CN112958697B

CN112958697B - Automatic processing and forming equipment for side pipe orifice of three-way pipe

Info

Publication number: CN112958697B
Application number: CN202110140191.1A
Authority: CN
Inventors: 袁林飞
Original assignee: Zhangjiagang Hesheng Cnc Machine Tool Manufacturing Co ltd
Current assignee: Zhangjiagang Hesheng Cnc Machine Tool Manufacturing Co ltd
Priority date: 2021-02-02
Filing date: 2021-02-02
Publication date: 2024-07-23
Anticipated expiration: 2041-02-02
Also published as: CN112958697A

Abstract

The invention discloses automatic machining and forming equipment for a side pipe orifice of a three-way pipe, which comprises a machine table, wherein a lower pressing die is arranged on the machine table, a vertical seat is arranged on the machine table, and an upper pressing die is movably arranged on the vertical seat; a punching device, a heating device and a pipe orifice trimming device are arranged on the side sliding seat in parallel; the machine is provided with a punching sliding seat, an upper sliding seat and an upper oil cylinder, the upper sliding seat is provided with a punching core rod which stretches into the pipe to be processed to be matched with the side edge of the pipe for punching, and the machine is provided with a core rod oil cylinder for driving the punching sliding seat; the machine is provided with an extrusion sliding seat and an extrusion oil cylinder, the extrusion sliding seat is provided with an extrusion core rod which stretches into a pipe to be processed and is matched with the punching core rod to extrude the steel ball from the side edge of the pipe, and the vertical frame is provided with a steel ball conveying device for circularly conveying the steel ball which is three-purpose in extrusion at the outlet of the side edge of the lower pressing die and the inlet of the end part of the lower pressing die.

Description

Automatic processing and forming equipment for side pipe orifice of three-way pipe

Technical Field

The invention relates to automatic processing and forming equipment for a side pipe orifice of a three-way pipe.

Background

When the side pipe orifice of the three-way pipe is processed, the pipe is punched and drawn Kong Fenbu, a hemispherical forming head is plugged into the pipe with the side wall punched, the end part of the drawing rod penetrates into the punched through hole and is connected with the forming head, and then the forming head is pulled out of the through hole through drawing equipment to form the side through hole part of the three-way pipe, but the processing method is low in efficiency.

Disclosure of Invention

The technical problems to be solved by the invention are as follows: the automatic processing and forming equipment for the side pipe orifice of the three-way pipe is high in efficiency and forming.

In order to solve the technical problems, the invention adopts the following technical scheme: the automatic processing and forming equipment for the side pipe orifice of the three-way pipe comprises a machine table, wherein a lower material pressing die for supporting a pipe to be processed is arranged on the machine table, a vertical seat is arranged on the machine table, a material pressing cylinder which is vertically and downwards arranged is arranged on the vertical seat, and an upper material pressing die for pressing the pipe to be processed is arranged at the end part of a piston rod of the material pressing cylinder; a side sliding seat which axially slides along the pipe to be processed and a side driving mechanism for driving the side sliding seat to switch positions are arranged beside the vertical seat on the machine table, and a punching device for punching the pipe to be processed by a punch, a heating device for heating the punched position and a pipe orifice trimming device for trimming an orifice after extrusion molding of the steel ball are arranged on the side sliding seat in parallel along the axial direction of the pipe to be processed; a punching sliding seat is arranged at one end of the lower pressing die on the machine table, an upper sliding seat and an upper oil cylinder are arranged on the punching sliding seat, the upper sliding seat is arranged along the axial direction of the pipe to be processed, the upper oil cylinder drives the upper sliding seat, a punching core rod which stretches into the pipe to be processed to be matched with the side edge of the pipe to be processed for punching is arranged on the upper sliding seat, a forming hole which is matched with the punch is arranged on the punching core rod, a waste material outlet groove is arranged at an orifice of one side of the forming hole, far away from the punch, of the punching core rod, and a core rod oil cylinder for driving the punching sliding seat is arranged on the machine table; the end part of the punching core rod is in an inclined plane shape inclined along the side of the core rod cylinder away from the punch; the other end of the lower pressing die on the machine table is provided with an extrusion sliding seat arranged along the axial direction of the pipe to be processed, the extrusion sliding seat is provided with an extrusion core rod which stretches into the pipe to be processed and is matched with the punching core rod to extrude the steel ball from the side of the pipe, and the machine table is provided with an extrusion oil cylinder for driving the extrusion sliding seat; the end face of the extrusion core rod is in an inclined plane shape inclined along the side of the extrusion oil cylinder close to the punch; the vertical seat is provided with a steel ball conveying device for circularly conveying the steel balls which are three-purpose in extrusion at the side outlet of the lower pressing die and the inlet of the end part of the lower pressing die; the steel ball conveying device comprises a conveying pipe and a ball falling pipe which are vertically arranged on a machine platform in parallel, a pushing oil cylinder for pushing the steel ball from bottom to top in the conveying pipe is arranged on the machine platform, the end part of a piston rod of the pushing oil cylinder stretches into the conveying pipe from bottom to top, a steel ball inlet is formed in the side wall of the lower section of the conveying pipe, a lower guide groove for supporting the steel ball and guiding the steel ball to the steel ball inlet is formed in the lower side wall of the steel ball extruding position on the machine platform, a steel ball outlet is formed in the side wall of the upper section of the conveying pipe, the position of the upper port of the ball falling pipe is lower than the steel ball outlet, an upper guide groove for communicating the steel ball outlet with the upper port of the ball falling pipe is formed in a stand, a baffle for preventing the steel ball from passing through is arranged on the upper guide groove, and a turnover cylinder for driving the baffle to rotate is arranged on the machine platform below the conveying pipe and is provided with an end guide groove for conveying the steel ball to the end part of a pipe to be processed on a blanking die.

