CN203863979U - Die component for manufacturing air blowing pipelines for cables - Google Patents

Abstract

The utility model relates to a die component for manufacturing air blowing pipelines for cables. The die component is characterized by comprising a die core, a die cover and a plunger body, wherein the die core comprises a die core convex body and a die core groove; the die core convex body and the die core groove are arranged at an interval to form a cylindrical body with a die core cavity; one end of the cylindrical body is closed; a die core connector is formed on the outer side of the closed end; a die core connecting hole is formed in the die core connector; the die cover comprises a die cover body; a die cover cavity is formed in the die cover body; an injection hole is formed in the die cover body; the plunger body comprises a plunger and a plunger connector; when the air blowing pipelines for cables are manufactured, the die cover is positioned outside the die core, the die core is positioned in the die cover cavity, one part of the plunger body is positioned in the die core cavity, the other part of the plunger body extends out of the die core cavity, the die core convex body is not in contact with the inner wall of the die cover cavity, and the die core cavity does not exceed the end cover of the die cover. The die component has the following main benefits: the die has a simple structure, and is easy to manufacture, wear-resistant and easy to use, and the air blowing pipeline manufactured through the die component has stable quality, and is reliable and torsion-resistant.

Description

A kind of die assembly of using air-blowing pipeline for the manufacture of cable

Technical field

The utility model belongs to mould and pipe technology field, especially relates to a kind of die assembly of using air-blowing pipeline for the manufacture of cable.

Background technology

Along with the develop rapidly of the industries such as electric power, communication, the amount of laying of cable is more and more, and on the one hand, because in the past a large amount of cables adopts built on stilts laying, therefore, aerial cable is very in disorder, has affected city look and feel, meanwhile, has brought great potential safety hazard; For this reason, country has promulgated corresponding law, rules and instruction, need to adopt into the mode on ground and lay for cable.Cable mainly contains poling and direct-buried mode in underground laying, and direct-buried mode need to be dug ground, and needs multiple tracks examination and approval procedures, therefore, cumbersome; For this reason, pipeline laying mode will be after the principal mode of underground laying.

In the underground larger caliber pipeline having laid, the cable of and smooth in appearance less for diameter, while having sufficient space in pipeline, can directly carry out tractive lays, but, tractive cable laying operation progress affects the quality of cable more slowly and easily, especially optical cable, once the quality of cable is impaired in construction, just very huge by the cost of cable taking-up or restorability.

For larger city, existing cable pipeline resource pretty nervous, rents the pipeline of the about 18mm diameter of 1KM conventionally, and annual price is 200,000 yuan of left and right, therefore, quite expensive; Nonetheless, also have the Ji Fei operator of operator in a lot of areas because renting the progress that affects engineering less than conduit resource, what even have can only abandon original engineering.

For this reason, in industry, expect to there is good solution, can be at the underground pipeline that has excess room; And the mould that produces air-blowing pipeline.

Summary of the invention

In order to address the above problem, the purpose of this utility model is to disclose a kind of die assembly of using air-blowing pipeline for the manufacture of cable, and it is realized by the following technical solutions.

A die assembly for the manufacture of cable with air-blowing pipeline, is characterized in that it includes core rod, die cap, plunger body, core rod includes core rod convex body 22, the core rod groove 21 between adjacent core rod convex body, core rod convex body and core rod groove space form the column of the mold core cavities 23 with hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector 25, core rod connector inside have-core rod connecting hole 24, die cap has die cap body 31, and die cap body interior is the die cap chamber 4 of hollow, has the injecting hole 32 connecting to die cap chamber on die cap body, and the inwall of die cap is cylindrical shape, plunger body includes plunger 11 and is positioned at the plunger connector 12 of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap.

A die assembly for the manufacture of cable with air-blowing pipeline, is characterized in that it includes core rod, die cap, plunger body, core rod includes core rod convex body 22, the core rod groove 21 between adjacent core rod convex body, core rod convex body and core rod groove space and below are continuous core rod inner wall 26, core rod body inwall below is for having the column of the mold core cavities 23 of hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector 25, core rod connector inside have-core rod connecting hole 24, die cap has die cap body 31, and die cap body interior is the die cap chamber 4 of hollow, has the injecting hole 32 connecting to die cap chamber on die cap body, plunger body includes plunger 11 and is positioned at the plunger connector 12 of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that having at least one die cap groove 33 on the inwall of die cap.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod groove is triangular prism shape or arc column shape or trapezoidal column shape.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod convex body is triangular prism shape or other suitable shape.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod groove is parallel to each other.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod convex body is parallel to each other.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod, die cap, plunger body are all integral structures.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod connecting hole inwall has internal thread; Described core rod connector outer surface has thread.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, and the material that it is characterized in that described core rod is steel or pottery, and the material of die cap is steel or pottery, and the material of plunger body is steel or pottery.

