CN219253905U

CN219253905U - Metal tube spinning sealing machine

Info

Publication number: CN219253905U
Application number: CN202320611747.5U
Authority: CN
Inventors: 张高翔; 王和鹏; 徐亚芬; 李世根
Original assignee: Ningbo Kaixiang Household Co ltd
Current assignee: Ningbo Kaixiang Household Co ltd
Priority date: 2023-03-21
Filing date: 2023-03-21
Publication date: 2023-06-27
Anticipated expiration: 2033-03-21

Abstract

The utility model relates to the technical field of pipe fitting processing, in particular to a metal pipe spinning sealing machine, wherein a high-frequency heating mechanism heats one end of a metal pipe at high temperature, then the high-frequency heating mechanism is far away from one end of the metal pipe, and then the spinning mechanism is operated to carry out spinning sealing operation on one end of the rotating metal pipe, so that the processing efficiency is improved; including workstation, pipe feeding device, air chuck and controller, the workstation top is provided with pipe feeding device and controller, pipe feeding device output is provided with air chuck, still include high frequency heating mechanism, automatic feeding mechanism and spinning mechanism, high frequency heating mechanism installs on pipe feeding device top, automatic feeding mechanism installs on the workstation top at pipe feeding device's rear side, spinning mechanism installs on the workstation top at pipe feeding device's front side, pipe feeding device, air chuck, high frequency heating mechanism and spinning mechanism all are connected with the controller electricity.

Description

Metal tube spinning sealing machine

Technical Field

The utility model relates to the technical field of pipe fitting processing, in particular to a metal pipe spinning sealing machine.

Background

A metal spinning machine is a technology of forming a certain shape by rotating a metal material to make its stress point from point to line from line to surface and simultaneously giving a certain pressure in a certain direction to deform and flow the metal material along the direction.

In the prior art, chinese patent publication No. CN212526819U discloses a metal tube high-frequency spinning sealing device, which comprises a circular tube feeding device, a high-frequency heating mechanism and a rolling device, wherein one side of the front end of the circular tube feeding device is provided with the high-frequency heating mechanism for heating a circular tube notch part, the other side of the front end of the circular tube feeding device is provided with the rolling device for closing the circular tube notch, the front end of the circular tube feeding device is provided with a polishing device for polishing the circular tube closing part, a file is arranged below the polishing device, and the file comprises a circular tube surface file and a notch file.

During the use, the device finds that when carrying out spinning to the tubular metal resonator and sealing, because the manual material loading leads to the tubular metal resonator to need sealing one end position to carry out accurate location when carrying out manual material loading to the tubular metal resonator, has increased staff's material loading technical requirement, influences tubular metal resonator sealing efficiency simultaneously.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a metal tube spinning sealing machine capable of automatically feeding and improving the processing efficiency.

The utility model relates to a metal tube spinning sealing machine, which comprises a workbench, a circular tube feeding device, a pneumatic chuck and a controller, wherein the top end of the workbench is provided with the circular tube feeding device and the controller, the output end of the circular tube feeding device is provided with the pneumatic chuck, the metal tube spinning sealing machine also comprises a high-frequency heating mechanism, an automatic feeding mechanism and a spinning mechanism, the high-frequency heating mechanism is arranged at the top end of the circular tube feeding device, the automatic feeding mechanism is arranged at the top end of the workbench at the rear side of the circular tube feeding device, the spinning mechanism is arranged at the top end of the workbench at the front side of the circular tube feeding device, and the circular tube feeding device, the pneumatic chuck, the high-frequency heating mechanism and the spinning mechanism are all electrically connected with the controller; the metal tube to be spun is placed on the automatic feeding mechanism, so that the automatic feeding mechanism automatically feeds the metal tube, the metal tube enters from the input end of the circular tube feeding device and passes through the pneumatic chuck, the pneumatic chuck fixes the metal tube, then the metal tube is driven to rotate at high height, the high-frequency heating mechanism heats one end of the metal tube at high temperature, then the high-frequency heating mechanism is far away from one end of the metal tube, and then the spinning mechanism is operated to spin and seal one end of the rotating metal tube, so that the machining efficiency is improved.

