CN110066099A - The sectional die of processing glass container - Google Patents

Abstract

A kind of sectional die of processing glass container, belongs to technical field of glass dies.Half mould body for the water-cooled body cooling to die cavity is respectively constituted back to the side of die cavity including respectively being constituted die cavity with side use in pairs and opposite in a manner of aspectant, feature: die cavity includes mutually separated left die cavity, intermediate die cavity and right mould chamber, water-cooled body includes inlet opening, first, second apopore, longitudinal cooling water channel, cooling water branch canal, cooling water is left, right connection water channel, inlet opening is provided with half mould body back to the top of the side of intermediate die cavity, first apopore is located at half mould body back to the top of the side of left die cavity, second apopore is located at half mould body back to the top of the side of right mould chamber, longitudinal cooling water channel is located at half mould body back to the side of die cavity and with first, second water outlet communicates, cooling water branch canal is located at half mould body back to the top of die cavity side.With good collectivity；Thermal diffusivity is ideal, reduces cost.

Description

The sectional die of processing glass container

Technical field

The invention belongs to technical field of glass dies, and in particular to a kind of sectional die of processing glass container.

Background technique

Above mentioned sectional die includes combined type blank mould and combined type shaping mould.Well known processing glass container Mold used in (such as beer bottle, red wine bottle, pop bottle, daily life bottle for cosmetics, apothecary jar and all kinds of Drinking bottles, etc.) is logical It is often the two halves mode structure being mutually symmetrical, to this reference can be made to Chinese patent application publication number CN101298355A(production glass holds The mold of device), the mold of CN101298356A(production glass container), the mould of CN101298357A(processing glass container Tool), a kind of mold of glass container processing of CN101298358A(), a kind of CN101298359A(glass container processing use mould Tool), the mold of CN101941791A(production Bottle & Can class glass container), Authorization Notice No. CN102515471B(is for manufacturing bottle The mold of tank class glass container) and United States Patent (USP) US2006/0213632A1(glass-forming die), etc..

Although the glass mold for being not limited to symmetrical two halves mode structure exemplified above can satisfy processing Bottle & Can class glass The requirement of glass container, but due to showing as single-chamber mold, that is to say, that a glass container, thus glass can only be processed every time The processing efficiency of container is by large effect.The machine speed for improving glass container processing machine can correspondingly increase adding for glass container Work efficiency rate, but the material to glass mold, heat dissipation and the requirement of peripheral cooling provision are frequently more harsh, on the one hand can show The cost for improving glass mold is write, the price of glass container on the other hand can be raised, influence the market competitiveness.

With regard to the shape that for the manufacturing equipment of glass mold and manufacture technical ability, one-mode cavity glass mold is replicated at present Formula is processed into double mould cavity or even three die cavitys can't generate any obstacle, and is objectively readily apparent that.But in die cavity Increase by three die cavitys for for example increasing to fair amount after forming sectional die, heat dissipation problem can be shown especially.Perhaps for preceding The considerations of stating heat dissipation factor is showed no all about sectional die in China and foreign countries' patent disclosed so far and non-patent literature Implement effectively cooling technical information especially for sectional die.

" the tool that " liquid cooling method of glass ware mould " and CN101137584A that CN1286746C recommends provide Have the method for the glassware mold and cooling glassware mold of cooling device " although can play to the good of glass mold Cooling effect, but since this two patents are designed for one cavity mold, thus for the sectional die of multimode cavity Without referential technical inspiration.Technical solution described below generates in this background.

Summary of the invention

Task of the invention lies in provide a kind of to help to improve the shaping efficiency to glass container and correspondinglyd increase Production capacity is conducive to embody the good set of die cavity and be able to save mold materials and avoid the occurrence of wasting of resources phenomenon, have Glassware is enhanced convenient for significantly reducing manufacturing cost under the premise of not losing due physical and chemical performance and service life The market competitiveness, be beneficial to meet use water as cooling medium carry out cooling requirement and be minimized glass mold production The sectional die of the processing glass container of the production cost of manufacturer.

The task of the present invention is in this way to complete, a kind of sectional die of processing glass container, including to face The mode in face is respectively constituted with side use in pairs and opposite die cavity and respectively constituting back to the side of die cavity has for mould Half mould body of the cooling water-cooled body of chamber, be characterized in that the die cavity include mutually separated left die cavity, intermediate die cavity and Right mould chamber, the water-cooled body include inlet opening, the first apopore I, the second apopore II, longitudinal cooling water channel, cooling Moisture flowing flux, cooling water left connection water channel I and cooling water be right to be connected to water channel II, inlet opening be provided with half mould body back to The top of the side of the intermediate die cavity, the first apopore I are provided with half mould body back to the top of the side of the left die cavity, Second apopore II is provided with half mould body back to the top of the side of the right mould chamber, and longitudinal cooling water channel is provided with half calligraphy or painting model Body back to the die cavity side and communicated with first apopore I and the second apopore II, cooling water shunt water Road is provided with half mould body back to the top of die cavity side, the cooling water branch canal communicated with the inlet opening and also with The top of longitudinal cooling water channel communicates, and cooling water left connection water channel I and the right connection water channel II of cooling water are provided with half Mould body back to die cavity side lower part and communicated with the lower part of longitudinal cooling water channel.

