CN105036524A - Combined glass mold for processing glass containers - Google Patents
Combined glass mold for processing glass containers Download PDFInfo
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- CN105036524A CN105036524A CN201510514216.4A CN201510514216A CN105036524A CN 105036524 A CN105036524 A CN 105036524A CN 201510514216 A CN201510514216 A CN 201510514216A CN 105036524 A CN105036524 A CN 105036524A
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- Prior art keywords
- die sleeve
- core rod
- air deflector
- mold
- circular arc
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Abstract
The invention relates to a combined glass mold for processing glass containers, belonging to the technical field of glass molds. The combined glass mold for processing glass containers comprises a pair of half molds, wherein each half mold comprises a mold core and a mold sleeve which are connected in a detachable way. The glass mold is characterized in that each half mold also comprises an air deflector which is arranged on the mold sleeve; the air deflector is provided with an air deflector transverse ventilation slot and an air deflector ventilation hole; and the mold sleeve is provided with a mold sleeve air inlet and an air exhaust chamber. The mold core can be made of the noble metal material, and the mold sleeve is made of cast iron, thereby saving the noble metal resources and displaying the economical efficiency. The mold core and mold sleeve can adopt different materials, thereby ensuring the service life of the mold core and obviously lowering the manufacturing cost of the mold. The air deflector is arranged, and the mold sleeve is composed of the mold sleeve air inlet and air exhaust chamber, thereby avoiding the influence on heat dissipation of the mold core due to the arrangement of the mold sleeve. When the mold core is rejected, the mold sleeve can still be reused.
Description
Technical field
The invention belongs to technical field of glass dies, be specifically related to a kind of combination type glass mould of processing glass container.
Background technology
Above mentioned combination type glass mould comprises blank mould and shaping mould.Known processing glass container is (as Beer Bottle, red wine bottle, pop bottle, daily life bottle for cosmetics, apothecary jar and all kinds of Drinking bottle, etc.) glass mold used is generally symmetrical two-half die structure, the mould of Glass Containers can be made see Chinese patent application publication No. CN101298355A() to this, CN101298356A(makes the mould of Glass Containers), the mould of CN101298357A(processing glass container), the mould of a CN101298358A(Glass Containers processing), CN101298359A(mould for processing glass container), CN101941791A(makes the mould of Bottle & Can class Glass Containers), Authorization Notice No. CN102515471B(is for the manufacture of the mould of Bottle & Can class Glass Containers) and US Patent No. 2006/0213632A1(glass-forming die), etc..
Although the glass mold of above-mentioned two-half die structure can meet the requirement making Bottle & Can class Glass Containers, but there is following logical fraud: one, due to the singularity of glass mold environment for use, should consider that glass mold material is embodied good antioxidant anticorrosive, anti-growth performance, take into account excellent antifatigue and the performance of bearing thermal shock again, also need to meet desirable heat dispersion, etc., thus make the price of complete glass mold higher, particularly those glass molds under high machine speed (the bottle speed processed of bottle-making machine) environment of being on active service, the material of usual use copper-silicon alloy and so on, thus the price making glass mold costly, its two, in order to avoid in use there is metamorphism, thus the wall thickness of glass mold is thicker, so when helplessly its entirety being scrapped when employing a reasonable time, easily cause the wasting of resources, its three, expensive due to glass mold, thus causes the price of the Glass Containers produced by it also corresponding higher, its four, because difficulty of processing is large, thus to a certain extent manufacture efficiency is had an impact.
Adopt combination type glass mould substantially can eliminate aforementioned logical fraud, so-called combination type glass mould refers to that a pair half module is respectively made up of internal mold and overcoat, namely to be respectively made up of core rod and die sleeve, and form removable relation between die sleeve and core rod, its positive effect is: select with dissimilar material by the material forming core rod with the material forming die sleeve, such as core rod is selected with nickel-base alloy, copper, copper-silicon alloy or other similar material, and is selected by die sleeve with relatively inexpensive cast iron materials; Core rod through a period use and when reaching condemning limit degree and have to scrap, change the core rod of same size size, and die sleeve still can utilize, both can economize on resources, and significantly can reduce again the mould cost of investment that mould uses manufacturer and Glass Containers production firm.