Preferably, the automatic feeding mechanism comprises supporting legs, guide plates, side plates, baffle plates, sliding ports, openings, first cylinders, connecting plates and ejector rods, wherein the guide plates are arranged at the top ends of the working tables through the supporting legs, the guide plates and the working tables are arranged at preset angles, the front ends and the rear ends of the top ends of the guide plates are respectively provided with the side plates, the inner ends of the two groups of side plates are respectively provided with the sliding ports, the left parts of the top ends of the guide plates are provided with the baffle plates, the two groups of side plates are respectively provided with the openings concentric with the input ends of the circular tube feeding device, the left ends of the baffle plates are provided with the first cylinders, the movable ends of the rear parts of the first cylinders are provided with the connecting plates, and the front ends of the connecting plates are provided with the ejector rods; the metal tubes are placed between the two groups of side plates and the two groups of sliding ports, the baffle supports the left metal tube, the first cylinder is operated to be shortened, so that the connecting plate drives the ejector rod to eject the leftmost metal tube into the circular tube feeding device under the cooperation of the two groups of openings, the ejection depths of the metal tubes are the same, automatic positioning of the metal tubes is realized, the ejector rod moves backwards when the first cylinder extends, and the leftmost metal tube moves leftwards under the action of gravity due to the inclined arrangement of the guide plate, so that the automatic feeding of the metal tubes is repeated, and the automatic feeding of the metal tubes is improved.

Preferably, the high-frequency heating mechanism comprises an A light bar, an A movable plate, an A air cylinder and a high-frequency electric heating device, wherein a groove is formed in the top end of the circular tube feeding device, two groups of A light bars are arranged in the groove, the A movable plate is in sliding connection with the two groups of A light bars, the high-frequency electric heating device is arranged on the top end of the A movable plate, the A air cylinder is arranged at the rear end of the groove, the front movable end of the A air cylinder is connected with the rear end of the A movable plate, and a high-frequency induction coil is arranged on the high-frequency electric heating device; when the metal tube stretches out, the metal tube stretches out of the inner side of the high-frequency induction coil, the A cylinder stretches, the A moving plate drives the high-frequency electric heating device to move forwards under the cooperation of the A light bar, the high-frequency induction coil moves to the outer side of the metal tube needing to be sealed, the metal tube rotates at a high speed, the high-frequency electric heating device heats one end of the metal tube at a high temperature through the high-frequency induction coil, after the heating is finished, a worker operates the A cylinder to shorten, so that the high-frequency electric heating device drives the high-temperature induction coil to move backwards, and then the spinning mechanism is operated to spin one end of the metal tube heated at the high temperature.

Preferably, the spinning mechanism comprises a rotating base, a rotating arm, a B air cylinder, a B light bar, a B moving plate, a cutter seat and a sealing cutter, wherein the rotating base is arranged at the top end of the workbench, the rotating arm is arranged at the top end of the rotating base, a concave groove is formed in the top end of the rotating arm, the B light bar is fixedly arranged in the concave groove, the B moving plate is respectively connected with two groups of B light bars in a sliding manner, the left end of the concave groove is provided with the B air cylinder, the right moving end of the B air cylinder is connected with the left end of the B moving plate, and the sealing cutter is arranged at the top end of the B moving plate through the cutter seat; when one end of the metal tube is heated at high temperature, a worker operates the B cylinder to extend, so that the B moving plate drives the sealing cutter to contact with one end of the metal tube under the cooperation of the B light bar, and the rotary base is rotated by ninety degrees anticlockwise when the sealing cutter is started, so that the sealing cutter is used for spinning and sealing one end of the metal tube.

Preferably, the device further comprises a supporting block, and the rear end of the guide plate is provided with the supporting block; the supporting block supports the ejector rod, so that the ejector rod can stably slide.

Preferably, the top end of the guide plate is provided with a smooth coating; the multiple groups of metal pipes slide down rapidly under the cooperation of the smooth coating, so that the feeding efficiency is improved.

Preferably, the preset angle is ten degrees.