In a specific embodiment of the invention, the longitudinal direction cooling water channel includes left longitudinal cooling water channel, first Longitudinal cooling water channel II and right longitudinal cooling water channel among intermediate longitudinal direction cooling water channel I, second, left longitudinal direction cooling water channel with institute State left die cavity left side it is corresponding in the state of be longitudinally provided on half mould body and left longitudinal cooling water channel it is upper End is communicated with first apopore I, among first longitudinal cooling water channel I corresponding to left die cavity and the intermediate die cavity it Between position be longitudinally provided on half mould body, longitudinal cooling water channel II is corresponding to intermediate die cavity and the right mould among second Position between chamber is longitudinally provided on half mould body, and right longitudinal direction cooling water channel is in shape corresponding with the right side of the right mould chamber It is longitudinally provided under state on half mould body and the upper end of right longitudinal cooling water channel is communicated with second apopore II；Institute State the top phase of longitudinal cooling water channel II among longitudinal cooling water channel I and second among cooling water branch canal and described first It is logical, and the lower part of the cooling water left connection water channel I and left longitudinal cooling water channel and the longitudinal cooling water channel I in the first centre It communicates, longitudinal cooling water channel II and right longitudinal cooling water channel among the right connection water channel II of cooling water and described second It communicates.

In another specific embodiment of the invention, the cooling water branch canal includes inlet channel, first point Runner I and the second runner II, inlet channel are longitudinal cold among longitudinal cooling water channel I and second among corresponding to described first But the position on the top of water channel II is laterally provided on half mould body and communicates with the inlet opening, and the first runner I exists Be provided on half mould body corresponding to the position between cooling water channel I longitudinal among first and the middle part of inlet channel and at the same time with Longitudinal cooling water channel I communicates among inlet channel and first, and the second runner II is corresponding to longitudinal cooling water channel among second Position between II and the right end of inlet channel is provided on half mould body and at the same time with longitudinal cold among inlet channel and second But water channel II communicates.

In another specific embodiment of the invention, the cooling water left connection water channel I include left connection inlet channel, Left transition water channel and left connection water outlet, left connection inlet channel is in the lower part for corresponding to longitudinal cooling water channel I among described first Position be provided on half mould body and communicated with the lower part of cooling water channel I longitudinal among first, left connection water outlet The position for the lower part for corresponding to left longitudinal cooling water channel be provided on half mould body and with left longitudinal cooling water channel Lower part communicates, and left transition water channel is provided on half mould body in the position for corresponding to left connection inlet channel and left connection water outlet And at the same time being communicated with left connection inlet channel and left connection water outlet；The right connection water channel of cooling water includes right connection water inlet Road, right transition water channel are connected to water outlet with right, and right connection inlet channel is corresponding to longitudinal cooling water channel II among described second The position of lower part is provided on half mould body and communicates with the lower part of cooling water channel II longitudinal among second, right to be connected to out Water channel the position for the lower part for corresponding to right longitudinal cooling water channel be provided on half mould body and with right longitudinal cooling water The lower part in road communicates, and right transition water channel is provided with half calligraphy or painting model in the position for corresponding to right connection inlet channel and right connection water outlet And at the same time repeatedly kicking into water channel with the right side and right connection water outlet communicates on body.

In another specific embodiment of the invention, the short transverse of half mould body lower part and right The position at the back of left die cavity described in Ying Yu offers left longitudinal radiating groove I with space state, and is corresponding to the centre The position at the back of die cavity offers intermediate longitudinal radiating groove II with space state, and is corresponding to the back of the right mould chamber Position offers right longitudinal radiating groove III with space state.

Of the invention there are one in specific embodiment, the short transverse of half mould body lower part and It is dissipated corresponding to the position between the left longitudinal direction radiating groove I and intermediate longitudinal radiating groove II and corresponding to intermediate longitudinal direction Position between heat channel II and right longitudinal radiating groove III respectively with the state of the thickness direction perpendicular to half mould body from upper and Under be arranged at intervals with heat and transmit cooling stick, wherein setting intermediate longitudinal is radiated with described corresponding to left longitudinal radiating groove I The heat between slot II transmits cooling stick and passes through longitudinal cooling water channel I among described first towards one end of the die cavity, And the heat corresponded between intermediate longitudinal radiating groove II and right longitudinal radiating groove III is set and transmits cooling stick direction One end of the die cavity passes through longitudinal cooling water channel II among described second, and heat is transmitted cooling stick and probeed into away from one end of die cavity It is formed in the cooling stick cooling chamber on half mould body.

