CN208732926U - A kind of glass chemistry toughening production equipment - Google Patents
A kind of glass chemistry toughening production equipment Download PDFInfo
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- CN208732926U CN208732926U CN201821255075.4U CN201821255075U CN208732926U CN 208732926 U CN208732926 U CN 208732926U CN 201821255075 U CN201821255075 U CN 201821255075U CN 208732926 U CN208732926 U CN 208732926U
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Abstract
The utility model discloses a kind of glass chemistry toughening production equipment, preheating furnace, annealing furnace, fused salt adding set, transport vehicle and the hand basket of fire door upward including fire door holding furnace directed downwardly, fire door upward.During being produced using the glass chemistry toughening production equipment, the addition of fused salt is completed by the fused salt adding set in annealing furnace, it is then cooperated jointly completion by the transport vehicle, hand basket, holding furnace, preheating furnace and annealing furnace to the chemical tempering process of glass, above procedure does not need manual intervention, it is automatically performed completely by the glass chemistry toughening production equipment, so that human cost be greatly reduced while greatly improving production effect.In addition, the glass chemistry toughening production equipment further includes waste collecting device and liquid level detection device, the automatic addition of fused salt in the automatic recycling and annealing furnace of waste liquid may be implemented.
Description
Technical field
The utility model relates to glass reinforced apparatus fields, and in particular to a kind of glass chemistry toughening production equipment.
Background technique
In glass processing industry, for the glass of thinner thickness, generally use chemical strengthening method to glass strengthened with
The higher tempered glass of intensity is obtained, principle is that the glass or glassware that need tempering are placed on containing for high-temperature fusion
Certain time is impregnated in the salt bath of potassium nitrate, by by the sodium of small ionic radii, lithium ion in glass and containing the salt of potassium nitrate
The potassium ion of bigger ionic radius is replaced in bath, so that glass surface be made to generate compressive stress layers, it is strong to reach raising glass
The purpose of degree.
Glass toughening production line completes the processes such as glass tempering feeding, preheating, tempering, annealing, cleaning currently on the market
When operating ambient temperature it is high, and every procedure is all artificial or automanual, in addition, the nitrate solution in annealing furnace needs
The process periodically to replace, and replace nitrate salt bath at present is also by being accomplished manually, and it is more to result in operator in this way, labor
Situations such as fatigue resistance is high, and the production time is long, low efficiency.
Utility model content
Technical problem to be solved in the utility model is, for the existing above problem in the prior art, to provide one
Kind can be greatly reduced human cost while greatly improve the glass chemistry toughening production equipment of production efficiency.
It is set the technical scheme adopted by the utility model to solve the technical problem is as follows: providing a kind of production of glass chemistry toughening
Standby, including fire door holding furnace directed downwardly, fire door upward preheating furnace, annealing furnace, the fused salt adding set, transport vehicle of fire door upward
And hand basket, wherein
The transport vehicle is used to for the hand basket for being mounted with glass being transported to the underface of the holding furnace;
The holding furnace is arranged in the top of the preheating furnace and the holding furnace horizontally moveablely, is used for the fortune
The hand basket on defeated vehicle is successively transferred to the preheating furnace and the annealing furnace;
The fused salt adding set include fire door upward and bottom the fused salt of the annealing furnace is connected to by the first valve
Furnace, the broken feeder being aligned with the fire door of the molten salt furnace are melted set on the weighing apparatus of the fused salt furnace bottom and set on described
The blender of salt furnace interior, the broken feeder is used to after being crushed block-like fused salt be fed through in the molten salt furnace, described
Weighing apparatus is used to measure the quality being added to the fused salt in the molten salt furnace, and the molten salt furnace is for the fused salt that will be added from solid-state
Molten state is heated to which the fused salt of the molten state when first valve is opened can flow into the tempering from the molten salt furnace
Furnace, the blender are used to stir evenly the fused salt of the molten state in the molten salt furnace.
In the above-mentioned technical solutions, the addition of fused salt is completed by the fused salt adding set in annealing furnace, the change to glass
It learns toughening process then to be cooperated jointly completion by the transport vehicle, hand basket, holding furnace, preheating furnace and annealing furnace, above procedure is not
It requires manual intervention, is automatically performed completely by the glass chemistry toughening production equipment, so that human cost be greatly reduced simultaneously
Greatly improve production effect.