Two half modules are respectively made up of a core rod and a die sleeve by " a kind of container glass Split combined mould " that Chinese patent Granted publication CN201240991Y recommends, detachable relationship is formed between core rod and die sleeve, and utilize bolt to fix between the two, specifically can see the specification sheets text page 1 final stage of this patent to page 2 the 7th row.Although this patent formula can cash the technique effect of concluding in the technique effect of its specification sheets page 1, but have the following disadvantages: be connected owing to merely die sleeve being bolted with core rod, thus the ventilating and cooling of core rod is affected, and once core rod can not play good ventilating and cooling effect, so just, affect the shaping efficiency of Glass Containers, in addition on the one hand the output in the unit time is reduced, can have an impact to the work-ing life of core rod on the other hand.There is the technical problem of attending to one thing and lose sight of another in the technical scheme that therefore this CN201240991Y provides.
For above-mentioned prior art, be necessary to be improved, for this reason, the applicant has done useful design, defines technical scheme described below.
Summary of the invention
Task of the present invention is that providing a kind of contributes to significantly economizing on resources and use the economizing economy spirit embodying the current whole society and advocate, be conducive to using not losing remarkable reduction manufacturing cost under due mechanical-physical chemical property and the prerequisite in work-ing life embodying relatively cheap property, be of value to the ventilation and heat avoiding affecting core rod because of the setting of die sleeve and use and ensure the shaping efficiency of Glass Containers and have and be convenient to embody good reusability and the combination type glass mould of using the processing glass container of the mould acquisition cost significantly alleviating Glass Containers production firm.
Task of the present invention has been come like this, a kind of combination type glass mould of processing glass container, comprise in use with a pair half module that aspectant state cooperatively interacts, this respectively comprises a core rod and a die sleeve to half module, core rod is configured with a mold core cavities, die sleeve is configured with a die sleeve chamber, core rod offers core rod cooling draught groove in the side back to mold core cavities with longitudinal state interval, die sleeve is dismantled with core rod in its die sleeve chamber and is connected under the state of core rod cooling draught groove, be characterised in that a pair described half module also respectively includes an air deflector, this air deflector is arranged on die sleeve in the position of the accent corresponding to die sleeve chamber, this air deflector is positioned at the circular arc direction that top follows air deflector and offers air deflector transversal ventilation groove, and the circular arc direction that follow air deflector in the bottom of air deflector equally offers air deflector ventilation hole with space state, one group of die sleeve intake opening is offered with space state on the top of die sleeve and along the circular arc direction of die sleeve, this group die sleeve intake opening is all through to opposite side from the side of the thickness direction of die sleeve, by die sleeve intake opening by the core rod cooling draught groove described in outside air introducing, air draft chamber is offered in the bottom of die sleeve, this air draft chamber communicates with the external world, and communicate with described die sleeve chamber simultaneously, and die sleeve chamber is communicated with described core rod cooling draught groove by described air deflector transversal ventilation groove and air deflector ventilation hole.
In a specific embodiment of the present invention, on described core rod and the position being positioned at the below of described core rod cooling draught groove offers a circular arc embedding limit groove along the circular arc direction of core rod, on described die sleeve and the circular arc direction that follow die sleeve in the position of below corresponding to described die sleeve chamber is configured with an embedding limit of circular arc, the embedding limit of this circular arc is inlayed with circular arc embedding limit groove and is coordinated.
In another specific embodiment of the present invention, a pair die sleeve connecting screw hole is respectively offered in the position of the corresponding both sides of described core rod, and a pair die sleeve coupling screw hole is respectively offered in the position of the corresponding both sides of described die sleeve, this is corresponding with a pair die sleeve connecting screw hole and die sleeve and core rod are formed to dismantle by a pair die sleeve coupling screw and be connected to die sleeve coupling screw hole; Respectively offer an air deflector fixing threaded hole in the edge of the both sides of the length direction of described air deflector, the both sides of the length direction of air deflector are seized on both sides by the arms described core rod and die sleeve through air deflector fixing threaded hole by one piece of die sleeve coupling screw by the bottom in described a pair die sleeve coupling screw.
In another specific embodiment of the present invention, the quantity of one group of described die sleeve intake opening is equal with the quantity of described core rod cooling draught groove and position is corresponding.
In another specific embodiment of the present invention, one end end face of described die sleeve is configured with a mount pad, mount pad offers open holes.
Also have in a specific embodiment of the present invention, in described mold core cavities, be combined with an anticorrosion layer.
More of the present invention and in a specific embodiment, described anticorrosion layer is nickel base alloy layer.
In an of the present invention and then specific embodiment, described core rod is copper or copper-silicon alloy; Described die sleeve is cast iron.