In a still more specific embodiment of the invention, it is that cross-sectional shape is rounded that the heat, which transmits cooling stick, Copper rod, the copper rod be brass bar.

In a specific embodiment in turn of the invention, the upper end of left longitudinal cooling water channel is by left longitudinal cooling Water channel plug blocks；The upper end of longitudinal cooling water channel I is blocked by the longitudinal cooling water channel plug I in the first centre among described first； The upper end of longitudinal cooling water channel II is blocked by the longitudinal cooling water channel plug II in the second centre among described second；The right longitudinal direction is cold But the upper end of water channel is blocked by right longitudinal cooling water channel plug.

The left connection inlet channel, left connection water outlet, left mistake in yet a further embodiment of the present invention The port position for crossing water channel, right connection inlet channel, right connection water outlet and right transition water channel is respectively blocked by plug screw.

Of the invention again and then in a specific embodiment, to the left die cavity, intermediate die cavity and right mould chamber During carrying out milling, the milling of intermediate die cavity is removed with a thickness of 0.58-0.72mm, and the milling of left die cavity and right mould chamber removes thickness It is 0.43-0.58mm,；Half mould body back to the side of the die cavity and be located at middle part constitute have mould bases hinged seat, should Mould bases hinged seat has a hinge hole；On half mould body and respectively around left die cavity, intermediate die cavity and right mould chamber Circular arc direction respectively offered with space state from the top of half mould body and penetrate through to the venthole of lower part.

One of the technical effect of technical solution provided by the invention, due to use in a creative way have left and right die cavity with And half mould body of intermediate die cavity, thus help to improve the shaping efficiency to glass container and be able to correspondingly increase production capacity；It Two, since one and half mould bodies have left and right die cavity and intermediate die cavity, thus there is good collectivity, is able to save precious Expensive mold materials and be conducive to avoid the occurrence of wasting of resources phenomenon；Three, due to use structurally reasonable water chiller Structure, left longitudinal radiating groove I, intermediate longitudinal radiating groove II, right longitudinal radiating groove III and heat transmit cooling stick, thus have ideal Thermal diffusivity, have convenient under the premise of not losing due physical and chemical performance and service life significantly reduce glass mold cost and It is enhanced the market competitiveness of glassware；Four, due to water-cooled body be able to satisfy use water as cooling medium carry out Cooling requirement, thus the cost of glass container production firm production glass container can be reduced.

Detailed description of the invention

Fig. 1 is the structure chart of half mould body of the invention.

Fig. 2 is longitudinal among the cooling water branch canal of water-cooled body shown in FIG. 1 and the first of longitudinal cooling water channel The schematic diagram that longitudinal cooling water channel II is connected and communicates among cooling water channel I and second.

Fig. 3 is the bottom view of Fig. 1.

Fig. 4 is the schematic view of the mounting position that heat shown in FIG. 1 transmits cooling stick.

Fig. 5 is the schematic diagram that two and half mould bodies are fitted to each other.

Specific embodiment

In order to which technical spirit and beneficial effect of the invention is more clearly understood, applicant is below with embodiment Mode elaborate, but be not limitation to the present invention program, any structure according to the present invention to the description of embodiment Think made only formal but not substantive equivalent transformation and is regarded as technical solution of the present invention scope.

The concept of all directionality for being related to upper, lower, left, right, front and rear or directionality is in the following description On the basis of location status shown in FIG. 1, thus the special limit to technical solution provided by the invention cannot be understood as It is fixed.

Referring to Figure 1 and Fig. 5, it shows and has respectively been constituted mould with side use in pairs and opposite in a manner of aspectant Chamber 11 and respectively constituting back to the side of die cavity 11 has half mould body 1 for the water-cooled body 12 cooling to die cavity 11.

Technical essential as technical solution provided by the invention: aforementioned die cavity 11 include mutually separated left die cavity 111, Intermediate die cavity 112 and right mould chamber 113, water-cooled body 12 above-mentioned go out including inlet opening 121, the first apopore I 122, second Water hole II 123, longitudinal cooling water channel 124, cooling water branch canal 125, cooling water left connection water channel I 126 and the right company of cooling water Waterway II 127, inlet opening 121 are provided with aforementioned half mould body 1 back to the top of the side of aforementioned intermediate die cavity 112, and The aperture position of the inlet opening 121, which is constituted, internal screw thread, and the first apopore I 122 is provided with half mould body 1 back to aforementioned left die cavity The top of 111 side, the second apopore II 123 are provided with half mould body 1 back to the top of the side of aforementioned right mould chamber 113, Longitudinal cooling water channel 124 be provided with half mould body 1 back to the side of aforementioned die cavity 11 and with the first apopore I 122 above-mentioned And second apopore II 123 communicate, cooling water branch canal 125 is provided with half mould body 1 back to the top of 11 side of die cavity, The cooling water branch canal 125 is communicated with inlet opening 12 above-mentioned and the top phase also with longitudinal cooling water channel 124 above-mentioned Logical, cooling water left connection water channel I 126 and the right connection water channel II 127 of cooling water are provided with half mould body 1 back to die cavity 11 1 It the lower part of side and is communicated with the lower part of aforementioned longitudinal cooling water channel 124.