The improvement of glass chemistry toughening production equipment as the utility model, the glass chemistry toughening production equipment is also
Including waste collecting device, the bottom of the annealing furnace is connected to by the second valve with drain pipe, the waste collecting device packet
The catch tray for transporting track and being arranged on the transport track is included, the track that transports is used to move the catch tray of interior sky
It send to the position being aligned with the drain pipe.Since the service life of the fused salt in annealing furnace is limited, certain time is used
After need to carry out the replacement, by above-mentioned improvement, opening the fused salt needed replacing after second valve can be by described
Drain pipe is fed directly in the catch tray, without manually salvaging, that is to say, that the process of fused salt in replacement annealing furnace
Manual intervention is not needed, to improve the efficiency of fused salt replacement yet.
The improvement of glass chemistry toughening production equipment as the utility model, the waste collecting device further include being set to
Cooling device along the transport track, the transport track are also used to the catch tray of the interior fused salt for having discarded molten state
It is transferred to position corresponding with the cooling device, the cooling device is used for the fused salt in the catch tray is cold from molten state
But to solid-state.By above-mentioned improvement, the fused salt of the molten state flowed into catch tray can rapidly be cooled into solid molten
Salt, in order to accelerate subsequent recovery process.
The improvement of glass chemistry toughening production equipment as the utility model, the waste collecting device include multiple institutes
State catch tray.By above-mentioned improvement, the fused salt needed replacing in annealing furnace can be dispersedly collected into multiple catch trays,
Convenient for subsequent recovery carrying.
The improvement of glass chemistry toughening production equipment as the utility model, the glass chemistry toughening production equipment is also
Including liquid level detection device, the liquid level detection device is used to detect the depth of the fused salt of molten state in the annealing furnace.Due to
During carrying out chemical tempering to glass, during glass removes annealing furnace with hand basket, glass surface can adhere on a small quantity
Fused salt, therefore, the fused salt in annealing furnace can be reduced gradually at any time, and by above-mentioned improvement, liquid level detection device can be with
The depth of the fused salt of molten state in annealing furnace is detected, it, can be with when detecting the fused salt depth decline in annealing furnace
It is replenished in time by fused salt adding set.
The improvement of glass chemistry toughening production equipment as the utility model, the glass chemistry toughening production equipment packet
Include multiple annealing furnaces.By above-mentioned improvement, the glass chemistry toughening production equipment is adapted to different glass chemistries
Steel process.
The improvement of glass chemistry toughening production equipment as the utility model, the broken feeder include rack, break
Broken module and feeding module;The broken module includes moving tooth plate, fixed-tooth plate and the first driving portion, the moving tooth plate and described fixed
Tooth plate mutually stands facing each other and forms crusher chamber, and the fixed-tooth plate is fixedly connected on the rack, and the lower end of the moving tooth plate is articulated in institute
State rack, upper end is articulated in first driving portion;The feeding module includes the lower end for being directed at and being connected to the crusher chamber
Feeding portion that feeder, lower end are connected to the lower end of the feeder, upper end is connected to the upper end of the feeding portion and lower end pair
The discharging portion of the fire door of the quasi- molten salt furnace and the second driving portion being connect with the feeding portion.It is described by above-mentioned improvement
Block-like material to be broken is broken into fine grained by the broken module by broken feeder, then passes through the feeding mould
Block will be fractured into fine-grained material and be transported in the molten salt furnace, and whole process is completed by machinery, reduce people
Work operation, increases working efficiency, reduces safety accident.
