CN105268818A - T-branch pipe locking type rigid-plasticity combined type bulging equipment - Google Patents

Abstract

The invention discloses T-branch pipe locking type rigid-plasticity combined type bulging equipment. The T-branch pipe locking type rigid-plasticity combined type bulging equipment comprises an upper half die and a lower half die. A forming cavity is arranged between the upper half die and the lower half die, and the two ends of the forming cavity are provided with bulging squeezing punches respectively. The lower half die is provided with an axis branch pipe forming cavity and a balance punch is installed in the branch pipe forming cavity. A rigid bulging inner die is arranged between the two bulging squeezing punches and comprises push rods located at the two ends respectively, and a forming inner die block which is matched with the branch pipe forming cavity and used for driving a pipe blank to bulge and deform is arranged between the two push rods; the forming inner die block is connected with the two push rods through double-hinge connecting rods; the opposite ends of the two push rods are provided with connecting grooves opened towards the branch pipe forming cavity; a limiting structure is arranged in each connecting groove; the push rods are installed in the corresponding bulging squeezing punches respectively in a sliding matching mode, and one of the push rods is provided with a locking type rapid detaching and connecting structure. Thrust devices are arranged at the two ends of the forming cavity and comprise compound hydraulic cylinders.

Description

Three-way pipe bayonet type firm plastic composite bulging equipment

Technical field

The invention belongs to tubing without Machining Technology for Cutting field, be specifically related to a kind of three-way pipe bayonet type firm plastic composite bulging equipment.

Background technology

The kind of tube bulge is a lot, is mainly divided into rigidity bulging and soft mode bulging two class.Rigidity punch bulging is only applicable to the bulging processing of form and dimensional precision less demanding axial symmetry bulging part.When utilizing liquid, gas or elastomer to carry out bulging as transmission medium, be commonly referred to as soft mode bulging.Liquid usable oils, emulsion or water, elastomer adopts polyurethane rubber or natural rubber usually.Paraffin is easy in solid or liquid unique features owing to having, and recyclable recycling, also it can be used as bulging transmission medium, and achieve good technique effect aborning.Therefore, according to the difference of transmission medium, soft mode bulging can be divided into again hydraulic expanding-forming, barometric pressure load, rubber bulging and paraffin bulging etc.Soft mode bulging is compared with rigid mould bulging, is particularly suitable for various complex-shaped pipe fitting processing, has obvious technical economic benefit.

In three-way pipe bulging process, internal surface of bloom need act on very large bulging pressure.According to the production method of bulging pressure and the number of bulging drift and the difference of structure, the method for three-way pipe Plastic Forming can be divided into three kinds accordingly: liquid medium Extrusion bulging, plastic medium compound punch Extrusion bulging and plastic medium separate punches Extrusion bulging three kinds.

As shown in Figure 1, be the structural representation of existing a kind of three-way pipe liquid medium Extrusion bulging mould.This three-way pipe liquid medium Extrusion bulging mould is made up of two-half die, pipe is placed in one, inner liquid provides interior pressure by special pressure charging system, the motion of size and left and right two drifts of its force value has nothing to do, extruding force is provided by left and right drift, balance drift provides the equilibrant force of a tube end, by the coordinative role of these three power, can make pipe expansion forming under super-pressure hydrostatic pressure.The method due to bulging pressure field distribution the most uniform and stable, product quality formed thereby is best, but required bulging pressure is larger, need hundreds if not thousands of MPas, and Normal hydraulic pump can only produce the pressure of about 30MPa, therefore need pressure charging system be configured, also very high to the requirement of control technology, equipment is costly.In addition, liquid medium Extrusion bulging is shaped and can not be applied to as medium carbon steel, large scale heavy section casting etc. need heating to improve plasticity, to reduce the bulging processing of drag.

As shown in Figure 2, be the structural representation of existing a kind of plastic medium compound punch Extrusion bulging mould.The drift of this expanding die is a terraced structure, can exert pressure respectively to medium and tube wall two ends.During Extrusion bulging, first punch head enters in pipe and exerts pressure to plastic medium, makes the corresponding tube wall protuberance of arm die cavity produce bulging, when drift step contacts with pipe, produce extruding force, pipe produces plastic deformation under the acting in conjunction of interior pressure and extruding force, and arm is constantly increased.