As shown in Figure 1, the first apopore I 122 above-mentioned is provided with the position in the upper left corner of half mould body 1, and second goes out Water hole II 123 is provided with the position in the upper right corner of half mould body 1.

Please emphasis referring to Fig. 1, aforementioned longitudinal direction cooling water channel 124 includes longitudinal among left longitudinal cooling water channel 1241, first Longitudinal cooling water channel II 1243 and right longitudinal cooling water channel 1244 among cooling water channel I 1242, second, as shown in Figure 1, left longitudinal direction Longitudinal cooling water channel II 1243 and right longitudinal direction are cooling among longitudinal cooling water channel I 1242, second among cooling water channel 1241, first Water channel 1244 is spaced apart on half mould body 1 from left to right respectively, specifically, it is left longitudinal direction cooling water channel 1241 with it is aforementioned It is longitudinally provided in the state that the left side of left die cavity 111 is corresponding on aforementioned half mould body 1 and left longitudinal cooling water channel 1241 upper end is communicated with the first apopore I 122 above-mentioned, and longitudinal cooling water channel I 1242 is corresponding to left die cavity among first Position between 111 and aforementioned intermediate die cavity 112 is longitudinally provided on half mould body 1, longitudinal cooling water channel II among second 1243 are longitudinally provided on half mould body 1 corresponding to the position between intermediate die cavity 112 and aforementioned right mould chamber 113, right longitudinal direction Cooling water channel 1244 is longitudinally provided on half mould body 1 in the state of corresponding with the right side of aforementioned right mould chamber 113 and should The upper end of right longitudinal direction cooling water channel 1244 is communicated with the second apopore II 123 above-mentioned.

It is longitudinal among longitudinal cooling water channel I 1242 and second among aforementioned cooling water branch canal 125 and aforementioned first The top of cooling water channel II 1243 communicates, and aforementioned cooling water left connection water channel I 126 and aforementioned left longitudinal cooling water channel 1241 with And the lower part of longitudinal cooling water channel I 1242 communicates among first, among the aforementioned right connection water channel II 127 of cooling water and aforementioned second Longitudinal cooling water channel II 1243 and aforementioned right longitudinal cooling water channel 1244 communicate.

In the present embodiment, due to above-mentioned among first longitudinal cooling water channel I 1242 correspond to aforementioned left die cavity 111 with Position between the back of intermediate die cavity 112, the longitudinal cooling water channel II 1243 in the second centre above-mentioned correspond to aforementioned intermediate die Position between chamber 112 and the back of right mould chamber 113, and due to left die cavity 111 and the wall between the back of intermediate die cavity 112 Thick more other positions are thick, and intermediate die cavity 112 more other positions same as the heavy wall between the back of right mould chamber 113 are thick, thus Among aforementioned first among longitudinal cooling water channel I 1242 and second before diameter (i.e. aperture) ratio of longitudinal cooling water channel II 1243 State the diameter (i.e. aperture) of left longitudinal cooling water channel 1241 and right longitudinal cooling water channel 1244 greatly, and left and right longitudinal cooling water The diameter in road 1241,1244 is equal, but is not limited by the present embodiment.In addition, in the present embodiment, to aforementioned each water channel Diameter do not need to be particularly limited to, the diameter of each water channel can be reasonably selected in having a size of 6.35-14mm.

It refers to Fig. 2 and combines Fig. 1, cooling water branch canal 125 above-mentioned includes inlet channel 1251, the first runner I 1252 and second runner II 1253, inlet channel 1251 is corresponding among aforementioned first longitudinal cooling water channel I 1242 and the Among two the position on the top of longitudinal cooling water channels II 1243 be laterally provided on half mould body 1 and with inlet opening above-mentioned 121 communicate, i.e. the left end with inlet opening 121 of inlet channel 1251 communicates, and the first runner I 1252 is corresponding to longitudinal direction among first Position between cooling water channel I 1242 and the middle part of inlet channel 1251 is provided on half mould body 1 and at the same time and inlet channel Longitudinal cooling water channel I 1242 communicates among 1251 and first, and the second runner II 1253 is longitudinal cold among corresponding to second But the position between water channel II 1243 and the right end of inlet channel 1251 is provided on half mould body 1 and at the same time with inlet channel 1251 And longitudinal cooling water channel II 1243 communicates among second.