Implement glass chemistry toughening production equipment provided by the utility model, can achieve following the utility model has the advantages that the glass
Glass chemical tempering production equipment, including fire door holding furnace directed downwardly, fire door preheating furnace upward, fire door annealing furnace upward, molten
Salt adding set, transport vehicle and hand basket, wherein the transport vehicle is used to the hand basket for being mounted with glass being transported to the heat preservation
The underface of furnace;The holding furnace is arranged in the top of the preheating furnace and the holding furnace horizontally moveablely, is used for institute
The hand basket stated on transport vehicle is successively transferred to the preheating furnace and the annealing furnace;The fused salt adding set includes fire door
Upward and bottom the molten salt furnace of the annealing furnace is connected to by the first valve, be aligned with the fire door of the molten salt furnace it is broken on
Material machine, the weighing apparatus set on the fused salt furnace bottom and the blender inside the molten salt furnace, the broken feeder are used
It is fed through in the molten salt furnace after block-like fused salt is broken, the weighing apparatus is added for measuring to the molten salt furnace
The quality of fused salt, the molten salt furnace are used to the fused salt of addition being heated to molten state from solid-state to when first valve is opened
When molten state fused salt can flow into the annealing furnace from the molten salt furnace, the blender is for stirring evenly in the molten salt furnace
The fused salt of molten state.To which the addition of fused salt is completed by the fused salt adding set in annealing furnace, to the chemical tempering mistake of glass
Cheng Ze is cooperated completion jointly by the transport vehicle, hand basket, holding furnace, preheating furnace and annealing furnace, and above procedure does not need manually
Intervene, is automatically performed completely by the glass chemistry toughening production equipment, so that human cost be greatly reduced while greatly improving
Production effect.
Detailed description of the invention
Fig. 1 is the lateral plan of the utility model preferred embodiment;
Fig. 2 is the stereoscopic schematic diagram of the utility model preferred embodiment, and broken feeder is omitted in figure;
Fig. 3 is another stereoscopic schematic diagram of the utility model preferred embodiment, and broken feeder is omitted in figure;.
Fig. 4 is the stereoscopic schematic diagram of the broken feeder of the utility model preferred embodiment;
Fig. 5 is the partial enlarged view of Fig. 4;
Fig. 6 is the cross-sectional view of the broken feeder of the utility model preferred embodiment;
Fig. 7 is the partial enlarged view of Fig. 6.
The drawing reference numeral of specific embodiment illustrates:
Specific embodiment
For a clearer understanding of the technical features, objectives and effects of the utility model, now control attached drawing is detailed
Illustrate specific embodiment of the present utility model.Obviously, the described embodiments are only a part of the embodiments of the utility model,
Instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creation
Property labour under the premise of every other embodiment obtained, fall within the protection scope of the utility model.
As shown in Figure 1 to Figure 3, the glass chemistry toughening production equipment that the utility model preferred embodiment provides includes frame body
100, preheating furnace 300, annealing furnace 400, the fused salt adding set of fire door upward of fire door holding furnace 200 directed downwardly, fire door upward
500, transport vehicle 600 and hand basket 700.
The frame body 100 is made of steel, inside can be divided into feeding area 101, preheating zone 102, the first tempering area 103,
Second tempering area 104 and third tempering area 105, the feeding area 101, preheating zone 102, the first tempering area 103, the second tempering area
104 and the from left to right word order of third tempering area 105.Sky is in the feeding area 101 for being mounted with the hand basket of glass
700 enter, and are equipped with the preheating furnace 300, first tempering area 103, the second tempering area in the preheating zone 102
104 and third tempering area 105 in be separately installed with the annealing furnace 400.The frame body 100 includes two and is located on described
Expect the same level in area 101, preheating zone 102,105 top of the first tempering area 103, the second tempering area 104 and third tempering area
On guide rail 1, two 1 time intervals of guide rail and in parallel to just.200 slip of holding furnace is set up in described in two
On guide rail 1, so that the holding furnace 200 can be in the feeding area 101, preheating zone 102, the first tempering area 103, the second tempering area
104 and third tempering area 105 top it is mobile.
The transport vehicle 600 uses submarine AGV.
The hand basket 700 is made of steel, including main frame and in matrix arrangements in multiple material framves in the main frame,
Divided glass can be accommodated in the material frame.The hand basket 700 is placed on the transport vehicle 600.
