CN110586782A - Double-station bend pipe shaping machine - Google Patents

Abstract

The invention discloses a double-station pipe bending shaper in the field of pipe bending shaping, which comprises a rack, a hydraulic station, a material rack, a control box, a foot cup, an opening, a second foot cup, an electric box, two groups of feeding mechanisms, a material pressing mechanism, a shaping mechanism and a discharging mechanism, wherein a discharge hole is formed in one side of the top end of the rack, a through groove is formed in the side surface of the rack, a hydraulic station supporting piece is fixedly connected to the top end of the side surface of the rack, the hydraulic station is fixed on the hydraulic station supporting piece, a hopper is fixed between the discharge hole and the through groove, a Harvard lower die is fixedly connected to the center of the top end of the rack, two groups of first cylinder seats are symmetrically and fixedly connected to one edge of the top end of the rack, the feeding mechanism is controlled by a PLC programming program to feed materials through the control box, the material pressing mechanism, the automation degree of the pipe orifice shaping of the pipe is improved, and the labor intensity of personnel is reduced.

Description

Double-station bend pipe shaping machine

Technical Field

The invention relates to the field of bent pipe shaping, in particular to a double-station bent pipe shaping machine.

Background

Tubing is the material used to make pipe fittings. Different pipes need to be used by different pipes, the quality of the pipes directly determines the quality of the pipes, the pipes to which bending forming is performed need to be reshaped when being processed again, the reshaping process comprises rounding and flaring, the traditional pipe mouth reshaping process for the pipes to which bending forming is performed is low in automation, high in labor intensity and low in processing efficiency, is not suitable for the existing pipe mouth reshaping work, and the requirements on the bending pipe reshaping equipment with high automation are increasingly urgent in order to reduce the labor intensity and improve the production efficiency and the economic benefit.

Based on the design, the invention designs the double-station pipe bending shaper.

Disclosure of Invention

The invention aims to provide a double-station pipe bending and shaping machine to solve the problems of low automation, high labor intensity and low processing efficiency of the traditional pipe orifice shaping process of a bent and formed pipe, which is provided by the background.

In order to achieve the purpose, the invention provides the following technical scheme:

double-station elbow shaping machine, including frame, hydraulic pressure station, work or material rest, control box, foot cup, opening, second foot cup, electronic box, two sets of feeding mechanism, swager construct, plastic mechanism and the structure of unloading, the discharge gate has been seted up to frame top one side, logical groove has been seted up to the frame side, frame side top fixedly connected with hydraulic pressure station support piece, the hydraulic pressure station is fixed on hydraulic pressure station support piece, be fixed with the hopper between discharge gate and the logical groove, frame top center fixedly connected with has the lower mould of haversian, two sets of first cylinder bases of a frame top edge symmetry fixedly connected with.

Preferably, the feeding mechanism comprises a first cylinder, a second cylinder, a first feeding line rail, two groups of first feeding slide blocks, a feeding base, a second cylinder seat, a material supporting seat, a second feeding line rail, a second feeding slide block, a feeding plate, an adjusting stop block, two groups of material rack fixing bottom plates, two groups of material rack fixing rods and a material rack fixing plate, the first cylinder is fixedly connected to the first cylinder seat, the first feeding line rail is arranged beside the first cylinder seat, the first feeding slide block is slidably connected to the top end of the first feeding line rail, the feeding base is fixed above the first feeding slide block, the second cylinder seat is fixed at the end part of the feeding base close to the first cylinder seat, the second cylinder is fixedly connected to the second cylinder seat, the material supporting seat is fixed at the other end of the top of the feeding base, and the second feeding line rail is fixed on the feeding base, the second feeding sliding block is connected to the top end of the second feeding line rail in a sliding mode, the feeding plate is arranged on the top end of the second feeding sliding block, the end portion of the first air cylinder is fixedly connected with the end portion of the feeding base, the end portion of the second air cylinder is fixedly connected with the end portion of the feeding plate, the rack fixing base plate is symmetrically arranged on the top end of the rack by taking the first feeding line rail as a symmetry axis, the rack fixing rods are fixed to the rack fixing base plate, the rack fixing plate is arranged between the two sets of rack fixing rods, the rack is arranged between the rack fixing plate and the rack fixing rods, and adjusting plates are arranged at the end portions of.