This expansion forming method, except having that punch structure is simple, except equipment needed thereby and the advantage such as device is less, operation is convenient, also has the advantage that wall ratio is more uniform and stable, amplitude of variation is little of product.Because the size relationship extruding drift, die, pipe and bulging medium decides the initial pressure of bulging, therefore in forming process, the adjustment of bulging pressure is comparatively difficult, can only carry out within the specific limits, is mainly realized by the structure of extruding drift of asking permission to absent oneself briefly.Therefore, comparatively strict to the requirement of the aspects such as the size of pipe, material and mould, there is significant limitation in using.

As shown in Figure 3, be the structural representation of existing a kind of plastic medium separate punches Extrusion bulging mould.The interior pressure of this expanding die is produced by bulging drift Extrusion bulging medium, and its numerical value has nothing to do with extruding drift and determined by the motion of bulging drift.The mechanism of production of bulging pressure is shaped similar to plastic medium compound punch Extrusion bulging, and the difference of the two is mainly whether extruding drift and bulging drift are integrated.In plastic medium separate punches extrusion forming method, extruding drift and bulging drift are driven by composite oil cylinder, realize being separated.

Compared with being shaped with plastic medium compound punch Extrusion bulging, the structure of the bulging drift of plastic medium separate punches Extrusion bulging mould and motion are comparatively complicated, and need increase a set of driving bulging and rush cephalomotor mechanism.

Compared with liquid medium Extrusion bulging mode, although the motion of plastic medium separate punches Extrusion bulging drift is comparatively complicated, but avoid expensive hydraulic pressure boosting system, therefore there is equipment investment less, and the advantage that productivity ratio is high, forming effect is good, but it also exists that the service life of drift is lower, mould structure is more complicated and can not be applied to the too little occasion of tube blank size.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of three-way pipe bayonet type firm plastic composite bulging equipment, the expansion forming requirement of three-way pipe can not only be met, and simultaneously in conjunction with rigidity bulging and hydraulic expanding-forming, the overall process of three-way pipe bulging distortion can be controlled preferably.

For achieving the above object, the invention provides following technical scheme:

A kind of three-way pipe bayonet type firm plastic composite bulging equipment, comprise upper mold section and female die, cylindrical shaping die cavity is provided with between described upper mold section and female die, the two ends of described shaping die cavity are separately installed with the bulging extruding drift be slidably matched with it, described female die is provided with the arm forming cavity of the intersect vertical axis of axis and described shaping die cavity, in described arm forming cavity, balance drift is installed, rigidity bulging internal mold is provided with between two described bulging extruding drifts, described rigidity bulging internal mold comprises the push rod laying respectively at two ends, be provided with between two described push rods and coordinate with described arm forming cavity and shaping inner module for driving pipe bulging to be out of shape, be connected by two hinge bar between described shaping inner module with two described push rods, two described push rod one end are in opposite directions provided with the link slot towards arm forming cavity opening, are provided with the position limiting structure of the dead in line for preventing two described pair of hinge bars in described link slot, the axis of described push rod and the axis being parallel of described shaping die cavity are also slidably installed respectively and extrude in drift at corresponding described bulging, and wherein a push rod is provided with bayonet type quick-detachment syndeton, the two ends of described shaping die cavity are respectively equipped with the thrust device for driving described bulging extruding drift to slide in described shaping die cavity and for driving described push rod to slide in described bulging extruding drift,

Described thrust device comprises composite hydraulic cylinder, described composite hydraulic cylinder comprises outer cylinder body, the center of described outer cylinder body is provided with the inner cylinder body coaxial with it, be provided with in described inner cylinder body and be slidably matched and the inner piston rod be connected with corresponding described push rod with it, be provided with in described outer cylinder body and be slidably matched with it and extrude with corresponding described bulging the outer piston bar that drift is fixedly connected with, described outer piston bar is slidably matched and is sleeved on described inner cylinder body;

The described push rod split being provided with described bayonet type quick-detachment syndeton is set near the push rod medial segment of described rigidity bulging internal mold and the push rod segmentum laterale away from described rigidity bulging internal mold, described push rod segmentum laterale is provided with centre bore towards the end face of described push rod medial segment, be slidably matched with it in described centre bore and be provided with pusher, described pusher is hingedly provided with mechanical snap towards one end annular of described rigidity bulging internal mold is uniform, the end face of described push rod segmentum laterale is provided with described mechanical snap one_to_one corresponding groove of stepping down, rotating shaft is provided with in described groove of stepping down, the rotating middle part engagement sleeves of described mechanical snap is contained in described rotating shaft, described push rod medial segment is provided with draw-in groove towards the end periphery wall of described push rod segmentum laterale, described mechanical snap is provided with the grab coordinated with described draw-in groove, in described pusher, cover is equiped with and is positioned at described centre bore and for described its is released the spring of described centre bore, and described push rod medial segment is provided with towards the end face of described push rod segmentum laterale and coordinates with described centre bore and for described pusher being pushed to the projection in described centre bore.

