CN217709229U - Glass ceramic mould - Google Patents

Abstract

The utility model provides a glass ceramic mould. A glass ceramic mold comprising: the mould comprises a placing box, a mould body, an anti-falling mechanism and a cooling mechanism, wherein a limiting bolt and a handle are arranged on one side of the placing box; the anti-falling mechanism comprises an annular clamping groove formed in the die body, and hanging rings are mounted on two sides of the die body; the cooling mechanism is including installing inlet tube and outlet pipe on placing the case, the inlet tube with the outlet pipe with set up in place incasement portion's circulation subassembly is connected. The utility model provides a glass ceramic mold places case, mould body, anti-disengaging mechanism and cooling body through the setting, can once only get a plurality of mould bodies and put the operation, and the time is short, and is efficient, has effectively reduced the possibility that mould body dropped, has improved the qualification rate of product, has reduced manufacturing cost to can assist the heat dissipation to the mould body, accelerate product shaping speed.

Description

Glass ceramic mould

Technical Field

The utility model relates to the technical field of mold, especially, relate to a glass ceramic mold.

Background

Glass ceramics, also called as microcrystalline glass, is a composite material which is prepared by high-temperature melting, molding and heat treatment and combines a crystal phase with glass. Has the advantages of high mechanical strength, adjustable thermal expansion performance, thermal shock resistance, chemical corrosion resistance, low dielectric loss and the like. Glass ceramics are widely used in the fields of mechanical manufacturing, optics, electronics and microelectronics, aerospace, chemistry, industry, biomedicine, architecture and the like. The pouring molding of the glass ceramic is similar to the traditional metal casting, the raw materials are heated and melted to be in a liquid state, then the liquid raw materials are poured into a mold with a required shape, the liquid raw materials are separated from the mold when being cooled to be in a solid state or a semi-solid state, and a product with a required specific shape is obtained.

The prior publication No. CN202246383U discloses a mold for processing glass ceramics, which can obviously improve the service life of the glass ceramics mold and the quality of glass ceramics, and is also suitable for manufacturing false teeth.

The glass ceramic mold for the existing false tooth is similar to the mold in structure, and the mold is easy to drop from the clamp due to the smooth outer surface of the mold and the small size of the mold, so that the pollution and even damage of products are caused, the production cost is increased, the clamp can only clamp one mold at a time, and the time for transferring the mold is wasted.

Therefore, it is necessary to provide a glass ceramic mold to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide a glass ceramic mould, can once only get a plurality of mould bodies and put the operation, it is efficient, reduce the possibility that the mould body dropped, the product shaping is fast.

In order to solve the technical problem, the utility model provides a glass ceramic mold, include: the mould comprises a placing box, a plurality of mould bodies, an anti-falling mechanism and a cooling mechanism, wherein the mould bodies are placed in the placing box, one side of the placing box is provided with a limiting bolt and a handle, the limiting bolt is used for fixing the mould bodies in the placing box, and the handle is used for conveniently taking and placing the placing box; the anti-falling mechanism comprises an annular clamping groove arranged on the side surface of the die body, the height of the annular clamping groove is greater than the thickness of the clamp, the height of the annular clamping groove from the bottom of the die body is greater than the depth of an inner groove of the placing box, and the two sides of the die body are both provided with hanging rings which are convenient for hanging and hanging the die body; the cooling mechanism is including installing inlet tube and outlet pipe on placing the case, the inlet tube with the outlet pipe with set up in place incasement portion's circulation subassembly is connected.

Preferably, the circulation assembly comprises a snake-shaped bottom circulation channel arranged at the bottom of the placing box and a spiral circulation channel arranged on the side wall of the placing box, and the bottom circulation channel is communicated with the spiral circulation channel.

Preferably, the water inlet pipe is communicated with the bottom circulation channel.

Preferably, the water outlet pipe is communicated with the spiral circulation channel, and the height of the water inlet pipe is lower than that of the water outlet pipe.

Preferably, a plurality of type grooves are opened at the top of the die body, and the type grooves are uniformly arranged and used for placing glass ceramic raw materials.

