CN203974121U - A kind of multidirectional mould Compound Extrusion hydraulic press - Google Patents

Abstract

Multidirectional mould Compound Extrusion hydraulic press of the present utility model adopts a kind of novel combined bidirectional prestressing force framework for support and two " X " type compound direction framves of combined type.Combined bearing frame comprises horizontal entablature, horizontal sill and two vertical pillars beams.In horizontal entablature and horizontal sill, be provided with vertical operation cylinder.Every equicohesive vertical pillars beam comprises two beam of uniform strengths, between two beam of uniform strengths, by sleeve transverse splicing, in order to horizontal operation cylinder to be installed, and allows to bear the service load of horizontal direction.Combined type leading truck comprises two groups of guide waies, the guiding side of guide way has projection, the top bilateral symmetry of projection is provided with the first spigot surface, bottom bilateral symmetry is provided with the second spigot surface, and the extended line of the first spigot surface and the second spigot surface is all by the center of combined bearing frame.Adopt combined bidirectional prestressing force framework for support and two " X " type compound direction frame, make multidirectional mould Compound Extrusion hydraulic press of the present utility model there is safe and reliable bearing capacity and running precision, make the control number of axle of working cylinder reach 7 axles, thereby obtain production technology purposes more widely.

Description

A kind of multidirectional mould Compound Extrusion hydraulic press

Technical field

The utility model relates to a kind of multidirectional mould Compound Extrusion hydraulic press, relates in particular to a kind of multidirectional mould Compound Extrusion hydraulic press with two dimension prestressing framework for support.

Background technology

Framework for support is the most important components of hydraulic press body, so framework for support must have enough strength and stiffness, to meet performance requirement and the economy of different manufacturing process.But in hydraulic press technical field, the structural design of the framework for support of existing hydraulic press does not still have important breakthrough, shape is identical, function singleness, and performance is low, the range limited system of process application.For example: the vertical framework for support of traditional " three beam four posts " hydraulic press, can only bear the service load of vertical direction, depending on different application scenarios, for vertical forming technologies such as the forging of material, extruding, punching press, compactings; The horizontal framework for support of traditional " three beam four posts " hydraulic press, can only bear the service load of horizontal direction, is mainly used in the horizontal type extruding technique of material; The framework for support of traditional multi-ram forging hydraulic press, also just simply a Vertical Rack and a horizontal framework are bolted together, for multi-ram forging forming technology, but because two frames are independent separately, vertical and horizontal service load power is external force each other, power system can not be balanced in combined rack, easily causes that horizontal force is unbalance, member frequent breakage; Traditional whole stacked plate type and integral frame-type framework for support, although its vertical and horizontal service load power becomes internal force, the same with two frames that are bolted together, be subject to structural limitations, the horizontal operation load that it can bear is very little.Therefore the framework for support of above-mentioned hydraulic press, can not meet the disposable precise extrusion molding requirement of the complex product of multidirectional, special-shaped, cavity type, and the operation passage of needs is many, stock utilization is low, and machining amount is large, and metal streamline is cut off, cause stress to concentrate, production efficiency is low, and energy consumption is high.

The operation of conventional hydraulic machine moved cross beam all relies on the blade fin face that column provides to lead, and in the same plane of so-called " X " spigot surface in identical angle, and moved cross beam guiding length is similar to its stroke.Under service load, due to the transverse curvature distortion of column, the length that is easy to make originally lead deflects with regard to very short moved cross beam, and guiding accuracy can not be guaranteed.

The existing multi-ram forging hydraulic machine working cylinder number of axle is generally 3-5 axle, and its horizontal operation cylinder is single shaft, and ability is on the low side, and the product weight of shaping is little, can only carry out single horizontal parting and be shaped, and has limited the process application scope of multi-ram forging.

Therefore, need a kind of new multidirectional mould Compound Extrusion hydraulic press to address the above problem.

Utility model content

Utility model object: the utility model is the defect for multi-ram forging hydraulic machine working cylinder in prior art, provides a kind of working cylinder to have the multidirectional mould Compound Extrusion hydraulic press of 7 axles.