Preferably, the shaping mechanism comprises four groups of shaping oil cylinders, two groups of single oil cylinder seats, two groups of first shaping linear rails, first shaping sliding blocks, shaping core rod fixing parts, shaping core rods, double oil cylinder seats, second shaping linear rails and second shaping sliding blocks, the two groups of single oil cylinder seats are symmetrically arranged on two sides of the top end of the frame by taking the Harvard lower die as a symmetrical center, the double oil cylinder seats and the two groups of single oil cylinder seats are arranged in a T shape, the four groups of shaping oil cylinders are respectively fixed on the single oil cylinder seats and the double oil cylinder seats, the two groups of first shaping linear rails are symmetrically arranged between the Harvard lower die and the single oil cylinder seats by taking the Harvard lower die as a symmetrical center, the first shaping sliding blocks are slidably connected to the top ends of the first shaping linear rails, the second shaping lower linear rails are arranged between the Harvard lower die and the double oil cylinder seats, and the second shaping sliding blocks are slidably connected to the second shaping linear rails, the top ends of the first shaping sliding block and the second shaping sliding block are fixedly connected with shaping mandrel fixing pieces, the shaping mandrels are fixed on the shaping mandrel fixing pieces, and oil cylinder protective covers are arranged on the outer sides of the shaping oil cylinders.

Preferably, the swager constructs including four group's fore-set, roof, push down the hydro-cylinder, compresses tightly the connecting block and the mould on the haversian, the fore-set sets up with the vertical line symmetry in haversian lower mould center place, the roof is fixed the fore-set top, push down the hydro-cylinder and fix at roof top center and its inside piston rod tip activity and run through the roof, it fixes to compress tightly the connecting block push down the inside piston rod tip of hydro-cylinder, the mould is fixed on the haversian compress tightly the connecting block bottom.

Preferably, the discharging mechanism comprises two groups of stripper plate bases, four groups of linear bearings, four groups of polished rods, a lifting bottom plate, a discharging cylinder base, a discharging cylinder, a height adjusting cylinder, a slider fixing plate, a material taking cylinder base, two groups of material taking cylinders, two groups of adjusting fixing plates, two groups of material taking mandrel fixing plates, two groups of first linear rails, two groups of first sliders, two groups of second linear rails, two groups of second sliders, two groups of material taking mandrels and two groups of stripper plates, wherein the two groups of stripper plate bases are symmetrically arranged at two sides of a discharge port, the stripper plates are arranged at the top end of the stripper plate bases, the linear bearings are arranged at the top end of a top plate, the polished rods are connected with the top plate through the linear bearings, the lifting bottom plate is arranged at the bottom end of the polished rods, the discharging cylinder base is arranged at the end of the lifting bottom plate, the discharging cylinder is arranged on the discharging cylinder base, and, the material taking cylinder seat is arranged at the center of the edge of the bottom of the slider fixing plate, the material taking cylinders are symmetrically arranged on two sides of the material taking cylinder seat, the adjusting fixing plate is fixedly connected with the end of the material taking cylinder, the material taking mandrel is arranged below the adjusting fixing plate, the first sliders are symmetrically arranged at the top ends of the slider fixing plate, the first linear rails are symmetrically arranged at the bottom end of the ascending bottom plate, the first sliders are in sliding connection with the first linear rails, the second linear rails are arranged at the bottom end of the slider fixing plate, the second sliders are in sliding connection with the second linear rails, and the material taking mandrel is fixed on the material taking mandrel fixing plate.

Preferably, the feeding mechanism, the pressing mechanism, the shaping mechanism and the discharging mechanism are controlled to operate and work inside the control box through a PLC programming program.

Compared with the prior art, the invention has the beneficial effects that: by arranging the two groups of feeding mechanisms, the pipe orifices of the two groups of pipes can be shaped simultaneously, so that the machining efficiency of shaping the pipe orifices is improved; through setting up control box, feeding mechanism, swager constructs, plastic mechanism and shedding mechanism, through PLC programming program control feeding mechanism pay-off, the swager structure is fixed tubular product, and plastic mechanism carries out the plastic to the tubular product mouth of pipe, and shedding mechanism unloads, has improved the degree of automation of the shaping of the tubular product mouth of pipe, has reduced personnel's intensity of labour.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings described below are only some examples of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

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

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

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

FIG. 5 is an enlarged view of the part B of the present invention;

FIG. 6 is an enlarged view of the part C of the present invention;

FIG. 7 is a schematic structural view of a reforming mechanism according to the present invention;

FIG. 8 is a schematic structural view of a swaging mechanism of the present invention;