As a preferable scheme, the side driving mechanism comprises a driving slide rail which is arranged beside the vertical seat on the machine table and is axially arranged along the pipe to be processed, the side sliding seat is arranged on the driving slide rail, and the machine table is provided with a screw mechanism for driving the side sliding seat to move and a screw motor connected with the screw mechanism.

As a preferable scheme, the punching device comprises a punching oil cylinder arranged on the side sliding seat, and a punch is arranged at the end part of a piston rod of the punching oil cylinder.

As a preferable scheme, the heating device comprises a heating seat which is arranged on the side sliding seat and slides along the radial direction of the pipe to be processed, and a heating oil cylinder which drives the heating seat, and the heating seat is provided with a high-frequency quenching device.

As an optimal scheme, the pipe orifice trimming device comprises a trimming seat and a trimming oil cylinder, wherein the trimming seat is arranged on the side sliding seat and slides along the radial direction of a pipe to be processed, the trimming oil cylinder drives the trimming seat, a trimming motor is arranged on the trimming seat, and a trimming cutter head is arranged on a power output shaft of the trimming motor.

As a preferable scheme, the side sliding seat is also provided with a flaring device, the flaring device comprises a flaring seat and a flaring cylinder, the flaring seat is arranged on the side sliding seat and slides along the radial direction of the pipe to be processed, the flaring cylinder drives the flaring seat, the flaring seat is provided with a flaring motor, and a flaring die head is arranged on a power output shaft of the flaring motor.

The beneficial effects of the invention are as follows: the device can automatically finish punching processing, realizes the forming of the pipe orifice on the upper side of the tee joint by extruding the steel balls, and can be recycled, so that the device is highly automatic, and the processing efficiency is greatly improved.

Because the side sliding seat is provided with the heating device for heating the punched position, the steel ball is easier to extrude, the orifice is not easy to crack, and the processing quality is improved. Because the orifice trimming device for trimming the orifice after the steel ball extrusion molding is arranged on the side sliding seat, the processing quality is further improved.

Because the side sliding seat is also provided with the flaring device, the flaring processing can be carried out on the pipe end so as to produce tee joints with more specifications.

Drawings

Fig. 1 is a schematic diagram of the front view structure of the present invention.

Fig. 2 is a schematic perspective view of a steel ball transfer device according to the present invention.

Fig. 3 is a schematic view of another perspective view of a steel ball transfer device according to the present invention.

In fig. 1 to 3: 1. the machine table is characterized by comprising a machine table, a lower material pressing die, a vertical seat, a material pressing cylinder and an upper material pressing die; 6. the driving slide rail, the screw rod mechanism, the side sliding seat and the screw rod motor are arranged in the same plane; 10. punching device, 101. Punching cylinder; 11. heating device, 111, heating seat, 112, heating cylinder, 113, high-frequency quenching device;

12. a pipe orifice trimming device; 121. the trimming seat, 122, the trimming cylinder, 123, the trimming motor; 13. punching sliding seat 14, core rod oil cylinder 15, upper sliding seat 16, upper oil cylinder 17, punching core rod 18, extrusion sliding seat 19, extrusion core rod 20;

21. A steel ball transmission device; 211. transfer tube 212, drop tube 213, push cylinder 214, lower guide slot 215, upper guide slot 216, baffle 217, inversion cylinder 218, end guide slot.