Principle of the present utility model is such: when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap, extrusion molding machine is outputed, and air-blowing pipeline is melted with material, the material melting injects injecting hole continuously, and enter in die cap chamber, and fill with die cap chamber, because injection hole pressure is larger, therefore, the material melting can only overflow from die cap chamber, because the one end in die cap chamber is fixed on extrusion molding machine and closes envelope, therefore can only overflow in another port, die cap chamber, because another port temperature is lower, normally pass through the cooling and water cooling of air, cooling rear rapid crystallization, by traction, formed cable air-blowing pipeline like this, the air-blowing pipeline forming has air-blowing tube body, on air-blowing tube body, there is air-blowing pipe convex body and air-blowing pipe guiding gutter, centre is formed with air-blowing tube passage.

Certainly, while thering is die cap groove on the inwall of die cap, on the air-blowing pipeline forming, there is projecting member, when further forming compound air-blowing pipeline, during extrusion molding, projecting member is embedded in air-blowing pipe outer tube body, make like this ectonexine of air-blowing pipe in conjunction with more firm, more easily form integral structure, in this case, do not need other sticky gelatin substance that air-blowing pipeline and air-blowing pipe outer tube body are bondd; And while there is no projecting member, adopt bonding mode can make structure more stable, and two-layerly when construction, coiling do not depart from, when construction, can not produce extra air-blowing resistance.

Plunger body is cylindrical shape, and the plunger connector of plunger body is fixed on the core rod connecting hole of core rod, therefore, has guaranteed the formation of the air-blowing tube passage of air-blowing pipeline; In addition, plunger body stretches out the end face of mold core cavities without one end of plunger, due to during fabrication, the head of extrusion molding machine has a segment distance to distance between bosh, therefore having formed the mode that extrudes of pull-tube type during actual production, is also smaller than the head place of extrusion molding machine of the appearance and size of air-blowing pipeline at bosh place, like this, make to there is air-blowing pipe convex body and air-blowing pipe guiding gutter on the air-blowing tube body of air-blowing pipeline, and formed air-blowing pipeline is desired shape; When core rod convex body and core rod groove space and below are continuous core rod inner wall, formed cable just can be relatively thick with the wall of the air-blowing tube body of air-blowing pipeline.

The utlity model has following main beneficial effect: simple, the easy making of mould structure, wear-resisting, easily use; Stable, reliable, resistance to the turning round of air-blowing pipeline quality of manufacturing.

Accompanying drawing explanation

Fig. 1 is the perspective view after assembling of the utility model embodiment 1.

Fig. 2 is the cross-sectional structure schematic diagram of Fig. 1 after amplify at injecting hole 32 places.

Fig. 3 is for adopting the perspective view after a section of air-blowing pipeline of the die assembly manufacture of Fig. 1 is cut open.

Fig. 4 is the cross-sectional structure schematic diagram after Fig. 3 amplifies.

Fig. 5 is the perspective view of the core rod of the utility model embodiment 2.

Fig. 6 is the cross-sectional structure schematic diagram after Fig. 5 amplifies.

Fig. 7 is the perspective view of the core rod of the utility model embodiment 3.

Fig. 8 is the cross-sectional structure schematic diagram after amplify at injecting hole place after the die assembly of embodiment 3 is assembled.

Fig. 9 is the perspective view after a section of air-blowing pipeline of the die assembly manufacture of embodiment 3 is cut open.

Figure 10 is the cross-sectional structure schematic diagram after Fig. 9 amplifies.

Figure 11 is the perspective view of the core rod of the utility model embodiment 4.

Figure 12 is the cross-sectional structure schematic diagram after Figure 11 amplifies.

Figure 13 is the perspective view of the die cap of the utility model embodiment 4.

Figure 14 is the front view after Figure 13 amplifies.

Figure 15 is the perspective view after assembling of the utility model embodiment 4.