The holding furnace 200 is including furnace body, the four rolling being installed on the outside of the furnace body and respectively and described in four
Four motors of idler wheel linkage, the two sides for being mounted on the furnace body of four idler wheels in pairs, idler wheel described in two groups point
It is not set up on two guide rails 1.In this way, the holding furnace 200 can be led along described when four motors work
Rail 1 is mobile.In addition, being additionally provided with elevating mechanism in the furnace body of the holding furnace 200, institute's elevating mechanism includes that four lower ends are set
Have the chain and the motor with four chains linkages respectively of suspension hook, when the motor forward or reverse when can drive
The suspension hook of the corresponding chain rises or falls.In this way, the liter can be realized when the suspension hook catches on the hand basket 700
Promotion or decentralization of the descending mechanism to the hand basket 700.
Preheating furnace 300 and annealing furnace 400 commonly used in the art can be used in the preheating furnace 300 and the annealing furnace 400,
It only need to meet fire door upward and fire door opens or closes corresponding fire door in a manner of moving horizontally.In the frame body 100
Preheating zone 102 in the preheating furnace 300 is installed, the first tempering area 103, the second tempering area in the frame body 100
104 and third tempering area 105 be separately installed with the annealing furnace 400.
The fused salt adding set 500 includes molten salt furnace 2, blender, weighing apparatus and broken feeder 5.
The fire door of the molten salt furnace 2 upward, is arranged in the top of the frame body 100, that is to say, that the molten salt furnace 2
Bottom be higher than the frame body 100 in the annealing furnace 400 fire door.The bottom of the molten salt furnace 2 passes through three the first valves
Door 3 respectively with the annealing furnace 400 in first tempering area 103, second tempering area 104 and third tempering area 105
Connection, the molten salt furnace 2 is interior to be equipped with heating element, and solid fused salt can be heated is in molten state.Adding in the molten salt furnace 2
Thermal element can be manual start and stop, be also possible to control automatic start-stop by computer.
The weighing apparatus is supported in the bottom of the molten salt furnace 2 using Industrial Weighing equipment common in industrial production, can
To weigh the quality for the fused salt being added in the molten salt furnace 2.
Existing industrial mixer in field of industrial production can be used in the blender, and precursor is that blender needs high temperature resistant,
It can work normally under the high temperature conditions.
Referring to fig. 4 to Fig. 7, the broken feeder 5 includes rack 51, broken module 52 and feeding module 53.It is described broken
Broken module 52 includes moving tooth plate 521, fixed-tooth plate 522 and the first driving portion 523,522 phase of the moving tooth plate 521 and the fixed-tooth plate
Mutually face-off forms crusher chamber 524, and the fixed-tooth plate 522 is fixedly connected on the rack 51, the lower end pivot joint of the moving tooth plate 521
First driving portion 523 is articulated in the rack 51, upper end.The moving tooth plate 521 towards the one of the fixed-tooth plate 522
Side is equipped with the first teeth 5211 of multiple parallel intervals arrangement, and the side towards the moving tooth plate 521 of the fixed-tooth plate 522 is set
There are the second teeth 5221 of multiple parallel interval arrangements, multiple first teeth 5211 are handed over multiple second teeth 5221
It is wrong opposed.First driving portion 523 drives the moving tooth plate 521 to rotate toward and away from the fixed-tooth plate 522, so that described
Moving tooth plate 521 is engaged or separates with the fixed-tooth plate 522.It is multiple when the moving tooth plate 521 is engaged with the fixed-tooth plate 522
First teeth 5211 and multiple second teeth 5221 are staggeredly inlayed, that is to say, that first teeth 5211
The gap between second teeth 5221 of adjacent two is entered, second teeth 5221 enter adjacent two
Gap between a first teeth 5211.First driving portion 523 includes the first drive rod 5231, the second drive rod
5232 and first motor, the upper end pivot joint of one end of first drive rod 5231 and the moving tooth plate 521, the other end with it is described
One end of second drive rod 5232 is pivotally connected, and the other end of second drive rod 5232 is connected to the output of the first motor
Axis, when first motor work, second drive rod 5232 does circular-rotation with the output shaft of the first motor, institute
State the first drive rod 5231 pulls the moving tooth plate 521 far from the fixed tooth when second drive rod 5232 moves in a circle
Plate 522 rotate or push the moving tooth plate 521 to rotate towards the fixed-tooth plate 522, thus realize the moving tooth plate 521 with it is described
