CN100414065C - Forming die for component of die body - Google Patents
Forming die for component of die body Download PDFInfo
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- CN100414065C CN100414065C CNB200410005693XA CN200410005693A CN100414065C CN 100414065 C CN100414065 C CN 100414065C CN B200410005693X A CNB200410005693X A CN B200410005693XA CN 200410005693 A CN200410005693 A CN 200410005693A CN 100414065 C CN100414065 C CN 100414065C
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- die
- face
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- formpiston
- shell component
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Abstract
The present invention relates to a forming die for a component of a die shell, which comprises a side die surface (1) and a lower die surface (2), wherein a male die is formed by the surrounding of the side die surface (1) and the lower die surface (2). The forming die is characterized in that the side die surface (1) and the lower die surface (2) of the male die comprise die plates (3), and the male die is formed by splicing at least two die plates (3). The die plates (3) are spliced at the corners of the die surfaces, and the spliced corners are provided with splicing devices (4). Thus, since the die plates are spliced at the corners of the die surfaces and the spliced corner positions are provided with the splicing devices, the die release operation is very convenient after the splicing devices are unscrewed. Meanwhile, the die also has the characteristics of simple structure, easy production, high intensity, low cost, etc. The forming die is suitable for making thin-wall pipes or thin-wall boxes, particularly thin-wall pipes with openings or thin-wall boxes with openings.
Description
(1) technical field
The present invention relates to a kind of die-shell component forming die.
(2) background technology
At present, cast-in-situ reinforcing steel bar concrete hollow slab, particularly cast-in-situ reinforcing steel bar concrete hollow slab non-core-drawing pore-creating technology generally adopt light-wall pipe or thin-walled box filled, can satisfy the find time needs of concrete of various different hollowcore slabs.The applicant on the November 29th, 1999 of SEPARATE APPLICATION simultaneously application number be that 99115665.X, name are called the patent of invention of " fiber reinforcement-type light-wall conduit for reinforcing steel bar concrete filling (box) and manufacture method thereof ", and application number is 99115666.8, name is called the patent of invention of " fiber-reinforced thin-wall box for filling cast-in-place reinforced concrete and manufacture method thereof ", prepared light-wall pipe or thin-walled box can be openings, seal the light-wall pipe that then can make sealing or the thin-walled box of sealing if having; The mould that is adopted in its manufacture method has former or formpiston.As formpiston, from they accompanying drawing as can be seen, it comprises side form face and lower die face (or backform face), side form face and lower die face surround formpiston, and this formpiston is the formpiston of integral mold plate, in actual use, demoulding inconvenience, therefore the light-wall pipe of opening or thin-walled box cracky, develop a kind of novel die-shell component forming die for being badly in need of.
(3) summary of the invention
The object of the present invention is to provide a kind of die-shell component forming die, have be convenient in demoulding, simple in structure, easy to manufacture, characteristics such as intensity is high, cost is low.
Solution of the present invention is on the basis of existing technology, comprise side form face, lower die face, side form face and lower die face surround formpiston, the side form face and the lower die face that it is characterized in that described formpiston are made of template, formpiston is made up of at least two template amalgamations, template is in the rotation angle position amalgamation of die face, is provided with split unit at the rotation angle position of amalgamation.Like this, because template is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit, thereby after unscrewing split unit, the demoulding is very convenient, simultaneously, mould also has characteristics such as simple in structure, easy to manufacture, that intensity is high, cost is low, thereby reached purpose of the present invention, be applicable to and make light-wall pipe or thin-walled box, be particularly useful for making the light-wall pipe of opening or the thin-walled box of opening.
Feature of the present invention is that also the rotation angle position of described amalgamation is arranged on the rotation angle position of side form face.Like this, the joint close gap is little, makes mould in use not be prone to the excessive phenomenon of slurry, has improved the production quality, and simultaneously, the demoulding is more convenient.
Feature of the present invention is that also the rotation angle position of described amalgamation is arranged on the rotation angle position of side form face and lower die face.Like this, the mould amalgamation does not more closely have the gap, has significantly reduced the phenomenon of spillage, has improved the precision of mould, simultaneously the demoulding of more convenient mould.
