CN112024742A

CN112024742A - Pipe double-end flaring device

Info

Publication number: CN112024742A
Application number: CN202010898541.6A
Authority: CN
Inventors: 吴仲锋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2020-12-04

Abstract

The invention relates to the technical field of pipe fitting reaming processing, in particular to a pipe double-end flaring device which comprises a processing table, an upper material rack, a positioning rack, a lower material rack and a bidirectional synchronous positioning and reaming mechanism, wherein two sides of the positioning rack are respectively provided with a vertical rack, the two vertical racks are symmetrically arranged on two sides of the positioning rack, each vertical rack is respectively arranged on the processing table, the top of the positioning rack is provided with a temporary storage groove for placing a pipe fitting, one end of the upper material rack and one end of the lower material rack are respectively butted with two ends of the positioning rack, the bidirectional synchronous positioning and reaming mechanism comprises a bidirectional exchange assembly and two moving racks, each moving rack is respectively provided with a positioning pin and a reaming jig which can extend towards two sides of the positioning rack, the working end of the bidirectional exchange assembly is respectively connected with the outer wall of each moving rack, the equipment can automatically feed and discharge materials and can automatically ream, the processing efficiency is improved.

Description

Pipe double-end flaring device

Technical Field

The invention relates to the technical field of pipe fitting reaming, in particular to a pipe double-end flaring device.

Background

The traditional pipe end reaming equipment generally comprises a pipe expanding punch head and a power head for punching a pipe fitting to the pipe expanding punch head, when the power head drives the pipe fitting on the power head to punch to the pipe expanding punch head, the power head can only ream one end part of the pipe fitting, if the second end part of the pipe fitting needs to be reamed, the pipe fitting needs to be reversed and discharged again, the reaming efficiency is low, the improvement of the working efficiency is not facilitated, and therefore a pipe double-end reaming device is provided, and the problem is solved.

Disclosure of Invention

For solving above-mentioned technical problem, provide a pipe double-end flaring device, this equipment can go up unloading automatically to can carry out automatic reaming with the bi-polar of pipe fitting simultaneously, improve machining efficiency.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

a pipe double-end flaring device comprises a processing table, a feeding frame, a positioning frame, a discharging frame and a bidirectional synchronous positioning and reaming mechanism, wherein the positioning frame is arranged at the center of a table board of the processing table, the feeding frame and the discharging frame are respectively arranged at the front end and the rear end of the positioning frame, two sides of the positioning frame are respectively provided with a vertical frame, the two vertical frames are symmetrically arranged at two sides of the positioning frame, each vertical frame is respectively arranged on the processing table, the top of the positioning frame is provided with a temporary storage groove for placing a pipe fitting, one end of the feeding frame and one end of the discharging frame are respectively in butt joint with two ends of the positioning frame, the bidirectional synchronous positioning and reaming mechanism comprises a bidirectional exchange assembly and two moving frames, the bidirectional exchange assembly is arranged above the feeding frame, the two moving frames can respectively move linearly along the length direction of each vertical frame and are arranged on the vertical surface of the vertical frame, each moving frame is respectively provided with a positioning pin, the working end of the bidirectional exchange component is respectively connected with the outer wall of each movable frame.

Preferably, the material loading frame is the slope setting in one side of locating rack, and the locating rack is equipped with the horizontal baffle that can conflict the pipe fitting near one side upper end of material loading frame, and the decurrent one end of material loading frame slope is along towards the lower extreme of horizontal baffle, and the decurrent one end of slope of material loading frame closely laminates with the lateral wall of horizontal baffle, and one side that the material loading frame was kept away from to the locating rack is equipped with the guide frame, and the guide frame is the slope setting on the processing bench, and the ascending one end of guide frame slope is docked the setting with the upper end of locating rack, and the material unloading frame sets up the decurrent one end in the.