Technical scheme:

A kind of multidirectional mould Compound Extrusion hydraulic press, comprise combined bidirectional prestressing force framework for support, two " X " type compound direction framves of combined type, upper vertical Main cylinder, upper vertical perforation cylinder, left horizontal Main cylinder, right horizontal Main cylinder, left level perforation cylinder, right level perforation cylinder and sagging straight perforation or liftout tank

Described combined bidirectional prestressing force framework for support comprises the identical and symmetrical vertical pillars beam of two size structures and is retained on respectively the top of described vertical pillars beam and the horizontal entablature of bottom and horizontal sill, and vertical prestressed draw-bar device, described vertical pillars beam comprises two beam of uniform strengths and sleeve, two described beam of uniform strengths are by described sleeve transverse splicing, the cross section of the described beam of uniform strength is rectangle, its inner side is plane, and outside has protuberance; The cross-sectional area that the described beam of uniform strength is positioned at the part of described protuberance top from up to down increases gradually, the cross-sectional area that the described beam of uniform strength is positioned at the part of described protuberance below from up to down reduces gradually, described sleeve and axis thereof are in horizontal direction between two beam of uniform strengths, described horizontal entablature, vertical pillars beam and horizontal sill are integral by described vertical prestressed draw-bar device pretension, and bear the service load of vertical direction;

Two " X " type compound direction framves of described combined type comprise two guide waies that size structure is identical and front and back are symmetrical and moved cross beam, the guiding side of described guide way has projection, the top bilateral symmetry of described projection is provided with the first spigot surface, the bottom bilateral symmetry of described projection is provided with the second spigot surface, the extended line of the first spigot surface and the second spigot surface is all by the center of described combined bidirectional prestressing force framework for support, two described guide way upper ends are by prestressed draw-bar fixed connection, the bottom of two described guide waies is all fixedly connected with described moved cross beam,

The top of described vertical pillars beam is symmetrically arranged with the spigot surface corresponding with described the first spigot surface, and described horizontal entablature is provided with the spigot surface corresponding with described the second spigot surface and is positioned at directly over described vertical pillars beam;

Described vertical Main cylinder is arranged in described horizontal entablature, described left horizontal Main cylinder is arranged in the sleeve of a described vertical pillars beam, described right horizontal Main cylinder is arranged in the sleeve of vertical pillars beam described in another, described sagging straight perforation or liftout tank are arranged in described horizontal sill, described vertical perforation cylinder is arranged in described vertical Main cylinder, described left level perforation cylinder is arranged in described left horizontal Main cylinder, and described right level perforation cylinder is arranged in described right horizontal Main cylinder.

Further, described horizontal entablature and horizontal sill are the convex beam of uniform strength, the bossy body of described horizontal entablature and the bossy body of described horizontal sill are oppositely arranged, two convex shoulder planes of described horizontal entablature are joined with the top of two described vertical pillars beams respectively, two convex shoulder planes of described horizontal sill are joined with the bottom of two described vertical pillars beams respectively, two sides of the bossy body of described horizontal entablature contact with the inside top face of two described vertical pillars beams respectively, two sides of the bossy body of described horizontal sill contact with the bottom inside face of two described vertical pillars beams respectively.

Further, also comprise the horizontal prestressed draw-bar device in bottom level prestressed draw-bar device and top, the bottom of two described vertical pillars beams and the bossy body of described horizontal sill are integral by described bottom level prestressed draw-bar device pretension, the top of two described vertical pillars beams and the bossy body of described horizontal entablature are integral by described top horizontal prestressed draw-bar device pretension, and bear the service load of horizontal direction.

Further, the top of described vertical pillars beam is that key is connected with the convex shoulder plane of described horizontal entablature, and the bottom of described vertical pillars beam is that key is connected with the convex shoulder plane of described horizontal sill.

Further, described vertical prestressed draw-bar device comprises many thin pull bars, and the diameter of described thin pull bar is 160～280mm.The utility model has been abandoned the traditional design method that adopts single rough bar, is not only the needs for compact structure design, but the performance of many thin pull bars much larger than only with a rough bar, available less hydraulic pre-tightening cylinder, distinguishes every pull bar of pretension.

Further, the horizontal prestressed draw-bar device in described bottom level prestressed draw-bar device and/or top includes many thin pull bars, and the diameter of described thin pull bar is 160～280mm.The utility model has been abandoned the traditional design method that adopts single rough bar, is not only the needs for compact structure design, but the performance of many thin pull bars much larger than only with a rough bar, available less hydraulic pre-tightening cylinder, distinguishes every pull bar of pretension.

Further, on the spigot surface corresponding with described the first spigot surface and the second spigot surface, be provided with slide plate.

Further, angle in same described guide way between two described the first spigot surfaces is 60 °-100 °, angle in same described guide way between two described the second spigot surfaces is 60 °-100 °, and the angle in same described guide way between two described the first spigot surfaces is different from the angle between two described the second spigot surfaces.

