connected with the cutting box body.

Preferably, two ends of the sliding rail are provided with limiting tables.

Preferably, the stabilizing mechanism comprises a ring frame arranged on the cutting box body, a plurality of movable arms arranged on the ring frame and a stabilizing cylinder arranged on the cutting box body and connected with the movable arms, and the stabilizing cylinder is connected to the PLC through a cable.

Preferably, a plurality of annular movable grooves matched with the movable arms are formed in the annular frame, rubber rollers and limiting shafts are arranged on the movable arms, and connecting rods are connected between the movable arms through the limiting shafts.

Preferably, the adjusting and supporting mechanism comprises a support seat installed on the frame, a roller frame installed on the support seat and an adjusting cylinder installed on the support seat and connected with the roller frame, the adjusting cylinder is connected to the PLC through a cable, the support seat is provided with a groove, the roller frame is provided with a guide strip matched with the groove, and the roller frame is provided with a guide wheel.

The utility model has the advantages that: through the arrangement of the stabilizing mechanism, when the pipe enters the cutting box body and penetrates out of the other side of the cutting box body, the stabilizing mechanism arranged on the two sides of the cutting box body is utilized to fix and limit the pipe, so that the cutting mechanism in the cutting box body can rapidly cut the pipe, the cut end face is smooth, and the pipe cutting quality is improved;

through the arrangement of the recovery mechanism, the scraps generated in the cutting box body are quickly adsorbed into the recovery box, so that the cleanness of the interior of the cutting box body is kept;

through the arrangement of the cutting mechanism, the outer wall of the pipe is cut in an annular cutting mode, and the blade slowly extends into the inner wall of the pipe while cutting, so that the cutting efficiency is improved, and the cutting quality is improved; meanwhile, the gear disc is prevented from slipping off the cutting box body during high-speed operation by the arrangement of the limiting block, and the use safety of the cutting mechanism is improved;

through adjusting supporting mechanism's setting, through the vertical height of adjusting cylinder adjustment leading wheel to can be applicable to the tubular product of different pipe diameters, and then make the leading wheel have better bearing to tubular product, prevent that tubular product from inclining.

Drawings

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

FIG. 2 is a schematic view of the cross-sectional structure of the cutting box of the present invention;

FIG. 3 is an enlarged view of the present invention at A;

FIG. 4 is a schematic view of the structure of the stabilizing mechanism of the present invention;

fig. 5 is a schematic structural view of the adjusting and supporting mechanism of the present invention.

The following are marked in the figure: 1 machine frame, 2 cutting box, 21 feed port, 22 discharge holes, 3PLC controller, 4 recovery mechanism, 41 blower, 42 air suction hood, 43 recovery box, 5 stabilizing mechanism, 51 annular frame, 52 movable arm, 53 stabilizing cylinder, 54 annular movable groove, 55 rubber roller, 56 spacing shaft, 57 connecting rod, 6 cutting mechanism, 61 servo motor, 62 gear disc, 63 cutting cylinder, 64 cutting knife, 65 spacing block, 7 adjusting support mechanism, 71 support seat, 72 roller frame, 73 adjusting cylinder, 74 groove, 75 guide bar, 76 guide wheel, 8 driving mechanism, 81 sliding groove, 82 sliding rail, 83 driving cylinder, 84 spacing platform.

Detailed Description

The following provides a further description of the cutting device for power tube production according to the present invention by way of embodiments and with reference to the accompanying drawings.

Referring to fig. 1-5, the utility model provides a cutting device for electric power tube production, including frame 1, install the cutting box 2 on frame 1 and install the PLC controller 3 that is used for controlling cutting box 2 on frame 1, its characteristics still include install in frame 1 bottom and with the recovery mechanism 4 that cutting box 2 is connected, install in the symmetrical stabilizing mean 5 in cutting box 2 both sides, install cutting mechanism 6 on cutting box 2 and install the regulation supporting mechanism 7 on frame 1, cutting mechanism 6 include install on cutting box 2 and with PLC controller 3 connected servo motor 61 through the bolt, install on cutting box 2 and with servo motor 61 transmission connected gear disc 62, install on gear disc 62 and with PLC controller 3 connected cutting cylinder 63 through the bolt and install on the piston rod of cutting cylinder 63 through the bolt 64, cutting box 2 on install the stopper 65 with gear disc 62 looks adaptation through the bolt, recovery mechanism 4 include install on frame 1 and with PLC controller 3 connected fan 41, install on cutting box 2 and with the fan 41 of PLC controller and with the fan 41 is connected with the other end of fan 41 of cutting box, the suction hood 42 is connected with the fan 21 and the suction hole of fan 21 on the telescopic pipe, the control box 2 is connected with the discharge opening of cutting mechanism 8, the control box 2, the control mechanism 21 and the feed opening of cutting mechanism is connected with PLC controller 2, the cutting box 2, the telescopic pipe; through the arrangement of the recovery mechanism 4, the chips generated when the cutting mechanism 6 cuts the pipe are quickly absorbed into the recovery box 43 through the suction hood 42 by the suction force generated by the fan 41 and scattered in the cutting box body 2, so that the cleanness of the interior of the cutting box body is kept; through the arrangement of the cutting mechanism 6, the outer wall of the pipe is cut in an annular cutting mode, and the blade slowly extends into the inner wall of the pipe while cutting, so that the cutting efficiency is improved, and the cutting quality is improved; through the setting of stopper 65, prevent that gear disc 62 from slipping off from cutting box 2 when high-speed operation, promote the security that cutting mechanism 6 used.

