CN205874202U - 3D glass's processingequipment - Google Patents

Abstract

The utility model discloses a 3D glass's processingequipment, including furnace body, the control unit, feeding mechanism, flowing water station group and at least one mould, flowing water station group is including preheating station group, pressurization station group, cooling station group, the 2nd cooling station group and the 3rd cooling station group, it forms by at least one machining -position progressive to preheat station group, pressurization station group, cooling station group, the 2nd cooling station group and the 3rd cooling station group, machining -position progressive includes support group spare and lower membrane module that relative interval set up, each machining -position progressive's lower membrane module is in the control unit's control is down to placing the pressure of the time of predetermineeing is applyed to mould on the support group spare. The beneficial effect of the utility model: the utility model provides a glass processing device adopt preheat, pressurization, refrigerated integrated configuration process, progressively cool down again after crystallizations such as first stage heating finish to guarantee characteristics such as glass crystalline grain is tiny, the surface is bright and clean, the internal stress is little.

Description

A kind of processing unit (plant) of 3D glass

Technical field

This utility model relates to a kind of glass processing field, particularly relates to the processing unit (plant) of a kind of 3D glass.

Background technology

The processing method of current 3D glass mainly has following two, and one is to directly heat in atmosphere to treat that glass is at mould Middle dissolving crystalline forming again, natural cooling the most in atmosphere, finally takes out；Another kind is in atmosphere that glass biodissolution is right After allow glass crystalline forming again at elevated pressures.Both processing methods are all in atmosphere by glass recrystallization molding, do not have Have the Oxidation in view of air, glass in crystallization with during dissolving and air contact, and air generation Oxidation, Easily cause glass surface of poor quality, the defect such as intensity difference and printing opacity rate variance.Further, existing moulding process is simple, uses one The mode that secondary molding quickly cools down, does not control the rate of cooling of glass, ignores the nature of glass so that the product produced Product surface quality is poor, and internal stress is big, and the life-span is short.Additionally, prior art is inadequate to the control skill of pressure, the most again tie Time brilliant, the control to pressure is relatively more random, the most fully studies the character of glass, does not support by substantial amounts of experimental data, Ultimately result in the defects such as yield rate is low, of poor quality, light transmittance is low, surface quality is bad.

Utility model content

The technical problems to be solved in the utility model is, for drawbacks described above of the prior art, it is provided that a kind of 3D glass The processing unit (plant) of glass.

This utility model solves its technical problem and be the technical scheme is that

There is provided the processing unit (plant) of a kind of 3D glass, including body of heater, control unit, feed mechanism, flowing water station group and at least One mould, preheating station group that described flowing water station group includes being arranged in described body of heater, pressure H hyte, the first bosher Hyte, second bosher's hyte, and the 3rd bosher's hyte being arranged on outside described body of heater；Described preheating station group, pressure H Hyte, first bosher's hyte, second bosher's hyte and the 3rd bosher's hyte are formed by least one processing stations, Described processing stations includes support component and the lower mold assemblies that relative spacing is arranged, and the lower mold assemblies of each described processing stations exists Under the control of described control unit, the mould being placed on described support component is applied the pressure of Preset Time, described pre-thermal technology It is provided with heater on the processing stations of hyte, pressure H hyte and first bosher's hyte.

In the processing unit (plant) of 3D glass described in the utility model, the bottom of a support component of each described processing stations And the top of lower mold assemblies is separately installed with water cooling plant.

In the processing unit (plant) of 3D glass described in the utility model, described preheating station group, pressure H hyte and first The top of a support component and the bottom of lower mold assemblies of bosher's hyte are separately installed with described heater, described control unit Control the processing temperature of described heater.

In the processing unit (plant) of 3D glass described in the utility model, the size of the processing temperature of each described processing stations Different.

In the processing unit (plant) of 3D glass described in the utility model, the pressure down of the lower mold assemblies of each described processing stations Varying in size of power.

In the processing unit (plant) of 3D glass described in the utility model, the lower mold assemblies of each described processing stations is to placement It is different that stressed Preset Time executed by mould on described support component.