Compared with the prior art, the utility model has the beneficial effects that: the metal tube to be spun is placed on the automatic feeding mechanism, so that the automatic feeding mechanism automatically feeds the metal tube, the metal tube enters from the input end of the circular tube feeding device and passes through the pneumatic chuck, the pneumatic chuck fixes the metal tube, then the metal tube is driven to rotate at high height, the high-frequency heating mechanism heats one end of the metal tube at high temperature, then the high-frequency heating mechanism is far away from one end of the metal tube, and then the spinning mechanism is operated to spin and seal one end of the rotating metal tube, so that the machining efficiency is improved.

Drawings

FIG. 1 is a schematic view of a first axial structure of the present utility model;

FIG. 2 is a partially enlarged schematic view of the structure of the portion A in FIG. 1;

FIG. 3 is a schematic view of a second axial structure of the present utility model;

FIG. 4 is a partially enlarged schematic view of the structure of the portion B in FIG. 3;

FIG. 5 is a schematic view of the enlarged partial structure of portion C of FIG. 3;

the reference numerals in the drawings: 1. a work table; 2. a round tube feeding device; 3. an air chuck; 4. a support leg; 5. a guide plate; 6. a side plate; 7. a baffle; 8. a sliding port; 9. an opening; 10. a first air cylinder; 11. a connecting plate; 12. a push rod; 13. a controller; 14. a, a light bar; 15. a, a moving plate; 16. a cylinder A; 17. a high-frequency heating mechanism; 18. a rotating base; 19. a rotating arm; 20. a B cylinder; 21. b, a light bar; 22. a moving plate B; 23. a cutter seat; 24. a sealing cutter; 25. and a supporting block.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example 1

As shown in fig. 1, the metal tube spinning sealing machine comprises a workbench 1, a circular tube feeding device 2, an air chuck 3 and a controller 13, wherein the top end of the workbench 1 is provided with the circular tube feeding device 2 and the controller 13, the output end of the circular tube feeding device 2 is provided with the air chuck 3, the metal tube spinning sealing machine further comprises a high-frequency heating mechanism, an automatic feeding mechanism and a spinning mechanism, the high-frequency heating mechanism is arranged at the top end of the circular tube feeding device 2, the automatic feeding mechanism is arranged at the top end of the workbench 1 at the rear side of the circular tube feeding device 2, the spinning mechanism is arranged at the top end of the workbench 1 at the front side of the circular tube feeding device 2, and the circular tube feeding device 2, the air chuck 3, the high-frequency heating mechanism and the spinning mechanism are all electrically connected with the controller 13;

as shown in fig. 1, 3, 4 and 5, the automatic feeding mechanism comprises supporting legs 4, a guide plate 5, side plates 6, a baffle 7, sliding ports 8, openings 9, a first cylinder 10, a connecting plate 11 and a push rod 12, wherein the guide plate 5 is arranged at the top end of the workbench 1 through the supporting legs 4, the guide plate 5 and the workbench 1 are arranged at a preset angle, the front and rear parts of the top end of the guide plate 5 are respectively provided with the side plates 6, the inner ends of the two groups of side plates 6 are respectively provided with the sliding ports 8, the left part of the top end of the guide plate 5 is provided with the baffle 7, the two groups of side plates 6 are respectively provided with the openings 9 concentric with the input end of the circular tube feeding device 2, the left end of the baffle 7 is provided with the first cylinder 10, the rear moving end of the first cylinder 10 is provided with the connecting plate 11, and the front end of the connecting plate 11 is provided with the push rod 12;

as shown in fig. 1 and 2, the high-frequency heating mechanism comprises an a beam 14, an a moving plate 15, an a cylinder 16 and a high-frequency electric heating device 17, a groove is arranged at the top end of the circular tube feeding device 2, two groups of a beams 14 are arranged in the groove, the a moving plate 15 is slidably connected with the two groups of a beams 14, the high-frequency electric heating device 17 is arranged at the top end of the a moving plate 15, the a cylinder 16 is arranged at the rear end of the groove, the front moving end of the a cylinder 16 is connected with the rear end of the a moving plate 15, and a high-frequency induction coil is arranged on the high-frequency electric heating device 17.