Feature of the present invention is that also described side form face is made of two, three, four, six, eight, ten or 12 templates.Like this, the side form face of die-shell component forming die is made of the polylith template, has fractionation conveniently, simply, and assembling combination can increase substantially production efficiency easily, simultaneously, is particularly conducive to the making of large mold.
Feature of the present invention is that also described lower die face is an at least one template.Like this, the lower die face of die-shell component forming die is that a template constitutes, and has production and processing conveniently, and manufacture craft is simple, simultaneously, makes things convenient for the demoulding of mould.
Feature of the present invention is that also described split unit is at least one in linkage or take-up or the positioner.Like this, the split unit kind is many, is convenient to produce select for use, and split unit also can be and has connections simultaneously, closes device tight or that locate simultaneously, can reduce its complexity, makes its easier applying.
Feature of the present invention is that also described linkage is at least a in hinge, film, tongue and groove or the tenon.Like this, the diversity of linkage and generality greatly reduce the cost of manufacture of mould, simultaneously, can rationally select above-mentioned linkage for use according to different actual conditions.
Feature of the present invention is that also described linkage is a hinge.Like this, the diversity of linkage and generality greatly reduce the cost of manufacture of mould, simultaneously, can rationally select above-mentioned linkage for use according to different actual conditions.
Feature of the present invention is that also described linkage is the latch hinge.Like this, the diversity of linkage and generality greatly reduce the cost of manufacture of mould, simultaneously, can rationally select above-mentioned linkage for use according to different actual conditions.
Feature of the present invention is that also described take-up is at least a in bolt, camlock, latch, sliding sleeve, draw-in groove, cutting ferrule or the iron wire.Like this, the diversity of take-up and generality greatly reduce the cost of manufacture of mould, simultaneously, can rationally select above-mentioned take-up for use according to different actual conditions.
Feature of the present invention is that also described positioner is at least a in locating hole, alignment pin, locating slot, positioning step or the locating piece.Like this, the diversity of positioner and generality greatly reduce the cost of manufacture of mould, simultaneously, can rationally select above-mentioned positioner for use according to different actual conditions.
Feature of the present invention is that also the rotation angle position of described die face is provided with convex configuration or concave configuration.Like this, after the rotation angle position of die face is provided with convex configuration or concave configuration, the convex configuration or the concave configuration that form shuttering member at rotation angle position can be correspondingly produced, the needs of various different shuttering member productions can be satisfied.
Feature of the present invention is that also described convex configuration is raised line or projection or nose bar.Like this, after the rotation angle position of die face is provided with raised line or projection or nose bar, raised line or projection or nose bar that rotation angle position forms shuttering member can be correspondingly produced, the needs of producing various different shuttering member products can be satisfied.
Feature of the present invention is that also described concave configuration is at least a in groove, pit, pothole, seam or the hole.Like this, the concave configuration kind is many, when using the die production formwork, can be on shuttering member the various multi-form concave configuration of corresponding formation, make things convenient for design, production and unit in charge of construction to select for use, to satisfy the needs of different occasions.
Feature of the present invention is that also the rotation angle position of described die face is set to chamfer.Like this, when using above-mentioned die production, the product that rotation angle position is a chamfering can be produced, the needs of unit in charge of construction can be fully satisfied.
Feature of the present invention is that also the rotation angle position of described die face is set to the curve transition face.Like this, when using above-mentioned die production, can produce rotation angle position is the shuttering member product of curve transition or arc corner, can fully satisfy the needs of design and construction unit.
Feature of the present invention is that also the rotation angle position of described die face is set to arc transiting surface.Like this, when using above-mentioned die production, can produce rotation angle position is the shuttering member product of curve transition or arc corner, can fully satisfy the needs of design and construction unit.
Feature of the present invention is that also described split unit is dismountable split unit.Like this, when split unit is dismountable split unit, can make mould in application process, assembly unit quickly and easily and dismounting.
Feature of the present invention is that also dismountable split unit of described activity is telescopic split unit.Like this, when dismountable split unit is telescopic split unit, greatly reduce the difficulty of the amalgamation and the dismounting of mould, simultaneously, also can adjust the free gap between the template flexibly, it is fully met the needs of production, thereby, enhance productivity effectively.