The occlusion of fixed-tooth plate 522 with separate, thus by block-like band be crushed material bite into pieces.The feeding module 53 includes being aligned and connecting
Lead to the feeder 531 of the lower end of the crusher chamber 524, the feeding portion 532 that lower end is connected to the lower end of the feeder 531, on
Hold the discharging portion 533 being connected to the upper end of the feeding portion 532 and the second driving portion connecting with the feeding portion 532.Institute
Stating feeder 531 is frame like structure up and down, and the feeder 531 is fixed on the rack 51, the feeder 531
The opening of upper end is directed at the lower end of the crusher chamber 524, and the sectional area of the opening of the upper end of the feeder 531 is greater than lower end
The sectional area of opening.The feeding portion 532 includes that hollow tube channel 5321 and being inserted in the tube channel 5321 turns
It is installed on the screw rod 5322 of the rack 51 dynamicly, the lower end of the feeder 531 is docked in the lower end of the tube channel 5321.Institute
Stating discharging portion 533 includes the discharge nozzle 5331 that upper end is docked with the upper end of the tube channel 5321, and the discharging portion 533 further includes
The guide channel 5332 that upper end is docked with the lower end of the discharge nozzle 5331.Second driving portion includes the second motor, and described the
The output shaft of two motors is connect with the screw rod 5322.When second motor drives the screw rod 5322 rotation, the silk
Material on the screw thread for falling in the screw rod 5322 can be delivered up by bar 5322.As described in detail below using on described be crushed
Material machine 5 is crushed the process of block-like fused salt.Manually block-like fused salt is fed through in the crusher chamber 524 first, is then started
The first motor, under the drive of the first motor, the moving tooth plate 521 is engaged repeatedly with the fixed-tooth plate 522 and separates,
Block-like fused salt is broken into tiny graininess, granular fused salt is fractured into and is fallen from 524 freely falling body of crusher chamber
Enter to enter the granular fused salt of the feeder 31 falling into the tube channel further to the feeder 531
In 5321, the screw rod 5322 can be dropped into step by step when the granular fused salt in the tube channel 321 gradually increases
On screw thread, at this point, working as second electric motor starting, under the drive of second motor, the screw rod 5322 is rotated, and falls in institute
The granular fused salt on the screw thread of screw rod 5322 is stated since frictional force acts on the rotation of the screw rod 5322 Xiang Shangyi
Move the granular fused salt that is entered to the discharge nozzle 5331 in the discharge nozzle 5331 due to gravity along it is described go out
Expects pipe 5331 is snapped down to the guide channel 5332, and the guide channel 5332 is aligned to the fire door of the molten salt furnace 2 in advance, is entered
Granular fused salt in the guide channel 5332 can be fallen into the reinforcing furnace along the guide channel 5332.To,
Fused salt is added to the molten salt furnace 2 using the broken feeder 5, can be saved manpower and time, fused salt addition is greatly improved
Efficiency, while can reduce safety accident occur a possibility that.The start and stop of the broken feeder 5, which can be, manually grasps
Make also or by computer to control automatic start-stop.
The following detailed description of the course of work of the glass chemistry toughening production equipment.
The broken feeder 5 described first is broken in being delivered in the molten salt furnace 2 after fine grained by block-like fused salt, fused salt
Additional amount be depending on specific steel process, the weighing apparatus detects addition in the molten salt furnace 2 in real time
The quality of fused salt, when the detected value of the weighing apparatus is identical as value is drafted, the broken feeder 5 just stops to the fused salt
Furnace 2 conveys fused salt particle.Then the molten salt furnace 2 heats solid fused salt particle, so that solid fused salt particle becomes
At molten state, the blender is stirred to the fused salt of molten state so that the fused salt in the molten salt furnace 2 is uniformly distributed.Then
According to specific steel process, opening three selective first valves 3, so that the fused salt in the molten salt furnace 2 flows into
To the specified annealing furnace 400.Later, the hand basket 700 for being loaded with glass is transported to the frame body by the transport vehicle 600
In 100 feeding area 101, the holding furnace 200 is in the surface of the feeding area 101 at this time, arrives to the hand basket 700
Position after, the holding furnace 200 is transferred in the preheating furnace 300 after lifting the hand basket 700, to the pre-heat treatment after,
The holding furnace 200 by the hand basket 700 be transferred in have in the annealing furnace 400 of fused salt to carry out chemical tempering processing.