Figure 16 is the front view after Figure 15 amplifies.

Figure 17 is the die assembly of employing Figure 15, the perspective view after a section of the air-blowing pipeline of manufacturing after the obstruction of die cap groove is cut open.

Figure 18 is the cross-sectional structure schematic diagram after Figure 17 amplifies.

Figure 19 is in the utility model embodiment 5, the perspective view after adopting a section of the air-blowing pipeline that produces after the core rod of embodiment 2 and the die cap of embodiment 4 to cut open.

Figure 20 is the cross-sectional structure schematic diagram after Figure 19 amplifies.

Figure 21 is the utility model embodiment 6, is embodiment 5 is done to further processing the perspective view after a section of the air-blowing pipeline of manufacture is cut open.

The specific embodiment

For making those skilled in the art can understand more accurately the application, now the mark of the accompanying drawing relating in the utility model is explained as follows: 11-plunger, 12-plunger connector, 21-core rod groove, 22-core rod convex body, 23-mold core cavities, 24-core rod connecting hole, 25-core rod connector, 26-core rod inner wall, 31-die cap body, 32-injecting hole, 33-die cap groove, 4-die cap chamber, 5-air-blowing tube body, 211-air-blowing pipe convex body, 221-air-blowing pipe guiding gutter, 231-air-blowing tube passage, 6-projecting member, 7-air-blowing pipe outer tube body.

embodiment 1

Ask for an interview Fig. 1 to Fig. 4, a kind of die assembly of using air-blowing pipeline for the manufacture of cable, is characterized in that it includes core rod, die cap, plunger body, core rod includes core rod convex body 22, the core rod groove 21 between adjacent core rod convex body, core rod convex body and core rod groove space form the column of the mold core cavities 23 with hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector 25, core rod connector inside have-core rod connecting hole 24, die cap has die cap body 31, and die cap body interior is the die cap chamber 4 of hollow, has the injecting hole 32 connecting to die cap chamber on die cap body, and the inwall of die cap is cylindrical shape, plunger body includes plunger 11 and is positioned at the plunger connector 12 of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap.

The die assembly with air-blowing pipeline for the manufacture of cable described above, is characterized in that described core rod groove is triangular prism shape.

The die assembly with air-blowing pipeline for the manufacture of cable described above, is characterized in that described core rod convex body is triangular prism shape.

The die assembly with air-blowing pipeline for the manufacture of cable described above, is characterized in that described core rod groove is parallel to each other.

The die assembly with air-blowing pipeline for the manufacture of cable described above, is characterized in that described core rod convex body is parallel to each other.

The die assembly with air-blowing pipeline for the manufacture of cable described above, is characterized in that described core rod, die cap, plunger body are integral structures.

The die assembly with air-blowing pipeline for the manufacture of cable described above, is characterized in that described core rod connecting hole inwall has internal thread; Described core rod connector outer surface has thread.

The die assembly with air-blowing pipeline for the manufacture of cable described above, the material that it is characterized in that described core rod is steel, and the material of die cap is steel, and the material of plunger body is steel.

The principle of this embodiment is such: when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap, extrusion molding machine is outputed, and air-blowing pipeline is melted with material, the material melting injects injecting hole continuously, and enter in die cap chamber, and fill with die cap chamber, because injection hole pressure is larger, therefore, the material melting can only overflow from die cap chamber, because the one end in die cap chamber is fixed on extrusion molding machine and closes envelope, therefore can only overflow in another port, die cap chamber, because another port temperature is lower, normally pass through the cooling and water cooling of air, preferably from extrusion head, starting a bit of is that air is cooling, then enter water cooling, cooling rear rapid crystallization, by traction, formed cable air-blowing pipeline like this, the air-blowing pipeline forming has air-blowing tube body 5, on air-blowing tube body, there is air-blowing pipe convex body 211 and air-blowing pipe guiding gutter 221, centre is formed with air-blowing tube passage 231.