Preferably, lower extreme one side of locating rack is equipped with the first cylinder that is vertical setting, the output of first cylinder sets up, be equipped with the lifter plate directly over the first cylinder, the top one end of lifter plate is equipped with the material loading stirring board that is vertical setting, the top of material loading stirring board is equipped with the first incision that the slope set up, the top of material loading stirring board can move the setting up the top of work or material rest, it wears the mouth to be equipped with the first removal that is used for supplying material loading stirring board to remove on the work or material rest, the other end at lifter plate top is equipped with the guide stirring board that is vertical setting, the top of guide stirring board is equipped with the second incision that the slope set up, the top of guide stirring board can move the setting towards the top of locating rack, be equipped with the second that is used for supplying material loading stirring board to remove on the locating rack and remove and wear.

Preferably, be equipped with the anchor clamps that can conflict the pipe fitting directly over the locating rack, the top of anchor clamps is equipped with horizontal board, and the both ends of horizontal board are connected with the lateral wall of every vertical frame respectively, and the top of horizontal board is equipped with the second cylinder that is vertical setting, and the output of second cylinder sets up down, and the output of second cylinder is connected with the top of anchor clamps, and the top both sides of anchor clamps are equipped with the first spacing polished rod that is vertical setting respectively, are equipped with the first stop collar that is used for supplying every first spacing polished rod to walk on the horizontal board.

Preferably, the two-way exchange subassembly includes type of falling U frame, third cylinder and horizontal push rod, type of falling U frame is erect directly over last work or material rest, the third cylinder is the level and sets up the top center department at type of falling U frame, horizontal push rod is the level and is located between two vertical framves, the output of third cylinder is connected with horizontal push rod's middle-end, horizontal push rod's both ends extend to the both sides of every vertical frame respectively, every horizontal push rod's both ends are equipped with the connection montant that is vertical setting respectively, every lower extreme of connecting the montant is connected with every lateral wall that removes the frame respectively.

Preferably, the upper end of each vertical frame is respectively provided with a second polished rod which is horizontally arranged, the two ends of each second polished rod are respectively connected with the top of each vertical frame through a connecting support, and each horizontal push rod is provided with a first limiting through hole for each second polished rod to pass through.

Preferably, every be equipped with respectively on the vertical of vertical frame along the length direction extension of a vertical support that goes out rectangle spout that distributes, the setting that removes the frame and can be gliding is in the rectangle spout, and the upper and lower end that removes the frame is provided with the sliding block respectively, is equipped with on the vertical support to be used for supplying the gliding sliding tray of every sliding block.

Preferably, every the perpendicular that removes the frame and be close to last work or material rest is equipped with the fourth cylinder that is the level setting respectively, and the output of every fourth cylinder extends the setting respectively towards the both sides of locating rack, and every locating pin is the work end of horizontal installation at every fourth cylinder respectively.

Preferably, every the perpendicular that the work or material rest was kept away from to the removal frame is equipped with the fifth cylinder that is the level setting respectively, and the output of every fifth cylinder extends the setting respectively towards the both sides of locating rack, and the output of every fifth cylinder is equipped with the push pedal respectively, and the one end of every push pedal is connected with every reaming tool respectively, and the both sides of push pedal are equipped with the third polished rod that is the level setting respectively, are equipped with the spacing perforation of second that is used for supplying every third polished rod to walk on every removal frame respectively.

Compared with the prior art, the invention has the beneficial effects that:

a pipe double-end flaring device is disclosed, during operation, a rod piece to be processed is placed on a feeding frame, the feeding frame inclines upwards to enable a single pipe fitting to be abutted against a horizontal baffle, the first air cylinder is started to drive a lifting plate to move upwards, the lifting plate drives a feeding stirring plate and a guide stirring plate to simultaneously ascend, the pipe fitting on a feeding conveying frame and the pipe fitting on a positioning frame are simultaneously abutted against through the tops of the feeding stirring plate and the guide stirring plate, the single pipe fitting on the feeding conveying frame is moved into a temporary storage groove of the positioning frame, the pipe fitting processed in a positioning groove can be simultaneously moved onto a guide frame, the processed pipe fitting is moved onto a discharging frame through the guide frame, after the pipe fitting to be processed on the feeding frame enters the temporary storage groove of the positioning frame, each positioning pin is respectively abutted against the two ends of the pipe fitting, each fourth air cylinder drives each positioning pin to abut against the two ends of the pipe fitting, the pipe fitting is corrected on the positioning frame, after the pipe fitting is corrected on the positioning frame by each positioning pin, the second air cylinder is started, the clamp is driven to move downwards by the working end of the second air cylinder, the pipe fitting on the positioning frame is positioned by the clamp, each set first limiting polish rod plays a role in limiting movement, after the pipe fitting on the positioning frame is positioned by the clamp, the third air cylinder is started, the horizontal push rod is driven to horizontally move by the third air cylinder, the two ends of the horizontal push rod respectively perform limiting movement through each second polish rod, each movable frame is driven to linearly move by each connecting vertical rod arranged at the two ends of the horizontal push rod, each movable frame respectively performs linear movement along each rectangular sliding groove, each sliding block arranged on the movable frame performs limiting movement along the sliding groove, and the chambering jig on each movable frame is butted with the two ends of the pipe fitting positioned by the clamp on the positioning frame, after one end of each reaming jig is butted with the two ends of the pipe fitting positioned by the fixture, each fifth cylinder is started, the working ends of the fifth cylinders respectively drive the reaming jigs to simultaneously ream the two ends of the pipe fitting, the equipment can automatically feed and discharge materials, and can automatically ream the double ends of the pipe fitting simultaneously, so that the processing efficiency is improved.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view taken along A-A of FIG. 3 of the present invention;

FIG. 5 is a partial perspective view of the first embodiment of the present invention;

FIG. 6 is a partial perspective view of the second embodiment of the present invention;

fig. 7 is a partial perspective view of the bidirectional synchronous positioning hole expanding mechanism according to the first embodiment of the present invention;

FIG. 8 is an enlarged view of the invention at B of FIG. 7;

fig. 9 is a partial perspective view of the bidirectional synchronous positioning reamer mechanism of the invention.

Description of the drawings:

1-a processing table; 2-feeding frame; 3-a positioning frame; 4-blanking frame; 5-vertical frame; 6-temporary storage tank; 7-a moving rack; 8-a positioning pin; 9-reaming the jig; 10-a horizontal baffle; 11-a material guide frame; 12-a first cylinder; 13-a lifter plate; 14-feeding shifting plate; 15-first incision; 16-a first mobile puncture; 17-a material guiding poking plate; 18-a second incision; 19-a second mobile puncture; 20-a clamp; 21-a transverse plate; 22-a second cylinder; 23-a first limit polish rod; 24-a first stop collar; 25-inverted U-shaped frame; 26-a third cylinder; 27-a horizontal push rod; 28-connecting a vertical rod; 29-a second polished rod; 30-a rectangular chute; 31-a sliding groove; 32-a slider; 33-a fourth cylinder; 34-a fifth cylinder; 35-a push plate; 36-a third polish rod; 37-second limit perforation.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 9, a pipe double-end flaring device comprises a processing table 1, a feeding frame 2, a positioning frame 3, a discharging frame 4 and a bidirectional synchronous positioning and reaming mechanism, wherein the positioning frame 3 is arranged at the center of the table top of the processing table 1, the feeding frame 2 and the discharging frame 4 are respectively arranged at the front end and the rear end of the positioning frame 3, two vertical frames 5 are respectively arranged at two sides of the positioning frame 3, the two vertical frames 5 are symmetrically arranged at two sides of the positioning frame 3, each vertical frame 5 is respectively arranged on the processing table 1, a temporary storage groove 6 for placing a pipe fitting is arranged at the top of the positioning frame 3, one ends of the feeding frame 2 and the discharging frame 4 are respectively in butt joint with two ends of the positioning frame 3, the bidirectional synchronous positioning and reaming mechanism comprises a bidirectional exchange assembly and two moving frames 7, the bidirectional exchange assembly is arranged above the feeding frame 2, the two moving frames 7 are respectively arranged on the vertical surface of each vertical frame 5 and can linearly move along the length direction of each, and each movable frame 7 is provided with a positioning pin 8 and a reaming jig 9 which can extend towards the two sides of the positioning frame 3, and the working ends of the bidirectional exchange assemblies are connected with the outer wall of each movable frame 7.