Further, the bottom of two described guide waies is all by cross key and screw rod and described moved cross beam and fixedly connected.

Beneficial effect: multidirectional mould Compound Extrusion hydraulic press of the present utility model adopts novel combined bidirectional prestressing force framework for support and two " X " type compound direction framves of combined type.Combined bidirectional prestressing force framework for support comprises horizontal entablature, horizontal sill and two vertical pillars beams.In horizontal entablature and horizontal sill, be provided with vertical operation cylinder.Every equicohesive vertical pillars beam comprises two beam of uniform strengths, between two beam of uniform strengths, by sleeve transverse splicing, in order to horizontal operation cylinder to be installed, and allows to bear the service load of horizontal direction.Two " X " type compound direction framves of combined type comprise two groups of guide waies, the guiding side of guide way has projection, the top bilateral symmetry of projection is provided with the first spigot surface, bottom bilateral symmetry is provided with the second spigot surface, and the extended line of the first spigot surface and the second spigot surface is all by the center of combined bidirectional prestressing force framework for support.Adopt combined bidirectional prestressing force framework for support and two " X " type compound direction frame, make multidirectional mould Compound Extrusion hydraulic press of the present utility model there is safe and reliable bearing capacity and running precision, make the control number of axle of working cylinder reach 7 axles, thereby obtain production technology purposes more widely.

Accompanying drawing explanation

Fig. 1 is the top view of combined bearing frame;

Fig. 2 is that the A-A of combined bearing frame is to cutaway view;

Fig. 3 is the side view of vertical pillars beam;

Fig. 4 is the top view of vertical pillars beam;

Fig. 5 is the top view of horizontal entablature;

Fig. 6 is the top view of horizontal sill;

Fig. 7 is the side view of guidance system;

Fig. 8 is the top view of guide way;

Fig. 9 is the structural representation of multidirectional mould Compound Extrusion hydraulic press.

The specific embodiment

Refer to shown in Fig. 1 and Fig. 2, multidirectional mould Compound Extrusion hydraulic press of the present utility model, comprises combined bidirectional prestressing force framework for support, two " X " type compound direction systems of combined type, upper vertical Main cylinder 9, upper vertical perforation cylinder 10, left horizontal Main cylinder 121, right horizontal Main cylinder 122, left level perforation cylinder 131, right level perforation cylinder 132 and sagging straight perforation or liftout tank 16.

Combined bidirectional prestressing force framework for support, comprises horizontal sill 1, two vertical pillars beams 2; 4, horizontal entablature 6, vertical prestressed draw-bar device 71, the horizontal prestressed draw-bar device 73 of bottom level prestressed draw-bar device 72 and top.

Two " X " type compound direction systems of combined type comprise moved cross beam 3 and two guide waies 51 that size structure is identical; 52.

1), the crossbeam of existing hydraulic press the jowar such as is generally, the height dimension of arbitrary vertical cross-section of beam equates.The loading end of entablature, for the plane of column supporting and installment work cylinder in same plane, the loading end of sill, for column, support and the plane of installment work platform also in same plane.The non-bearing face of some non-contour entablature all raises up, and the non-bearing face of non-contour sill all protrudes downwards.The function singleness of these beams, equal in the upper size of short transverse, but the stress distribution of beam is very unbalanced, and the potential of material is not not fully exerted.

Refer to shown in Fig. 5 and Fig. 6, the crossbeam of the utility model hydraulic press is the convex beam of uniform strength, is different from the structure of the beam of existing any hydraulic press.The horizontal entablature 6 of " protruding " type is exactly contrary with traditional concept with the horizontal sill 1 of " protruding " type, beam is unequal in the upper size of short transverse, the load plane of beam is not all in same plane, but the stress distribution of beam is balanced, and the potential of material is not fully exerted; The loading end of horizontal entablature 6 installment work cylinders is protruded downwards, make the loading end of horizontal sill 1 installment work platform protruding upward.What the distance between two horizontal planes of the bossy body of horizontal entablature 6 and horizontal sill 1 had formed framework window vertically opens a grade H, two vertical planes of bossy body have determined that the interior side clearway of the level of framework window is apart from W, and the material between two vertical planes plays a part again upper and lower horizontal column.