Plunger body is cylindrical shape, and the plunger connector of plunger body is fixed on the core rod connecting hole of core rod, therefore, has guaranteed the formation of the air-blowing tube passage of air-blowing pipeline; In addition, plunger body stretches out the end face of mold core cavities without one end of plunger, due to during fabrication, the head of extrusion molding machine has a segment distance to distance between bosh, therefore having formed the mode that extrudes of pull-tube type during actual production, is also smaller than the head place of extrusion molding machine of the appearance and size of air-blowing pipeline at bosh place, like this, make to there is air-blowing pipe convex body and air-blowing pipe guiding gutter on the air-blowing tube body of air-blowing pipeline, and formed air-blowing pipeline is desired shape.

embodiment 2

Ask for an interview Fig. 5, Fig. 6 and referring to figs. 1 to Fig. 4, a kind of die assembly of using air-blowing pipeline for the manufacture of cable, substantially with embodiment 1, difference is: core rod convex body and core rod groove space and below are continuous core rod inner wall 26, core rod body inwall below is for having the column of the mold core cavities 23 of hollow, formed cable is just relatively thick with the wall of the air-blowing tube body of air-blowing pipeline, and air-blowing pipeline is more solid, but material consumption is relatively many; The material of described core rod, die cap, plunger body is all pottery; Because pottery has high temperature resistant, wear-resistant, acid and alkali-resistance, easy cleaning texts, therefore, die assembly is quite durable in use, use 200 times after still resemble new, and just there is larger wear phenomenon in the die assembly that adopts Steel material to make after using more than 10 time.

embodiment 3

Ask for an interview Fig. 7 to Figure 10, a kind of die assembly of using air-blowing pipeline for the manufacture of cable, substantially with embodiment 2, difference is: described core rod convex body is arc column shape, core rod groove is approximate trapezoid post shapes, the air-blowing pipe guiding gutter of the air-blowing pipeline that this mode forms is larger, during air-blowing, can bear higher pressure, and air-blowing speed is faster.

embodiment 4

Ask for an interview Figure 11 to Figure 18, a kind of die assembly of using air-blowing pipeline for the manufacture of cable, is characterized in that it includes core rod, die cap, plunger body, core rod includes core rod convex body 22, the core rod groove 21 between adjacent core rod convex body, core rod convex body and core rod groove space and below are continuous core rod inner wall 26, core rod body inwall below is for having the column of the mold core cavities 23 of hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector 25, core rod connector inside have-core rod connecting hole 24, die cap has die cap body 31, and die cap body interior is the die cap chamber 4 of hollow, has the injecting hole 32 connecting to die cap chamber on die cap body, plunger body includes plunger 11 and is positioned at the plunger connector 12 of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap, on the inwall of die cap, there is a die cap groove 33.

Principle repeats no more with embodiment 1, on inwall due to die cap, there is die cap groove, therefore there is projecting member on the air-blowing pipeline forming, when further forming compound air-blowing pipeline, during extrusion molding, projecting member is embedded in air-blowing pipe outer tube body, make like this ectonexine of air-blowing pipe in conjunction with more firm, more easily form integral structure, in this case, do not need other sticky gelatin substance that air-blowing pipeline and air-blowing pipe outer tube body are bondd; And while there is no projecting member, adopt bonding mode can make structure more stable, and two-layerly when construction, coiling do not depart from, when construction, can not produce extra air-blowing resistance.

Obviously, in the cable described above die assembly with air-blowing pipeline, the inwall upper mould cover groove 33 of described die cap can be for a plurality of.

Certainly, when producing cable with air-blowing pipeline, can adopt shutoff components and parts to block die cap groove, produce the cable air-blowing pipeline as shown in Figure 17,18, make like this purposes of die assembly wider.

embodiment 5

Asking for an interview Figure 19 to Figure 20, is the perspective view after adopting a section of the air-blowing pipeline that produces after the core rod of embodiment 2 and the die cap of embodiment 4 to cut open; This cable has a projecting member 6 that protrudes from air-blowing tube body 5 with air-blowing pipeline; The existence of projecting member, can make air-blowing pipeline locate better.

Certainly, projecting member can also be for a plurality of, or are other shape.

embodiment 6

Asking for an interview Figure 21, and reference implementation example 4-embodiment 5, is that embodiment 5 is done to further processing, the perspective view after a section of the air-blowing pipeline of manufacture is cut open; On the inwall of die cap, there is die cap groove, on the air-blowing pipeline forming, there is projecting member, when further forming compound air-blowing pipeline, during extrusion molding, projecting member is embedded in air-blowing pipe outer tube body 7, makes like this ectonexine of air-blowing pipe in conjunction with more firm, more easily forms integral structure, in this case, do not need other sticky gelatin substance that air-blowing pipeline and air-blowing pipe outer tube body are bondd; And while there is no projecting member, adopt bonding mode can make structure more stable, and two-layerly when construction, coiling do not depart from, when construction, can not produce extra air-blowing resistance.