Further, described push rod and described bulging extrude between drift and are provided with high pressure seal structure.

Further, hermetically-sealed construction is provided with between described bulging extruding drift and described shaping die cavity.

Further, the bottom land of described link slot is in the inclined ramp of dead in line preventing two described pair of hinge bars, or described position limiting structure comprises and to be arranged in described link slot and for preventing the limited block of the dead in line of two described pair of hinge bars.

Beneficial effect of the present invention is:

Three-way pipe bayonet type of the present invention firm plastic composite bulging equipment, by arranging rigidity bulging internal mold between two bulging extruding drifts, during use, pipe is placed in shaping die cavity, rigidity bulging internal mold correspondence is arranged in pipe, the two ends of pipe utilize bulging to extrude drift press seal respectively, and fill liquid medium in pipe; During bulging, utilize thrust device to drive bulging extruding drift to apply axial extruding force to pipe, and utilize thrust device to drive the push rod synchronous relative motion at two ends, because push rod occupies pipe inner space, and then cause the pressure increase of liquid medium, liquid bulging pressure is applied to pipe; In addition, the motion of push rod also can drive shaping inner module to the motion of arm forming cavity, and shaping inner module applies rigidity bulging power to the bulging deformed region of pipe, under the acting in conjunction of rigidity bulging power and liquid bulging pressure, drive the distortion of pipe bulging, and then be configured as three-way pipe; Link slot is set by the end at push rod, and position limiting structure is set in link slot, the dead in line of two two hinge bars can be prevented, avoid occurring dead point, namely can guarantee that push rod pushes shaping inner module to arm forming cavity; Owing to have employed rigidity bulging internal mold, rigidity bulging power is applied to pipe, suitably can reduce the size of liquid medium to the liquid bulging pressure that pipe applies, namely the thrust size that thrust device applies push rod can be reduced, the movement rate of shaping inner module and stroke all can by the motion controls of push rod, thus, three-way pipe bayonet type of the present invention firm plastic composite bulging equipment can control the overall process of three-way pipe bulging distortion preferably; And under the effect of liquid bulging pressure, pipe is in expansion forming process, and its inwall all can be subject to the effect of liquid bulging pressure, can fit with the inwall of shaping die cavity and arm forming cavity after pipe distortion, forming quality is better.

In addition, by arranging bayonet type quick-detachment syndeton, during use, thrust device is utilized to promote push rod segmentum laterale near push rod medial segment, the protruding pusher that drives is moved to centre bore, and driving device buckle rotates, and makes grab be stuck in draw-in groove, so, push rod segmentum laterale and push rod medial segment can be made automatically to connect as one, after three-way pipe bulging completes, thrust device driving push rod segmentum laterale dorsad rigidity bulging internal mold moves, contact force between push rod segmentum laterale and push rod medial segment reduces, under the action of the spring, drive pusher outwards movement, driving device buckle rotates, grab departs from draw-in groove, make push rod segmentum laterale and push rod medial segment quick separating, so, easily the three-way pipe of shaping can be exited from push rod medial segment, and new pipe is enclosed within rigidity bulging internal mold from push rod medial segment, realize the quick connection between push rod segmentum laterale and push rod medial segment and quick-detachment object.

Accompanying drawing explanation

In order to make object of the present invention, technical scheme and beneficial effect clearly, the invention provides following accompanying drawing and being described:

Fig. 1 is the structural representation of existing a kind of three-way pipe liquid medium Extrusion bulging mould;

Fig. 2 is the structural representation of existing a kind of plastic medium compound punch Extrusion bulging mould;

Fig. 3 is the structural representation of existing a kind of plastic medium separate punches Extrusion bulging mould;

Fig. 4 is the structural representation of three-way pipe bayonet type of the present invention firm plastic composite bulging apparatus embodiments;

Fig. 5 is the A detail drawing of Fig. 4;

Fig. 6 is the B detail drawing of Fig. 4.