One of technique effect of technical scheme provided by the invention, because a pair half module is respectively made up of a core rod and a die sleeve, thus core rod can adopt precious metal material to make, and die sleeve then adopts cheap cast iron to make, not only significantly can save Precious Metals Resources, and good economy can be embodied; Two, because core rod and die sleeve are selected with foreign material, thus both can guarantee the due mechanical-physical chemical property of core rod and guarantee work-ing life, and significantly can reduce again the manufacturing cost of mould; Three, owing to being provided with air deflector and being configured with die sleeve intake opening and air draft chamber on die sleeve, thus can not affect the heat radiation of core rod because the setting of die sleeve causes, make mould be met high efficiency of forming requirement to Glass Containers; Four, due to when core rod through the reasonable time use and scrap time, die sleeve is still reusable, avoids a useless all useless drawback, significantly alleviates the expense purchasing mould of user, and then reduces the cost of glass unit and container.
Accompanying drawing explanation
Fig. 1 is first embodiment of the present invention structure iron.
Fig. 2 is the schematic diagram after Fig. 1 assembles.
Fig. 3 is the part sectioned view of Fig. 1.
Embodiment
In order to enable the auditor of Patent Office especially the public clearly understand technical spirit of the present invention and beneficial effect, applicant will elaborate below by way of example, but be not all the restriction to the present invention program to the description of embodiment, any conceive according to the present invention done be only pro forma but not substantial equivalent transformation and all should be considered as technical scheme category of the present invention.
Everyly in the following description relate to upper and lower, left and right, the concept of directivity (or claim directionality) of front and rear is all for the location status residing for the figure be described, object is to facilitate public understanding, thus can not be understood as being particularly limited to technical scheme provided by the invention.
Refer to Fig. 1, give a pair half module 1 that (namely in a state of use) in use cooperatively interact with aspectant state, this respectively comprises core rod 11 and a die sleeve 12 to half module 1, core rod 11 is configured with a mold core cavities 111, die sleeve 12 is configured with a die sleeve chamber 121, and aforesaid mold core cavities 111 is Glass Containers just base forming cavity (when blank mould) or forming glass containers chamber (when shaping mould).Core rod 11 offers core rod cooling draught groove 112 in the side back to mold core cavities 111 with longitudinal state interval, die sleeve 12 is dismantled with core rod 11 in its die sleeve chamber 121 and is connected under the state of core rod cooling draught groove 112, is namely removably connected with core rod 11 under the state towards core rod 11 in the die sleeve chamber 121 of die sleeve 12.
Technical essential as technical scheme provided by the invention: the structural system of aforesaid a pair half module 1 also respectively includes an air deflector 13, this air deflector 13 is arranged on die sleeve 12 in the position of the accent corresponding to die sleeve chamber 121, this air deflector 13 is positioned at the circular arc direction that top follows air deflector 13 and offers air deflector transversal ventilation groove 131, in the present embodiment, air deflector transversal ventilation groove 131 has isolated from one another a pair, and be positioned in same level, air deflector transversal ventilation groove 13 and aforementioned core rod cooling draught groove 112 form criss-cross relation each other.In addition, in the bottom of air deflector 13 and the circular arc direction that follow air deflector 13 equally offers air deflector ventilation hole 133 with space state.One group of die sleeve intake opening 122 is offered with space state on the top of die sleeve 12 and along the circular arc direction of die sleeve 12, this group die sleeve intake opening 122 is all through to opposite side from the side of the thickness direction of die sleeve 12, such as the right die sleeve, through to right side from the left side of location status shown in Fig. 1, by die sleeve intake opening 122, outside air is introduced core rod cooling draught groove 112.Air draft chamber 123 is offered in the bottom of die sleeve 12, this air draft chamber 123 communicates with the external world, and communicate with aforementioned die sleeve chamber 121, and die sleeve chamber 121 is communicated with aforementioned core rod cooling draught groove 112 by aforementioned air deflector transversal ventilation groove 131 and air deflector ventilation hole 133. simultaneously
On aforementioned core rod 11 and the position being positioned at the below of described core rod cooling draught groove 112 offers a circular arc embedding limit groove 113 along the circular arc direction of core rod 11, on aforementioned die sleeve 12 and the circular arc direction that follow die sleeve 12 in the position of below corresponding to described die sleeve chamber 121 is configured with an embedding limit 124 of circular arc, the embedding limit of this circular arc 124 is inlayed with circular arc embedding limit groove 113 and is coordinated.It can thus be appreciated that die sleeve 12 matches with the back of core rod 11.