Go up work or material rest 2 and be the slope setting in one side of locating rack 3, one side upper end that locating rack 3 is close to last work or material rest 2 is equipped with the horizontal baffle 10 that can conflict the pipe fitting, the downward one end of slope of last work or material rest 2 is along towards the lower extreme of horizontal baffle 10, the downward one end of slope of last work or material rest 2 is closely laminated with the lateral wall of horizontal baffle 10, one side that last work or material rest 2 was kept away from to locating rack 3 is equipped with guide frame 11, guide frame 11 is the slope setting on processing platform 1, the ascending one end of guide frame 11 slope and the upper end butt joint setting of locating rack 3, lower work or material rest 4 sets up the decurrent one end of slope at guide frame 11, during the operation, the member that will treat processing is placed on last work or material rest 2, single pipe fitting that the.

A first cylinder 12 which is vertically arranged is arranged on one side of the lower end of the positioning frame 3, the output end of the first cylinder 12 is arranged upwards, a lifting plate 13 is arranged right above the first cylinder 12, a vertically arranged feeding poking plate 14 is arranged at one end of the top of the lifting plate 13, a first cut 15 which is obliquely arranged is arranged at the top end of the feeding poking plate 14, the top end of the feeding poking plate 14 can move towards the upper part of the material frame 2, a first moving through hole 16 for the feeding poking plate 14 to move is arranged on the material frame 2, a vertically arranged material guiding poking plate 17 is arranged at the other end of the top of the lifting plate 13, a second cut 18 which is obliquely arranged is arranged at the top end of the material guiding poking plate 17, the top end of the material guiding poking plate 17 can move towards the upper part of the positioning frame 3, a second moving through hole 19 for the material guiding poking plate 17 to move is arranged on the positioning frame 3, and by starting, first cylinder 12 drives lifter plate 13 rebound, lifter plate 13 drives material loading stirring plate 14 and guide stirring plate 17 respectively and rises simultaneously, the top through material loading stirring plate 14 and guide stirring plate 17 is contradicted with pipe fitting on the material loading carriage and the pipe fitting on the locating rack 3 simultaneously, make single pipe fitting on the material loading carriage move to the groove of keeping in 6 of locating rack 3, make the pipe fitting that the processing is good in the constant head tank can move to on guide rack 11 simultaneously, rethread guide rack 11 will handle the pipe fitting and move to on the lower feed rack 4.

A clamp 20 which can be abutted against the pipe fitting is arranged right above the positioning frame 3, a transverse plate 21 is arranged above the clamp 20, two ends of the transverse plate 21 are respectively connected with the side wall of each vertical frame 5, a second cylinder 22 which is vertically arranged is arranged at the top of the transverse plate 21, the output end of the second cylinder 22 is downwards arranged, the output end of the second cylinder 22 is connected with the top of the clamp 20, first limiting polish rods 23 which are vertically arranged are respectively arranged at two sides of the top of the clamp 20, a first limiting sleeve 24 for each first limiting polish rod 23 to pass through is arranged on the transverse plate 21, after the pipe is corrected on the positioning frame 3 by each positioning pin 8, the second cylinder 22 is activated, the working end of the second cylinder 22 drives the clamp 20 to move downwards, and the pipe fittings on the positioning frame 3 are positioned by the clamp 20, and each first limiting polished rod 23 plays a role in limiting movement.

Two-way exchange assembly includes the type of falling U frame, 25 third cylinder 26 and horizontal push rod 27, the type of falling U frame is erect directly over last work or material rest 2, third cylinder 26 is the level and sets up the top center department at the type of falling U frame, horizontal push rod 27 is the level and is located between two vertical framves 5, the output of third cylinder 26 is connected with horizontal push rod 27's middle-end, horizontal push rod 27's both ends extend to every vertical frame 5's both sides respectively, every horizontal push rod 27's both ends are equipped with the connection montant 28 that is vertical setting respectively, every lower extreme of connecting montant 28 is connected with every lateral wall that removes frame 7 respectively.