Feature of the present invention is that also described telescopic split unit is the telescopic split unit of umbrella.Like this, when telescopic split unit is the telescopic split unit of umbrella, shorten demould time greatly, effectively improved production efficiency, reduced the cost of production of shuttering member indirectly.
Feature of the present invention is that also the side form face of at least one side of described formpiston has at least two templates that can relatively move, and regulates mobile by the mobile device that is arranged on the formpiston between the template.Like this,, can regulate the height or the width of mould arbitrarily, realize one module multiple usages, greatly reduce mould user's die cost expense according to the requirement of the different size of the product of being produced.
Feature of the present invention is that also the lower die face of described formpiston has at least two templates that can relatively move, and regulates mobile by the mobile device that is arranged on the formpiston between the template.Like this, according to the different size requirement of the product of being produced, can suitably adjust the size of lower die face, thereby obtain to satisfy the shuttering member of application requirements, make things convenient for the mould user, reduce its die cost expense.
Feature of the present invention also be described side form face or lower die face at least one be provided with at least a at least one convex configuration or the concave configuration.Like this, when the mould that application side die face or bed die face are provided with convex configuration or concave configuration is produced, can correspondingly produce has the shuttering member of convex configuration or concave configuration product on sidewall or the bottom surface, can fully satisfy the demand of various different situations.
Feature of the present invention also is described convex configuration or concave configuration self or parallel each other or crossing or grade separation setting.Like this, when the mould that uses die face to be provided with above-mentioned structure is produced, can correspondingly obtain formation self or parallel each other or crossing or the convex configuration of grade separation layout or the shuttering member product of concave configuration on the wall, to satisfy the needs of various different designs and construction.
Feature of the present invention is that also the template of the side form face of described formpiston is connected with the hemming die panel.Like this, when using the above-mentioned mould that has the hemming die panel to produce, according to the different requirements of different product, installation or removal hemming die panel is produced difform formwork product at any time, can fully meet the different needs.
Feature of the present invention is that also described template is provided with the thickness stopping means.Like this, when stating template in the use and being provided with the mould of thickness stopping means, can the wall thickness of product be control effectively, when guaranteeing the shuttering member product quality, carry out cost control, reduce its cost.
Feature of the present invention is that also the inwall of the template of the template of side form face of described formpiston or lower die face is provided with the stiffener of formpiston.Like this, strengthen the strength and stiffness of the template of formpiston greatly, made it not yielding or damage in application process, in the application life of having improved mould, reduced the cost of mould indirectly.
Feature of the present invention is that also described stiffener is at least a in angle steel, band iron, channel-section steel, reinforcing bar or the wooden a tree, used in making timber for boats.Like this, stiffener is wide in variety, conveniently selects for use, greatly reduces the cost of mould.
Feature of the present invention is that also described formpiston is provided with bracing frame.Like this, after formpiston is provided with bracing frame, increase the terrain clearance of mould application producers work planes, it has not been needed or only need bend over a little and can operate, greatly reduced the difficulty of manufacturing of shuttering member product, improved production efficiency.
Feature of the present invention is that also the die face on the described at least one template is at least a in plane, folding face or the curved surface.Like this, after using above-mentioned mould and producing, the shuttering member product that corresponding site forms plane, folding face or curved surface can be obtained, the needs of various different situations can be fully satisfied.
Feature of the present invention is that also described at least one template is the disposable template of serving as the shuttering member parts.Like this, adopt disposable template to make mould and can omit the form removal operation, simultaneously, can form iterative structure formwork wall again, improved the intensity and the production efficiency of shuttering member greatly, reduced the cost of manufacture of shuttering member.
Feature of the present invention is that also at least one template in the described formpiston is topotype or platform mould.Like this, simplified the structure of mould greatly, when having reduced material cost, dress mould and stripping process also are simplified, and make it be easier to use production.
(4) description of drawings
Fig. 1 is the structural representation of the embodiment of the invention 1.In each accompanying drawing, 1 is the side form face, and 2 is lower die face, and 3 is template, 4 split units, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, side form face 1 and lower die face 2 surround formpiston, and the side form face 1 and the lower die face 2 of its described formpiston are made of template 3, and formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, is provided with split unit 4 at the rotation angle position of amalgamation.