It refers to Fig. 3 and combines Fig. 1, aforementioned cooling water left connection water channel I 126 includes left connection inlet channel 1261, a left side Transition water channel 1262 and left connection water outlet 1263, left connection inlet channel 1261 are corresponding to longitudinal cooling water among aforementioned first The position of the lower part in road I 1242 is provided with the lower part on aforementioned half mould body 1 and with the longitudinal cooling water channel I 1242 in the first centre It communicates, left connection water outlet 1263 is provided with half mould body in the position for the lower part for corresponding to aforementioned left longitudinal cooling water channel 1241 It is communicated on 1 and with the lower part of left longitudinal cooling water channel 1241, left transition water channel 1262 is corresponding to left connection inlet channel 1261 And the position of left connection water outlet 1263 is provided on half mould body 1 with horizontality and at the same time with left connection inlet channel 1261 and left connection water outlet 1263 communicate；The aforementioned right connection water channel 127 of cooling water includes right connection inlet channel 1271, right mistake It crosses water channel 1272 and is connected to water outlet 1273 with right, right connection inlet channel 1271 is corresponding to longitudinal cooling water channel among aforementioned second The position of II 1243 lower part is provided with the lower part on aforementioned half mould body 1 and with the longitudinal cooling water channel II 1243 in the second centre It communicates, right connection water outlet 1273 is provided with half mould body in the position for the lower part for corresponding to aforementioned right longitudinal cooling water channel 1244 It is communicated on 1 and with the lower part of right longitudinal cooling water channel 1244, right transition water channel 1272 is corresponding to right connection inlet channel 1271 And the position of right connection water outlet 1273 is provided on half mould body 1 and at the same time repeatedly kicking into water channel 1271 with the right side and right being connected to Water outlet 1273 communicates.

As shown in Fig. 1 and Fig. 5, the short transverse of aforementioned half mould body 1 lower part and correspond to aforementioned left die cavity The position at 111 back offers I 13a of left longitudinal radiating groove with space state, and is corresponding to aforementioned intermediate die cavity 112 The position at back offers II 13b of intermediate longitudinal radiating groove with space state, and is corresponding to the back of aforementioned right mould chamber 113 Position offers III 13c of right longitudinal radiating groove with space state.

In the present embodiment, I 13a of left longitudinal radiating groove above-mentioned, centre longitudinal direction II 13b of radiating groove and right longitudinal heat dissipation III 13c of slot respectively three short is formed by six and by three long.But it is not exposed to the limitation of the present embodiment.Furthermore showing from Fig. 5 Meaning and combination applicant are described above, especially combine professional general knowledge, can determine without doubt, shown in fig. 5 one It is cavity plate and the cavity plate also by Fig. 1 to scheming that one of them in double of mould body 1, which is located at one and half mould bodies on the right side of Fig. 5, 3 and Fig. 4 signal, and another in a pair of half mould body 1 is located at one and half calligraphy or painting models in the left side of location status shown in Fig. 5 Body is punch-pin, and so-called cavity plate refers to: in joint surface and follow the short transverse of joint surface and offers flange mating groove；Institute The punch-pin of meaning refers to: in joint surface and follow joint surface short transverse composition have the convex grade for being raised in joint surface, this is convex Edge is matched with flange mating groove above-mentioned, punch and matrix remaining combine be it is identical, i.e. two and half mould bodies 1 are matched except flange Outside conjunction slot, flange have differences, remaining structure is identical, all has left, intermediate, right mould chamber 111,112,113.

Refer to Fig. 4 and combine Fig. 1, the short transverse of aforementioned half mould body 1 lower part and correspond to it is aforementioned Position between left longitudinal direction I 13a of radiating groove and aforementioned intermediate longitudinal II 13b of radiating groove and corresponding to intermediate longitudinal radiating groove Position between II 13b and aforementioned right longitudinal III 13c of radiating groove is respectively with the state of the thickness direction perpendicular to half mould body 1 from upper It is arranged at intervals with heat under and and transmits cooling stick 14, wherein setting is corresponding to aforementioned left longitudinal direction I 13a of radiating groove and aforementioned centre Aforementioned heat between longitudinal II 13b of radiating groove is transmitted cooling stick 14 and is passed through among above-mentioned first towards one end of aforementioned die cavity 11 Longitudinal cooling water channel I 1242, and be arranged correspond to centre longitudinal direction II 13b of radiating groove and aforementioned right longitudinal direction radiating groove III 13c it Between aforementioned heat transmit cooling stick 14 and pass through longitudinal cooling water channel II among above-mentioned second towards one end of aforementioned die cavity 11 1243, heat is transmitted cooling stick 14 and is probeed into the cooling stick cooling chamber 15 being formed on half mould body 1 away from one end of die cavity 11.