Preferably, the data plate is installed at the top of mould body, and the specification and the sequence number in mould body type groove are marked on the data plate.

Compared with the prior art, the utility model provides a glass ceramic mould has following beneficial effect:

(1) The box, the mould body, anti-disengaging mechanism and cooling body are placed through the setting, the operation of once only getting a plurality of mould bodies is put, and the time is short, and is efficient, has effectively reduced the possibility that the mould body dropped, has improved the qualification rate of product, has reduced manufacturing cost to can assist the heat dissipation to the mould body, accelerate product shaping speed.

(2) The bottom and the side of the die body can be cooled through the bottom circulating channel and the spiral circulating channel, and the reverse flow of cooling liquid can be prevented.

(3) And a plurality of type grooves are formed in the top of the die body, so that a plurality of products of the same type can be produced by one die body at the same time, and the production efficiency is improved.

(4) The product specification produced by the die body can be conveniently found through the top mounting nameplate of the die body.

Drawings

FIG. 1 is a schematic structural view of a glass ceramic mold according to the present invention;

FIG. 2 is a partial cross-sectional view of the glass-ceramic mold shown in FIG. 1;

FIG. 3 is a schematic structural view of a mold body in the glass ceramic mold shown in FIG. 1.

Reference numbers in the figures: 1. placing box, 2, mould body, 3, inlet tube, 4, outlet pipe, 5, spacing bolt, 6, handle, 7, bottom circulation channel, 8, spiral circulation channel, 9, type groove, 10, annular clamping groove, 11, rings, 12, data plate.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1-3, in an embodiment of the present invention, a glass ceramic mold includes: the mold comprises a placing box 1, mold bodies 2, an anti-falling mechanism and a cooling mechanism, wherein a plurality of mold bodies 2 are placed in the placing box 1, a limiting bolt 5 and a handle 6 are mounted on one side of the placing box 1, the limiting bolt 5 is used for fixing the mold bodies 2 in the placing box 1, and the handle 6 is used for facilitating taking and placing of the placing box 1; the anti-falling mechanism comprises an annular clamping groove 10 arranged on the side surface of the die body 2, the height of the annular clamping groove 10 is greater than the thickness of the clamp, the height of the annular clamping groove 10 from the bottom of the die body 2 is greater than the depth of an inner groove of the placing box 1, the two sides of the die body 2 are both provided with hanging rings 11, and the hanging rings 11 are arranged to facilitate hanging and hanging of the die body 1; the cooling mechanism comprises a water inlet pipe 3 and a water outlet pipe 4 which are installed on the placing box 1, the water inlet pipe 3 and the water outlet pipe 4 are connected with a circulating assembly arranged inside the placing box 1, when the cooling mechanism is used, the plurality of die bodies 2 are placed in the placing box 1 and fixed through a limiting bolt 5, raw materials are led into the die bodies 2, the placing box 1 is conveyed to a heating table to be heated by holding a handle 6, the raw materials are melted, then the end portion of a clamp is clamped in an annular clamping groove 10 through the clamp, the high-temperature die bodies 2 and the placing box 1 are taken down from the placing table 1, a steel fork can also be used for penetrating through a plurality of hanging rings 11 to take down the placing box 1 from the placing table 1, the water inlet pipe 3 and the water outlet pipe 4 are connected onto the cooling box, then cooling liquid in the cooling box is introduced into the circulating assembly in the placing box 1 from the water inlet pipe 3 to assist in cooling of the die bodies 2, and flows out of the circulating assembly and flows back into the cooling box through the water outlet pipe 4.

Placing case 1, mould body 2, anti-disengaging mechanism and cooling body through the setting, can once only getting a plurality of mould bodies 2 and putting the operation, the time is short, and is efficient, has effectively reduced the possibility that mould body 2 dropped, has improved the qualification rate of product, has reduced manufacturing cost to can assist the heat dissipation to mould body 2, accelerate product shaping speed.