Fig. 2 is the structural representation of the embodiment of the invention 2, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of its described amalgamation is arranged on the rotation angle position place of side form face 1.
Fig. 3 is the structural representation of the embodiment of the invention 3, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of its described amalgamation also is arranged on the rotation angle position of side form face 1 and lower die face 2.
Fig. 4 is the structural representation of the embodiment of the invention 4, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described side form face 1 is made of four templates 3.
Fig. 5 is the structural representation of the embodiment of the invention 5, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described lower die face 2 is made of two templates 3.
Fig. 6 is the structural representation of the embodiment of the invention 6, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, in its described split unit 4 linkage 5, take-up 6 and positioner 7 is arranged.
Fig. 7 is the structural representation of the embodiment of the invention 7, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of its described die face also is provided with convex configuration 8, and convex configuration 8 is flexible convex configuration.
Fig. 8 is the structural representation of the embodiment of the invention 8, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of die face also is provided with concave configuration 9, and its described concave configuration 9 is a re-entrant angle.
Fig. 9 is the structural representation of the embodiment of the invention 9, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position between its described side form face 1 and the lower die face 2 is set to chamfer.
Figure 10 is the structural representation of the embodiment of the invention 10, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position between its described side form face 1 is set to the curve transition face.
Figure 11 is the structural representation of the embodiment of the invention 11, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described split unit 4 is movable dismountable split unit.
Figure 12 is the structural representation of the embodiment of the invention 12, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and dismountable split unit 4 of its described activity is telescopic split unit.
Figure 13 is the structural representation of the embodiment of the invention 13, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the side form face 1 of its described formpiston has by two templates that can relatively move 3 and constitutes, and regulates and moves by being arranged on mobile device 10 on the formpiston between the template 3.
Figure 14 is the structural representation of the embodiment of the invention 14, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described side form face 1 is provided with convex configuration 8 and concave configuration 9.
Figure 15 is the structural representation of the embodiment of the invention 15, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the template 3 of the side form face 1 of its described formpiston also is connected with hemming die panel 11.
Figure 16 is the structural representation of the embodiment of the invention 16, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the inwall of the template 3 of the side form face 1 of its described formpiston is provided with the stiffener 13 of formpiston.
Figure 17 is the structural representation of the embodiment of the invention 17, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, also is provided with bracing frame 14 on its described formpiston.
Figure 18 is the structural representation of the embodiment of the invention 18, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the template 3 of its described lower die face 2 is served as the disposable template of shuttering member parts.
Figure 19 is the structural representation of the embodiment of the invention 19, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the lower die face 2 of its described formpiston is a topotype.
(5) specific embodiment
The present invention is further illustrated below in conjunction with drawings and Examples.
The present invention as shown in drawings, comprise side form face 1, lower die face 2, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 that it is characterized in that described formpiston are made of template 3, formpiston is made up of 3 amalgamations of at least two templates, template 3 is in the rotation angle position amalgamation of die face, is provided with split unit 4 at the rotation angle position of amalgamation.Fig. 1 is the structural representation of the embodiment of the invention 1.In each accompanying drawing, 1 is the side form face, and 2 is lower die face, and 3 is template, 4 split units, below in each accompanying drawing, number identically, its explanation is identical.As shown in Figure 1, side form face 1 and lower die face 2 surround formpiston, and the side form face 1 and the lower die face 2 of its described formpiston are made of template 3, and formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, is provided with split unit 4 at the rotation angle position of amalgamation.
Feature of the present invention is that also the rotation angle position of described amalgamation is arranged on the rotation angle position of side form face 1.Fig. 2 is the structural representation of the embodiment of the invention 2, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of its described amalgamation is arranged on the rotation angle position place of side form face 1.
Feature of the present invention is that also the rotation angle position of described amalgamation is arranged on the rotation angle position of side form face 1 and lower die face 2.Fig. 3 is the structural representation of the embodiment of the invention 3, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of its described amalgamation also is arranged on the rotation angle position of side form face 1 and lower die face 2.