As shown in the above description, heat above-mentioned, which transmits cooling stick 14, has longitudinal direction among two groups, one group of the left side and first cold But water channel I 1242 is corresponding and to emerge from good heat transmitting because passing through among first longitudinal cooling water channel I 1242 cold But one group of heat dissipation effect, the right is corresponding with cooling water channel II 1243 longitudinal among second and longitudinal among second because passing through Cooling water channel II 1243 and emerge from it is good heat transmitting cooling effect.If on half mould body 1 and corresponding to a left side The position of longitudinal cooling water channel 1241 and right longitudinal cooling water channel 1244 adds heat and transmits cooling stick 14, then should be considered as With technological means and still belong to technical connotation scope disclosed by the invention.

In the present embodiment, it is the rounded copper rod of cross-sectional shape that heat above-mentioned, which transmits cooling stick 14, and aforementioned copper rod is Brass bar, it is totally four short that two groups of copper rods respectively have two long two, but does not limit four.

Since half mould body 1 provided by the invention has left, intermediate, right mould chamber 111,112,113, thus relative to routine Only one die cavity mold for, the i.e. heat that generates during half mould body 1 is on active service in glass container production process Amount is at least three times of an aforementioned die cavity, thus only vertical by water-cooled body 12 above-mentioned, I 13a of left longitudinal radiating groove, centre To II 13b of radiating groove, right longitudinal direction III 13c of radiating groove and the top from half mould body 1 being provided on half mould body 1 penetrate through to The venthole 17 of lower part is possible to be difficult to reach the desired effect of good heat radiating, thus adds the aforementioned heat transmitting as heat-radiating rod Cooling stick 14 can significantly enhance heat dissipation effect.

The upper end of aforementioned left longitudinal cooling water channel 1241 is blocked by left longitudinal cooling water channel plug 12411；In aforementioned first Between the upper end of longitudinal cooling water channel I 1242 blocked by longitudinal cooling water channel plug I 12421 among first；It is vertical among aforementioned second It is blocked to the upper end of cooling water channel II 1243 by the longitudinal cooling water channel plug II 12431 in the second centre；Aforementioned right longitudinal cooling water The upper end in road 1244 is blocked by right longitudinal cooling water channel plug 12441.

According to reason same as before, aforementioned left connection inlet channel 1261, left connection water outlet 1263, left transition water channel 1262, the port position of right connection inlet channel 1271, right connection water outlet 1273 and right transition water channel 1271 is respectively sealed by plug screw It is stifled.

The application has made contravariant graphic data to intermediate mold 112, i.e., becomes according to the direction of thermal deformation or according to thermal deformation Gesture and intermediate die cavity 112 is treated with a certain discrimination with left and right die cavity 111,113 when being processed to mold, specifically: to aforementioned left mould During chamber 111, intermediate die cavity 112 and right mould chamber 113 carry out milling, the milling of intermediate die cavity 112 is removed with a thickness of 0.58- 0.72mm, and the milling of left die cavity 111 and right mould chamber 113 is 0.43-0.58mm except thickness.By previous designs, can ensure Half mould body 1 of a pair for having 111,112,113 with left, intermediate, right mould meets face-to-face tight closure during military service It is required that the quality to ensure glass container.

Half mould body 1 back to the side of aforementioned die cavity 11 and be located at middle part constitute have mould bases hinged seat 16, the mould bases Hinged seat 16 has a hinge hole 161；On aforementioned half mould body 1 and respectively around left die cavity 111, intermediate die cavity 112 with And the circular arc direction of right mould chamber 113 is respectively offered from the top of half mould body 1 with space state and is penetrated through to the venthole 17 of lower part.

In use, inlet opening 121, the first apopore I 122 and the second apopore II 123 are cold by pipeline and water circulation But device connects, and the inlet channel 1251 of cooling water branch canal 125 is introduced the water by inlet opening 121, simultaneously by inlet channel 1251 Shunt supply the first runner 1252 and the second runner 1253, into the first runner 1252 cooling water successively through first Intermediate longitudinal direction cooling water channel I 1242, the left connection inlet channel 1261 of cooling water left connection water channel I 126, left transition water channel 1262, Left connection water outlet 1263, left longitudinal cooling water channel 1241 and the first apopore I 122 and back by the road water above-mentioned recycle it is cold But device.At the same time, into the cooling water of the second runner 1253 successively through cooling water channel II 1243 longitudinal among second, cold But right connection inlet channel 1271, right transition water channel 1272, the right connection water outlet 1273, right longitudinal direction of the right connection water channel II 127 of water Cooling water channel 1244 and the second apopore II 123 simultaneously back into water circulation cooling device by the road.In aforementioned process, cooled down by water Device 12 makes half mould body 1 cool down, and left, intermediate die cavity 111,112 and right mould chamber 113 is finally made to cool down, in addition aforementioned left vertical Cooling stick 14 and venthole 17 are transmitted to I 13a of radiating groove, II 13b of intermediate longitudinal radiating groove, III 13c of right longitudinal radiating groove, heat Auxiliary, half mould body 1 can be made to obtain ultimate attainment cooling and cooling effect.Since cooling and cooling effect is ultimate attainment, thus double of calligraphy or painting model Excessively harsh problem is not present in the material selection of body 1, makes half mould body 1, Bian Kebao using conventional glass mold material Hinder desired physical and chemical performance and service life.

