CN207435316U - Vacuum glass production system - Google Patents
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- CN207435316U CN207435316U CN201721249925.5U CN201721249925U CN207435316U CN 207435316 U CN207435316 U CN 207435316U CN 201721249925 U CN201721249925 U CN 201721249925U CN 207435316 U CN207435316 U CN 207435316U
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Abstract
The utility model is related to a kind of vacuum glass production system, including:Furnace body (1) has sealable inner cavity;Material frame (3), is arranged in the inner cavity, for carrying vacuum glass raw material;Vacuum plant, and the furnace body (1) operable connection, for the inner cavity to be made to reach predetermined vacuum degree;Multiple heating tubes (2), are arranged in an at least side surface for vacuum glass raw material, and the vacuum glass raw material for being up in the inner cavity of predetermined vacuum degree heats preset duration under vacuum conditions;And pressue device, after reaching default material state in vacuum glass raw material, increase the air pressure of the inner cavity, so that vacuum glass raw material is by molded.The utility model can simplify the production technology of vacuum glass, improve the quality of manufactured goods.
Description
Technical field
The utility model is related to vacuum glass production field more particularly to a kind of vacuum glass production systems.
Background technology
The energy and environmental problem are the two big problems that the world today is faced, and the climatic issues thus brought are even more 21 century
One of ultimate challenge of facing mankind.For the country using fossil fuels such as coal, oil as main energy sources, energy shortage and
The problem of environmental pollution, is more prominent.Efficient utilize that be energy saving, realizing the energy is the effective way to solve the above problems.
Building energy consumption ratio shared in energy aggregate consumption is very considerable.Again with heating and air-conditioning energy in building energy consumption
Based on consumption, more than the 50% of building total energy consumption is accounted for.Improve the heat-insulating property of building, such as improve the heat insulating ability of building doors and windows
Can, it can effectively reduce building energy consumption, moreover it is possible to improve the comfort level of inhabitation.
As shown in Figure 1, it is a kind of schematic cross-section of existing vacuum glass.It will be noted from fig. 1 that the vacuum glass bag
Two panels plate glass a1 and a2 are included, is enclosed out jointly in upper plate glass a1 and plate glass a2 under and sealant a3
Cavity a7.Multiple supporters being used to support and maintain plate glass gap are additionally provided between two panels plate glass a1 and a2
a6.Bleeding point a4 is equipped on plate glass a1, outwards pumping can be formed inside cavity a7 from cavity a7 by the bleeding point
Vacuum, after vacuum is formed, bleeding point a4 can be blocked by sealing-in object, and sealing cap a5 is set on bleeding point a4.
The preparation process of this existing vacuum glass is as follows:
(1) prepare two pieces of plate glass a1 and a2, bleeding point is reserved using glass drilling device and on plate glass a1
a4;
(2) plate glass a2 basic horizontals are placed, paste sealant a3 is applied in its fringe region, and in plate glass
The upper appropriate positions of a2 lay multiple supporter a6;
(3) plate glass a1 is overlayed on plate glass a2, plate glass a1, a2 and sealant a3 is made to enclose jointly
One stratiform cavity a7;
(4) using plate glass a1, a2 of heating equipment heating layer poststack under normal pressure, and applied using mechanical pressurization equipment
Add extra pressure, compress plate glass a1, a2, make the gap of sealant a3 seal plate glass a1, a2 surroundings;
(5) after sealant a3 coolings, using vacuum pump by bleeding point a4 to the stratiform of the plate glass formation after encapsulation
Cavity vacuumizes, and melts sealing-in object using heating equipment after vacuumizing, and blocks bleeding point a4, and is blocked with sealing cap a5 coverings
Bleeding point a4 firmly.
The preparation process of above-mentioned vacuum glass is needed using multiple equipment, and processing step is more complicated, and cost is higher,
Production efficiency is relatively low;The vacuum glass final product quality prepared is unstable, and the bleeding point on vacuum glass is also easy to damage, and then
Vacuum glass is caused to lose vacuum.
Utility model content
The purpose of this utility model is to propose a kind of vacuum glass production system, can simplify the production work of vacuum glass
Skill improves the quality of manufactured goods.