Example 2:

as shown in fig. 1-2, the circulation component includes a serpentine bottom circulation channel 7 arranged at the bottom of the tank 1 and a spiral circulation channel 8 arranged at the side wall of the tank 1, the bottom circulation channel 7 is communicated with the spiral circulation channel 8, the water inlet pipe 3 is communicated with the bottom circulation channel 7, the water outlet pipe 4 is communicated with the spiral circulation channel 8, the height of the water inlet pipe 3 is lower than that of the water outlet pipe 4, when in use, the cooling liquid enters the bottom circulation channel 7 from the water inlet pipe 3 at a lower position to dissipate heat from the bottom of the mold body 2, the temperature of the cooling liquid absorbing heat is raised to some extent and the cooling liquid dissipates heat along the spiral circulation channel 8 raised by the spiral, then the cooling liquid is discharged from the water outlet pipe 4, the cooling liquid is from a low temperature to a high temperature, the low temperature cooling liquid is always located at the lower layer of the high temperature cooling liquid, and the backflow of the high temperature water is effectively avoided.

Through setting up inlet tube 3 and the outlet pipe 4 of height dislocation to and including bottom circulation channel 7 and spiral circulation channel 8, can dispel the heat to the bottom and the side of mould body 2, and can prevent the reverse flow of coolant liquid.

Example 3:

as shown in figure 3, a plurality of type grooves 9 have been seted up at 2 tops of mould body, and type groove 9 evenly sets up for place glass ceramic raw materials, a plurality of type grooves 9 can simultaneous production during the use, improve production efficiency.

A plurality of type grooves 9 are formed in the top of the die body 2, so that a plurality of products of the same type can be produced by one die body 2, and the production efficiency is improved.

Example 4:

as shown in FIG. 3, a nameplate 12 is installed at the top of the die body 2, and the nameplate 12 is marked with the specification and the serial number of the groove of the die body 2, so that the specification of the product produced by the die body 2 can be quickly identified by looking over the nameplate during use.

Through the top installation data plate 12 that sets up mould body 2, can conveniently look for the product specification that mould body 2 produced.

The utility model provides a glass ceramic mould's theory of operation as follows:

firstly, placing a plurality of mould bodies 2 in a placing box 1 and fixing the mould bodies by using a limiting bolt 5, introducing raw materials into a groove 9 on the mould bodies 2, holding a handle 6 and sending the placing box 1 onto a heating table for heating so as to melt the raw materials;

then clamping the end part of the clamp in the annular clamping groove 10 by using the clamp, and taking down the high-temperature die body 2 together with the placing box 1 from the placing table 1, or taking down the placing box 1 from the placing table 1 by using a steel fork to penetrate through a plurality of lifting rings 11;

connect inlet tube 3 and outlet pipe 4 on the cooler bin, then dispel the heat to the bottom of mould body 2 in the inlet tube 3 entering bottom circulation passageway 7 of lower position with the coolant liquid in the cooler bin, the coolant liquid absorbs the heat temperature and rises to some extent and dispels the heat to the side of mould body 2 along spiral circulation passageway 8 that the spiral risees, then the coolant liquid flows back to the cooler bin from outlet pipe 4, and then accelerates the cooling process of mould body 2 for product shaping speed.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A glass-ceramic mold, comprising:

the mould comprises a placing box, a mould body, an anti-falling mechanism and a cooling mechanism, wherein a limiting bolt and a handle are arranged on one side of the placing box;

the anti-falling mechanism comprises an annular clamping groove formed in the die body, and hanging rings are mounted on two sides of the die body;

the cooling mechanism comprises a water inlet pipe and a water outlet pipe which are arranged on the placing box, and the water inlet pipe and the water outlet pipe are connected with a circulating assembly arranged in the placing box.

2. The glass-ceramic mold of claim 1, wherein the circulation assembly comprises a bottom circulation channel and a spiral circulation channel, the bottom circulation channel in communication with the spiral circulation channel.

3. The glass-ceramic mold of claim 2, wherein the water inlet pipe is in communication with the bottom circulation channel.

4. The glass-ceramic mold of claim 2, wherein the water outlet pipe is in communication with the spiral circulation channel.

5. The glass ceramic mold as claimed in claim 1, wherein the mold body has a plurality of grooves formed in a top portion thereof.

6. The glass ceramic mold of claim 1, wherein a nameplate is mounted to a top of the mold body.

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