FIG. 9 is a first structural diagram of the discharging mechanism of the present invention;

fig. 10 is a schematic structural diagram of a discharging mechanism of the invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-frame, 100-discharge opening, 101-through groove, 102-hydraulic station support, 2-hydraulic station, 3-stack, 300-regulating plate, 4-control box, 5-shaping cylinder, 500-cylinder shield, 6-pressing cylinder, 7-first cylinder, 8-second cylinder, 9-foot cup, 10-discharge mechanism, 11-opening, 12-second foot cup, 13-hopper, 14-electric box, 15-harvard lower die, 16-first cylinder seat, 17-first feeding rail, 18-first feeding slide, 19-feeding base, 20-second cylinder seat, 21-stock seat, 22-second feeding rail, 23-second feeding slide, 24-feeding plate, 25-regulating block, 26-a rack fixing bottom plate, 27-a rack fixing rod, 28-a rack fixing plate, 29-a single oil cylinder seat, 30-a first shaping line rail, 31-a first shaping slide block, 32-a shaping core rod fixing member, 33-a shaping core rod, 34-a double oil cylinder seat, 35-a second shaping line rail, 36-a second shaping slide block, 37-a stripper plate seat, 38-a top column, 39-a top plate, 40-a pressing connecting block, 41-a HOVER upper mold, 42-a linear bearing, 43-a polished rod, 44-a lifting bottom plate, 45-a discharging air cylinder seat, 46-a discharging air cylinder, 47-a height adjusting air cylinder, 48-a slide block fixing plate, 49-a material taking air cylinder seat, 50-a material taking air cylinder, 51-an adjusting fixing plate, 52-a material taking core rod fixing plate, 53-a first linear rail, 54-a first slide block, 55-a second linear rail, 56-a second slide block, 57-a material taking core rod and 58-a stripper plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the examples of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-10, the present invention provides a technical solution: double-station elbow shaping machine, which comprises a frame 1, hydraulic pressure station 2, work or material rest 3, control box 4, first foot cup 9, opening 11, second foot cup 12, electronic box 14, two sets of feeding mechanism, swager constructs, plastic mechanism and shedding mechanism 10, discharge gate 100 has been seted up to 1 top one side of frame, logical groove 101 has been seted up to 1 side of frame, 1 side top fixedly connected with hydraulic pressure station support piece 102 of frame, hydraulic pressure station 2 is fixed on hydraulic pressure station support piece 102, be fixed with hopper 13 between discharge gate 100 and the logical groove 101, 1 top center fixedly connected with of frame haversian lower mould 15, 1 top edge symmetry fixedly connected with two sets of first cylinder bases 16 of frame.