Description of reference numerals:

1-upper mold section; 2-female die; 3-shaping die cavity; 4-bulging extruding drift; 5-arm forming cavity; 6-balances drift; 7-pipe; 8-push rod; 9-shaping inner module; The two hinge bar of 10-; 11-push rod medial segment; 12-push rod segmentum laterale; 14-outer cylinder body; 15-inner cylinder body; 16-inner piston rod; 17-outer piston bar; 18-centre bore; 19-pusher; 20-mechanical snap; 21-steps down groove; 22-rotating shaft; 23-grab; 24-spring; 25-is protruding; 26-link slot; 27-inclined ramp.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described, can better understand the present invention and can be implemented, but illustrated embodiment is not as a limitation of the invention to make those skilled in the art.

As shown in Figure 4, be the structural representation of three-way pipe bayonet type of the present invention firm plastic composite bulging apparatus embodiments.The three-way pipe bayonet type firm plastic composite bulging equipment of the present embodiment, comprise upper mold section 1 and female die 2, cylindrical shaping die cavity 3 is provided with between upper mold section 1 and female die 2, the two ends of shaping die cavity 3 are separately installed with the bulging extruding drift 4 be slidably matched with it, female die 1 is provided with the arm forming cavity 5 of the intersect vertical axis of axis and shaping die cavity 3, the inwall of arm forming cavity 5 is cylindrical, balance drift 6 is installed in arm forming cavity 5, rigidity bulging internal mold is provided with between two bulging extruding drifts 4, rigidity bulging internal mold comprises the push rod 8 laying respectively at two ends, be provided with between two push rods 8 and coordinate with arm forming cavity 5 and shaping inner module 9 for driving pipe 7 bulging to be out of shape, by two hinge bar 10 between shaping inner module 9 and two push rods 8, namely be connected by two hinge bar 10 between push rod 8 with shaping inner module 9, two push rod 8 one end are in opposite directions provided with the link slot 26 towards arm forming cavity 5 opening, the position limiting structure of the dead in line for preventing two two hinge bars 10 is provided with in link slot 26.The bottom land of the link slot 26 of the present embodiment in the inclined ramp 27 of dead in line preventing two two hinge bars 10, as shown in Figure 6.Certainly, position limiting structure also can adopt other versions, as position limiting structure comprise be arranged on as described in link slot 26 and for preventing the limited block of the dead in line of two two hinge bars 10, its principle is suitable, is not repeated.

The axis of push rod 8 and the axis being parallel of shaping die cavity 3 are also slidably installed respectively and extrude in drift 4 at corresponding bulging, namely two push rods 8 are slidably installed respectively in two bulging extruding drifts 4, and wherein a push rod 8 is provided with bayonet type quick-detachment syndeton.Push rod 8 split that the present embodiment is provided with bayonet type quick-detachment syndeton is set near the push rod medial segment 11 of rigidity bulging internal mold and the push rod segmentum laterale 12 away from rigidity bulging internal mold, push rod segmentum laterale 12 is provided with centre bore 18 towards the end face of push rod medial segment 11, be slidably matched with it in centre bore 18 and be provided with pusher 19, pusher 19 is hingedly provided with mechanical snap 20 towards one end annular of rigidity bulging internal mold is uniform, the end face of push rod segmentum laterale 12 is provided with mechanical snap 20 one_to_one corresponding groove 21 of stepping down, step down in groove 21 and be provided with rotating shaft 22, the rotating middle part engagement sleeves of mechanical snap 20 is contained in rotating shaft 22, push rod medial segment 11 is provided with draw-in groove towards the end periphery wall of push rod segmentum laterale 12, mechanical snap 20 is provided with the grab 23 coordinated with draw-in groove.In pusher 19, cover is equiped with and is positioned at centre bore 18 and spring 24 for being released centre bore 18, and push rod medial segment 11 is provided with towards the end face of push rod segmentum laterale 12 and coordinates with centre bore 18 and for pusher 19 being pushed to the projection 25 in centre bore 18.