To chemical tempering after treatment, the hand basket 700 is transferred to subsequent processing by the holding furnace 200.
As seen from the above description, the addition of fused salt is completed by the fused salt adding set 500 in annealing furnace 400, to glass
Chemical tempering process then assisted jointly by the transport vehicle 600, hand basket 700, holding furnace 200, preheating furnace 300 and annealing furnace 400
It completes, above procedure does not need manual intervention, is automatically performed completely by the glass chemistry toughening production equipment, thus greatly
Width reduces human cost and greatly improves production effect simultaneously.
Further, the glass chemistry toughening production equipment further includes waste collecting device 800, each described tempering
The bottom of furnace 400 passes through second valve and is connected to a drain pipe 4, and the waste collecting device 800 includes transporting rail
Road 7 and multiple catch trays 8 being arranged on the transport track 7.The transport track 7 is arranged in parallel with the frame body 100, institute
The rectangular box of the open upper end made of steel plate of catch tray 8 is stated, multiple 8 dimensions of catch tray are consistent and equally spaced
It is arranged on the transport track 7.The transport track 7 is using stepper motor as power source, to drive the catch tray 8 thereon
It is mobile.When the fused salt in the annealing furnace 400 because the service life expires need replacing when, corresponding second valve is opened, with
This simultaneously, it is described transport track 7 by a catch tray 8 be transported to the position that is aligned of the drain pipe 4 accordingly, it is described
Fused salt in annealing furnace 400 enters in the catch tray 8 from the drain pipe 4 outflow, to 8 full load of catch tray, closes
Second valve is closed, while the catch tray 8 of next sky is transported to and the corresponding drain by the transport track 7
Pipe 4 is directed at position, and second valve is again turned on, and so repeats all to be discharged until the fused salt in the annealing furnace 400.It is whole
The process of a waste liquid discharge is participated in without artificial, further ensures that the glass chemistry toughening production equipment is safe and efficient
Operation.Moreover, the fused salt needed replacing in annealing furnace 400 can be dispersedly collected into multiple catch trays 8, it is convenient for
Subsequent recovery is carried.
Further, the waste collecting device 800 further includes the cooling device along the transport track 7.When
After the fused salt of molten state in the annealing furnace 400 flows into the catch tray 8, the transport track 7 has molten state for interior
The catch tray 8 of fused salt is transported to position corresponding with the cooling device, and the cooling device can be Air cooler, by described
8 transporting cold wind of catch tray so that the catch tray 8 in molten state fused salt rapidly cool down and form solid fused salt, in order to
The progress of subsequent recovery process.The start and stop of the waste collecting device 800, which can be manually to control, can also pass through calculating
Automatic start-stop is realized in machine control.
Further, the glass chemistry toughening production equipment further includes liquid level detection device, the liquid level detection device
Using high temperature fluid level transmitter.When the fused salt in the annealing furnace 400 is reduced at any time and gradually, the level sensing dress
The fused salt depth that setting can detecte in the annealing furnace 400 is lower than normal value, can pass through the fused salt adding set at this time
500 are replenished in time quantitative fused salt for the annealing furnace 400.
The embodiments of the present invention are described above in conjunction with attached drawing, but the utility model is not limited to
The specific embodiment stated, the above mentioned embodiment is only schematical, rather than restrictive, this field it is common
Technical staff is not departing from the utility model aims and scope of the claimed protection situation under the enlightenment of the utility model
Under, many forms can be also made, these are belonged within the protection of the utility model.
