CN204058234U - Make the centrifugal moulding mould of glassware - Google Patents

Abstract

Make a centrifugal moulding mould for glassware, belong to technical field of glass dies.Comprise die ontology, this die ontology is configured with vessel and is centrifuged into die cavity, and be configured with in the middle position of side of the bottom being centrifuged into die cavity back to vessel the rotating shaft adapter flange that is raised in the surface of die ontology, feature is: be directly configured with one for accelerating the cyclone cooling body of the speed of cooling in vessel centrifugal forming chamber in the side that die ontology is centrifuged into die cavity back to described vessel on described die ontology.Die ontology can be embodied and possess good self-radiating effect, not only contribute to improving the speed of cooling of glass melt in centrifugal forming process, be conducive to improving shaping efficiency and the Forming Quality ensureing glassware.

Description

Make the centrifugal moulding mould of glassware

Technical field

The utility model belongs to technical field of glass dies, is specifically related to a kind of centrifugal moulding mould making glassware.

Background technology

Aforesaid glassware is as all kinds of glass basin, glass cylinder cup dish and even Lid of glass pot and bowl cover etc.As is known in the industry, make with blowing mode or pressing mode the process being not limited to the aforementioned process and making Glass Containers that exemplify glassware and there is identical part, Glass Containers as all kinds of bottle, glass cylinder, bottle for cosmetics, jam product tank, vase and beverage bottle, etc.Must first frit be introduced in glass mold in the process manufacturing this type of glassware and Glass Containers, then carry out blowing or compression moulding according to different technique, and in moulding process, with speed faster, the gas in die cavity is discharged as far as possible, otherwise the gas be stranded in die cavity can enter in glassware or Glass Containers, glasswork is caused to occur affecting visual appearance by the bubble that naked eyes are obvious.

Technical intelligence for the glass mold of shaping such as Beer Bottle, red wine bottle, Drinking bottle and so on can be seen in a large number in disclosed Chinese patent literature, slightly make the mould of Glass Containers with what exemplify as CN101298355A(), CN101298356A(makes the mould of Glass Containers), the mould of CN101298357A(processing glass container), the mould of CN101298358A(Glass Containers processing), CN101298359A(mould for processing glass container), etc.This type of glass container mold can be seen in too abroad in patent documentation, as US Patent No. 2006/0212632A, etc.

But, technical intelligence about the vessel mould making glassware in Chinese patent literature is very few, even if report to some extent, also be the glass mold for pressware, such as Authorization Notice No. CN202063821U recommends to be had " inlaid-type glassware mould ", it is jointly made up of the high temperature steel lining of inside and outside cast alloy iron overcoat, and by joint bolt, high temperature steel lining is connected with cast alloy iron overcoat, is designed with outer radiating groove at the outside surface of cast alloy iron overcoat.And for example CN103011561A provides " mould making glassware ", and this patent application scheme belongs to compression moulding category according to its specification sheets is known, because need to use the associated components such as drift.

As is known in the industry, centrifugal casting makes for the mould of glassware and the centrifugal moulding mould mould used relative to blowing technique due to without the need to using complicated inflatable body and related facility and simply too much, due to without the need to using the associated components such as drift and simply too much equally for the mould used relative to shaping method to suppress, and make efficiency no less than blowing technique and shaping method to suppress, although especially adopt shaping being known as of centrifugal casting to be first-selected for the glassware such as belonging to fruit basin and tea set dish category that those areas are larger, but the heat dissipation problem due to centrifugal moulding mould is the technology barrier that industry is difficult to go beyond all the time, thus centrifugal casting formed glass vessel feel a draft for a long time, and be showed no all technical intelligence being centrifuged into pattern about making glassware in China and foreign countries' patent and non-patent literature disclosed in up to now.

For above-mentioned prior art, the applicant has done useful design, and defines the technical scheme solved the problems of the technologies described above.

Summary of the invention

Task of the present utility model be to provide a kind of there is good self-radiating effect and use glass melt is cooled fast and the centrifugal moulding mould ensureing the making glassware of the shaping efficiency of glassware.

Task of the present utility model has been come like this, a kind of centrifugal moulding mould making glassware, comprise die ontology, this die ontology is configured with vessel and is centrifuged into die cavity, and be configured with in the middle position of side of the bottom being centrifuged into die cavity back to vessel the rotating shaft adapter flange that is raised in the surface of die ontology, feature is: be directly configured with one for accelerating the cyclone cooling body of the speed of cooling in vessel centrifugal forming chamber in the side that die ontology is centrifuged into die cavity back to described vessel on described die ontology.

In a specific embodiment of the present utility model, described cyclone cooling body comprises and is directly formed in described mold body and is centrifuged into the side of the bottom of die cavity back to described vessel and is raised in the die ontology bottom heat radiation fin of the basal surface of die ontology, and described rotating shaft adapter flange is positioned at the center of die ontology bottom heat radiation fin.

In another specific embodiment of the present utility model, described die ontology bottom heat radiation fin with described rotating shaft adapter flange for the center of circle and increase gradually with diameter and formed a plurality of concentrically ringed state from inside to outside towards away from rotating shaft adapter flange Directional Extension or using rotating shaft adapter flange as starting point spirally state from inside to outside towards the Directional Extension away from rotating shaft adapter flange.