In conclusion technical solution provided by the invention compensates for the shortcoming in prior art, invention has been favorably accomplished Task has faithfully fulfilled the technical effect that applicant refers in technical effect column above.

Claims (10)

1. a kind of sectional die of processing glass container, including in a manner of aspectant with using in pairs and opposite one Side, which is respectively constituted, die cavity (11) and respectively constituting back to the side of die cavity (11) has for the water-cooled body cooling to die cavity (11) (12) half mould body (1), it is characterised in that the die cavity (11) includes mutually separated left die cavity (111), intermediate die cavity (112) and right mould chamber (113), the water-cooled body (12) include inlet opening (121), the first apopore I (122), second Apopore II (123), longitudinal cooling water channel (124), cooling water branch canal (125), cooling water left connection water channel I (126) and The right connection water channel II (127) of cooling water, inlet opening (121) are provided with half mould body (1) back to the intermediate die cavity (112) Side top, the first apopore I (122) is provided with half mould body (1) back to the upper of the side of the left die cavity (111) Portion, the second apopore II (123) are provided with half mould body (1) back to the top of the side of the right mould chamber (113), longitudinal cooling Water channel (124) be provided with half mould body (1) back to the side of the die cavity (11) and with first apopore I (122) And second apopore II (123) communicate, cooling water branch canal (125) is provided with half mould body (1) back to die cavity (11) one The top of side, the cooling water branch canal (125) communicated with the inlet opening (12) and also with longitudinal cooling water The top in road (124) communicates, and cooling water left connection water channel I (126) and the right connection water channel II (127) of cooling water are provided with half Mould body (1) back to die cavity (11) side lower part and communicated with the lower part of longitudinal cooling water channel (124).

2. the sectional die of processing glass container according to claim 1, it is characterised in that the longitudinal direction cooling water Road (124) includes left longitudinal direction cooling water channel (1241), the longitudinal cooling water channel I (1242) in the first centre, the longitudinal cooling in the second centre Water channel II (1243) and right longitudinal cooling water channel (1244), left longitudinal direction cooling water channel (1241) with the left die cavity (111) It is longitudinally provided in the state that left side is corresponding on half mould body (1) and the upper end of left longitudinal cooling water channel (1241) Communicated with first apopore I (122), among first longitudinal cooling water channel I (1242) correspond to left die cavity (111) with Position between the intermediate die cavity (112) is longitudinally provided on half mould body (1), longitudinal cooling water channel II among second (1243) half mould body (1) is longitudinally being provided with corresponding to the position between intermediate die cavity (112) and the right mould chamber (113) On, right longitudinal direction cooling water channel (1244) is longitudinally provided with half module in the state of corresponding with the right side of the right mould chamber (113) On ontology (1) and the upper end of right longitudinal cooling water channel (1244) is communicated with second apopore II (123)；It is described cold But the longitudinal cooling water channel II of longitudinal cooling water channel I (1242) and the second centre among moisture flowing flux (125) and described first (1243) top communicates, and the cooling water left connection water channel I (126) and left longitudinal cooling water channel (1241) and the The lower part of longitudinal cooling water channel I (1242) communicates among one, among the right connection water channel II (127) of cooling water and described second Longitudinal cooling water channel II (1243) and right longitudinal cooling water channel (1244) communicate.

3. the sectional die of processing glass container according to claim 2, it is characterised in that the cooling moisture Flowing flux (125) includes inlet channel (1251), the first runner I (1252) and the second runner II (1253), inlet channel (1251) corresponding to the longitudinal cooling water channel II (1243) of longitudinal cooling water channel I (1242) and the second centre among described first The position on top be laterally provided on half mould body (1) and communicated with the inlet opening (121), the first runner I (1252) it is provided in the position corresponded between the longitudinal cooling water channel I (1242) in the first centre and the middle part of inlet channel (1251) And at the same time being communicated with cooling water channel I (1242) longitudinal among inlet channel (1251) and first, second point on half mould body (1) Runner II (1253) is corresponding to the position among second between longitudinal cooling water channel II (1243) and the right end of inlet channel (1251) It sets and is provided on half mould body (1) and at the same time with cooling water channel II (1243) phase longitudinal among inlet channel (1251) and second It is logical.