In the processing unit (plant) of 3D glass described in the utility model, described mould includes multiple, each described processing work Being placed with a mould on Wei, the mould on a processing stations is delivered to adjacent next processing work by described feed mechanism Position.

In the processing unit (plant) of 3D glass described in the utility model, also include for driving described lower mold assemblies to press down Drive mechanism, described drive mechanism is cylinder, oil cylinder or motor.

In the processing unit (plant) of 3D glass described in the utility model, described mould is concave-convex mold.

In the processing unit (plant) of 3D glass described in the utility model, each described processing stations is provided with at least one Dividing plate.

In sum, implement the processing unit (plant) of a kind of 3D glass of the present utility model, have the advantages that first, The glass processing device of the application use preheat, pressurize, the combinative structure that cools down is processed, flowing water station group includes arranging successively Preheating station group, pressure H hyte and bosher's hyte of row, from first processing stations of preheating station group to cooling station The temperature changing trend of last processing stations of group is first the most slowly to rise, more slowly decline, and i.e. first progressively adds The most progressively lower the temperature, to ensure the spies such as glassy grain is tiny, any surface finish, light transmittance are good, internal stress is little after the crystallizations such as heat Property.Secondly, the temperature of each processing stations controls to be to come real by the heater being arranged on lower mold assemblies and a support component Existing, and the temperature of each processing stations can individually control.3rd, the size of the downforce of each processing stations and pressurize Time can control respectively, and temperature, downforce, the independent basis controlling to be to ensure that accurately processing of dwell time, is also The key of product success or failure.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing:

Fig. 1 is the structural representation of the processing unit (plant) of a kind of 3D glass that this utility model preferred embodiment provides.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to this utility model.Should be appreciated that specific embodiment described herein is only in order to explain This utility model, is not used to limit this utility model.

As it is shown in figure 1, this utility model preferred embodiment provides the processing unit (plant) of a kind of 3D glass, including body of heater 1, send Material mechanism (not shown), flowing water station group and at least one mould 2, the processing stations that flowing water station group is arranged in order by several Composition, the mould 2 carrying material (such as straight glass etc.) is delivered on a processing stations be processed by feed mechanism, and It is delivered to the mould 2 carrying material on next processing stations be processed after processing.In the present embodiment, mould 2 For concave-convex mold, mould 2 includes multiple, and each processing stations is placed with mould 2, in all processing stations all completion of processing After, all moulds 2 are delivered to each self-corresponding next processing stations and are processed by feed mechanism.

Flowing water station group includes preheating station group 10, pressure H hyte 11, the first bosher's hyte being arranged in body of heater 1 12, second bosher's hyte 13, and the 3rd bosher's hyte 14 being arranged on outside body of heater 1.Preheating station group 10, pressure H hyte 11, first bosher's hyte 12, second bosher's hyte 13 and the 3rd bosher's hyte 14 all include at least one processing stations.

In the present embodiment, preheating station group 10 includes four processing stations, and pressure H hyte 11 includes three processing stations, First bosher's hyte 12 includes that two processing stations, second bosher's hyte 13 include two processing stations, the 3rd bosher Hyte 14 includes a processing stations, therefore whole flowing water station group has altogether 12 processing stations.It is understood that this reality Executing the particular number that example does not limit the processing stations of flowing water station group, flowing water station group can also be other quantity, as long as protecting Card preheating station group 10, pressure H hyte 11, first bosher's hyte, 12, second bosher's hyte 13 and the 3rd bosher's hyte 14 all include at least one processing stations.