The two ends of shaping die cavity 3 are respectively equipped with the thrust device for driving bulging extruding drift 4 to slide in shaping die cavity 3 and for driving push rod 8 to slide in bulging extruding drift 4.The thrust device of the present embodiment comprises composite hydraulic cylinder, this composite hydraulic cylinder comprises outer cylinder body 14, the center of outer cylinder body 14 is provided with the inner cylinder body 15 coaxial with it, be provided with in inner cylinder body 15 and be slidably matched and the inner piston rod 16 be connected with corresponding push rod 8 with it, be provided with in outer cylinder body 14 and be slidably matched with it and extrude with corresponding bulging the outer piston bar 17 that drift 4 is fixedly connected with, outer piston bar 17 is slidably matched and is sleeved on inner cylinder body 15.So, the two ends that outer piston bar 17 just can be utilized to drive bulging to extrude drift 4 pairs of pipes 7 apply extruding force effect respectively, inner piston rod 16 is utilized to drive push rod to slide in bulging extruding drift 4, and then making the liquid medium being full of pipe 7 inside apply liquid bulging pressure to pipe 7 and drive shaping inner module 9 to move to arm forming cavity 5, the bulging deformed region to pipe 7 applies rigidity bulging power.Certainly, the Driven by Hydraulic Cylinder bulging of other versions also can be adopted to extrude drift 4 for thrust device and push rod 8 moves, move as adopted a center Driven by Hydraulic Cylinder push rod 8, move at the uniform multiple outer Driven by Hydraulic Cylinder bulging extruding drift 4 of central liquid cylinder pressure outer ring again, its principle is suitable, is not repeated.Preferably, the push rod 8 of the present embodiment and bulging extrude between drift 4 and are provided with high pressure seal structure, certainly, be also provided with hermetically-sealed construction, can prevent liquid medium from leaking between bulging extruding drift 4 and the inwall of shaping die cavity 3.In addition, after outer piston bar 17 bounces back, bayonet type quick-detachment syndeton can be outside exposed, is convenient to install pipe 7 and the three-way pipe after taking off shaping.

The three-way pipe bayonet type firm plastic composite bulging equipment of the present embodiment, by arranging rigidity bulging internal mold between two bulging extruding drifts 4, during use, pipe 7 is placed in shaping die cavity 3, rigidity bulging internal mold correspondence is arranged in pipe 7, the two ends of pipe 7 utilize bulging to extrude drift 4 press seal respectively, and fill liquid medium in pipe 7; During bulging, composite hydraulic cylinder is utilized to drive bulging extruding drift 4 pairs of pipes 7 to apply axial extruding force, and utilize composite hydraulic cylinder to drive push rod 8 synchronous relative motion at two ends, because push rod 8 occupies pipe 7 inner space, and then cause the pressure increase of liquid medium, liquid bulging pressure is applied to pipe 7; In addition, the motion of push rod 8 also can drive shaping inner module 9 to move to arm forming cavity 5, and shaping inner module 9 applies rigidity bulging power to the bulging deformed region of pipe 7, under the acting in conjunction of rigidity bulging power and liquid bulging pressure, drive the distortion of pipe 7 bulging, and then be configured as three-way pipe.By arranging link slot 18 in the end of push rod 8, and position limiting structure being set in link slot 18, the dead in line of two two hinge bars 10 can being prevented, avoid occurring dead point, namely can guarantee that push rod 8 pushes shaping inner module 9 to arm forming cavity 5.Owing to have employed rigidity bulging internal mold, rigidity bulging power is applied to pipe, suitably can reduce the size of liquid medium to the liquid bulging pressure that pipe 7 applies, namely the thrust size that thrust device applies push rod can be reduced, the movement rate of shaping inner module 9 and stroke all can by the motion controls of push rod 8, thus, the present embodiment three-way pipe bayonet type firm plastic composite bulging equipment can control the overall process of three-way pipe bulging distortion preferably; And under the effect of liquid bulging pressure, pipe 7 is in expansion forming process, and its inwall all can be subject to the effect of liquid bulging pressure, pipe 7 can be fitted with the inwall of shaping die cavity 3 and arm forming cavity 5 after being out of shape, and forming quality is better.

In addition, by arranging bayonet type quick-detachment syndeton, during use, thrust device is utilized to promote push rod segmentum laterale 12 near push rod medial segment 11, protruding 25 drive pusher 19 to move to centre bore 18, and driving device buckle 20 rotates, and makes grab 23 be stuck in draw-in groove, so, push rod segmentum laterale 12 and push rod medial segment 11 can be made automatically to connect as one, after three-way pipe bulging completes, thrust device driving push rod segmentum laterale 12 dorsad rigidity bulging internal mold moves, contact force between push rod segmentum laterale 12 and push rod medial segment 11 reduces, under the effect of spring 24, drive pusher 19 outwards movement, driving device buckle 20 rotates, grab 23 departs from draw-in groove, make push rod segmentum laterale 12 and push rod medial segment 11 quick separating, so, easily the three-way pipe of shaping can be exited from push rod medial segment 11, and new pipe is enclosed within rigidity bulging internal mold from push rod medial segment 11, realize the quick connection between push rod segmentum laterale 12 and push rod medial segment 11 and quick-detachment object.