Certainly, the die assembly with air-blowing pipeline for the manufacture of cable in above-mentioned embodiment 2-5, it also can include core rod, die cap, plunger body, core rod includes a plurality of core rod convex bodies 22, the core rod groove 21 between adjacent core rod convex body, core rod convex body and core rod groove space form the column of the mold core cavities 23 with hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector 25, core rod connector inside have-core rod connecting hole 24, die cap has die cap body 31, and die cap body interior is the die cap chamber 4 of hollow, has the injecting hole 32 connecting to die cap chamber on die cap body, and the inwall of die cap is cylindrical shape, plunger body includes plunger 11 and is positioned at the plunger connector 12 of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap.

Certainly, the die assembly with air-blowing pipeline for the manufacture of cable in above-mentioned embodiment 1-3, it also can include core rod, die cap, plunger body, core rod includes core rod convex body 22, the core rod groove 21 between adjacent core rod convex body, core rod convex body and core rod groove space and below are continuous core rod inner wall 26, core rod body inwall below is for having the column of the mold core cavities 23 of hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector 25, core rod connector inside have-core rod connecting hole 24, die cap has die cap body 31, and die cap body interior is the die cap chamber 4 of hollow, has the injecting hole 32 connecting to die cap chamber on die cap body, plunger body includes plunger 11 and is positioned at the plunger connector 12 of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that all can having at least one die cap groove 33 on the inwall of die cap.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod groove part can be triangular prism shape or arc column shape or trapezoidal column shape.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod convex body can be triangular prism shape or other suitable shape.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod groove is parallel to each other.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod convex body is parallel to each other.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod, die cap, plunger body are all integral structures.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that described core rod connecting hole inwall can also have internal thread; Described core rod connector outer surface also can have thread simultaneously.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that the material of described core rod, die cap, plunger body all can be steel or pottery.

Described above any one be the die assembly with air-blowing pipeline for the manufacture of cable, it is characterized in that the outward flange of all core rod convex bodies is on same cylindrical side; For the cable that this structure produces, in air-blowing pipeline symmetry, Stability Analysis of Structures, construction, there will not be weight inequality and produce free rolling phenomenon.

Principle of the present utility model is such: when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap, extrusion molding machine is outputed, and air-blowing pipeline is melted with material, the material melting injects injecting hole continuously, and enter in die cap chamber, and fill with die cap chamber, because injection hole pressure is larger, therefore, the material melting can only overflow from die cap chamber, because the one end in die cap chamber is fixed on extrusion molding machine and closes envelope, therefore can only overflow in another port, die cap chamber, because another port temperature is lower, normally pass through the cooling and water cooling of air, cooling rear rapid crystallization, by traction, formed cable air-blowing pipeline like this, the air-blowing pipeline forming has air-blowing tube body, on air-blowing tube body, there is air-blowing pipe convex body and air-blowing pipe guiding gutter, centre is formed with air-blowing tube passage.

Certainly, while thering is die cap groove on the inwall of die cap, on the air-blowing pipeline forming, there is projecting member, when further forming compound air-blowing pipeline, during extrusion molding, projecting member is embedded in air-blowing pipe outer tube body, make like this ectonexine of air-blowing pipe in conjunction with more firm, more easily form integral structure, in this case, do not need other sticky gelatin substance that air-blowing pipeline and air-blowing pipe outer tube body are bondd; And while there is no projecting member, adopt bonding mode can make structure more stable, and two-layerly when construction, coiling do not depart from, when construction, can not produce extra air-blowing resistance.

Plunger body is cylindrical shape, and the plunger connector of plunger body is fixed on the core rod connecting hole of core rod, therefore, has guaranteed the formation of the air-blowing tube passage of air-blowing pipeline; In addition, plunger body stretches out the end face of mold core cavities without one end of plunger, due to during fabrication, the head of extrusion molding machine has a segment distance to distance between bosh, therefore having formed the mode that extrudes of pull-tube type during actual production, is also smaller than the head place of extrusion molding machine of the appearance and size of air-blowing pipeline at bosh place, like this, make to there is air-blowing pipe convex body and air-blowing pipe guiding gutter on the air-blowing tube body of air-blowing pipeline, and formed air-blowing pipeline is desired shape; When core rod convex body and core rod groove space and below are continuous core rod inner wall, formed cable just can be relatively thick with the wall of the air-blowing tube body of air-blowing pipeline.