Shown in the position of the corresponding both sides of aforesaid core rod 11 and Fig. 1, the position of the side, front and back of state respectively offers a pair die sleeve connecting screw hole 114, and the position (position of the side, front and back of location status shown in Fig. 1) of corresponding both sides at described die sleeve 12 respectively offers a pair die sleeve coupling screw hole 125, this is corresponding with a pair die sleeve connecting screw hole 114 and die sleeve 12 and core rod 11 are formed to dismantle by a pair die sleeve coupling screw 1251 and be connected to die sleeve coupling screw hole 125; An air deflector fixing threaded hole 132 is respectively offered in the edge of the both sides of the length direction of aforesaid air deflector 13, the both sides of the length direction of air deflector 13 are seized on both sides by the arms core rod 11 and die sleeve 12 through air deflector fixing threaded hole 132 by one piece of die sleeve coupling screw by the bottom in aforementioned a pair die sleeve coupling screw 1251, and the central region of the length direction of air deflector 13 is corresponding with the position of the accent in die sleeve chamber 121.
In the bottom of the short transverse of aforesaid air deflector 13 and the circular arc direction that follow air deflector 13 offers one group of air deflector fixing threaded hole 132 with space state, this group air deflector fixing threaded hole 132 is fixing with die sleeve 12 in the position of the accent corresponding to described die sleeve chamber 121 by air deflector set screw.
Preferably, the quantity of aforesaid one group of die sleeve intake opening 122 is equal with the quantity of described core rod cooling draught groove 112 and position is corresponding.
Preferably, one end end face of aforesaid die sleeve 12 is configured with a mount pad 126, mount pad 126 offers open holes 1261, the self-evident function of mount pad 126 is for being connected with bottle-making machine.
Preferably, be combined with an anticorrosion layer 1111 in aforesaid mold core cavities 111, this anticorrosion layer 1111 is nickel base alloy layer.
In the present embodiment, aforesaid core rod 11 is copper-silicon alloy, but also can be the material of copper or other equivalence, and aforementioned die sleeve 12 is cast iron.
Refer to Fig. 2, when a pair die sleeve coupling screw 1251 is after the position corresponding to die sleeve coupling screw hole 125 screws in die sleeve connecting screw hole 114, make die sleeve 12 and core rod 11 form as a whole.When core rod 11 through the reasonable time use and reach the degree of scrapping, as long as so die sleeve 12 is unloaded from glass ware formation machine tool such as bottle-making machine together with core rod 11, whiz die sleeve coupling screw 1251, die sleeve 12 is separated with core rod 11, the core rod 11 of the same size size of newly enabling is connected with die sleeve 12.Thus can not resemble prior art causes use cost to increase because entirety is scrapped.Especially because a pair half module 1 is respectively made up of core rod 11 and die sleeve 12, thus both Material selec-tion have handiness, specifically, die sleeve 12 is selected with the relatively inexpensive cast iron of aforementioned price, and core rod 11 can select with class relatively high met antioxidant anticorrosive, antibiosis is long, resistance to fatigue good, cold-and-heat resistent impact effect is desirable material precious metal material as the aforementioned, thus embodied all technique effects referred in applicant's superincumbent technique effect hurdle all sidedly.
Refer to Fig. 3, according to professional general knowledge, bed die is furnished with in the bottom of mould or title bottom, bed die is connected with extraction sector source of the gas pipeline, accordingly, when the present invention to be installed on glass ware formation machine tool as after on bottle-making machine by bed die, operationally and under the work of extraction sector, outside air introduces the core rod cooling draught groove 112 of core rod 11 from one group of die sleeve intake opening 122, the air entered in core rod cooling draught groove 112 enters die sleeve chamber 121 through air deflector transversal ventilation groove 131 and air deflector ventilation hole 133, the air entered in die sleeve chamber 121 is discharged by extraction sector through air draft chamber 123.Under the non-stop run of extraction sector, air is illustrated in the arrow flowing in Fig. 3 by applicant, in the process of flowing, core rod 11 is cooled, to ensure the glass melt just shaping speed of base (for blank mould) or the shaping speed of guarantee Glass Containers (for shaping mould) being positioned at mold core cavities 111.
Claims (8)
1.