Detailed Description

Specific embodiments of the present invention are described in detail below with reference to the accompanying drawings.

As shown in fig. 1-3, the automatic processing and forming equipment for the side pipe orifice of the three-way pipe comprises a machine table 1, wherein a lower pressing die 2 for supporting a pipe to be processed is arranged on the machine table 1, a vertical seat 3 is arranged on the machine table 1, a vertically downward-arranged pressing cylinder 4 is arranged on the vertical seat 3, and an upper pressing die 5 for pressing the pipe to be processed is arranged at the end part of a piston rod of the pressing cylinder 4; the machine table 1 is provided with a side sliding seat 8 which axially slides along the pipe to be processed and a side driving mechanism which drives the side sliding seat 8 to switch positions. The side driving mechanism comprises a driving slide rail 6 which is arranged beside the vertical seat 3 on the machine table 1 and is axially arranged along a pipe to be processed, the side sliding seat 8 is arranged on the driving slide rail 6, and the machine table 1 is provided with a screw mechanism 7 for driving the side sliding seat 8 to move and a screw motor 9 connected with the screw mechanism 7. A punching device 10 for punching the pipe to be processed by a punch, a punching and heating device 11 for heating the punched position and a pipe orifice trimming device 12 for trimming the hole orifice after the extrusion molding of the steel ball are arranged on the side sliding seat 8 in parallel along the axial direction of the pipe to be processed;

The punching device 10 comprises a punching cylinder 101 arranged on the side sliding seat 8, and a punch is arranged at the end part of a piston rod of the punching cylinder 101.

The punching and heating device 11 comprises a heating seat 111 which is arranged on the side sliding seat 8 and slides along the radial direction of the pipe to be processed, and a heating oil cylinder 112 which drives the heating seat 111, and a high-frequency quenching device 113 is arranged on the heating seat 111.

The pipe orifice trimming device 12 comprises a trimming seat 121 which is arranged on the side sliding seat 8 and slides along the radial direction of the pipe to be processed, and a trimming cylinder 122 which drives the trimming seat 121, wherein a trimming motor 123 is arranged on the trimming seat 121, and a trimming cutter head is arranged on the output shaft of the trimming motor 123.

A punching sliding seat 13 arranged along the axial direction of a pipe to be processed is arranged at one end of the lower pressing die 2 on the machine table 1, an upper sliding seat 15 arranged along the axial direction of the pipe to be processed and an upper oil cylinder 16 for driving the upper sliding seat 15 are arranged on the punching sliding seat 13, a punching core rod 17 extending into the pipe to be processed to be matched with the side of the pipe to be processed for punching, a forming hole matched with a punch is arranged on the punching core rod 17, a waste material outlet groove is arranged at an orifice of one side of the forming hole far away from the punch, and a core rod oil cylinder 14 for driving the punching sliding seat 13 is arranged on the machine table 1; the end of the piercing plug 17 is inclined in a direction away from the punch toward the plug cylinder 14; the other end of the lower pressing die 2 on the machine table 1 is provided with an extrusion sliding seat 18 arranged along the axial direction of a pipe to be processed, the extrusion sliding seat 18 is provided with an extrusion core rod 19 which extends into the pipe to be processed and is matched with the punching core rod 17 to extrude the steel ball from the side of the pipe, and the machine table 1 is provided with an extrusion oil cylinder 20 for driving the extrusion sliding seat 18; the end surface of the extrusion core rod 19 is in an inclined surface shape which inclines along the side of the extrusion oil cylinder 20 close to the punch;

the vertical seat is provided with a steel ball conveying device 21 for circularly conveying the steel balls which are three-purpose in extrusion at the side outlet of the lower blanking die 2 and the inlet of the end part of the lower blanking die 2.

The steel ball conveying device 21 comprises a conveying pipe 211 and a ball falling pipe 212 which are vertically arranged on a machine table 1 of the equipment in parallel, wherein a pushing oil cylinder 213 for pushing the steel ball from bottom to top in the conveying pipe 211 is arranged on the machine table 1, the end part of a piston rod of the pushing oil cylinder 213 extends into the conveying pipe 211 from bottom to top, a steel ball inlet is arranged on the side wall of the lower section of the conveying pipe 211, a lower guide groove 214 for supporting the steel ball and guiding the steel ball to the steel ball inlet is arranged on the machine table 1 below the steel ball extruding position, a steel ball outlet is arranged on the side wall of the upper section of the conveying pipe 211, the upper port position of the ball falling pipe 212 is lower than the steel ball outlet, an upper guide groove 215 for communicating the steel ball outlet with the upper port of the ball falling pipe 212 is arranged on a vertical seat on the equipment, a baffle 216 for preventing the steel ball from passing through is arranged on the upper guide groove 215, and a turnover cylinder 217 for driving the baffle 216 to rotate is arranged on the machine table 1 below the conveying pipe 211 and conveys the steel ball to the end part of a pipe to be processed on the lower pressing die 2.