Each processing stations of flowing water station group all includes support component 20 and the lower mold assemblies 30 that relative spacing is arranged.Add In man-hour, first the mould 2 carrying material is placed on the support of the first preheating station 101 of preheating station group 10 by feed mechanism On assembly 20, press under the lower mold assemblies 30 of the first preheating station 101 material to being placed on a support component 20 immediately, and Keeping Preset Time to carry out pressurize, after Preset Time arrives, lower mold assemblies 30 rises, and completes material at the first preheating station Processing on 101, subsequently feed mechanism the mould 2 on the first preheating station 101 is delivered to preheating station group 10 second pre- It is processed on thermal technology position 102.Equally, the lower mold assemblies 30 of the second preheating station 102 thing to being placed on a support component 20 Pressing under Liao, and keep Preset Time to carry out pressurize, after Preset Time arrives, lower mold assemblies 30 rises, and completes material Processing on two preheating stations 102, the mould 2 on the second preheating station 102 is delivered to preheating station group by feed mechanism subsequently It is processed on 3rd preheating station 103 of 10.According to this work process, mould 2 is delivered to be positioned at stove by feed mechanism always On last processing stations of the 3rd bosher's hyte 14 outside body 1, when mould 2 processes on last processing stations Bi Hou, mould 2 is delivered to engine body exterior by feed mechanism, the glass that the operator of engine body exterior process in taking out mould 1.

The above-mentioned course of processing is a continuous print course of processing, and the most previous mould 2 leaves a processing stations and arrives another After individual processing stations, later mould 2 occupies the processing stations being available immediately.Such as, previous mould 2 leaves the first preheating After station 101, later mould 2 occupies the first preheating station 101 immediately, and the lower mold assemblies 30 of all processing stations is whole After rising, feed mechanism just starts delivery mold 2.In order to ensure the continuity of processing work, the lower module of each processing stations The Preset Time that part 30 carries out pressurize is too big all without difference, and different processing stations carry out the Preset Time of pressurize can be identical, Can also be different, each processing stations carries out the Preset Time of pressurize and can be set, when presetting according to reality processing needs Between generally 5min～10min.

Further, the processing stations of preheating station group 10, pressure H hyte 11 and first bosher's hyte 12 is all provided with It is equipped with heater 40, so that each needs the processing stations of uniform temperature to reach the temperature set.In the present embodiment, add hot charging Put 40 for heat-generating pipe.

The top of a support component 20 of preheating station group 10, pressure H hyte 11 and first bosher's hyte 12 and lower module The bottom of part 30 is separately installed with at least one heat-generating pipe, and preheating station group 10, pressure H hyte 11 and the first cooling station The bottom of a support component 20 and the top of lower mold assemblies 30 of group 12 are separately installed with water cooling plant 50, to facilitate control processing work Temperature on position, keeps temperature constant.In the present embodiment, second bosher's hyte 13 does not set in the 3rd bosher's hyte 14 Put heater 40, but be provided with water cooling plant 50, the water-cooled dress in second bosher's hyte 13 and the 3rd bosher's hyte 14 Put 50 not shown.

Preferably, each processing stations of flowing water station group being additionally provided with dividing plate 15, dividing plate 15 may be located at and adds hot charging Put between 40 and water cooling plant 50, may be located between water cooling plant 50 and mould 2, it is also possible to be positioned at heater 40 and mould Between 2.The present embodiment does not limit particular number and the installation site of each processing stations upper spacer 15, and dividing plate 15 can include Zero piece, one piece, two pieces or polylith, the quantity of dividing plate 15 and installation site can be set according to actual needs.Such as first Two pieces of dividing plates 15, the first preheating it is provided with between heater 40 and the water cooling plant 50 of the lower mold assemblies 30 of preheating station 101 It is provided with one piece of dividing plate 15 between heater 40 and the mould 2 of a support component 20 of station 101.Illustrate on other processing stations Dividing plate 15 the most not shown.

In the present embodiment, preheating station group 10, pressure H hyte 11 and each processing stations of first bosher's hyte 12 Required temperature is the most different, from the temperature of last processing stations of first preheating station the 101 to the first bosher hyte 12 Degree variation tendency is first to rise to decline afterwards, i.e. first progressively heating etc. are the most progressively lowered the temperature, to ensure that glassy grain is thin after crystallizing The characteristic such as little, any surface finish, light transmittance are good, internal stress is little.In the actual course of processing, time after start now by machine preheated one-section Between, make each processing stations reach the design temperature each needed, then the mould that will be loaded with material is delivered on processing stations It is processed.