" protruding " type beam of uniform strength structure of the horizontal sill 1 of the utility model for raising up, the upper plane of bossy body is for installment work platform, and two convex shoulder planes are used for supporting two vertical pillars beams 2; 4, these two planes are not in same plane.The both sides vertical plane of bossy body is two vertical pillars beams 2; The medial surface of 4 bottoms provides horizontal direction " X " axle positioning datum, and makes bossy body as lower horizontal column, bears bottom level prestressed draw-bar device 72 by two vertical pillars beams 2; The prestressing force effect of the bossy body pretension all-in-one-piece horizontal direction of 4 bottom and horizontal sill 1; In two convex shoulder planes, be designed with two groups of rectangle keyways and be inlaid with positioning key, can be two vertical pillars beams 2; " Y " axle positioning datum of horizontal direction before and after 4 bottom provides; Two convex shoulder planes are two vertical pillars beams 2; 4 bottom provides vertical direction " Z " axle positioning datum, and bears vertical prestressed draw-bar device 71 by two vertical pillars beams 2; 4 with the prestressing force effect of horizontal entablature 6 and horizontal sill 1 pretension all-in-one-piece vertical direction; According to the required ejecting force of different process object, lower piercing force and hydraulic die cushion power, can be under the interior installation of horizontal sill 1 working cylinder.

Horizontal entablature 6 is " protruding " type girder construction of protruding downwards, and the lower plane of bossy body is used for installing Main cylinder, and two planes of falling convex shoulder are used for supporting two vertical pillars beams 2; 4, these two planes are not in same plane.Two vertical planes of bossy body are two vertical pillars beams 2; The medial surface at 4 tops provides left and right horizontal direction " X " axle positioning datum, and makes down bossy body as upper horizontal column, bears the horizontal prestressed draw-bar device 73 in top by two vertical pillars beams 2; The prestressing force effect of the pretension of the falling bossy body all-in-one-piece horizontal direction of 4 tops and horizontal entablature 6; In two planes of falling convex shoulder, be designed with two groups of rectangle keyways and be inlaid with positioning key, can be two vertical pillars beams 2; " Y " axle positioning datum of horizontal direction before and after 4 top provides; Two planes of falling convex shoulder are two vertical pillars beams 2; 4 top provides vertical direction " Z " axle positioning datum, and bears vertical prestressed draw-bar device 71 by two vertical pillars beams 2; 4 with the prestressing force effect of horizontal entablature 6 and horizontal sill 1 pretension all-in-one-piece vertical direction; Falling on the lower plane of bossy body Main cylinder is installed, according to different vertical nominal pressures and technique object, the quantity of cylinder is 1～6, and the arrangement of cylinder can be single 1,2,3, or is double 2,4,6, or is 3 of three rows, 5.

2), the column of existing hydraulic press is mostly independently 4 solid or hollow circles or rectangular configuration, or is multilayer stacked plate type structure, or is frame-type box structure.Their common trait is, as just column function, use, be supported between lower and upper cross-member (for vertical hydraulic press) or front and back crossbeam (for horizontal hydraulic machine), bear compression (for prestressed structure) or tension (for non-prestressed structure), can not bear horizontal direction or horizontal service load.The integral multi-layered stacked plate type having or integral slab frame hydraulic press, although allow the working cylinder at the horizontal direction mounting flange supporting type of column part, but owing to being subject to the restriction of this type structure, the service load of the horizontal direction can bear is only 1/5 of vertical direction.

Refer to shown in Fig. 1, Fig. 2, Fig. 3 and Fig. 4 the vertical pillars beam 2 of special tectonic of the present utility model; 4 are different from the structure of the column of existing any hydraulic press.Two vertical pillars beams 2; 4, from front, be seen as asymmetrical bow-shaped structural, be asymmetrical " H " type structure from the side.Concrete, vertical pillars beam 2; 4 comprise two beam of uniform strengths and sleeve, and two beam of uniform strengths are by sleeve transverse splicing, and the cross section of the beam of uniform strength is rectangle, and its inner side is plane, and outside has protuberance.The cross-sectional area that the beam of uniform strength is positioned at the part of protuberance top from up to down increases gradually, and the cross-sectional area that the beam of uniform strength is positioned at the part of protuberance below from up to down reduces gradually, and sleeve and axis thereof are in horizontal direction between two beam of uniform strengths.As vertical pillars function, it is the hollow rectangular cross section in middle part on overall height; By two vertical pillars beams 2; 4 bottoms of 4 and 4 tops are bearing between two convex shoulder planes and two convex shoulder planes of horizontal entablature 6 of horizontal sill 1, by vertical prestressed draw-bar device 71, itself and horizontal entablature 6 and horizontal sill 1 pretension are integral, bear the prestressing force effect of vertical direction, and its horizontal force action of moved cross beam counter-force couple under the angle moment of flexure under service load, eccentric load; Two vertical pillars beams 2; On 4 bottom and top horizontal plane, be all designed with two groups of rectangle keyways and be inlaid with positioning key, by horizontal entablature 6 and horizontal sill 1 and vertical pillars beam 2; 4 are embedded in together securely, and the upper and lower horizontal gird 6 and 1 of conduct is at " Y " of front and back horizontal direction axle positioning datum.