Feature of the present invention is that also described side form face 1 is made of two, three, four, six, eight, ten or 12 templates 3.Fig. 4 is the structural representation of the embodiment of the invention 4, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described side form face 1 is made of four templates 3.
Feature of the present invention is that also described lower die face 2 is at least one template 3.Fig. 5 is the structural representation of the embodiment of the invention 5, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described lower die face 2 is made of two templates 3.
Feature of the present invention is that also described split unit 4 is at least one in linkage 5 or take-up 6 or the positioner 7.Fig. 6 is the structural representation of the embodiment of the invention 6, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, in its described split unit 4 linkage 5, take-up 6 and positioner 7 is arranged.
Feature of the present invention also is at least a in hinge, film, tongue and groove or the tenon of described linkage 5.
Feature of the present invention is that also described linkage 5 is hinge.As shown in Figure 6, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and linkage 5, take-up 6 and positioner 7 are arranged in the split unit 4, and its described linkage 5 is a hinge.
Feature of the present invention is that also described linkage 5 is the latch hinge.
Feature of the present invention also is at least a in bolt, camlock, latch, sliding sleeve, draw-in groove, cutting ferrule or the iron wire of described take-up 6.As shown in Figure 6, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and linkage 5, take-up 6 and positioner 7 are arranged in the split unit 4, and its described take-up 6 is a bolt.
Feature of the present invention also is at least a in locating hole, alignment pin, locating slot, positioning step or the locating piece of described positioner 7.As shown in Figure 6, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and linkage 5, take-up 6 and positioner 7 are arranged in the split unit 4, and its described positioner 7 is a locating hole.
Feature of the present invention is that also the rotation angle position of described die face is provided with convex configuration 8 or concave configuration 9.Fig. 7 is the structural representation of the embodiment of the invention 7, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of its described die face also is provided with convex configuration 8, and convex configuration 8 is flexible convex configuration.
Feature of the present invention is that also described convex configuration 8 is raised line or projection or nose bar.As shown in Figure 7, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of die face also is provided with convex configuration 8, and its described convex configuration 8 is a raised line.
Feature of the present invention also is at least a in groove, pit, pothole, seam or the hole of described concave configuration 9.Fig. 8 is the structural representation of the embodiment of the invention 8, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position of die face also is provided with concave configuration 9, and its described concave configuration 9 is a re-entrant angle.
Feature of the present invention is that also the rotation angle position of described die face is set to chamfer.Fig. 9 is the structural representation of the embodiment of the invention 9, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position between its described side form face 1 and the lower die face 2 is set to chamfer.
Feature of the present invention is that also the rotation angle position of described die face is set to the curve transition face.Figure 10 is the structural representation of the embodiment of the invention 10, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the rotation angle position between its described side form face 1 is set to the curve transition face.
Feature of the present invention is that also the rotation angle position of described die face is set to arc transiting surface.
Feature of the present invention is that also described split unit 4 is dismountable split unit.Figure 11 is the structural representation of the embodiment of the invention 11, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described split unit 4 is movable dismountable split unit.
Feature of the present invention is that also described dismountable split unit 4 is telescopic split unit.Figure 12 is the structural representation of the embodiment of the invention 12, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and dismountable split unit 4 of its described activity is telescopic split unit.
Feature of the present invention is that also described telescopic split unit 4 is the telescopic split unit of umbrella.As shown in figure 12, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and movable dismountable split unit 4 is telescopic split unit, and its described telescopic split unit 4 is the telescopic split unit of umbrella.
Feature of the present invention is that also the side form face 1 of at least one side of described formpiston has at least two templates that can relatively move 3, regulates mobile by the mobile device 10 that is arranged on the formpiston between the template 3.Figure 13 is the structural representation of the embodiment of the invention 13, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the side form face 1 of its described formpiston has by two templates that can relatively move 3 and constitutes, and regulates and moves by being arranged on mobile device 10 on the formpiston between the template 3.