In this embodiment, a plurality of groups of metal tubes are placed between two groups of side plates 6 and two groups of sliding ports 8, a baffle 7 supports the left side metal tube, a first cylinder 10 is operated to shorten, thereby a connecting plate 11 drives a push rod 12 to push the leftmost metal tube into a circular tube feeding device 2 under the cooperation of two groups of openings 9, the push depths of the metal tubes are the same, automatic positioning of the metal tube is achieved, when the first cylinder 10 stretches, the push rod 12 moves backwards, the leftmost metal tube moves leftwards under the action of self gravity due to the inclined arrangement of the guide plate 5, so that the automatic feeding of the metal tube is repeated, the metal tube enters from the input end of the circular tube feeding device 2 and passes through an air chuck 3, the air chuck 3 fixes the metal tube, then drives the metal tube to rotate at a high height, and when the metal tube stretches out, a cylinder 16 stretches inside a high-frequency induction coil, thereby a moving plate 15 drives a high-frequency electric heating device 17 to move forwards under the cooperation of a feed rod 14, thereby the high-frequency induction coil is moved to the outside of the metal tube, the metal tube needs to be sealed, the high-frequency induction coil is heated, after the metal tube is heated by the high-frequency induction coil is heated, one end is heated by the high-frequency induction device is driven, and after the high-frequency induction coil is heated, the high-frequency induction coil is finished, and one end is finished, and the high-frequency induction coil is finished.

Example 2

as shown in fig. 1 and 3, the high-frequency heating mechanism comprises an a beam 14, an a moving plate 15, an a cylinder 16 and a high-frequency electric heating device 17, a groove is arranged at the top end of the circular tube feeding device 2, two groups of a beam 14 are arranged in the groove, the a moving plate 15 is in sliding connection with the two groups of a beams 14, the high-frequency electric heating device 17 is arranged at the top end of the a moving plate 15, the a cylinder 16 is arranged at the rear end of the groove, the front moving end of the a cylinder 16 is connected with the rear end of the a moving plate 15, and a high-frequency induction coil is arranged on the high-frequency electric heating device 17;

as shown in fig. 1 and 2, the spinning mechanism includes a rotary base 18, a rotary arm 19, a B cylinder 20, a B feed beam 21, a B moving plate 22, a cutter seat 23 and a sealing cutter 24, the top end of the workbench 1 is provided with the rotary base 18, the top end of the rotary base 18 is provided with the rotary arm 19, the top end of the rotary arm 19 is provided with a concave groove, the concave groove is fixedly provided with the B feed beam 21, the B moving plate 22 is respectively in sliding connection with two groups of the B feed beams 21, the left end of the concave groove is provided with the B cylinder 20, the right moving end of the B cylinder 20 is connected with the left end of the B moving plate 22, and the sealing cutter 24 is mounted on the top end of the B moving plate 22 through the cutter seat 23.

In the embodiment, a plurality of groups of metal pipes are placed between two groups of side plates 6 and two groups of sliding ports 8, a baffle 7 supports the left metal pipe, a first cylinder 10 is operated to shorten, so that a connecting plate 11 drives a push rod 12 to push the leftmost metal pipe into a circular pipe feeding device 2 under the cooperation of two groups of openings 9, the push depths of the metal pipes are the same, automatic positioning of the metal pipes is realized, when the first cylinder 10 stretches, the push rod 12 moves backwards, the leftmost metal pipe moves leftwards under the action of self gravity due to the inclined arrangement of a guide plate 5, so that the automatic feeding of the metal pipe is repeated, the metal pipe enters from the input end of the circular pipe feeding device 2 and passes through an air chuck 3, the air chuck 3 fixes the metal pipe, then drives the metal pipe to rotate in height, after the metal pipe stretches out, the metal pipe is positioned at the inner side of a high-frequency induction coil, the A cylinder 16 is lengthened, so that the A moving plate 15 drives the high-frequency electric heating device 17 to move forwards under the cooperation of the A feed rod 14, the high-frequency induction coil is moved to the outer side of the metal tube to be sealed, the metal tube rotates at a high speed, the high-frequency electric heating device 17 heats one end of the metal tube at a high temperature through the high-frequency induction coil, after the heating is finished, the A cylinder 16 is operated by a worker to be shortened, so that the high-frequency electric heating device 17 drives the high-temperature induction coil to move backwards, after the high-temperature heating of one end of the metal tube is finished, the B cylinder 20 is operated by the worker to be lengthened, so that the B moving plate 22 drives the sealing cutter 24 to contact with one end of the metal tube under the cooperation of the B feed rod 21, and the rotary base 18 rotates at a ninety degrees anticlockwise at the same time when the sealing cutter 24 is started, so that the sealing cutter 24 seals one end of the metal tube by spinning.