a kind of combination type glass mould of processing glass container, comprise in use with a pair half module (1) that aspectant state cooperatively interacts, this respectively comprises a core rod (11) and a die sleeve (12) to half module (1), core rod (11) is configured with a mold core cavities (111), die sleeve (12) is configured with a die sleeve chamber (121), go up at core rod (11) and offer core rod cooling draught groove (112) in the side back to mold core cavities (111) with longitudinal state interval, die sleeve (12) is dismantled with core rod (11) in its die sleeve chamber (121) and is connected under the state of core rod cooling draught groove (112), it is characterized in that described a pair half module (1) also respectively includes an air deflector (13), this air deflector (13) is arranged on die sleeve (12) in the position of the accent corresponding to die sleeve chamber (121), upper and be positioned at the circular arc direction that top follows air deflector (13) and offer air deflector transversal ventilation groove (131) at this air deflector (13), and the circular arc direction that follow air deflector (13) in the bottom of air deflector (13) equally offers air deflector ventilation hole (133) with space state, one group of die sleeve intake opening (122) is offered with space state on the top of die sleeve (12) and along the circular arc direction of die sleeve (12), this group die sleeve intake opening (122) is all through to opposite side from the side of the thickness direction of die sleeve (12), by die sleeve intake opening (122) by the core rod cooling draught groove (112) described in outside air introducing, air draft chamber (123) is offered in the bottom of die sleeve (12), this air draft chamber (123) communicates with the external world, and communicate with described die sleeve chamber (121) simultaneously, and die sleeve chamber (121) are communicated with described core rod cooling draught groove (112) by described air deflector transversal ventilation groove (131) and air deflector ventilation hole (133).
2.
the combination type glass mould of processing glass container according to claim 1, it is characterized in that described core rod (11) is upper and the position being positioned at the below of described core rod cooling draught groove (112) offers circular arc embedding limit groove (113) along the circular arc direction of core rod (11), described die sleeve (12) is upper and the circular arc direction that follow die sleeve (12) in the position of the below corresponding to described die sleeve chamber (121) is configured with an embedding limit of circular arc (124), the embedding limit of this circular arc (124) is inlayed with circular arc embedding limit groove (113) and is coordinated.
3.
the combination type glass mould of processing glass container according to claim 1, it is characterized in that respectively offering a pair die sleeve connecting screw hole (114) in the position of the corresponding both sides of described core rod (11), and a pair die sleeve coupling screw hole (125) is respectively offered in the position of the corresponding both sides of described die sleeve (12), this is corresponding with a pair die sleeve connecting screw hole (144) and die sleeve (12) and core rod (11) are formed to dismantle by a pair die sleeve coupling screw (1251) and be connected to die sleeve coupling screw hole (125); Respectively offer an air deflector fixing threaded hole (132) in the edge of the both sides of the length direction of described air deflector (13), the both sides of the length direction of air deflector (13) are seized on both sides by the arms described core rod (11) and die sleeve (12) through air deflector fixing threaded hole (132) by one piece of die sleeve coupling screw by the bottom in described a pair die sleeve coupling screw (1251).
4.
the combination type glass mould of processing glass container according to claim 1, is characterized in that the quantity of one group of described die sleeve intake opening (122) is equal with the quantity of described core rod cooling draught groove (112) and position is corresponding.
5.
the combination type glass mould of the processing glass container according to claim 1 or 2 or 3, it is characterized in that being configured with a mount pad (126) on one end end face of described die sleeve (12), mount pad (126) offers open holes (1261).
6.
the combination type glass mould of the processing glass container according to claim 1 or 2 or 3, is characterized in that being combined with an anticorrosion layer (1111) in described mold core cavities (111).
7.
the combination type glass mould of processing glass container according to claim 6, is characterized in that described anticorrosion layer (1111) is nickel base alloy layer.
8.
the combination type glass mould of the processing glass container according to claim 1 or 2 or 3, is characterized in that described core rod (11) is copper or copper-silicon alloy; Described die sleeve (12) is cast iron.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510514216.4A CN105036524A (en) | 2015-08-20 | 2015-08-20 | Combined glass mold for processing glass containers |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510514216.4A CN105036524A (en) | 2015-08-20 | 2015-08-20 | Combined glass mold for processing glass containers |
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CN105036524A true CN105036524A (en) | 2015-11-11 |
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CN201510514216.4A Pending CN105036524A (en) | 2015-08-20 | 2015-08-20 | Combined glass mold for processing glass containers |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107586007A (en) * | 2017-10-18 | 2018-01-16 | 安徽康泰玻业科技有限公司 | A kind of mould for making glassware |
CN113788601A (en) * | 2021-10-22 | 2021-12-14 | 江西泉新电气有限公司 | Extra-high voltage glass insulator and preparation method thereof |
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CN204874264U (en) * | 2015-08-20 | 2015-12-16 | 常熟建华模具科技股份有限公司 | Combination formula glass mould that processing glass container was used |
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CN1874966A (en) * | 2003-11-14 | 2006-12-06 | 日本山村硝子株式会社 | Method of regulating temperature of bottle-forming mold and bottle-forming mold used for the method |
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CN113788601A (en) * | 2021-10-22 | 2021-12-14 | 江西泉新电气有限公司 | Extra-high voltage glass insulator and preparation method thereof |
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