Feature of the present invention is that also the lower die face 2 of described formpiston has at least two templates that can relatively move 3, regulates mobile by the mobile device 10 that is arranged on the formpiston between the template 3.As shown in figure 13, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, the side form face 1 of formpiston has by two templates that can relatively move 3 and constitutes, regulate mobile by the mobile device 10 that is arranged on the formpiston between the template 3, the lower die face 2 of its described formpiston is to be made of two templates that can relatively move 3, regulates mobile by the mobile device 10 that is arranged on the formpiston between the template 3.
Feature of the present invention also be described side form face 1 or lower die face 2 at least one be provided with at least a at least one convex configuration 8 or the concave configuration 9.Figure 14 is the structural representation of the embodiment of the invention 14, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and its described side form face 1 is provided with convex configuration 8 and concave configuration 9.
Feature of the present invention also is described convex configuration 8 or concave configuration 9 self or parallel each other or crossing or grade separation setting.As shown in figure 14, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and side form face 1 is provided with convex configuration 8 and concave configuration 9, and its described convex configuration 8 and concave configuration 9 self reach and be arranged in parallel each other.
Feature of the present invention is that also the template 3 of the side form face 1 of described formpiston is connected with hemming die panel 11.Figure 15 is the structural representation of the embodiment of the invention 15, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the template 3 of the side form face 1 of its described formpiston also is connected with hemming die panel 11.
Feature of the present invention is that also described template 3 is provided with thickness stopping means 12.As shown in figure 15, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the template 3 of the side form face 1 of formpiston also is connected with hemming die panel 11, also is provided with thickness stopping means 12 on its described template 3.
Feature of the present invention is that also the inwall of the template 3 of the template 3 of side form face 1 of described formpiston or lower die face 2 is provided with the stiffener 13 of formpiston.Figure 16 is the structural representation of the embodiment of the invention 16, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the inwall of the template 3 of the side form face 1 of its described formpiston is provided with the stiffener 13 of formpiston.
Feature of the present invention also is at least a in angle steel, band iron, channel-section steel, reinforcing bar or the wooden a tree, used in making timber for boats of described stiffener 13.As shown in figure 16, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the inwall of the template 3 of the side form face 1 of formpiston is provided with the stiffener 13 of formpiston, and its described stiffener 13 is a band iron.
Feature of the present invention is that also described formpiston is provided with bracing frame 14.Figure 17 is the structural representation of the embodiment of the invention 17, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, also is provided with bracing frame 14 on its described formpiston.
Feature of the present invention is that also the die face on the described at least one template 3 is at least a in plane, folding face or the curved surface.As shown in figure 18, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the die face on the template 3 of its described side form face 1 is a curved surface.
Feature of the present invention also is the disposable template of described at least one template 3 for serving as the shuttering member parts.Figure 18 is the structural representation of the embodiment of the invention 18, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the template 3 of its described lower die face 2 is served as the disposable template of shuttering member parts.
Feature of the present invention is that also at least one template 3 in the described formpiston is topotype or platform mould.Figure 19 is the structural representation of the embodiment of the invention 19, side form face 1 and lower die face 2 surround formpiston, the side form face 1 and the lower die face 2 of formpiston are made of template 3, formpiston is made up of 3 amalgamations of polylith template, template 3 is in the rotation angle position amalgamation of die face, rotation angle position in amalgamation is provided with split unit 4, and the lower die face 2 of its described formpiston is a topotype.
During the invention process, can adopt steel sheet or sheet materials such as iron sheet or tin plate or engineering plastics, model, specification blanking according to shuttering member, make side form face 1 and lower die face 2 template used 3, with reinforcement materials such as angle steel, band steels each die face is strengthened then, rotation angle position in die face installs split unit 4 then, and the template 3 that will form side form face 1 and lower die face 2 with split unit 4 is connected amalgamation, get final product described mould.
Claims (32)
1. die-shell component forming die, comprise side form face (1), lower die face (2), side form face (1) and lower die face (2) surround formpiston, the side form face (1) and the lower die face (2) that it is characterized in that described formpiston are made of template (3), formpiston is made up of at least two templates (3) amalgamation, template (3) is in the rotation angle position amalgamation of die face, is provided with split unit (4) at the rotation angle position of amalgamation.
2. a kind of die-shell component forming die according to claim 1 is characterized in that the rotation angle position of described amalgamation is arranged on the rotation angle position of side form face (1).