The upper end of every vertical frame 5 is equipped with the second polished rod 29 that is the level setting respectively, the both ends of second polished rod 29 are connected with the top of vertical frame 5 through linking bridge respectively, be equipped with the first spacing perforation that is used for supplying every second polished rod 29 to walk on the horizontal push rod 27, after anchor clamps 20 fix a position the pipe fitting on with the locating rack 3, start third cylinder 26, drive horizontal push rod 27 horizontal migration through third cylinder 26, horizontal push rod 27's both ends carry out spacing removal through every second polished rod 29 respectively, every connecting vertical rod 28 through horizontal push rod 27 both ends setting drives every and removes 7 rectilinear movement.

Be equipped with respectively on the vertical of vertical frame 5 along the rectangle spout 30 that goes out the length direction extending distribution of a vertical support, it can gliding setting in rectangle spout 30 to remove frame 7, the upper and lower end that removes frame 7 is provided with sliding block 32 respectively, be equipped with on the vertical support and be used for supplying the gliding sliding tray 31 of every sliding block 32, every removes frame 7 and carries out rectilinear movement along every rectangle spout 30 respectively, carry out spacing removal along sliding tray 31 through every sliding block 32 that removes and set up on the frame 7, make on the reaming tool 9 of every removal frame 7 and the locating rack 3 by the pipe fitting both ends of anchor clamps 20 location dock.

Move the perpendicular that frame 7 is close to last work or material rest 2 and be equipped with the fourth cylinder 33 that the level set up respectively, the output of every fourth cylinder 33 extends the setting respectively towards the both sides of locating rack 3, every locating pin 8 is the work end of horizontal installation at every fourth cylinder 33 respectively, treat the pipe fitting of processing and enter into the groove 6 back of keeping in of locating rack 3 on last work or material rest 2, every locating pin 8 docks with the pipe fitting both ends on the locating rack 3 respectively this moment, it conflicts with the both ends of pipe fitting to drive every locating pin 8 through every fourth cylinder 33, make the pipe fitting rectify on locating rack 3.

The vertical surface of the material loading frame 2 is kept away from by each moving frame 7 and is respectively provided with a fifth cylinder 34 which is horizontally arranged, the output end of each fifth cylinder 34 extends towards the two sides of the positioning frame 3, the output end of each fifth cylinder 34 is respectively provided with a push plate 35, one end of each push plate 35 is respectively connected with each reaming jig 9, the two sides of each push plate 35 are respectively provided with a third polish rod 36 which is horizontally arranged, each moving frame 7 is respectively provided with a second limiting perforation 37 through which each third polish rod 36 passes, after one end of each reaming jig 9 is respectively in butt joint with the two ends of the pipe positioned by the clamp 20, each fifth cylinder 34 is started, and the working end of each fifth cylinder 34 respectively drives the reaming jig 9 to simultaneously ream the two ends of the pipe.