The driving mechanism 8 comprises a sliding chute 81 which is arranged at the bottom of the cutting box body 2 through welding, a sliding rail 82 which is arranged on the frame 1 through welding and is matched with the sliding chute 81, and a driving cylinder 83 which is arranged on the frame 1 through bolts and is connected with the PLC 3, wherein two ends of the sliding rail 82 are provided with a limiting table 84 through bolts, and the driving cylinder 83 is connected with the cutting box body 2; through the setting of spacing platform 84, prevent that cutting box 2 from droing on slide rail 82, promote the security that cutting box 2 removed at slide rail 82.

The stabilizing mechanism 5 comprises an annular frame 51 arranged on the cutting box body 2, a plurality of movable arms 52 movably arranged on the annular frame 51 through bolts, and a stabilizing cylinder 53 arranged on the cutting box body 2 and connected with the movable arms 52, wherein the stabilizing cylinder 53 is connected to the PLC 3 through a cable, a plurality of annular movable grooves 54 matched with the movable arms 52 are arranged on the annular frame 51, rubber rollers 55 and limiting shafts 56 are arranged on the movable arms 52, and connecting rods 57 are connected between the movable arms 52 through the limiting shafts 56; through the setting of stabilizing mean 5, after tubular product got into to discharge opening 22 from feed port 21 and worn out cutting box 2, open stabilizing cylinder 53 through PLC controller 3, stabilizing cylinder 53 promotes spacing axle 56 downwards and makes digging arm 52 rotatory along annular movable groove 54, rely on connecting rod 57 to realize synchronous revolution between the digging arm 52, the rubber gyro wheel 55 that makes to be located the digging arm 52 front end draws close to the axle center of annular frame 51, thereby carry out spacing fixed to the tubular product that is in annular frame 51, and then make cutting mechanism 6 in the cutting box 2 cut the operation to tubular product fast, make the terminal surface of cutting level and smooth, promote tubular product cutting efficiency and quality.

The adjusting and supporting mechanism 7 comprises a supporting seat 71 installed on the frame 1, a roller carrier 72 installed on the supporting seat 71, and an adjusting cylinder 73 installed on the supporting seat 71 and connected with the roller carrier 72, wherein the adjusting cylinder 73 is connected to the PLC 3 through a cable, a groove 74 is formed in the supporting seat 71, a guide strip 75 matched with the groove 74 is formed in the roller carrier 72, and a guide wheel 76 is installed on the roller carrier 72; through the arrangement of the adjusting and supporting mechanism 7, the PLC 3 opens the adjusting cylinder 73, and the adjusting cylinder 73 adjusts the vertical height of the guide wheel 76 through the telescopic piston rod, so that the adjustable and supporting mechanism can be suitable for pipes with different pipe diameters, further the guide wheel 76 can better support the pipes, and the pipes can be prevented from inclining; through the arrangement of the groove 74 and the guide strip 75, the guide strip 75 vertically moves in the groove 74, and the stable movement of the roller frame 72 under the action of the adjusting cylinder 73 is ensured.