To achieve the above object, the utility model provides a kind of vacuum glass production system, including:
Furnace body has sealable inner cavity;
Material frame is arranged in the inner cavity, for carrying vacuum glass raw material;
Vacuum plant, and the operable connection of the furnace body, for the inner cavity to be made to reach predetermined vacuum degree;
Multiple heating tubes are arranged in an at least side surface for vacuum glass raw material, for being up to the institute of predetermined vacuum degree
The vacuum glass raw material stated in inner cavity heats preset duration under vacuum conditions;With
Pressue device after reaching default material state in vacuum glass raw material, increases the air pressure of the inner cavity, with
Make vacuum glass raw material by molded.
Further, multiple heating tubes are arranged at the surface surrounding of the vacuum glass raw material corresponding to sealing
The position of agent.
Further, the heating tube include carbon fiber heating tube, metallic resistance silk heating tube, molybdenum disilicide heating tube or
Carborundum heating tube.
Further, the quantity of the heating tube is 4 or more.
Further, the vacuum plant includes multi-stage vacuum pump assembly.
Further, the pressue device includes normal pressure recovery device, for reaching default material in vacuum glass raw material
After state, the inner cavity is made to revert to normal pressure state from vacuum state.
Further, the normal pressure recovery device include be mounted on the furnace body on and one side connected with extraneous air into
Air valve can make the air outside the furnace body into the inner cavity, so that in described by opening the air intake valve
Chamber reverts to normal pressure state.
Further, on the furnace body be equipped with bell, by the unlatching of the bell can realize vacuum glass raw material,
Being put into or taking out for vacuum glass finished product or material frame, the sealed shape of the inner cavity can be realized by the closing of the bell
State.
Further, the bell is arranged on the side of the furnace body;Material frame is correspondingly arranged on the outside of the bell
Track, the material frame can be left by the material mounted track into the furnace interior or from the furnace interior.
Further, the bell is arranged on the top of the furnace body;Material frame is correspondingly arranged on the upside of the bell
Lifting gear, the material frame can be by the material frame lifting gears into the furnace interior or from the furnace interior
It leaves.
Further, the washer for realizing thermal insulation trapping is additionally provided between the bell and the furnace body.
Further, the water cooling body for closing on the washer laying is further included, for protecting the washer.
Further, the furnace body is double furnace wall structure, is filled out between the outer layer furnace wall of the furnace body and internal layer furnace wall
Filled with temperature insulating material.
Further, for the furnace body integrally in the cylindrical shape placed vertically, vacuum glass raw material is carried on the object vertically
On rack;Strong magnetic mechanism is equipped in the furnace body, for passing through strong magnetic vacuum glass raw material is made vertically to be fixed on the object
On rack.
Further, temperature measuring equipment and voltage varying-regulating device are further included, the temperature measuring equipment is used to detect the furnace body
Internal temperature, the voltage varying-regulating device is electrically connected with the temperature measuring equipment and the heating tube, for according to the furnace body
Internal temperature adjusts multiple heating tubes into trip temperature.
Further, temperature measuring equipment and power regulating eqiupment are further included, the temperature measuring equipment is used to detect the inside temperature of the furnace body
Degree, the power regulating eqiupment is electrically connected with the temperature measuring equipment and the heating tube, for according to the internal temperature of the furnace body to more
A heating tube is adjusted into trip temperature.
Further, the temperature measuring equipment includes multiple temperature elements, and multiple temperature elements are evenly distributed on described
On furnace body.
Further, material state acquisition device is further included, for the material to the vacuum glass raw material in the inner cavity
State is obtained.
Further, the material state acquisition device includes the observation window being arranged on the furnace body.
Further, the material state acquisition device includes image capture device and image analyzing unit, described image
Collecting device can carry out Image Acquisition, described image analytic unit and described image to the vacuum glass raw material in the inner cavity
Collecting device communicates to connect, and the image of acquisition can be analyzed to obtain current material state.
Further, the material frame includes the supporting rack that can carry multi-group vacuum glass raw material.
Further, the material frame further includes intermediate plate, for the vacuum glass raw material being placed on support frame as described above
It is fixed.
Further, the intermediate plate is L-shaped or U-shaped, and is coated with anti-stick coating.
Further, multiple heating tubes are connected by fastener with support frame as described above, and are looped around support frame as described above
Around.
Further, multiple heating tubes and the intermediate plate sustained height horizontal laying, and protected between the intermediate plate
Hold pre-determined distance.