Wherein the feeding mechanism comprises a first cylinder 7, a second cylinder 8, a first feeding line rail 17, two groups of first feeding sliding blocks 18, a feeding base 19, a second cylinder seat 20, a material supporting seat 21, a second feeding line rail 22, a second feeding sliding block 23, a feeding plate 24, an adjusting stop 25, two groups of material frame fixing bottom plates 26, two groups of material frame fixing rods 27 and a material frame fixing plate 28, the first cylinder 7 is fixedly connected on the first cylinder seat 16, the first feeding line rail 17 is arranged beside the first cylinder seat 16, the first feeding sliding block 18 is slidably connected at the top end of the first feeding line rail 17, the feeding base 19 is fixed above the first feeding sliding block 18, the second cylinder seat 20 is fixed at the end part of the feeding base 19 close to the first cylinder seat 16, the second cylinder 8 is fixedly connected on the second cylinder seat 20, the material supporting seat 21 is fixed at the other end of the top of the feeding base 19, the second feeding line rail 22 is fixed on the feeding base 19, the second feeding slide block 23 is connected to the top end of a second feeding line rail 22 in a sliding mode, the feeding plate 24 is arranged at the top end of the second feeding slide block 23, the end portion of the first air cylinder 7 is fixedly connected with the end portion of the feeding base 19, the end portion of the second air cylinder 8 is fixedly connected with the end portion of the feeding plate 24, the rack fixing base plate 26 is symmetrically arranged at the top end of the rack 1 by taking the first feeding line rail 17 as a symmetry axis, the rack fixing rods 27 are fixed on the rack fixing base plate 26, the rack fixing plate 28 is arranged between the two groups of rack fixing rods 27, the rack 3 is arranged between the rack fixing plate 28 and the rack fixing rods 27; the shaping mechanism comprises four groups of shaping oil cylinders 5, two groups of single oil cylinder seats 29, two groups of first shaping linear rails 30, first shaping sliding blocks 31, shaping core rod fixing parts 32, shaping core rods 33, double oil cylinder seats 34, second shaping linear rails 35 and second shaping sliding blocks 36, wherein the two groups of single oil cylinder seats 29 are symmetrically arranged at two sides of the top end of the frame 1 by taking the Harvard lower die 15 as a symmetrical center, the double oil cylinder seats 34 and the two groups of single oil cylinder seats 29 are arranged in a T shape, the four groups of shaping oil cylinders 5 are respectively fixed on the single oil cylinder seats 29 and the double oil cylinder seats 34, the two groups of first shaping linear rails 30 are symmetrically arranged between the Harvard lower die 15 and the single oil cylinder seats 29 by taking the Harvard lower die 15 as a symmetrical center, the first shaping sliding blocks 31 are connected at the top ends of the first shaping linear rails 30, the second shaping linear rails 35 are arranged between the Harvard lower die 15 and the double oil cylinder seats 34, the second shaping sliding blocks 36 are connected on the second shaping, the top ends of the first shaping sliding block 31 and the second shaping sliding block 32 are fixedly connected with a shaping mandrel fixing piece 32, a shaping mandrel 33 is fixed on the shaping mandrel fixing piece 32, and an oil cylinder protective cover 500 is arranged on the outer side of the shaping oil cylinder 5; the material pressing mechanism comprises four groups of top columns 38, a top plate 39, a lower pressing oil cylinder 6, a pressing connecting block 40 and a half upper die 41, the top columns 38 are symmetrically arranged on a vertical line where the center of the half lower die 15 is located, the top plate 39 is fixed at the top end of the top columns 38, the lower pressing oil cylinder 6 is fixed at the center of the top end of the top plate 39, the end part of a piston rod in the lower pressing oil cylinder 6 movably penetrates through the top plate 39, the pressing connecting block 40 is fixed at the end part of the piston rod in the lower pressing oil cylinder 6, and the half; the discharging mechanism 10 comprises two groups of stripper plate bases 37, four groups of linear bearings 42, four groups of polished rods 43, a lifting bottom plate 44, a discharging cylinder base 45, a discharging cylinder 46, a height adjusting cylinder 47, a slide block fixing plate 48, a material taking cylinder base 49, two groups of material taking cylinders 50, two groups of adjusting fixing plates 51, two groups of material taking mandrel fixing plates 52, two groups of first linear rails 53, two groups of first slide blocks 54, a second linear rail 55, two groups of second slide blocks 56, two groups of material taking mandrels 57 and two groups of stripper plates 58, wherein the two groups of stripper plate bases 37 are symmetrically arranged at two sides of a discharging port 100, the stripper plates 58 are arranged at the top ends of the stripper plate bases 37, the linear bearings 42 are arranged at the top ends of a top plate 39, the polished rods 43 are connected with the top plate 39 through the linear bearings 42, the lifting bottom plate 44 is arranged at the bottom ends of the polished rods 43, the discharging cylinder base, the height adjusting cylinder 47 is arranged at the center of the top end of the ascending bottom plate 43, the center of the side face of the slide block fixing plate 48 is connected with the end part of a piston rod in the discharging cylinder 46, the material taking cylinder seat 49 is arranged at the center of the bottom edge of the slide block fixing plate 48, the material taking cylinders 50 are symmetrically arranged at two sides of the material taking cylinder seat 49, the adjusting fixing plate 51 is fixedly connected with the end part of the material taking cylinder 50, the material taking mandrel 52 is arranged below the adjusting fixing plate 51, the first slide blocks 54 are symmetrically arranged at the top end of the slide block fixing plate 48, the first linear rails 53 are symmetrically arranged at the bottom end of the ascending bottom plate 44, the first slide blocks 54 are in sliding connection with the first linear rails 53, the second linear rails 55 are arranged at the bottom end of the slide; the interior of the control box 4 controls the feeding mechanism, the pressing mechanism, the shaping mechanism and the discharging mechanism 10 to operate and work through a PLC programming program.