3. a kind of die-shell component forming die according to claim 1 is characterized in that the rotation angle position of described amalgamation is arranged on the rotation angle position of side form face (1) and lower die face (2).
4. a kind of die-shell component forming die according to claim 1 is characterized in that described side form face (1) is by two, three, four, six, eight, ten or 12 templates (3) formation.
5. a kind of die-shell component forming die according to claim 1 is characterized in that described lower die face (2) is at least one template (3).
6. a kind of die-shell component forming die according to claim 1 is characterized in that described split unit (4) is at least one in linkage (5) or take-up (6) or the positioner (7).
7. a kind of die-shell component forming die according to claim 6 is characterized in that at least a in hinge, film, tongue and groove or the tenon of described linkage (5).
8. a kind of die-shell component forming die according to claim 6 is characterized in that described linkage (5) is a hinge.
9. a kind of die-shell component forming die according to claim 6 is characterized in that described linkage (5) is the latch hinge.
10. a kind of die-shell component forming die according to claim 6 is characterized in that at least a in bolt, camlock, latch, sliding sleeve, draw-in groove, cutting ferrule or the iron wire of described take-up (6).
11. a kind of die-shell component forming die according to claim 6 is characterized in that at least a in locating hole, alignment pin, locating slot, positioning step or the locating piece of described positioner (7).
12. a kind of die-shell component forming die according to claim 1 is characterized in that the rotation angle position of described die face is provided with convex configuration (8) or concave configuration (9).
13. a kind of die-shell component forming die according to claim 12 is characterized in that described convex configuration (8) is raised line or projection or nose bar.
14. a kind of die-shell component forming die according to claim 12 is characterized in that at least a in groove, pit, pothole, seam or the hole of described concave configuration (9).
15. a kind of die-shell component forming die according to claim 1 is characterized in that the rotation angle position of described die face is set to chamfer.
16. a kind of die-shell component forming die according to claim 1 is characterized in that the rotation angle position of described die face is set to the curve transition face.
17. a kind of die-shell component forming die according to claim 1 is characterized in that the rotation angle position of described die face is set to arc transiting surface.
18. a kind of die-shell component forming die according to claim 1 is characterized in that described split unit (4) is dismountable split unit.
19. a kind of die-shell component forming die according to claim 18 is characterized in that described dismountable split unit (4) is telescopic split unit.
20. a kind of die-shell component forming die according to claim 18 is characterized in that described telescopic split unit (4) is the telescopic split unit of umbrella.
21. a kind of die-shell component forming die according to claim 1, the side form face (1) that it is characterized in that at least one side of described formpiston has at least two templates that can relatively move (3), regulates mobile by the mobile device (10) that is arranged on the formpiston between the template (3).
22. a kind of die-shell component forming die according to claim 1 is characterized in that the lower die face (2) of described formpiston has at least two templates that can relatively move (3), regulates mobile by the mobile device (10) that is arranged on the formpiston between the template (3).
23. a kind of die-shell component forming die according to claim 1, at least one that it is characterized in that described side form face (1) or lower die face (2) are provided with at least a at least one convex configuration (8) or the concave configuration (9).
24. a kind of die-shell component forming die according to claim 23 is characterized in that described convex configuration (8) or concave configuration (9) self or parallel each other or crossing or grade separation setting.
25. a kind of die-shell component forming die according to claim 1 is characterized in that the template (3) of the side form face (1) of described formpiston is connected with hemming die panel (11).
26. a kind of die-shell component forming die according to claim 1 is characterized in that described template (3) is provided with thickness stopping means (12).
27. a kind of die-shell component forming die according to claim 1 is characterized in that the inwall of the template (3) of the template (3) of side form face (1) of described formpiston or lower die face (2) is provided with the stiffener (13) of formpiston.
28. a kind of die-shell component forming die according to claim 27 is characterized in that at least a in angle steel, band iron, channel-section steel, reinforcing bar or the wooden a tree, used in making timber for boats of described stiffener (13).
29. a kind of die-shell component forming die according to claim 1 is characterized in that described formpiston is provided with bracing frame (14).