Further, auxiliary radiating device is further included, for, by after molded, accelerating the furnace body in vacuum glass raw material
Internal temperature reduction.
Based on above-mentioned technical proposal, the utility model uses vacuum glass raw material shape of the vacuum plant in the inner cavity of furnace body
Into predetermined vacuum degree, and multiple heating tubes by being arranged in a vacuum glass raw material at least side surface make vacuum glass raw material exist
Preset duration is heated under vacuum state, and after vacuum glass reaches default material state, increases the absolute pressure of inner cavity, with
Vacuum glass raw material is made to be formed vacuum glass finished product by molded.Now than existing vacuum glass Preparation equipment, this practicality is newly
The vacuum glass production system of type can save the processes such as glass drilling, mechanical pressurization, closure bleeding point, save relevant device
Cost so that the batch production of vacuum glass is possibly realized, and manufactured vacuum glass surfacing and structure it is intact, thereon
Bleeding point of glass self-strength etc. is not influenced, therefore improves the performance and security performance of vacuum glass finished product.
Description of the drawings
Attached drawing described herein is used to provide a further understanding of the present invention, and forms the part of the application,
The schematic description and description of the utility model is not formed for explaining the utility model to the improper of the utility model
It limits.In the accompanying drawings:
Fig. 1 is a kind of schematic cross-section of existing vacuum glass.
Fig. 2 is the structure diagram of an embodiment of the utility model vacuum glass production system.
Fig. 3 is structure diagram of the utility model vacuum glass production system embodiment at another visual angle.
Fig. 4 is the corresponding enlarged diagrams of circle A in Fig. 3.
Specific embodiment
Below by drawings and examples, the technical solution of the utility model is described in further detail.
As shown in Fig. 2, the structure diagram of the embodiment for the utility model vacuum glass production system.With reference to Fig. 3
And Fig. 4, the vacuum glass production system of the present embodiment include:It is furnace body 1, material frame 3, vacuum plant (not shown), multiple
Heating tube 2 and pressue device.Wherein, furnace body 1 has sealable inner cavity, which is used to accommodate vacuum glass material to be processed
Material, and its closed environment formed can reach default vacuum degree under the action of vacuum plant.Material frame 3 is set
In the lumen, for carrying vacuum glass raw material.Material frame 3 can take out from furnace body 1, after vacuum glass raw material is carried with
Vacuum glass raw material is put into material frame 3 together, and by working process in furnace body 1, then by material frame 3 by the vacuum of carrying
Glass finished-product takes out together.Certainly, required according to the 26S Proteasome Structure and Function of material frame 3 or furnace body 1, material frame 3 can also be fixed
It is arranged in the inner cavity of furnace body 1, vacuum glass raw material can be put into furnace body 1 by operator by craft or relevant device
On material frame 3, and finished product is removed from material frame 3 after machining.Material frame 3 can carry to form monolithic vacuum
Vacuum glass raw material corresponding to glass finished-product can also carry the vacuum glass raw material corresponding to polylith vacuum glass finished product and come
Improve production efficiency.
In order to which the inner cavity for making furnace body 1 reaches predetermined vacuum degree, vacuum plant can with 1 operable connection of furnace body, when needing
When vacuum environment is formed in furnace body 1, the bleeding point 4 of furnace body 1 can be connected by vacuum plant (with reference to figure 3).Surely
After empty glass raw material is put into 1 inside of furnace body, the bleeding point 4 of vacuum plant and furnace body can be attached by operator, and be opened
Dynamic vacuum plant extracts the air inside furnace body 1 out, at this time also can form vacuum state with process is vacuumized between glass plate.
In the present embodiment, vacuum pump may be employed as the air inside vacuum plant extraction furnace body 1.It is preferred that vacuum plant includes multistage
Vacuum pump assembly, such as three-level vacuum pump assembly, primary are rotary vane mechanical pump, and secondary is booster pump, and advanced is diffusion pump.It is logical
It crosses and the vacuum pump assembly is used in combination the inner cavity of furnace body 1 can be made to reach higher vacuum degree (such as 1 × 10-4Pa)。
Multiple heating tubes 2 can be arranged in an at least side surface for vacuum glass raw material, be used to be up to predetermined vacuum
Vacuum glass raw material in the inner cavity of degree heats preset duration under vacuum conditions.Compared to other kinds of heating dress
Put, multiple heating tubes 2 can under vacuum conditions can by light radiation to vacuum glass raw material heat, and light radiation compared to
The efficiency of heating surface higher of other thermaltransmission modes under vacuum conditions.