As vertical beam function, two vertical pillars beams 2; 4 is hollow variable cross-section bow beam structure, by 4 tops of two vertical pillars beams and the medial surface of 4 bottoms, fitted with horizontal lower and upper cross-member 6 as horizontal column and two vertical planes of 1 bossy body respectively, by bottom level prestressed draw-bar device 72 and 73, respectively the boss pretension of the end of vertical pillars beam and bottom and horizontal lower and upper cross-member 6 and 1 is integral; Middle part between each side vertical pillars beam, by circle or rectangle cylindrical shell 21 transverse splicings, in order to the horizontal operation cylinder with cylinder bottom support to be installed, and allows to bear the service load of larger horizontal direction; According to different horizontal nominal pressures and technique object, the quantity of cylinder can be a single action hydraulic cylinder, or a compound pair of hydrodynamic cylinder pressure, or the above hydraulic cylinder of two rows.

3), the hydraulic press of conventional tension cylindricality formula, integral multi-layered stacked plate type or integral slab frame hydraulic press, their common trait is, frame is non-prestressed structure, bears unidirectional amplitude alternate stress during work, fatigue resistance is low.Although some hydraulic presses have adopted prestressed structure, mostly be the vertical hydraulic press of independent vertical direction, or the one direction prestressed structure of the horizontal hydraulic machine of horizontal direction; What have combines a vertical prestressed stand and a horizontal prestressed stand, has formed multi-ram forging hydraulic press, but because its power system can not seal, causes frame and mould again and again to damage.And to be subject to the restriction of this type structure, the service load of the horizontal direction can bear be only 1/3 of vertical direction.

Refer to shown in Fig. 1 and Fig. 2, the two-way full prestressing system of vertical and horizontal of the present utility model, is different from the prestressing force mode of existing any hydraulic press.The two-way full prestressing system of vertical and horizontal, in vertical prestressed draw-bar device 71, the horizontal prestressed draw-bar device 73 of bottom level prestressed draw-bar device 72 and top, pull bar diameter is all between 160～280mm, according to the pretightning force of design code and pre-tension method, by pre-load nut, make to produce prefastening force in pull bar total length, simultaneously to horizontal entablature 6, horizontal sill 1 and two vertical pillars beams 2; 4 apply preload pressure, thereby by horizontal entablature 6 and horizontal sill 1 and two vertical pillars beams 2; 4 are closely consolidated into an integral body with horizontal direction respectively in the vertical direction, form a two-way full prestressing framework for support of vertical and horizontal.

The bearing capacity requirement of and horizontal direction vertical according to hydraulic press, determine quantity and the distribution of pull bar in vertical prestressed draw-bar device 71, the horizontal prestressed draw-bar device 73 of bottom level prestressed draw-bar device 72 and top, according to the stress level of each beam, determine the plate thickness under pull-rod nut.

Prestressing force design press maximum working load power and maximum allowable offset apart from design, adjust and the prestressing force of setting pull bar, pretension coefficient is 1.5, pretightning force is 1.5 times of service load; Horizontal entablature 6 and horizontal sill 1 and two vertical pillars beams 2; The cross sectional dimensions of 4 contact portions is identical, and the distortion of depth of beam direction after by compression be can not ignore, and the size of the compressed member of calculating should comprise horizontal entablature 6, horizontal sill 1 and two vertical pillars beams 2; 4 corresponding height size.

No matter whole frame is the stressed internal force balance system that is of vertical direction or horizontal direction, and it is upper that load force can not be delivered to basis, has guaranteed the safety and reliability of the two-way carrying of frame.

The utility model has been abandoned the traditional design method that adopts single rough bar, be not only the needs for compact structure design, but the superiority of many thin pull bars is much larger than only with a rough bar: available less hydraulic pre-tightening cylinder, distinguish every pull bar of pretension; Can, by hollow column cross sectional shape, arrange symmetrically and evenly Duola's bar, stress equalization; Pull rod screw root mismachining tolerance is little, and the bending stress impact of generation is less; Because cross-sectional area is little, material structure and heat treatment performance good uniformity, can give full play to the mechanical property of material; Processing and manufacturing and easy for installation.