4. the sectional die of processing glass container according to claim 2, it is characterised in that the left company of cooling water Waterway I (126) includes left connection inlet channel (1261), left transition water channel (1262) and left connection water outlet (1263), Zuo Lian Logical inlet channel (1261) are provided with described half in the position for corresponding to the lower part of longitudinal cooling water channel I (1242) among described first It is communicated on mould body (1) and with the lower part of cooling water channel I (1242) longitudinal among first, left connection water outlet (1263) is right The position of the lower part of left longitudinal direction cooling water channel (1241) described in Ying Yu be provided on half mould body (1) and with left longitudinal cooling water The lower part in road (1241) communicates, and left transition water channel (1262) is corresponding to left connection inlet channel (1261) and left connection water outlet (1263) position is provided on half mould body (1) and at the same time with left connection inlet channel (1261) and left connection water outlet (1263) it communicates；The right connection water channel (127) of cooling water include right connection inlet channel (1271), right transition water channel (1272) and Right connection water outlet (1273), right connection inlet channel (1271) are corresponding to longitudinal cooling water channel II (1243) among described second Lower part position be provided on half mould body (1) and with second among longitudinal cooling water channel II (1243) lower part phase Logical, right connection water outlet (1273) is provided with half calligraphy or painting model in the position for the lower part for corresponding to right longitudinal cooling water channel (1244) Communicated on body (1) and with the lower part of right longitudinal cooling water channel (1244), right transition water channel (1272) correspond to it is right be connected into The position of water channel (1271) and right connection water outlet (1273) is provided on half mould body (1) and at the same time repeatedly kicking into water channel with the right side (1271) and right connection water outlet (1273) communicates.

5. the sectional die of processing glass container according to claim 2, it is characterised in that in half mould body (1) lower part of short transverse and a left side is offered with space state in the position at back for corresponding to the left die cavity (111) Longitudinal radiating groove I (13a), and in the position for corresponding to the back of the intermediate die cavity (112) is offered with space state Between longitudinal radiating groove II (13b), and offered in the position for corresponding to the back of the right mould chamber (113) with space state right vertical To radiating groove III (13c).

6. the sectional die of processing glass container according to claim 5, it is characterised in that in half mould body (1) lower part of short transverse and corresponding to left longitudinal radiating groove I (13a) and intermediate longitudinal radiating groove II Position between (13b) and corresponding between intermediate longitudinal radiating groove II (13b) and the right longitudinal direction radiating groove III (13c) Position heat be respectively arranged at intervals with from top to bottom with the state of the thickness direction perpendicular to half mould body (1) transmit cooling stick (14), wherein setting is corresponding between left longitudinal radiating groove I (13a) and intermediate longitudinal radiating groove II (13b) The heat transmits cooling stick (14) and passes through longitudinal cooling water channel I among described first towards one end of the die cavity (11) (1242), it is arranged corresponding to described between intermediate longitudinal radiating groove II (13b) and right longitudinal radiating groove III (13c) Heat transmits cooling stick (14) and passes through longitudinal cooling water channel II (1243) among described second towards one end of the die cavity (11), Heat transmits cooling stick (14) and probes into the cooling stick cooling chamber (15) being formed on half mould body (1) away from the one end of die cavity (11) It is interior.

7. the sectional die of processing glass container according to claim 6, it is characterised in that the heat transmitting is cold But stick (14) is the rounded copper rod of cross-sectional shape, and the copper rod is brass bar.

8. the sectional die of processing glass container according to claim 2, it is characterised in that described left longitudinal cooling The upper end of water channel (1241) is blocked by left longitudinal cooling water channel plug (12411)；Longitudinal cooling water channel I among described first (1242) upper end is blocked by the longitudinal cooling water channel plug I (12421) in the first centre；Longitudinal cooling water channel II among described second (1243) upper end is blocked by the longitudinal cooling water channel plug II (12431) in the second centre；Right longitudinal cooling water channel (1244) Upper end blocked by right longitudinal cooling water channel plug (12441).

9. the sectional die of processing glass container according to claim 4, it is characterised in that the left connection water inlet Road (1261), left connection water outlet (1263), left transition water channel (1262), right connection inlet channel (1271), right connection water outlet (1273) and the port position of right transition water channel (1271) is respectively blocked by plug screw.

10. the sectional die of processing glass container according to claim 2, it is characterised in that the left die cavity (111), during intermediate die cavity (112) and right mould chamber (113) carry out milling, the milling of intermediate die cavity (112) remove with a thickness of 0.58-0.72mm, and the milling of left die cavity (111) and right mould chamber (113) is 0.43-0.58mm except thickness,；In half mould body (1) there are mould bases hinged seat (16) back to the side of the die cavity (11) and positioned at middle part composition, the mould bases hinged seat (16) tool There are a hinge hole (161)；On half mould body (1) and respectively around left die cavity (111), intermediate die cavity (112) and The circular arc direction of right mould chamber (113) is respectively offered from the top of half mould body with space state and is penetrated through to the venthole of lower part (17)。