Heating tube 2 can make to be folded in adjacent two pieces of glass plates by high temperature when heating vacuum glass raw material
Between sealant melt, and the getter between activated at glass plate can be passed through.Since sealant is usually laid in glass
Multiple heating tubes 2 in order to improve the efficiency of heating surface, are preferably arranged at the surface surrounding pair of vacuum glass raw material by the surrounding of plate
It should be in the position of sealant.
Heating tube 2 can include but is not limited to carbon fiber heating tube, metallic resistance silk heating tube, molybdenum disilicide heating tube or
Carborundum heating tube etc. can also use the combination of the heating tube of these types of type as needed.The quantity of heating tube 2 can basis
Size of furnace body 1, material frame 3 or vacuum glass etc. makes choice, and preferably the quantity of heating tube 2 is 4 or more.
With reference to figure 2- Fig. 4, heating tube 2 can be fixed on material frame 3, so as to can be to being carried on material frame 3
Vacuum glass raw material form stable heat effect.Material frame 3 includes supporting rack, can carry multi-group vacuum glass raw material,
To carry out the processing of the vacuum glass of batch.In order to make the vacuum glass finished product after vacuum glass raw material and processing in moving process
Stability, preferred feed frame 3 further includes intermediate plate 15, and intermediate plate 15 is utilized to carry out the vacuum glass raw material being placed on supporting rack
It is fixed.From fig. 4 it can be seen that the intermediate plate 15 is preferably L-shaped, also to be carried out about from glass plate side while upper and lower clamp
Beam is fixed.The intermediate plate 15 can also take the shape of the letter U.In addition, anti-stick coating can be coated on intermediate plate 15, in case intermediate plate is after glass is heated
It sticks together with glass, and influences vacuum glass final product quality.
It is previously noted position of the surface surrounding corresponding to sealant that multiple heating tubes 2 are arranged at vacuum glass raw material
It puts, specifically, multiple heating tubes 2 by fastener with supporting rack can be connected, and be looped around around support frame as described above.It is excellent
Choosing is by multiple heating tubes 2 and 15 sustained height horizontal laying of intermediate plate, and holding pre-determined distance (such as the 5cm between intermediate plate 15
Deng).
In order to make the heating process of vacuum glass more controllable, vacuum glass production system can also increase and heating tube 2
The temperature measuring equipment of electrical connection and voltage varying-regulating device, the temperature measuring equipment is for detecting 1 internal temperature of furnace body, so as to transformation tune
Pressure device is adjusted according to the multiple heating tubes 2 of 1 internal temperature control of furnace body into trip temperature.In order to make temperature measuring more
Sensitive and accurate, temperature measuring equipment can include multiple temperature elements, and multiple temperature elements are evenly distributed on the furnace body 1
On.This makes it possible to the true temperature for more fully understanding the 1 each position in inside of furnace body, the computer heating control for heating tube 2 provides
More accurately foundation.
The effect of pressue device is to increase the absolute pressure of inner cavity after vacuum glass raw material reaches default material state
Power, so that vacuum glass raw material is by molded.Specifically, when the sealant between two pieces of adjacent sheets of glass under vacuum conditions
When being heated to thawing, sealant is present with foamed phenomenon, and when it foams up by the air pressure increasing action of pressue device, it can
To realize glass using the pressure difference between the vacuum of the cavity inside formed between the air pressure outside vacuum glass raw material and glass plate
Compacting between glass plate, while sealant bubble during being compacted can be extruded, so as to avoid with bladdery sealing
Agent influences the problem of sealing-in seal after the cooling period.In addition, it is this based on the pressuring method of draught head compared to mechanical pressurization, pressure
Power evenly, the degree between sealant intrusion glass plate evenly, so as to manufactured vacuum glass final product quality higher.