The working principle of the invention is as follows: during operation, a rod piece to be processed is placed on the feeding frame 2, a single pipe fitting which inclines upwards and downwards on the feeding frame 2 is abutted against the horizontal baffle plate 10, the first air cylinder 12 is started to drive the lifting plate 13 to move upwards, the lifting plate 13 respectively drives the feeding stirring plate 14 and the guide stirring plate 17 to simultaneously ascend, the pipe fitting on the feeding conveying frame is abutted against the pipe fitting on the positioning frame 3 through the tops of the feeding stirring plate 14 and the guide stirring plate 17, the single pipe fitting on the feeding conveying frame is moved into the temporary storage groove 6 of the positioning frame 3, the pipe fitting processed in the positioning groove can be moved onto the guide frame 11 simultaneously, the processed pipe fitting is moved onto the feeding frame 4 through the guide frame 11, after the pipe fitting to be processed on the feeding frame 2 enters the temporary storage groove 6 of the positioning frame 3, each positioning pin 8 is abutted against two ends of the pipe fitting on the positioning frame 3 respectively, each fourth cylinder 33 drives each positioning pin 8 to collide two ends of a pipe fitting, so that the pipe fitting is corrected on the positioning frame 3, after the pipe fitting is corrected on the positioning frame 3 by each positioning pin 8, the second cylinder 22 is started, the clamp 20 is driven to move downwards by the working end of the second cylinder 22, the pipe fitting on the positioning frame 3 is positioned by the clamp 20, each first limiting polish rod 23 is arranged to play a role of limiting movement, after the pipe fitting on the positioning frame 3 is positioned by the clamp 20, the third cylinder 26 is started, the horizontal push rod 27 is driven to horizontally move by the third cylinder 26, two ends of the horizontal push rod 27 respectively carry out limiting movement by each second polish rod 29, each connecting vertical rod 28 arranged at two ends of the horizontal push rod 27 drives each moving frame 7 to linearly move, and each moving frame 7 respectively carries out linear movement along each rectangular sliding groove 30, carry out spacing removal along sliding tray 31 through every sliding block 32 that sets up on removing the frame 7, make every reaming tool 9 that removes on the frame 7 dock with the pipe fitting both ends of being fixed a position by anchor clamps 20 on the locating rack 3, after the one end of every reaming tool 9 docks with the pipe fitting both ends after being fixed a position by anchor clamps 20 respectively, start every fifth cylinder 34, drive reaming tool 9 respectively through the work end of every fifth cylinder 34 and carry out the reaming operation simultaneously with the both ends of pipe fitting.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A pipe double-end flaring device is characterized by comprising a processing table (1), an upper material rack (2), a positioning rack (3), a lower material rack (4) and a bidirectional synchronous positioning and reaming mechanism, wherein the positioning rack (3) is arranged at the center of the table top of the processing table (1), the upper material rack (2) and the lower material rack (4) are respectively arranged at the front end and the rear end of the positioning rack (3), vertical racks (5) are respectively arranged at the two sides of the positioning rack (3), the two vertical racks (5) are symmetrically arranged at the two sides of the positioning rack (3), each vertical rack (5) is respectively arranged on the processing table (1), a temporary storage groove (6) for placing a pipe fitting is arranged at the top of the positioning rack (3), one end of the upper material rack (2) and one end of the lower material rack (4) are respectively in butt joint with the two ends of the positioning rack (3), the bidirectional synchronous positioning and reaming mechanism comprises a bidirectional exchange assembly and two movable racks (7, the bidirectional exchange assembly is erected above the material loading frame (2), the two moving frames (7) can move linearly along the length direction of each vertical frame (5) respectively and are arranged on vertical surfaces of the vertical frames (5), each moving frame (7) is provided with a positioning pin (8) and a reaming jig (9) which can extend towards two sides of the positioning frame (3), and the working end of the bidirectional exchange assembly is connected with the outer wall of each moving frame (7) respectively.

2. The pipe double-end flaring device according to claim 1, wherein the feeding frame (2) is obliquely arranged on one side of the positioning frame (3), a horizontal baffle (10) capable of abutting against a pipe fitting is arranged at the upper end of one side, close to the feeding frame (2), of the positioning frame (3), the obliquely downward end of the feeding frame (2) is arranged towards the lower end of the horizontal baffle (10), the obliquely downward end of the feeding frame (2) is tightly attached to the side wall of the horizontal baffle (10), a guide frame (11) is arranged on one side, far away from the feeding frame (2), of the positioning frame (3), the guide frame (11) is obliquely arranged on the processing table (1), the obliquely upward end of the guide frame (11) is in butt joint with the upper end of the positioning frame (3), and the discharging frame (4) is arranged at the obliquely downward end of the guide frame (11).