One specific application of this embodiment is: placing a pipe to be shaped on a material supporting seat 21 through the matching of an adjusting stop block 25 and an adjusting plate 300, controlling the operation of internal elements of a device through a control box 4, firstly, enabling a first air cylinder 7 to operate, utilizing the matching of a first feeding line rail 17 and a first feeding slide block 18, then, controlling a second air cylinder 8 to operate, utilizing the matching of a second feeding line rail 22 and a second feeding slide block 23, moving a feeding plate 24 and a material supporting plate 21 to a lower half die 15, conveying the pipe to the lower half die 15, then, controlling a pressing oil cylinder 6 to operate, driving the pressing oil cylinder 6 to drive a pressing connecting block 40 to move downwards, enabling an upper half die 41 to move downwards, pressing and fixing the pipe through the matching of an upper half die 41 and a lower half die 15, controlling the first air cylinder 7 and the second air cylinder 8 to reset, finally, controlling a shaping oil cylinder 5 to operate, and enabling the shaping oil cylinder 5 to operate through a first shaping line rail 30, The first shaping slide block 31, the second shaping line rail 35 and the second shaping slide block 36 are matched to move the shaping mandrel 33 to the position of the pipe, the pipe orifice shaping work is carried out, after the processing is finished, the shaping oil cylinder 5 and the lower pressing oil cylinder 6 are reset, the height of the lifting bottom plate 44 is adjusted by the height adjusting air cylinder 47, so that the material taking mandrel 57 and the pipe orifice of the pipe are positioned on the same horizontal plane, the material taking mandrel 57 is moved to the end part of the pipe by the matching of the first line rail 53 and the first slide block 54 through the discharging air cylinder 46, the material taking mandrel fixing plate 52 is contracted through the material taking air cylinder 50, the material taking mandrel 57 enters the pipe orifice of the pipe, the lifting bottom plate 44 is lifted through the height adjusting air cylinder 47 again, the pipe is separated from the half lower die 15, the material is reset through the discharging air cylinder 46, the pipe is moved to the upper part of the discharging, the tubular product falls into hopper 13, realizes automatic receipts material.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. Duplex position return bend trimmer includes frame (1), hydraulic pressure station (2), work or material rest (3), control box (4), first foot cup (9), opening (11), second foot cup (12), electronic box (14), two sets of feeding mechanism, swager constructs, plastic mechanism and shedding mechanism (10), its characterized in that: discharge gate (100) have been seted up to frame (1) top one side, logical groove (101) have been seted up to frame (1) side, frame (1) side top fixedly connected with hydraulic pressure station support piece (102), hydraulic pressure station (2) are fixed on hydraulic pressure station support piece (102), be fixed with hopper (13) between discharge gate (100) and logical groove (101), frame (1) top center fixedly connected with haversian lower mould (15), two sets of first cylinder bases (16) of frame (1) top edge symmetry fixedly connected with.

2. The double-station pipe bender according to claim 1, characterized in that: the feeding mechanism comprises a first air cylinder (7), a second air cylinder (8), a first feeding line rail (17), two groups of first feeding sliding blocks (18), a feeding base (19), a second air cylinder seat (20), a material supporting seat (21), a second feeding line rail (22), a second feeding sliding block (23), a feeding plate (24), an adjusting stop block (25), two groups of material rack fixing bottom plates (26), two groups of material rack fixing rods (27) and a material rack fixing plate (28), wherein the first air cylinder (7) is fixedly connected to the first air cylinder seat (16), the first feeding line rail (17) is arranged beside the first air cylinder seat (16), the first feeding sliding block (18) is slidably connected to the top end of the first feeding line rail (17), the feeding base (19) is fixed above the first feeding sliding block (18), and the second feeding line seat (20) is fixed at the end part, close to the first air cylinder seat (16), of the air cylinder feeding base (19), the second cylinder (8) is fixedly connected to a second cylinder seat (20), the material supporting seat (21) is fixed to the other end of the top of the feeding base (19), the second feeding line rail (22) is fixed to the feeding base (19), the second feeding sliding block (23) is slidably connected to the top end of the second feeding line rail (22), the feeding plate (24) is arranged at the top end of the second feeding sliding block (23), the end portion of the first cylinder (7) is fixedly connected with the end portion of the feeding base (19), the end portion of the second cylinder (8) is fixedly connected with the end portion of the feeding plate (24), the material rack fixing bottom plates (26) are symmetrically arranged at the top end of the rack (1) by taking the first feeding line rail (17) as a symmetry axis, the material racks (27) are fixed to the material rack fixing bottom plates (26), and the material rack fixing plates (28) are arranged between two groups of material rack fixing rods (27), the material rack (3) is arranged between the material rack fixing plate (28) and the material rack fixing rod (27), and an adjusting plate (300) is arranged at the end part of the material rack (3).