Claims (7)
1. a kind of glass chemistry toughening production equipment, which is characterized in that including fire door holding furnace directed downwardly, the preheating of fire door upward
Annealing furnace, fused salt adding set, transport vehicle and the hand basket of furnace, fire door upward, wherein
The transport vehicle is used to for the hand basket for being mounted with glass being transported to the underface of the holding furnace;
The holding furnace is arranged in the top of the preheating furnace and the holding furnace horizontally moveablely, is used for the transport vehicle
On the hand basket be successively transferred to the preheating furnace and the annealing furnace;
The fused salt adding set include fire door upward and bottom be connected to by the first valve the annealing furnace molten salt furnace, with
The molten salt furnace fire door alignment broken feeder, set on the fused salt furnace bottom weighing apparatus and be set to the molten salt furnace in
The blender in portion, the broken feeder are used to after being crushed block-like fused salt be fed through in the molten salt furnace, the weighing apparatus
For measuring the quality being added to the fused salt in the molten salt furnace, the molten salt furnace is for the fused salt of addition to be heated to from solid-state
Molten state can flow into the annealing furnace from the molten salt furnace to the fused salt of the molten state when first valve is opened, described
Blender is used to stir evenly the fused salt of the molten state in the molten salt furnace.
2. glass chemistry toughening production equipment according to claim 1, which is characterized in that the glass chemistry toughening production
Equipment further includes waste collecting device, and the bottom of the annealing furnace is connected to by the second valve with drain pipe, the waste collection
Device includes the catch tray for transporting track and being arranged on the transport track, and the transport track is used for the receipts of interior sky
Catch basin is transferred to the position being aligned with the drain pipe.
3. glass chemistry toughening production equipment according to claim 2, which is characterized in that the waste collecting device also wraps
The cooling device being set to along the transport track is included, the transport track is also used to the interior fused salt for having discarded molten state
Catch tray is transferred to position corresponding with the cooling device, and the cooling device is used for the fused salt in the catch tray from molten
Melt state and is cooled to solid-state.
4. glass chemistry toughening production equipment according to claim 2, which is characterized in that the waste collecting device includes
Multiple catch trays.
5. glass chemistry toughening production equipment according to claim 1, which is characterized in that the glass chemistry toughening production
Equipment further includes liquid level detection device, and the liquid level detection device is used to detect the depth of the fused salt of molten state in the annealing furnace
Degree.
6. glass chemistry toughening production equipment according to claim 1, which is characterized in that the glass chemistry toughening production
Equipment includes multiple annealing furnaces.
7. glass chemistry toughening production equipment according to claim 1, which is characterized in that the broken feeder includes machine
Frame, broken module and feeding module;The broken module includes moving tooth plate, fixed-tooth plate and the first driving portion, the moving tooth plate and
The fixed-tooth plate mutually stands facing each other and forms crusher chamber, and the fixed-tooth plate is fixedly connected on the rack, the lower end pivot of the moving tooth plate
It is connected to the rack, upper end is articulated in first driving portion;The feeding module includes being aligned and being connected to the crusher chamber
Feeding portion that the feeder of lower end, lower end are connected to the lower end of the feeder, upper end be connected to the upper end of the feeding portion and
The discharging portion of the fire door of molten salt furnace described in lower end aligned and the second driving portion being connect with the feeding portion.
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CN201821255075.4U CN208732926U (en) | 2018-08-06 | 2018-08-06 | A kind of glass chemistry toughening production equipment |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108706891A (en) * | 2018-08-06 | 2018-10-26 | 深圳市诸脉科技有限公司 | A kind of glass chemistry toughening production equipment |
CN110357407A (en) * | 2019-07-19 | 2019-10-22 | 深圳市一脉科技有限公司 | Tempered glass production stable type lifting device and full-automatic annealing furnace |
CN111170650A (en) * | 2020-02-28 | 2020-05-19 | 深圳市诸脉科技有限公司 | Powder adding device and glass chemical toughening production equipment |
-
2018
- 2018-08-06 CN CN201821255075.4U patent/CN208732926U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108706891A (en) * | 2018-08-06 | 2018-10-26 | 深圳市诸脉科技有限公司 | A kind of glass chemistry toughening production equipment |
CN110357407A (en) * | 2019-07-19 | 2019-10-22 | 深圳市一脉科技有限公司 | Tempered glass production stable type lifting device and full-automatic annealing furnace |
CN111170650A (en) * | 2020-02-28 | 2020-05-19 | 深圳市诸脉科技有限公司 | Powder adding device and glass chemical toughening production equipment |
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