4), the operation of conventional hydraulic machine moved cross beam all relies on the blade fin face that column provides to lead, in the same plane of so-called " X " spigot surface in identical angle, and moved cross beam guiding length is similar to its stroke.Under service load, due to the transverse curvature distortion of column, the length that is easy to make originally lead deflects with regard to very short moved cross beam, and guiding accuracy can not be guaranteed.

Refer to shown in Fig. 7 and 8, two " X " type compound direction systems of combined type of the present utility model, are different from the guidance mode of existing any hydraulic press, comprise two guide waies that size structure is identical and front and back are symmetrical 51; 52.

The concrete structure of guide way is: guide way 51; 52 guiding side has projection, the top bilateral symmetry of projection is provided with two the first spigot surfaces, the bottom bilateral symmetry of projection is provided with two the second spigot surfaces, the extended line of the first spigot surface and the second spigot surface is all by the center of combined bidirectional prestressing force framework for support, two guide waies 51; 52 upper ends are by prestressed draw-bar fixed connection, two guide waies 51; 52 bottom is all fixedly connected by cross key and screw rod and moved cross beam 3;

Two groups of upper level pull rod device 81 comprise high strength pull bar, by 2 guide waies 51; The two ends transverse prestress of 52 upper beam is consolidated into one; By horizontal screw bolt 82 and cross key by 2 guide waies 51; 52 lower vertical guide way and moved cross beam 3 are laterally consolidated into one.

Guide way 51; 52 upper beam guide plate relies on and is loaded on leading without the wear-resisting slide plate in I place, deformed area on horizontal entablature 6, and middle and lower part vertically-guided plate relies on the wear-resisting slide plate guiding in the II place, micro-deformed area being loaded on left and right vertical pillars beam 4 and 2; The extension line of top and bottom spigot surface is all by the center of framework for support, same guide way 51; Angle α in 52 between two the first spigot surfaces is 60 °-100 °, simultaneously same guide way 51; Angle β in 52 between two the second spigot surfaces is 60 °-100 °, same guide way 51; Angle in 52 between two the first spigot surfaces is different from the angle between two the second spigot surfaces.Form two " X " type compound direction systems; The length of guide way is 3 times of its stroke, for moved cross beam provides firm, planar guide body rigidity and LCS.

Combinations thereof formula two dimension prestressing framework for support, adopt Computerized three-dimensional finite element analysis software Analysis of Contact Problem method, frame overall structure is optimized to design, the distortion of frame and stress have been obtained accurately to be solved, dope stress state and the deformation tendency thereof of the structure in the course of work, optimize the structure of stress frame, determine its physical dimension under suitable strength and rigidity, material is reasonably distributed, give full play of the potentiality of material therefor.

Theory analysis shows, this rack construction has higher integral rigidity, fatigue resistance, bearing capacity and security reliability.After frame pretightening, do not crack, without repeating fastening outboard nut, pull bar is forever without wearing and tearing.During work, column bears compression and bending stress, and pull bar bears tension, and the variation amplitude of its minimum and maximum tension is only 15% of maximum load stress.At machine life, in the cycle, can not produce column fracture accident, therefore extend the service life of each member, greatly reduces maintenance of equipment expense and life cycle cost.

5), the existing multi-ram forging hydraulic machine working cylinder number of axle is generally 3-5 axle, its horizontal operation cylinder is single shaft, and ability is on the low side, the product weight of shaping is little, can only carry out single horizontal parting and be shaped, and has limited the process application scope of multi-ram forging.

Refer to shown in Fig. 9, multidirectional mould Compound Extrusion hydraulic press of the present utility model, is different from existing any multi-ram forging hydraulic press.The described multidirectional mould Compound Extrusion working cylinder number of axle is 7 axles, two " X " type compound direction framves of combined bidirectional prestressing force framework for support and combined type are as the carrier that the devices such as hydraulic cylinder, workbench, mould are installed, and bear whole service loads, form the body part of a multidirectional mould combined precision extrusion molding hydraulic press.