Pressue device can include normal pressure recovery device, after reaching default material state in vacuum glass raw material,
The inner cavity is made to revert to normal pressure state from vacuum state.Corresponding mechanical pressurization equipment, normal pressure are needed compared to mechanical pressurization
State is easily obtained, therefore cost is cheaper.Specifically, normal pressure recovery device can include being mounted on the furnace body 1
And the air intake valve 6 that one side is connected with extraneous air.It can make sky outside the furnace body 1 by opening the air intake valve 6
Gas enters the inner cavity, so that the inner cavity reverts to normal pressure state.Since inner cavity is when heated vacuum state, work as
When air intake valve 6 is opened, the air outside furnace body can be automatically drawn into inner cavity because of pressure difference so that the air pressure of interior intracavitary is gradual
Rise.During the air pressure of inner cavity is gradually increased normal pressure, air also progressively increases the pressuring action of the glass plate in stove
By force, proportionality action of the air pressure to each position of vacuum glass material, while the air that external temperature is relatively low are so also beneficial to
Also cool down while inner cavity is entered to vacuum glass raw material so that the sealant being progressively compacted is in discharge bubble
Gradually cure afterwards, complete sealing-in.Obviously, this process only needs Open valve just to complete pressurization and cooling procedure, can
Existing mechanical pressurization and cooling device are saved, hence manufacture cost is more cheap.
In order to accelerate the temperature-fall period of vacuum glass finished product, vacuum glass production system can further include auxiliary and dissipate
Thermal is dropped using the auxiliary radiating device in vacuum glass raw material by the molded rear internal temperature for accelerating the furnace body 1
It is low, improve production efficiency.On the other hand, for the vacuum glass production system using normal pressure recovery device, normal pressure recovers
Air in the process is but also the power that auxiliary radiating device is consumed is minimized.
The stopping heating opportunity of heating unit, the pressure applying moment of pressue device are to the quality of vacuum glass finished product to closing weight
Will, therefore in a preferred embodiment, vacuum glass production system can also include material state acquisition device, for institute
The material state for stating the vacuum glass raw material in inner cavity is obtained, true to be determined according to the current material state got
Whether empty glass raw material reaches default material state.With reference to figure 2, material state acquisition device can specifically include be arranged on it is described
Observation window 5 on furnace body 1, operator can manually observe current material state through observation window 5, be tied according to the observation
Fruit selection opportune moment adjustment heating unit, so as to reduce heating rate or stop heating, startup pressue device.
Another feasible material state acquisition device includes image capture device and image analyzing unit.Image Acquisition is set
Standby (such as video camera head etc.) can carry out the vacuum glass raw material in the inner cavity Image Acquisition, and image analyzing unit
(such as computer or dedicated computing equipment etc.) is communicated to connect with described image collecting device, and the image of acquisition can be divided
It analyses to obtain current material state.Image analyzing unit can extract the characteristics of image in acquisition image, and judge
Whether the corresponding parameter of characteristics of image reaches predetermined threshold value or by acquisition image with being pre-stored in material state image data base
Different material state corresponding to image be compared, to determine current material state.Using image capture device and figure
As analytic unit can reduce the skill requirement to operating personnel, the accuracy rate of material state identification is improved, and can be passed through
Relevant control unit is to realize and pressurize, the linkage between heating unit, improves the Automated water of vacuum glass production system
It is flat.
In above-mentioned each vacuum glass production system embodiment, with reference to figure 2- Fig. 4, furnace body 1 is double furnace wall structure, in institute
It states filled with temperature insulating material 13 between the outer layer furnace wall 11 of furnace body 1 and internal layer furnace wall 12, it is good so that furnace body 1 is enable to realize
Temperature maintenance effect.Bell 7 can be equipped on the furnace body 1, vacuum glass original can be realized by the unlatching of the bell 7
Material, vacuum glass finished product or material frame 3 being put into or taking out, and the inner cavity can be realized by the closing of the bell 7
Air-tight state.Handle 8 is also shown in Fig. 2, operator can open and close bell 7 by control handle 8.In order to true
Protect bell 7 ensures the air-tight state of inner cavity when closed, can also further be set between bell 7 and furnace body 1 and realize thermal insulation
The washer of trapping, and can also close on washer laying water cooling body, with using water cooling body to washer into
Row cooling.