3. The double-station pipe bender according to claim 1, characterized in that: the shaping mechanism comprises four groups of shaping oil cylinders (5), two groups of single oil cylinder seats (29), two groups of first shaping linear rails (30), a first shaping sliding block (31), a shaping core rod fixing part (32), a shaping core rod (33), two groups of oil cylinder seats (34), a second shaping linear rail (35) and a second shaping sliding block (36), wherein the two groups of single oil cylinder seats (29) are symmetrically arranged on two sides of the top end of the frame (1) by taking a Harvard lower die (15) as a symmetrical center, the two groups of oil cylinder seats (34) and the two groups of single oil cylinder seats (29) are arranged in a T shape, the four groups of shaping oil cylinders (5) are respectively fixed on the single oil cylinder seats (29) and the two groups of oil cylinder seats (34), the two groups of first shaping linear rails (30) are symmetrically arranged between the Harvard lower die (15) and the single oil cylinder seats (29) by taking the Harvard lower die (15) as a symmetrical center, and the first shaping sliding block (31) is connected to the top end of the first shaping linear rail, second plastic line rail (35) set up between haver lower mould (15) and two hydro-cylinder seats (34), second plastic slider (36) sliding connection be in on second plastic line rail (35), first plastic slider (31) and second plastic slider (32) top fixedly connected with plastic plug mounting (32), plastic plug (33) are fixed on plastic plug mounting (32), the plastic hydro-cylinder (5) outside is provided with hydro-cylinder guard shield (500).

4. The double-station pipe bender according to claim 1, characterized in that: the material pressing mechanism comprises four groups of top columns (38), a top plate (39), a pressing oil cylinder (6), a pressing connecting block (40) and a half upper die (41), wherein the top columns (38) are symmetrically arranged on the vertical line of the center of a half lower die (15), the top plate (39) is fixed to the top ends of the top columns (38), the pressing oil cylinder (6) is fixed to the center of the top end of the top plate (39) and the end part of a piston rod inside the pressing oil cylinder (6) movably penetrates through the top plate (39), the pressing connecting block (40) is fixed to the end part of the piston rod inside the pressing oil cylinder (6), and the half upper die (41) is fixed to the bottom end of the pressing connecting block (40).

5. The double-station pipe bender according to claim 4, characterized in that: the discharging mechanism (10) comprises two groups of stripper plate seats (37), four groups of linear bearings (42), four groups of polished rods (43), a lifting bottom plate (44), a discharging cylinder seat (45), a discharging cylinder (46), a height adjusting cylinder (47), a slider fixing plate (48), a material taking cylinder seat (49), two groups of material taking cylinders (50), two groups of adjusting fixing plates (51), two groups of material taking mandrel fixing plates (52), two groups of first linear rails (53), two groups of first sliders (54), a second linear rail (55), two groups of second sliders (56), two groups of material taking mandrels (57) and two groups of stripper plates (58), wherein the two groups of stripper plate seats (37) are symmetrically arranged at two sides of a discharging port (100), the stripper plates (58) are arranged at the top end of the stripper plate seats (37), the linear bearings (42) are arranged at the top end of a top plate (39), and the polished rods (43) are connected with the top plate (39) through the linear bearings (42), the ascending bottom plate (44) is arranged at the bottom end of the polish rod (43), the discharging cylinder seat (45) is arranged at the end part of the ascending bottom plate (43), the discharging cylinder (46) is arranged on the discharging cylinder seat (45), the height adjusting cylinder (47) is arranged at the center of the top end of the ascending bottom plate (43), the center of the side surface of the slider fixing plate (48) is connected with the end part of the piston rod in the discharging cylinder (46), the material taking cylinder seat (49) is arranged at the center of the bottom edge of the slider fixing plate (48), the material taking cylinders (50) are symmetrically arranged at two sides of the material taking cylinder seat (49), the adjusting fixing plate (51) is fixedly connected with the end part of the material taking cylinder (50), the material taking core rod (52) is arranged below the adjusting fixing plate (51), and the first sliders (54) are symmetrically arranged at the top end of the slider fixing plate (48), the first linear rails (53) are symmetrically arranged at the bottom end of the ascending bottom plate (44), the first sliding block (54) is in sliding connection with the first linear rails (53), the second linear rails (55) are arranged at the bottom end of the sliding block fixing plate (48), the second sliding block (56) is in sliding connection with the second linear rails (55), and the material taking core rod (57) is fixed on the material taking core rod fixing plate (52).

6. The double-station pipe bender according to claim 1, characterized in that: the interior of the control box (4) controls the feeding mechanism, the pressing mechanism, the shaping mechanism and the discharging mechanism (10) to operate through a PLC programming program.