In another specific embodiment of the present utility model, maintain spacing between described die ontology bottom heat radiation fin, be configured to cyclone cooling channels by this spacing.

In another specific embodiment of the present utility model, described cyclone cooling body also includes one and is directly formed in described die ontology and is centrifuged into the side of die cavity back to described vessel and is raised in the die ontology heat dissipation fin of the side surface of die ontology, this die ontology heat dissipation fin is corresponding with the side that vessel are centrifuged into die cavity, and is connected with described die ontology bottom heat radiation fin.

Also have in a specific embodiment of the present utility model, described die ontology heat dissipation fin spirally state from the direction of described die ontology bottom heat radiation fin towards the Directional Extension away from die ontology bottom heat radiation fin.

More of the present utility model and in a specific embodiment, maintain pitch between described die ontology heat dissipation fin, be configured to cyclone cooling channel by this pitch.

In an of the present utility model and then specific embodiment, the height of described die ontology bottom heat radiation fin is 1/1 to six/2nd of the thickness of described die ontology.

Of the present utility model again more and in a specific embodiment, the height of described die ontology heat dissipation fin is 1/1 to six/2nd of the thickness of described die ontology.

In an again of the present utility model and then specific embodiment, offer rotary disk connecting shaft hole on the top of described die ontology and around the circumferential direction of die ontology with space state.

The technical scheme that the utility model provides is owing to being directly configured with the cyclone cooling body of the speed of cooling for accelerating vessel centrifugal forming chamber at die ontology back to the side that vessel are centrifuged into die cavity in a creative way, thus can embody die ontology and possess good self-radiating effect, not only contribute to improving the speed of cooling of glass melt in centrifugal forming process, and be conducive to significantly improving shaping efficiency and ensure the Forming Quality of glassware.

Accompanying drawing explanation

Fig. 1 is the first embodiment schematic diagram of the present utility model.

Fig. 2 is the second embodiment schematic diagram of the present utility model.

Fig. 3 is the application examples schematic diagram of Fig. 2.

Embodiment

Embodiment 1:

Refer to Fig. 1, show the die ontology 1 for making glass basin, this die ontology 1 is configured with vessel and is centrifuged into die cavity 11, namely show glass basin and be centrifuged into die cavity, and be configured with in the middle position of side of the bottom being centrifuged into die cavity 11 back to vessel the rotating shaft adapter flange 12 that is raised in the surface of die ontology 1.

Technical essential as the technical scheme that the utility model provides: be directly configured with one for accelerating the cyclone cooling body 13 of the speed of cooling in vessel centrifugal forming chamber 11 in the side that die ontology 1 is centrifuged into die cavity 11 back to aforementioned vessel on foregoing mould body 1.

In the present embodiment, aforesaid cyclone cooling body 13 comprises and is directly formed in mold body 1 and is centrifuged into the side of the bottom of die cavity 11 back to described vessel and is raised in the die ontology bottom heat radiation fin 131 of the basal surface of die ontology 1, and aforementioned rotating shaft adapter flange 12 is positioned at the center of die ontology bottom heat radiation fin 131.As shown in Figure 1, die ontology bottom heat radiation fin 31 increases gradually with diameter with rotating shaft adapter flange 12 for the center of circle and forms a plurality of concentrically ringed state from inside to outside towards the Directional Extension away from rotating shaft adapter flange 12.In FIG, although applicant illustrates six die ontology bottom heat radiation fins 131, be not subject to this number quantitative limitation, because can change according to the change of the diameter of die ontology 1.In addition, applicant it should be noted that: aforesaid die ontology bottom heat radiation fin 131 also can be that spirally state is from inside to outside towards the Directional Extension away from rotating shaft adapter flange 12 using the position of rotating shaft adapter flange 12 as starting point, and expansion alleged is here essentially the concept of extension.

As shown in Figure 1, maintain spacing between die ontology bottom heat radiation fin 131, be configured to cyclone cooling channels 1311 by this spacing.The height of die ontology bottom heat radiation fin 131 is preferably 1/1 to six/2nd of the thickness of die ontology 1, be 1/1 to four/2nd preferably, be two 1/1 to three/5th better, the present embodiment selects two 1/7th, does not need in the present embodiment to limit for this thickness of 1 of mould.

In order to make die ontology 1 be fixedly connected with the rotary disk 3 illustrated by Fig. 3 in a state of use, the edge of the circumferential direction thus on the top of die ontology 1 offers rotary disk connecting screw hole 14 with space state.

Embodiment 2:

Refer to Fig. 2, aforementioned cyclone cooling body 13 also includes and is directly formed in foregoing mould body 1 and is centrifuged into the side of die cavity 11 back to aforementioned vessel and is raised in the die ontology heat dissipation fin 132 of the side surface of die ontology 1, this die ontology heat dissipation fin 132 is corresponding with the side that vessel are centrifuged into die cavity 11, and is connected with foregoing mould body bottom portion radiating fin 131.