3. The pipe double-end flaring device according to claim 2, wherein a first cylinder (12) is vertically arranged on one side of the lower end of the positioning frame (3), the output end of the first cylinder (12) is arranged upward, a lifting plate (13) is arranged right above the first cylinder (12), a vertically arranged feeding poking plate (14) is arranged at one end of the top of the lifting plate (13), a first inclined cut (15) is arranged at the top end of the feeding poking plate (14), the top end of the feeding poking plate (14) can be movably arranged above the upper material frame (2), a first moving through hole (16) for the feeding poking plate (14) to move is arranged on the upper material frame (2), a vertically arranged material guiding poking plate (17) is arranged at the other end of the top of the lifting plate (13), a second inclined cut (18) is arranged at the top end of the material guiding poking plate (17), the top end of the material guiding poking plate (17) can move towards the upper part of the positioning frame (3), and a second moving penetrating opening (19) for the material guiding poking plate (17) to move is arranged on the positioning frame (3).

4. The pipe double-end flaring device according to claim 3, characterized in that a clamp (20) capable of abutting against a pipe fitting is arranged right above the positioning frame (3), a transverse plate (21) is arranged above the clamp (20), two ends of the transverse plate (21) are respectively connected with the side wall of each vertical frame (5), a second cylinder (22) in vertical arrangement is arranged at the top of the transverse plate (21), the output end of the second cylinder (22) is arranged downwards, the output end of the second cylinder (22) is connected with the top of the clamp (20), first limiting polish rods (23) in vertical arrangement are respectively arranged on two sides of the top of the clamp (20), and first limiting sleeves (24) for each first limiting polish rod (23) to pass through are arranged on the transverse plate (21).

5. The pipe double-end flaring device of claim 4, wherein the bidirectional exchange assembly comprises an inverted U-shaped frame, (25) a third cylinder (26) and a horizontal push rod (27), the inverted U-shaped frame is erected right above the feeding frame (2), the third cylinder (26) is horizontally arranged at the center of the top end of the inverted U-shaped frame, the horizontal push rod (27) is horizontally arranged between the two vertical frames (5), the output end of the third cylinder (26) is connected with the middle end of the horizontal push rod (27), two ends of the horizontal push rod (27) respectively extend towards two sides of each vertical frame (5), two ends of each horizontal push rod (27) are respectively provided with a connecting vertical rod (28) which is vertically arranged, and the lower end of each connecting vertical rod (28) is respectively connected with the side wall of each movable frame (7).

6. The pipe double-end flaring device according to claim 5, characterized in that a second polish rod (29) is horizontally arranged at the upper end of each vertical frame (5), the two ends of the second polish rod (29) are respectively connected with the top of the vertical frame (5) through connecting brackets, and a first limiting through hole for each second polish rod (29) to pass through is arranged on the horizontal push rod (27).

7. The pipe double-end flaring device according to claim 6, characterized in that the vertical surfaces of each vertical frame (5) are respectively provided with a rectangular sliding groove (30) extending and distributed along the length direction of each vertical support, the movable frame (7) is slidably arranged in the rectangular sliding groove (30), the upper end and the lower end of the movable frame (7) are respectively provided with a sliding block (32), and the vertical supports are provided with a sliding groove (31) for each sliding block (32) to slide.

8. The pipe double-end flaring device according to claim 7, characterized in that a horizontal fourth cylinder (33) is respectively arranged on each vertical surface of the movable frame (7) close to the feeding frame (2), the output end of each fourth cylinder (33) extends towards two sides of the positioning frame (3), and each positioning pin (8) is horizontally arranged at the working end of each fourth cylinder (33).

9. The pipe double-end flaring device according to claim 8, wherein a vertical surface of each moving frame (7) far away from the feeding frame (2) is respectively provided with a horizontally arranged fifth cylinder (34), an output end of each fifth cylinder (34) extends towards two sides of the positioning frame (3), an output end of each fifth cylinder (34) is respectively provided with a push plate (35), one end of each push plate (35) is respectively connected with each reaming jig (9), two sides of each push plate (35) are respectively provided with a horizontally arranged third polish rod (36), and each moving frame (7) is respectively provided with a second limiting through hole (37) for each third polish rod (36) to pass through.