Using upper vertical Main cylinder 9 and mould 11, upper vertical perforation cylinder 10, left horizontal Main cylinder 121, left level perforation cylinder 131, right horizontal Main cylinder 122 and mould 14, right level perforation cylinder 132, sagging straight perforation or liftout tank 16 respectively as numerical control hydraulic cylinder axle independently, by hydraulic numerical control device, driven respectively, formed hydraulic numerical control closed loop servo and controlled and synchronous control system; Wherein, upper vertical Main cylinder 9 is arranged in horizontal entablature 6, and left horizontal Main cylinder 121 is arranged on a vertical pillars beam 2; In 4 sleeve, right horizontal Main cylinder 122 is arranged on another vertical pillars beam 2; In 4 sleeve, sagging straight perforation or liftout tank 16 are arranged in horizontal sill 1, upper vertical perforation cylinder 10 is arranged in vertical Main cylinder 9, and left level perforation cylinder 131 is arranged in left horizontal Main cylinder 121, and right level perforation cylinder 132 is arranged in right horizontal Main cylinder 122.With computer hydraulic numerical control multi-shaft linkage program, be loaded as basis, logical action is controlled by PLC system, the speed of each cylinder axle, displacement, pressure are carried out programming Control by HNC, press the sequencing of main shaft Vertical loading, the loading of left trunnion axis, the loading of right trunnion axis, 5 kinds of above load modes capable of being combined, by technique die joint condition, can complete 2 kinds of mould-dividing modes of vertical parting and horizontal parting.

Oil cylinder combination with other logic control, has multidirectional loading, upper centre punching, lower centre punching, the steppings such as hydraulic die cushion and continuous feed function eject, stretch; Realize the difficult formed product 15 of complex-shaped surface mould structure multidirectional mould extruding, die forging, isothermal die forging process, etc. drafts forge, etc. the various metals plasticity flexible compound near-net-shape techniques such as forging ratio forging, precision forging, superplasticforming.

6), embodiment of the present utility model is, developed the multidirectional mould combined precision of a seven Shaft and NC Machining Test extrusion molding hydraulic press that total deformation ability is 350MN, its main power energy technical parameter is in Table 1.

Table 1

Axle	Working cylinder	Power (MN)	Fluid pressure (MPa)	Speed (mm/s)	Stroke (mm)
						1	The upper Main cylinder of 4-	130	42	0.5-60	2000
2	The upper perforation of 1-cylinder	90	42	0.5-60	3000
						3	The left horizontal Main cylinder of 1-	130	42	0.5-40	1000
4	The left level perforation of 1-cylinder	50	42	0.5-60	700
						5	The right horizontal Main cylinder of 1-	130	42	0.5-40	1000
6	The right level perforation of 1-cylinder	50	42	0.5-60	700
						7	Under 1-, eject/bore a hole cylinder	20	42	0.5-60	1500

The intensity of framework for support, rigidity and guiding accuracy make hydraulic press reach following performance:

(1), the positional precision of each hydraulic cylinder loading axle is≤± 0.5mm

(2), the balance quality of moved cross beam is 0.25mm/m

(3), the synchronization accuracy of left and right horizontal hydraulic cylinder loading axle is≤± 0.5mm

(4), isothermal forging speed stability error 5%

The significant index contrast of the utility model embodiment and prior art is in Table 2.

Table 2

Title	Embodiment	The U.S.	Germany	Britain
					General force of deformation (MN)	350	155	310	360
Horizontal force (MN)	2*130	2*35/45	2*10	2*60
					The kind of drive	Oil pump directly drives	Water pump accumulator	Water pump accumulator	Water pump accumulator
The number of axle and control mode	7 axle SERVO CONTROL	5 axle switching values are controlled	3 axle switching values are controlled	5 axle switching values are controlled
					Produce maximum forge weight (kg)	4000	2000	3000	3000

Claims (9)

1. a multidirectional mould Compound Extrusion hydraulic press, it is characterized in that: comprise combined bidirectional prestressing force framework for support, two " X " type compound direction framves of combined type, upper vertical Main cylinder (9), upper vertical perforation cylinder (10), left horizontal Main cylinder (121), right horizontal Main cylinder (122), left level perforation cylinder (131), right level perforation cylinder (132) and sagging straight perforation or liftout tank (16)

Described combined bidirectional prestressing force framework for support comprises the identical and symmetrical vertical pillars beam (2 of two size structures; 4) and be respectively retained on described vertical pillars beam (2; 4) the horizontal entablature (6) of top and bottom and horizontal sill (1), and vertical prestressed draw-bar device (71), described vertical pillars beam (2; 4) comprise two beam of uniform strengths and sleeve, two described beam of uniform strengths are by described sleeve transverse splicing, and the cross section of the described beam of uniform strength is rectangle, and its inner side is plane, and outside has protuberance; The cross-sectional area that the described beam of uniform strength is positioned at the part of described protuberance top from up to down increases gradually, the cross-sectional area that the described beam of uniform strength is positioned at the part of described protuberance below from up to down reduces gradually, described sleeve and axis thereof in horizontal direction between two beam of uniform strengths, described horizontal entablature (6), vertical pillars beam (2; 4) be integral by described vertical prestressed draw-bar device (71) pretension with horizontal sill (1);