Aforesaid die ontology heat dissipation fin 132 spirally state from the direction of die ontology bottom heat radiation fin 131 towards the Directional Extension away from die ontology bottom heat radiation fin 131, and maintain pitch between die ontology heat dissipation fin 132, be configured to cyclone cooling channel 1321 by this pitch.The thickness of die ontology heat dissipation fin 132 is as the description to die ontology bottom heat radiation fin 131.The NM content of the present embodiment is all with the description to embodiment 1.

Application examples:

Refer to Fig. 3, should the die ontology 1 involved by use-case be the die ontology 1 of the structure of embodiment 2, namely cyclone cooling body 13 comprises die ontology bottom heat radiation fin 131 and die ontology heat dissipation fin 132.As shown in Figure 3, show single-revolution support 2, the rotary disk 3 mentioned above is positioned at the top of rotary support 2, and die ontology 1 of the present utility model is fixedly connected with rotary disk 3 by the position that die ontology set screw 141 is corresponding to rotary disk connecting screw hole 14, the rotating shaft of unshowned power drive mechanism and the rotary support axis hole 21 of rotary support 2 connect and under the state driving rotary support 2 to move in figure 3, glass melt enters vessel and is centrifuged into die cavity 11 and carries out centrifugal forming, in centrifugal forming process, dispelled the heat by the die ontology bottom heat radiation fin 131 of cyclone cooling body 13 and die ontology side radiating fin 132, because die ontology 1 is in rotating state, therefore cyclone cooling channels 1311 and cyclone cooling channel 1321 can make by the vessel of die ontology 1 be centrifuged into die cavity 11 shaping time produce high temperature outwardly discharge in air swirl mode, namely effectively normal temperature air is supplemented to cyclone cooling channels 1311 and cyclone cooling channel 1321, and high temperature air is discharged, to play the cooling effect accelerating vessel to be centrifuged into the glass melt in die cavity 11.

Claims (10)

1. a kind of centrifugal moulding mould making glassware, comprise die ontology (1), this die ontology (1) is configured with vessel and is centrifuged into die cavity (11), and be configured with in the middle position of side of the bottom being centrifuged into die cavity (11) back to vessel the rotating shaft adapter flange (12) that is raised in the surface of die ontology (1), it is characterized in that: go up at described die ontology (1) and be directly configured with one for accelerating the cyclone cooling body (13) of the speed of cooling in vessel centrifugal forming chamber (11) in the side that die ontology (1) is centrifuged into die cavity (11) back to described vessel.

2. the centrifugal moulding mould of making glassware according to claim 1, it is characterized in that described cyclone cooling body (13) comprises directly to be formed in described mold body (1) and to be centrifuged into the side of the bottom of die cavity (11) back to described vessel and to be raised in the die ontology bottom heat radiation fin (131) of the basal surface of die ontology (1), described rotating shaft adapter flange (12) is positioned at the center of die ontology bottom heat radiation fin (131).

3. the centrifugal moulding mould of making glassware according to claim 2, it is characterized in that described die ontology bottom heat radiation fin (31) with described rotating shaft adapter flange (12) for the center of circle and increase gradually with diameter and formed a plurality of concentrically ringed state from inside to outside towards away from rotating shaft adapter flange (12) Directional Extension or using rotating shaft adapter flange (12) as starting point spirally state from inside to outside towards the Directional Extension away from rotating shaft adapter flange (12).

4. the centrifugal moulding mould of making glassware according to claim 3, is characterized in that maintaining spacing between described die ontology bottom heat radiation fin (131), is configured to cyclone cooling channels (1311) by this spacing.

5. the centrifugal moulding mould of making glassware according to claim 2, it is characterized in that described cyclone cooling body (13) also includes one and is directly formed in described die ontology (1) and is centrifuged into the side of die cavity (11) back to described vessel and is raised in the die ontology heat dissipation fin (132) of the side surface of die ontology (1), this die ontology heat dissipation fin (132) is corresponding with the side that vessel are centrifuged into die cavity (11), and is connected with described die ontology bottom heat radiation fin (131).

6. the centrifugal moulding mould of making glassware according to claim 5, it is characterized in that described die ontology heat dissipation fin (132) spirally state from the direction of described die ontology bottom heat radiation fin (131) towards the Directional Extension away from die ontology bottom heat radiation fin (131).

7. the centrifugal moulding mould of making glassware according to claim 6, is characterized in that maintaining pitch between described die ontology heat dissipation fin (132), is configured to cyclone cooling channel (1321) by this pitch.

8. the centrifugal moulding mould of making glassware according to claim 2, is characterized in that the height of described die ontology bottom heat radiation fin (131) is 1/1 to six/2nd of the thickness of described die ontology (1).

9. the centrifugal moulding mould of making glassware according to claim 5, is characterized in that the height of described die ontology heat dissipation fin (132) is 1/1 to six/2nd of the thickness of described die ontology (1).

10. the centrifugal moulding mould of the making glassware according to claim 1 or 2 or 5 or 8 or 9, is characterized in that on the top of described die ontology (1) and circumferential direction around die ontology (1) offers rotary disk connecting shaft hole (14) with space state.