In the utility model, in use, the pipe is firstly penetrated into the feeding hole 21 and is penetrated out of the discharging hole 22, the adjusting cylinder 73 is opened through the PLC 3, the adjusting cylinder 73 pushes the roller carrier 72 to vertically move upwards along the groove 74 until the guide wheel 76 just socket joints the pipe, and the pipe is prevented from inclining; after receiving a cutting instruction, the PCL controller 3 opens the stabilizing cylinder 53 and the driving cylinder 83, the stabilizing cylinder 53 pushes the limiting shaft 56 downwards to make the movable arms 52 rotate along the annular movable groove 54, the movable arms 52 synchronously rotate by virtue of the connecting rod 57, and the rubber roller 55 at the front end of the movable arms 52 draws close to the axis of the annular frame 51, so that the pipes in the annular frame 51 are limited and fixed, and then the pipes are fixed at two sides of the cutting box body 2 to prevent shaking, and the driving cylinder 83 retracts a piston rod to drive the cutting box body 2 to move along the sliding rail 82; meanwhile, the PLC 3 opens a cutting cylinder 63, the cutting cylinder 63 pushes a cutting knife 64 upwards to enable the cutting knife 64 to be inserted into the outer wall of the pipe, meanwhile, the PLC 3 opens a servo motor 61, the servo motor 61 rotates and drives a gear disc 62 to rotate through gear transmission, the gear disc 62 rotates to drive the cutting knife 64 to cut quickly along the outer wall of the pipe, meanwhile, the cutting cylinder 63 continuously stretches the cutting knife 64 into the pipe along with the rotation of the gear disc 62 until the pipe is completely cut, the fan 41 is opened through the PLC 3 in the cutting process, the fan 41 adsorbs chips scattered in the cutting box body 2 to a recycling box 43 through an air suction cover 42, after the cutting is completed, the cutting cylinder 63 is opened through the PLC 3, the cutting cylinder 63 withdraws the cutting knife 64, the servo motor 61 is closed through the PLC 3, a stabilizing cylinder 53 is opened through the PLC 3, the stabilizing cylinder 53 withdraws a piston rod to enable a movable arm 52 to be opened outwards along an annular movable groove 54, further, the rubber roller 55 is far away from the pipe, meanwhile, the driving cylinder 83 is opened through the PLC 3 to push the cutting cylinder 83 to push the cutting box body 2 to an initial position, and the PLC 3 returns the cutting process is completed.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (7)

1. The utility model provides a cutting device that electric power tube production used, includes frame (1), install cutting box (2) in frame (1) and install PLC controller (3) that are used for controlling cutting box (2) on frame (1), its characterized in that still including install in frame (1) bottom and retrieve mechanism (4) be connected with cutting box (2), install in symmetrical stabilizing mean (5) in cutting box (2) both sides, install cutting mechanism (6) on cutting box (2) and install regulation supporting mechanism (7) on frame (1), cutting mechanism (6) including install servo motor (61) be connected on cutting box (2) and with PLC controller (3), install on cutting box (2) and with gear disc (62) transmission connection of servo motor (61), install on gear disc (62) and with cutting cylinder (63) that PLC controller (3) are connected and install cutting knife (64) on cutting cylinder (63) piston rod, cutting box (2) on install the adaptation with gear disc (62) and install on frame (41) and fan control mechanism (4) and fan control box (41) and fan cover (41) and fan (41) are connected on cutting box (2) One end of the fan (41) is connected with a recovery box (43), and the other end of the fan is connected with the air suction cover (42) through a telescopic pipe.

2. The cutting device for electric power tube production according to claim 1, further characterized in that: the cutting box (2) on be equipped with feed port (21) and discharge opening (22), set up actuating mechanism (8) of being connected with cutting box (2) on frame (1), actuating mechanism (8) be connected with PLC controller (3).

3. The cutting device for electric power tube production as set forth in claim 2, further characterized in that: actuating mechanism (8) including setting up spout (81) in cutting box (2) bottom and setting up in frame (1) and with slide rail (82) of spout (81) looks adaptation and install drive actuating cylinder (83) of just being connected with PLC controller (3) on frame (1), drive actuating cylinder (83) be connected with cutting box (2).

4. The cutting device for electric power tube production as set forth in claim 3, further characterized in that: and two ends of the sliding rail (82) are provided with limiting tables (84).

5. The cutting device for electric power tube production according to claim 1, further characterized in that: stabilizing mean (5) including installing annular frame (51) on cutting box (2), installing a plurality of digging arm (52) on annular frame (51) and installing on cutting box (2) and stabilizing cylinder (53) of being connected with digging arm (52), stabilizing cylinder (53) be connected to PLC controller (3) through the cable.

6. The cutting device for electric power tube production as set forth in claim 5, further characterized in that: the movable arm is characterized in that a plurality of annular movable grooves (54) matched with the movable arms (52) are formed in the annular frame (51), rubber rollers (55) and limiting shafts (56) are arranged on the movable arms (52), and connecting rods (57) are connected between the movable arms (52) through the limiting shafts (56).

7. The cutting device for electric power tube production according to claim 1, further characterized in that: adjusting support mechanism (7) including installing supporting seat (71) on frame (1), installing gyro wheel frame (72) on supporting seat (71) and installing on supporting seat (71) and adjusting cylinder (73) of being connected with gyro wheel frame (72), adjusting cylinder (73) be connected to PLC controller (3) through the cable, supporting seat (71) on be equipped with recess (74), gyro wheel frame (72) on be equipped with gib block (75) with recess (74) looks adaptation, install leading wheel (76) on gyro wheel frame (72).

Images