For the horizontal cylindrical furnace of this integral level, horizontal vacuum glass raw material is typically that level is carried on
On material frame 2, and bell 7 may be provided at the side of the furnace body 1.The outside of bell 7 is correspondingly arranged on material mounted track 9,
The material frame 3 can be left by the material mounted track 9 into 1 inside of furnace body or inside the furnace body 1.Specifically
For, with reference to figure 4, the bottom of material frame 3 can set the idler wheel 16 that can be matched with 9 profile of material mounted track, utilize idler wheel
16 are steadily pushed into the material frame 2 for carrying vacuum glass raw material in furnace body 1 compared with the rolling of material mounted track 9, then will
The vacuum glass finished product and material frame 2 machined steadily takes out along material mounted track 9.Except bell 7 is arranged on 1 side of furnace body
Outside, bell 7 can also be arranged on to the top of the furnace body 1 in another embodiment, it accordingly can be in the upper of bell 7
Side sets material frame lifting gear, and material frame 3 can be by the material frame lifting gear into 1 inside of the furnace body or from described
It is left inside furnace body 1.
In another vacuum glass production system embodiment, furnace body 1 can be in integrally the cylindrical shape placed vertically, and vacuum
Glass raw material is carried on vertically on the material frame 3.In order to which vacuum glass raw material is enable to maintain it opposite in process of production
In the spatial position of material frame 3, strong magnetic mechanism is set preferably in the furnace body 1, by strong magnetic to vacuum glass raw material (such as metal
Supporter etc.) effect so that the vacuum glass raw material is vertically fixed on the material frame 3.
Finally it should be noted that:Above example is only to illustrate the technical solution of the utility model rather than it is limited
System;Although the utility model is described in detail with reference to preferred embodiment, those of ordinary skill in the art should
Understand:It can still modify to specific embodiment of the present utility model or some technical characteristics are equally replaced
It changes;Without departing from the spirit of technical solutions of the utility model, should all cover in the claimed technical solution of the utility model
Among scope.
Claims (26)
1. a kind of vacuum glass production system, which is characterized in that including:
Furnace body (1) has sealable inner cavity;
Material frame (3), is arranged in the inner cavity, for carrying vacuum glass raw material;
Vacuum plant, and the furnace body (1) operable connection, for the inner cavity to be made to reach predetermined vacuum degree;
Multiple heating tubes (2) are arranged in an at least side surface for vacuum glass raw material, for being up to described in predetermined vacuum degree
Vacuum glass raw material in inner cavity heats preset duration under vacuum conditions;With
Pressue device after reaching default material state in vacuum glass raw material, increases the air pressure of the inner cavity, so that very
Empty glass raw material is by molded.
2. vacuum glass production system according to claim 1, which is characterized in that multiple heating tubes (2) at least cloth
The surface surrounding put in the vacuum glass raw material corresponds to the position of sealant.
3. vacuum glass production system according to claim 1, which is characterized in that the heating tube (2) includes carbon fiber
Heating tube, metallic resistance silk heating tube, molybdenum disilicide heating tube or carborundum heating tube.
4. vacuum glass production system according to claim 1, which is characterized in that the quantity of the heating tube (2) is 4
More than.
5. vacuum glass production system according to claim 1, which is characterized in that the vacuum plant includes multi-stage vacuum
Pump assembly.
6. vacuum glass production system according to claim 1, which is characterized in that the pressue device recovers including normal pressure
Device after reaching default material state in vacuum glass raw material, makes the inner cavity revert to normal pressure shape from vacuum state
State.
7. vacuum glass production system according to claim 6, which is characterized in that the normal pressure recovery device includes installation
It, can by opening the air intake valve (6) on the furnace body (1) and air intake valve (6) that one side is connected with extraneous air
The air for making the furnace body (1) external is into the inner cavity, so that the inner cavity reverts to normal pressure state.
8. vacuum glass production system according to claim 1, which is characterized in that bell is equipped on the furnace body (1)
(7), it can realize that vacuum glass raw material, vacuum glass finished product or material frame (3) are put by the unlatching of the bell (7)
Or take out, the air-tight state of the inner cavity can be realized by the closing of the bell (7).
9. vacuum glass production system according to claim 8, which is characterized in that the bell (7) is arranged on the stove
The side of body (1);Material mounted track (9) is correspondingly arranged on the outside of the bell (7), the material frame (3) can pass through institute
Material mounted track (9) is stated to leave into the furnace body (1) inside or inside the furnace body (1).
10. vacuum glass production system according to claim 8, which is characterized in that the bell (7) is arranged on the stove
The top of body (1);Material frame lifting gear is correspondingly arranged on the upside of the bell (7), the material frame (3) can pass through institute
Material frame lifting gear is stated to leave into the furnace body (1) inside or inside the furnace body (1).