The above embodiment is only that protection scope of the present invention is not limited thereto in order to absolutely prove the preferred embodiment that the present invention lifts.The equivalent alternative or conversion that those skilled in the art do on basis of the present invention, all within protection scope of the present invention.Protection scope of the present invention is as the criterion with claims.

Claims (4)

1. a three-way pipe bayonet type firm plastic composite bulging equipment, comprise upper mold section and female die, cylindrical shaping die cavity is provided with between described upper mold section and female die, the two ends of described shaping die cavity are separately installed with the bulging extruding drift be slidably matched with it, described female die is provided with the arm forming cavity of the intersect vertical axis of axis and described shaping die cavity, in described arm forming cavity, balance drift is installed, it is characterized in that: between two described bulging extruding drifts, be provided with rigidity bulging internal mold, described rigidity bulging internal mold comprises the push rod laying respectively at two ends, be provided with between two described push rods and coordinate with described arm forming cavity and shaping inner module for driving pipe bulging to be out of shape, be connected by two hinge bar between described shaping inner module with two described push rods, two described push rod one end are in opposite directions provided with the link slot towards arm forming cavity opening, are provided with the position limiting structure of the dead in line for preventing two described pair of hinge bars in described link slot, the axis of described push rod and the axis being parallel of described shaping die cavity are also slidably installed respectively and extrude in drift at corresponding described bulging, and wherein a push rod is provided with bayonet type quick-detachment syndeton, the two ends of described shaping die cavity are respectively equipped with the thrust device for driving described bulging extruding drift to slide in described shaping die cavity and for driving described push rod to slide in described bulging extruding drift,

Described thrust device comprises composite hydraulic cylinder, described composite hydraulic cylinder comprises outer cylinder body, the center of described outer cylinder body is provided with the inner cylinder body coaxial with it, be provided with in described inner cylinder body and be slidably matched and the inner piston rod be connected with corresponding described push rod with it, be provided with in described outer cylinder body and be slidably matched with it and extrude with corresponding described bulging the outer piston bar that drift is fixedly connected with, described outer piston bar is slidably matched and is sleeved on described inner cylinder body;

The described push rod split being provided with described bayonet type quick-detachment syndeton is set near the push rod medial segment of described rigidity bulging internal mold and the push rod segmentum laterale away from described rigidity bulging internal mold, described push rod segmentum laterale is provided with centre bore towards the end face of described push rod medial segment, be slidably matched with it in described centre bore and be provided with pusher, described pusher is hingedly provided with mechanical snap towards one end annular of described rigidity bulging internal mold is uniform, the end face of described push rod segmentum laterale is provided with described mechanical snap one_to_one corresponding groove of stepping down, rotating shaft is provided with in described groove of stepping down, the rotating middle part engagement sleeves of described mechanical snap is contained in described rotating shaft, described push rod medial segment is provided with draw-in groove towards the end periphery wall of described push rod segmentum laterale, described mechanical snap is provided with the grab coordinated with described draw-in groove, in described pusher, cover is equiped with and is positioned at described centre bore and for described its is released the spring of described centre bore, and described push rod medial segment is provided with towards the end face of described push rod segmentum laterale and coordinates with described centre bore and for described pusher being pushed to the projection in described centre bore.

2. three-way pipe bayonet type according to claim 1 firm plastic composite bulging equipment, is characterized in that: described push rod and described bulging extrude between drift and be provided with high pressure seal structure.

3. three-way pipe bayonet type according to claim 2 firm plastic composite bulging equipment, is characterized in that: be provided with hermetically-sealed construction between described bulging extruding drift and described shaping die cavity.

4. the three-way pipe bayonet type firm plastic composite bulging equipment according to any one of claim 1-3, it is characterized in that: the bottom land of described link slot is in the inclined ramp of dead in line preventing two described pair of hinge bars, or described position limiting structure comprises and to be arranged in described link slot and for preventing the limited block of the dead in line of two described pair of hinge bars.