The processing unit (plant) of the application also includes control unit and drive mechanism (the most not shown), each due to flowing water station group The size of individual processing stations desirable pressure and the size of temperature are the most different, and control unit is used for the pressure on each processing stations Power and temperature control respectively in required scope.Concrete, temperature needed for each processing stations of preheating station group 10 and Pressure is relatively low, and the temperature and pressure needed for each processing stations of pressure H hyte 11 is higher, and each of bosher's hyte adds Temperature and pressure needed for work station is relatively low.Drive mechanism under the control of the control unit, drives lower mold assemblies to press for 30 times, and Keep Preset Time.In the present embodiment, drive mechanism can be the structures such as cylinder, oil cylinder or motor.

In sum, implement the processing unit (plant) of a kind of 3D glass of the present utility model, have the advantages that first, The glass processing device of the application use preheat, pressurize, the combinative structure that cools down is processed, flowing water station group includes arranging successively Preheating station group, pressure H hyte and bosher's hyte of row, from first processing stations of preheating station group to cooling station The temperature changing trend of last processing stations of group is first the most slowly to rise, more slowly decline, and i.e. first progressively adds The most progressively lower the temperature, to ensure the characteristics such as glassy grain is tiny, any surface finish, light transmittance are good, internal stress is little after the crystallizations such as heat. Secondly, the temperature of each processing stations controls to be that the heater by being arranged on lower mold assemblies and a support component realizes , and the temperature of each processing stations can individually control.3rd, when the size of the downforce of each processing stations and pressurize Between can control respectively, and temperature, downforce, the dwell time individually control to be to ensure that the basis of accurately processing, be also to produce The key of product success or failure.

Although this utility model is illustrated by specific embodiment, it will be appreciated by those skilled in the art that, not In the case of departing from this utility model scope, it is also possible to this utility model is carried out various conversion and equivalent substitutes.It addition, for Particular condition or material, can make various amendment, without deviating from scope of the present utility model to this utility model.Therefore, this reality Be not limited to disclosed specific embodiment with novel, and should include falling in this utility model right whole Embodiment.

Claims (10)

1. the processing unit (plant) of a 3D glass, it is characterised in that include body of heater (1), control unit, feed mechanism, flowing water station Group and at least one mould (2), described flowing water station group includes the preheating station group (10) being arranged in described body of heater (1), adds Pressure station group (11), first bosher's hyte (12), second bosher's hyte (13), and it is arranged on described body of heater (1) the outward Three bosher's hytes (14)；Described preheating station group (10), pressure H hyte (11), first bosher's hyte (12), second cold But station group (13) and the 3rd bosher's hyte (14) are formed by least one processing stations, and described processing stations includes relatively Spaced support component (20) and lower mold assemblies (30), the lower mold assemblies (30) of each described processing stations is in described control Under the control of unit, the mould (2) being placed on described support component (20) is applied the pressure of Preset Time, described pre-thermal technology It is provided with heater (40) on the processing stations of hyte (10), pressure H hyte (11) and first bosher's hyte (12).

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that the support group of each described processing stations The bottom of part (20) and the top of lower mold assemblies (30) are separately installed with water cooling plant (50).

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that described preheating station group (10), pressurization Station group (11) and the top of a support component (20) of first bosher's hyte (12) and the bottom of lower mold assemblies (30) are pacified respectively Equipped with described heater (40), described control unit controls the processing temperature of described heater (40).

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that the processing temperature of each described processing stations Varying in size of degree.

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that the lower module of each described processing stations Varying in size of the downforce of part (30).

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that the lower module of each described processing stations It is different that the mould (2) being placed on described support component (20) is executed stressed Preset Time by part (30).

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that described mould (2) includes multiple, each Being placed with a mould (2) on described processing stations, the mould (2) on a processing stations is delivered to by described feed mechanism Adjacent next processing stations.

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that also include for driving described lower module The drive mechanism that part (30) is pressed down, described drive mechanism is cylinder, oil cylinder or motor.

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that described mould (2) is concave-convex mold.

The processing unit (plant) of 3D glass the most according to claim 1, it is characterised in that arrange on each described processing stations There is at least one dividing plate (15).