During three-way processing, a pipe to be processed is sent to the lower pressing die 2 by a manual or automatic feeding device, the pressing cylinder 4 drives the upper pressing die 5 to downwards press the pipe, the core rod oil cylinder 14 drives the punching sliding seat 13 to move towards the direction close to the pipe, and meanwhile, the upper oil cylinder 16 drives the upper sliding seat 15 to move towards the direction close to the pipe, so that the punching core rod 17 stretches into the pipe to be processed, and a forming hole on the punching core rod 17 is matched with the position of the pipe to be punched; then, the screw motor 9 drives the screw mechanism 7 to adjust the position of the side sliding seat 8 so that the punching device 10 corresponds to the position of the pipe to be punched; then the punching oil cylinder 101 drives the punch to punch the side wall of the pipe; after the punching is finished, the punching oil cylinder 101 drives the punch to retract, and the upper oil cylinder 16 drives the upper sliding seat 15 to move in the direction away from the pipe, so that the end part of the punching core rod 17 is positioned beside a side wall through hole punched in the pipe;

Then the baffle 216 of the steel ball conveying device 21 is opened to convey the steel balls from the upper guide groove 215 to the end guide groove 218 at the end of the pipe to be processed through the ball falling pipe 212;

Then the screw motor 9 drives the screw mechanism 7 to adjust the position of the side sliding seat 8 so that the punching heating device 11 corresponds to the punching position of the pipe; the heating cylinder 112 drives the heating seat 111 to be close to the pipe, and the high-frequency quenching device 113 heats the pipe wall at the punching position; after the heating is finished, the heating cylinder 112 drives the heating seat 111 to be far away from the pipe;

Then the extrusion oil cylinder 20 drives the extrusion sliding seat 18 to move so as to push the extrusion core rod 19 and the steel ball into the pipe, the end part of the extrusion core rod 19 is matched with the end part of the punching core rod 17 so as to extrude the steel ball from the punching position, and the steel ball falls into the lower guide groove 214 and is conveyed into the conveying pipe 211; then the piston rod of the pushing cylinder 213 extends to send the steel ball out of the upper part of the conveying pipe 211 into the upper guide groove 215 and is blocked by the baffle 216;

then, the screw motor 9 drives the screw mechanism 7 to adjust the position of the side sliding seat 8 so that the pipe orifice trimming device 12 corresponds to the punching position of the pipe; then, the trimming cylinder 122 drives the trimming motor 123 to move towards the direction approaching to the pipe, and the trimming motor 123 drives the trimming tool bit to perform trimming processing on the pipe orifice position of the side wall of the pipe; after finishing the finishing processing, the finishing oil cylinder 122 drives the finishing motor 123 and the finishing tool bit to retract;

Then the core rod oil cylinder 14 drives the punching sliding seat 13 to move in the direction away from the pipe, so that the punching core rod 17 is separated from the pipe to be processed, and the waste materials stored in the waste material outlet groove during punching are discharged along with the punching; the extrusion cylinder 20 drives the extrusion sliding seat 18 to move away from the pipe so that the extrusion core rod 19 is separated from the pipe;

Finally, the material pressing cylinder 4 drives the material loading and pressing die 5 to ascend, and the processed pipe is taken out through a manual or automatic discharging device; thereby completing the processing of the side pipe orifice.

The above-described embodiments are merely illustrative of the principles and functions of the present invention, and some of the practical examples, not intended to limit the invention; it should be noted that modifications and improvements can be made by those skilled in the art without departing from the inventive concept, and these are all within the scope of the present invention.