Certainly, the utility model in use, can adopt the technology of shutoff completely, and part core rod groove or whole core rod groove are carried out to shutoff, like this, when the cable of producing same size is used air-blowing pipeline, can control selectively the quantity of core rod groove.

The utlity model has following main beneficial effect: simple, the easy making of mould structure, wear-resisting, easily use; Stable, reliable, resistance to the turning round of air-blowing pipeline quality of manufacturing.

The utility model is not limited to above-mentioned preferred forms, should be appreciated that design of the present utility model can be by other various forms enforcement utilizations, and they drop in protection domain of the present utility model equally.

Claims (10)

1. the die assembly with air-blowing pipeline for the manufacture of cable, is characterized in that it includes core rod, die cap, plunger body, core rod includes core rod convex body (22), the core rod groove (21) between adjacent core rod convex body, core rod convex body and core rod groove space form the column of the mold core cavities (23) with hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector (25), core rod connector inside have-core rod connecting hole (24), die cap has die cap body (31), and die cap body interior is the die cap chamber (4) of hollow, has the injecting hole (32) connecting to die cap chamber on die cap body, and the inwall of die cap is cylindrical shape, plunger body includes plunger (11) and is positioned at the plunger connector (12) of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap, described core rod, die cap, plunger body are all integral structures.

2. the die assembly with air-blowing pipeline for the manufacture of cable, is characterized in that it includes core rod, die cap, plunger body, core rod includes core rod convex body (22), the core rod groove (21) between adjacent core rod convex body, core rod convex body and core rod groove space and below are continuous core rod inner wall (26), core rod body inwall below is for having the column of the mold core cavities (23) of hollow, one end of this column is sealed, and the outside of this blind end has a core rod connector (25), core rod connector inside have-core rod connecting hole (24), die cap has die cap body (31), and die cap body interior is the die cap chamber (4) of hollow, has the injecting hole (32) connecting to die cap chamber on die cap body, plunger body includes plunger (11) and is positioned at the plunger connector (12) of plunger one end, when manufacturing cable with air-blowing pipeline, core rod is arranged on the head of extrusion molding machine by core rod connector, die cap is fixedly mounted on the head of extrusion molding machine by one end of die cap body, and die cap is positioned at core rod outside, core rod is positioned at die cap chamber, the plunger connector of plunger body is fixed in the core rod connecting hole of core rod, a part for the plunger of plunger body is arranged in mold core cavities, plunger body stretches out the end face of mold core cavities without one end of plunger, core rod convex body and die cap cavity wall are discontiguous, the end face of the other end of the column of mold core cavities does not exceed the end face of the other end of die cap, described core rod, die cap, plunger body are all integral structures.

According to claim 1 or claimed in claim 2 a kind of for the manufacture of cable the die assembly with air-blowing pipeline, it is characterized in that thering is at least one die cap groove (33) on the inwall of die cap.

4. a kind of die assembly of using air-blowing pipeline for the manufacture of cable according to claim 3, is characterized in that described core rod groove is triangular prism shape or arc column shape or trapezoidal column shape.

5. a kind of die assembly of using air-blowing pipeline for the manufacture of cable according to claim 4, is characterized in that described core rod convex body is triangular prism shape or arc column shape or trapezoidal column shape.

6. a kind of die assembly of using air-blowing pipeline for the manufacture of cable according to claim 5, is characterized in that described core rod groove is parallel to each other.

7. a kind of die assembly of using air-blowing pipeline for the manufacture of cable according to claim 6, is characterized in that described core rod convex body is parallel to each other.

8. according to claim 1 or a kind of die assembly of using air-blowing pipeline for the manufacture of cable claimed in claim 2, it is characterized in that described core rod connecting hole inwall has internal thread; Described core rod connector outer surface has thread.

9. according to claim 1 or a kind of die assembly of using air-blowing pipeline for the manufacture of cable claimed in claim 2, the material that it is characterized in that described core rod is steel or pottery, and the material of die cap is steel or pottery, and the material of plunger body is steel or pottery.

10. a kind of die assembly of using air-blowing pipeline for the manufacture of cable according to claim 7, is characterized in that the outward flange of all core rod convex bodies is on same cylindrical side.