Two " X " type compound direction framves of described combined type comprise two guide waies that size structure is identical and front and back are symmetrical (51; 52) and moved cross beam (3), described guide way (51; 52) guiding side has projection, the top bilateral symmetry of described projection is provided with the first spigot surface, the bottom bilateral symmetry of described projection is provided with the second spigot surface, the extended line of the first spigot surface and the second spigot surface is all by the center of described combined bidirectional prestressing force framework for support, two described guide waies (51; 52) upper end is by prestressed draw-bar fixed connection, two described guide waies (51; 52) bottom all with described moved cross beam (3) with fixedly connected;

Described vertical pillars beam (2; 4) top is symmetrically arranged with the spigot surface corresponding with described the first spigot surface, and described horizontal entablature (6) is provided with the spigot surface corresponding with described the second spigot surface and is positioned at described vertical pillars beam (2; 4) directly over;

Described vertical Main cylinder (9) is arranged in described horizontal entablature (6), and described left horizontal Main cylinder (121) is arranged on a described vertical pillars beam (2; 4), in sleeve, described right horizontal Main cylinder (122) is arranged on vertical pillars beam (2 described in another; 4) in sleeve, described sagging straight perforation or liftout tank (16) are arranged in described horizontal sill (1), described vertical perforation cylinder (10) is arranged in described vertical Main cylinder (9), described left level perforation cylinder (131) is arranged in described left horizontal Main cylinder (121), and described right level perforation cylinder (132) is arranged in described right horizontal Main cylinder (122).

2. multidirectional mould Compound Extrusion hydraulic press according to claim 1, it is characterized in that: described horizontal entablature (6) and horizontal sill (1) are the convex beam of uniform strength, the bossy body of the bossy body of described horizontal entablature (6) and described horizontal sill (1) is oppositely arranged, two convex shoulder planes of described horizontal entablature (6) respectively with two described vertical pillars beams (2; 4) top joins, two convex shoulder planes of described horizontal sill (1) respectively with two described vertical pillars beams (2; 4) bottom joins, two sides of the bossy body of described horizontal entablature (6) respectively with two described vertical pillars beams (2; 4) inside top face contacts, two sides of the bossy body of described horizontal sill (1) respectively with two described vertical pillars beams (2; 4) bottom inside face contacts.

3. multidirectional mould Compound Extrusion hydraulic press according to claim 2, is characterized in that: also comprise the horizontal prestressed draw-bar device in bottom level prestressed draw-bar device (72) and top (73), two described vertical pillars beams (2; 4) bossy body of bottom and described horizontal sill (1) is integral by described bottom level prestressed draw-bar device (72) pretension, two described vertical pillars beams (2; 4) bossy body of top and described horizontal entablature (6) is integral by the horizontal prestressed draw-bar device in described top (73) pretension.

4. multidirectional mould Compound Extrusion hydraulic press according to claim 2, is characterized in that: described vertical pillars beam (2; 4) top is that key is connected with the convex shoulder plane of described horizontal entablature (6), described vertical pillars beam (2; 4) bottom is that key is connected with the convex shoulder plane of described horizontal sill (1).

5. multidirectional mould Compound Extrusion hydraulic press according to claim 1, is characterized in that: described vertical prestressed draw-bar device (71) comprises many thin pull bars, and the diameter of described thin pull bar is 160～280mm.

6. multidirectional mould Compound Extrusion hydraulic press according to claim 3, it is characterized in that: the horizontal prestressed draw-bar device in described bottom level prestressed draw-bar device (72) and/or top (73) includes many thin pull bars, the diameter of described thin pull bar is 160～280mm.

7. multidirectional mould Compound Extrusion hydraulic press according to claim 1, is characterized in that: on the spigot surface corresponding with described the first spigot surface and the second spigot surface, be provided with slide plate.

8. multidirectional mould Compound Extrusion hydraulic press according to claim 1, is characterized in that: same described guide way (51; 52) angle between two described the first spigot surfaces is 60 °-100 °, same described guide way (51; 52) angle between two described the second spigot surfaces is 60 °-100 °, same described guide way (51; 52) angle between two described the first spigot surfaces is different from the angle between two described the second spigot surfaces.

9. multidirectional mould Compound Extrusion hydraulic press according to claim 1, is characterized in that: two described guide waies (51; 52) bottom is all by cross key and screw rod and described moved cross beam (3) and fixedly connected.