30. a kind of die-shell component forming die according to claim 1 is characterized in that die face on the described at least one template (3) is at least a in plane, folding face or the curved surface.
31. a kind of die-shell component forming die according to claim 1 is characterized in that the disposable template of described at least one template (3) for serving as the shuttering member parts.
32. a kind of die-shell component forming die according to claim 1 is characterized in that at least one template (3) in the described formpiston is topotype or platform mould.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB200410005693XA CN100414065C (en) | 2004-02-27 | 2004-02-27 | Forming die for component of die body |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB200410005693XA CN100414065C (en) | 2004-02-27 | 2004-02-27 | Forming die for component of die body |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN1661179A CN1661179A (en) | 2005-08-31 |
| CN100414065C true CN100414065C (en) | 2008-08-27 |
Family
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CNB200410005693XA Expired - Fee Related CN100414065C (en) | 2004-02-27 | 2004-02-27 | Forming die for component of die body |
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| Country | Link |
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| CN (1) | CN100414065C (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN115370142B (en) * | 2022-08-29 | 2023-08-15 | 晟通科技集团有限公司 | Form assembly |
Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB292425A (en) * | 1927-12-23 | 1928-06-21 | Edward William Roberts | Improvements in or relating to the casting or formation of bodies having hollow passages |
| GB1211883A (en) * | 1967-11-14 | 1970-11-11 | Wilson Edwin Haas | Mould apparatus for hollow building elements |
| JPH06226724A (en) * | 1993-01-29 | 1994-08-16 | Minoru Toyoda | Inner mold for cylindrical concrete molded product |
| CN2207418Y (en) * | 1994-02-25 | 1995-09-13 | 中国建筑第一工程局建筑科学研究所 | Block pouring shaping and automatic demoulding form for box-like room member |
| JPH08302998A (en) * | 1995-04-28 | 1996-11-19 | Daiwa House Ind Co Ltd | Form material for casing mortar |
| CN2374320Y (en) * | 1999-06-22 | 2000-04-19 | 林财火 | Inner wall form for pouring concrete loudspeaker box |
| DE10146818A1 (en) * | 2000-09-23 | 2002-07-11 | Schattmann Andreas | Reusable form insert to form recess in concrete, etc., for heating, ventilation and installation conductors; has hinge parts of galvanised steel plate that can be assembled and secured with bolts |
| JP2003039419A (en) * | 2001-08-02 | 2003-02-13 | Hiroyoshi Iwamoto | Form for cylindrical concrete product and method for manufacturing cylindrical concrete product |
-
2004
- 2004-02-27 CN CNB200410005693XA patent/CN100414065C/en not_active Expired - Fee Related
Patent Citations (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| GB292425A (en) * | 1927-12-23 | 1928-06-21 | Edward William Roberts | Improvements in or relating to the casting or formation of bodies having hollow passages |
| GB1211883A (en) * | 1967-11-14 | 1970-11-11 | Wilson Edwin Haas | Mould apparatus for hollow building elements |
| JPH06226724A (en) * | 1993-01-29 | 1994-08-16 | Minoru Toyoda | Inner mold for cylindrical concrete molded product |
| CN2207418Y (en) * | 1994-02-25 | 1995-09-13 | 中国建筑第一工程局建筑科学研究所 | Block pouring shaping and automatic demoulding form for box-like room member |
| JPH08302998A (en) * | 1995-04-28 | 1996-11-19 | Daiwa House Ind Co Ltd | Form material for casing mortar |
| CN2374320Y (en) * | 1999-06-22 | 2000-04-19 | 林财火 | Inner wall form for pouring concrete loudspeaker box |
| DE10146818A1 (en) * | 2000-09-23 | 2002-07-11 | Schattmann Andreas | Reusable form insert to form recess in concrete, etc., for heating, ventilation and installation conductors; has hinge parts of galvanised steel plate that can be assembled and secured with bolts |
| JP2003039419A (en) * | 2001-08-02 | 2003-02-13 | Hiroyoshi Iwamoto | Form for cylindrical concrete product and method for manufacturing cylindrical concrete product |
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| Publication number | Publication date |
|---|---|
| CN1661179A (en) | 2005-08-31 |
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