Claims

1. The automatic processing and forming equipment for the side pipe orifice of the three-way pipe comprises a machine table, wherein a lower material pressing die for supporting a pipe to be processed is arranged on the machine table, a vertical seat is arranged on the machine table, a material pressing cylinder which is vertically and downwards arranged is arranged on the vertical seat, and an upper material pressing die for pressing the pipe to be processed is arranged at the end part of a piston rod of the material pressing cylinder; the method is characterized in that: a side sliding seat which axially slides along the pipe to be processed and a side driving mechanism for driving the side sliding seat to switch positions are arranged beside the vertical seat on the machine table, and a punching device for punching the pipe to be processed by a punch, a heating device for heating the punched position and a pipe orifice trimming device for trimming an orifice after extrusion molding of the steel ball are arranged on the side sliding seat in parallel along the axial direction of the pipe to be processed; a punching sliding seat is arranged at one end of the lower pressing die on the machine table, an upper sliding seat and an upper oil cylinder are arranged on the punching sliding seat, the upper sliding seat is arranged along the axial direction of the pipe to be processed, the upper oil cylinder drives the upper sliding seat, a punching core rod which stretches into the pipe to be processed to be matched with the side edge of the pipe to be processed for punching is arranged on the upper sliding seat, a forming hole which is matched with the punch is arranged on the punching core rod, a waste material outlet groove is arranged at an orifice of one side of the forming hole, far away from the punch, of the punching core rod, and a core rod oil cylinder for driving the punching sliding seat is arranged on the machine table; the end part of the punching core rod is in an inclined plane shape which inclines towards the core rod cylinder side along the direction away from the punch; the other end of the lower pressing die on the machine table is provided with an extrusion sliding seat axially arranged along the pipe to be processed, the extrusion sliding seat is provided with an extrusion core rod which stretches into the pipe to be processed and is matched with the punching core rod to extrude the steel ball from the side edge of the pipe to be processed, and the machine table is provided with an extrusion oil cylinder for driving the extrusion sliding seat; the end face of the extrusion core rod is in an inclined plane shape which inclines towards the extrusion oil cylinder side along the direction close to the punch; the steel ball conveying device comprises a conveying pipe and a ball falling pipe, wherein the conveying pipe and the ball falling pipe are vertically arranged on a machine in parallel, a pushing oil cylinder for pushing the steel ball from bottom to top in the conveying pipe is arranged on the machine, the end part of a piston rod of the pushing oil cylinder stretches into the conveying pipe from bottom to top, a steel ball inlet is arranged on the side wall of the lower section of the conveying pipe, a lower guide groove for supporting the steel ball and guiding the steel ball to the steel ball inlet is arranged on the machine below the steel ball extruding position, a steel ball outlet is arranged on the side wall of the upper section of the conveying pipe, the upper end opening position of the ball falling pipe is lower than the steel ball outlet, an upper guide groove for connecting the steel ball outlet with the upper end opening of the ball falling pipe is arranged on the machine, a baffle for preventing the steel ball from passing through is arranged on the upper guide groove, a turnover cylinder for driving the baffle to rotate is arranged on the machine below the conveying pipe, and an end guide groove for conveying the steel ball to the pipe end part to be processed on the lower pressing mold is arranged on the machine.

2. The automatic three-way pipe side pipe orifice machining and forming device as claimed in claim 1, wherein: the side driving mechanism comprises a driving slide rail which is arranged beside the vertical seat and is arranged along the axial direction of the pipe to be processed and is positioned on the machine table, the side sliding seat is arranged on the driving slide rail, and the machine table is provided with a screw mechanism for driving the side sliding seat to move and a screw motor connected with the screw mechanism.

3. The automatic three-way pipe side pipe orifice machining and forming device as claimed in claim 1, wherein: the punching device comprises a punching oil cylinder arranged on the side sliding seat, and a punch is arranged at the end part of a piston rod of the punching oil cylinder.

4. The automatic three-way pipe side pipe orifice machining and forming device as claimed in claim 1, wherein: the heating device comprises a heating seat and a heating oil cylinder, wherein the heating seat is arranged on the side sliding seat and slides along the radial direction of the pipe to be processed, the heating oil cylinder drives the heating seat, and the heating seat is provided with a high-frequency quenching device.

5. The automatic three-way pipe side pipe orifice machining and forming device as claimed in claim 1, wherein: the pipe orifice trimming device comprises a trimming seat and a trimming cylinder, wherein the trimming seat is arranged on the side sliding seat and slides along the radial direction of a pipe to be processed, the trimming cylinder drives the trimming seat, a trimming motor is arranged on the trimming seat, and a trimming cutter head is arranged on a power output shaft of the trimming motor.

6. A three-way pipe side pipe orifice automatic forming apparatus as defined in any one of claims 1-5, wherein: the side sliding seat is also provided with a flaring device, the flaring device comprises a flaring seat and a flaring cylinder, the flaring seat is arranged on the side sliding seat and slides along the radial direction of the pipe to be processed, the flaring cylinder drives the flaring seat, the flaring seat is provided with a flaring motor, and a force output shaft of the flaring motor is provided with a flaring die head.