11. vacuum glass production system according to claim 8, which is characterized in that in the bell (7) and the furnace body
(1) washer for realizing thermal insulation trapping is additionally provided between.
12. vacuum glass production system according to claim 11, which is characterized in that further include and close on the washer laying
Water cooling body, for protecting the washer.
13. vacuum glass production system according to claim 1, which is characterized in that the furnace body (1) is double furnace wall knot
Structure is filled with temperature insulating material (13) between the outer layer furnace wall (11) of the furnace body (1) and internal layer furnace wall (12).
14. vacuum glass production system according to claim 1, which is characterized in that the furnace body (1) is in integrally to put vertically
The cylindrical shape put, vacuum glass raw material are carried on vertically on the material frame (3);Strong magnetic mechanism is equipped in the furnace body (1),
For by strong magnetic vacuum glass raw material being made vertically to be fixed on the material frame (3).
15. vacuum glass production system according to claim 1, which is characterized in that further include temperature measuring equipment and transformation tune
Pressure device, the temperature measuring equipment are used to detect the internal temperature of the furnace body (1), and the voltage varying-regulating device is filled with the thermometric
It puts and is electrically connected with the heating tube (2), multiple heating tubes (2) are carried out for the internal temperature according to the furnace body (1)
Temperature adjusts.
16. vacuum glass production system according to claim 1, which is characterized in that temperature measuring equipment and power regulating eqiupment are further included,
The temperature measuring equipment is used to detect the internal temperature of the furnace body (1), the power regulating eqiupment and the temperature measuring equipment and the heating
(2) electrical connection is managed, multiple heating tubes (2) are adjusted into trip temperature for the internal temperature according to the furnace body (1).
17. the vacuum glass production system according to claim 15 or 16, which is characterized in that the temperature measuring equipment includes more
A temperature element, multiple temperature elements are evenly distributed on the furnace body (1).
18. vacuum glass production system according to claim 1, which is characterized in that material state acquisition device is further included,
It is obtained for the material state to the vacuum glass raw material in the inner cavity.
19. vacuum glass production system according to claim 18, which is characterized in that the material state acquisition device bag
Include the observation window (5) being arranged on the furnace body (1).
20. vacuum glass production system according to claim 18, which is characterized in that the material state acquisition device bag
Include image capture device and image analyzing unit, described image collecting device can to the vacuum glass raw material in the inner cavity into
Row Image Acquisition, described image analytic unit communicate to connect with described image collecting device, the image of acquisition can be divided
It analyses to obtain current material state.
21. vacuum glass production system according to claim 1, which is characterized in that the material frame (3) includes to hold
Carry the supporting rack of multi-group vacuum glass raw material.
22. vacuum glass production system according to claim 21, which is characterized in that the material frame (3) further includes folder
Piece (15), for the vacuum glass raw material being placed on support frame as described above to be fixed.
23. vacuum glass production system according to claim 22, which is characterized in that the intermediate plate (15) is L-shaped or U
Shape, and it is coated with anti-stick coating.
24. according to the vacuum glass production system described in claim 21 or 22 or 23, which is characterized in that multiple heating tubes
(2) it is connected, and is looped around around support frame as described above with support frame as described above by fastener.
25. vacuum glass production system according to claim 22, which is characterized in that multiple heating tubes (2) and institute
Intermediate plate sustained height horizontal laying is stated, and pre-determined distance is kept between the intermediate plate.
26. according to the vacuum glass production system described in claim 1 or 6 or 7, which is characterized in that further include auxiliary heat dissipation dress
It puts, for, by after molded, accelerating the reduction of the internal temperature of the furnace body (1) in vacuum glass raw material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721249925.5U CN207435316U (en) | 2017-09-27 | 2017-09-27 | Vacuum glass production system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721249925.5U CN207435316U (en) | 2017-09-27 | 2017-09-27 | Vacuum glass production system |
Publications (1)
Publication Number | Publication Date |
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CN207435316U true CN207435316U (en) | 2018-06-01 |
Family
ID=62295327
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721249925.5U Active CN207435316U (en) | 2017-09-27 | 2017-09-27 | Vacuum glass production system |
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Country | Link |
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CN (1) | CN207435316U (en) |
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2017
- 2017-09-27 CN CN201721249925.5U patent/CN207435316U/en active Active
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