The round tube feeding device 2, the air chuck 3, the controller 13, the first air cylinder 10, the high-frequency electric heating device 17, the B air cylinder 20, the cutter seat 23 and the sealing cutter 24 of the metal tube spinning sealing machine are purchased in the market, and can be installed and operated by a person skilled in the art according to the attached using instructions without creative labor of the person skilled in the art.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims

1. The utility model provides a metal tube spinning capper, including workstation (1), pipe feeding device (2), air chuck (3) and controller (13), workstation (1) top is provided with pipe feeding device (2) and controller (13), pipe feeding device (2) output is provided with air chuck (3), a serial communication port, still include high-frequency heating mechanism, automatic feeding mechanism and spinning mechanism, high-frequency heating mechanism installs on pipe feeding device (2) top, automatic feeding mechanism installs on workstation (1) top at the rear side of pipe feeding device (2), spinning mechanism installs on workstation (1) top at the front side of pipe feeding device (2), air chuck (3), high-frequency heating mechanism and spinning mechanism all are connected with controller (13) electricity.

2. The metal tube spinning capper of claim 1, wherein the automatic feeding mechanism comprises supporting legs (4), a guide plate (5), side plates (6), a baffle plate (7), sliding ports (8), openings (9), a first air cylinder (10), a connecting plate (11) and a push rod (12), the guide plate (5) is installed at the top end of the workbench (1) through the supporting legs (4), the guide plate (5) and the workbench (1) are arranged at preset angles, the side plates (6) are respectively arranged at the front end and the rear end of the top end of the guide plate (5), sliding ports (8) are respectively arranged at the inner ends of the two groups of side plates (6), baffle plates (7) are respectively arranged at the left end of the top end of the guide plate (5), openings (9) concentric with the input ends of the circular tube feeding device (2) are respectively arranged on the two groups of side plates (6), the left end of the baffle plate (7) is provided with the first air cylinder (10), the rear moving end of the first air cylinder (10) is provided with the connecting plate (11), and the front end of the connecting plate (11) is provided with the push rod (12).

3. The metal tube spinning sealing machine according to claim 1, wherein the high-frequency heating mechanism comprises an A feed beam (14), an A moving plate (15), an A cylinder (16) and a high-frequency electric heating device (17), grooves are formed in the top end of the round tube feeding device (2), two groups of A feed beams (14) are arranged in the grooves, the A moving plate (15) is slidably connected with the two groups of A feed beams (14), the top end of the A moving plate (15) is provided with the high-frequency electric heating device (17), the rear end of the grooves is provided with the A cylinder (16), the front moving end of the A cylinder (16) is connected with the rear end of the A moving plate (15), and a high-frequency induction coil is arranged on the high-frequency electric heating device (17).

4. The metal tube spinning sealing machine according to claim 1, wherein the spinning mechanism comprises a rotating base (18), a rotating arm (19), a B cylinder (20), a B light bar (21), a B moving plate (22), a cutter seat (23) and a sealing cutter (24), the rotating base (18) is arranged at the top end of the workbench (1), the rotating arm (19) is arranged at the top end of the rotating base (18), a concave groove is formed in the top end of the rotating arm (19), the B light bar (21) is fixedly arranged in the concave groove, the B moving plate (22) is respectively in sliding connection with the two groups of B light bars (21), the B cylinder (20) is arranged at the left end of the concave groove, the right moving end of the B cylinder (20) is connected with the left end of the B moving plate (22), and the sealing cutter (24) is arranged at the top end of the B moving plate (22) through the cutter seat (23).

5. A metal tube spin sealer as claimed in claim 2, further comprising a support block (25), the rear end of the guide plate (5) being provided with the support block (25).

6. A metal tube spin sealer as claimed in claim 2, wherein the top end of the guide plate (5) is provided with a lubricious coating.

7. The metal tube spin sealer of claim 2 wherein said predetermined angle is ten degrees.