CN105923984A - Cooling device for sides of glass plates - Google Patents
Cooling device for sides of glass plates Download PDFInfo
- Publication number
- CN105923984A CN105923984A CN201610414498.5A CN201610414498A CN105923984A CN 105923984 A CN105923984 A CN 105923984A CN 201610414498 A CN201610414498 A CN 201610414498A CN 105923984 A CN105923984 A CN 105923984A
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- CN
- China
- Prior art keywords
- glass plate
- cooling
- chiller
- coolant
- plate edge
- Prior art date
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Classifications
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- C—CHEMISTRY; METALLURGY
- C03—GLASS; MINERAL OR SLAG WOOL
- C03B—MANUFACTURE, SHAPING, OR SUPPLEMENTARY PROCESSES
- C03B25/00—Annealing glass products
- C03B25/04—Annealing glass products in a continuous way
- C03B25/06—Annealing glass products in a continuous way with horizontal displacement of the glass products
- C03B25/08—Annealing glass products in a continuous way with horizontal displacement of the glass products of glass sheets
- C03B25/087—Annealing glass products in a continuous way with horizontal displacement of the glass products of glass sheets being in a vertical position
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- Chemical & Material Sciences (AREA)
- Engineering & Computer Science (AREA)
- Materials Engineering (AREA)
- Organic Chemistry (AREA)
- Re-Forming, After-Treatment, Cutting And Transporting Of Glass Products (AREA)
Abstract
The invention discloses a cooling device for sides of glass plates. A first cooling unit and a second cooling unit are respectively arranged on two sides of a glass plate in the thickness direction, the first cooling unit comprises a connecting part and a first cooling part, cooling liquid is fed into the connecting part, and the first cooling part is connected with the connecting part, is in contact with the surface of the glass plate, and is suitable for sucking the cooling liquid onto the glass plate to cool the glass plate; and the second cooling unit comprises a second cooling part and an accommodating shell, the second cooling part is in contact with the lower surface of the glass plate, a cavity is formed in the accommodating shell, the second cooling part is arranged in the cavity, cooling liquid is arranged in the cavity, and the second cooling part is suitable for sucking the cooling liquid onto the glass plate to cool the glass plate. The first cooling part and the second cooling part can cool the surfaces of two sides of the glass plate, so that the glass plate can be cooled effectively, temperatures of various parts of the glass plate are uniform, and then the stress generated during cutting of the glass plate can be reduced.
Description
Technical field
The present invention relates to manufacture apparatus field, more specifically, relate to a kind of glass plate edge chiller.
Background technology
During the manufacturing of glass plate, vitreous humour enters annealing kiln annealing, finished product after tin groove forming
The edge of glass plate is through further cooling down annealing, it is possible to reduce unnecessary edge cutting loss, promotes warp
Ji benefit.Glass plate can produce impression print on a glass through edge machine, and has this pressure on glass plate
The part of trace print needs excision, and because the temperature difference near impression print and thickness difference can produce, cutting is bad asks simultaneously
Topic, it is therefore desirable to finished glass plate carries out good cooling and controls, to reach cutting knife both sides to glass plate product
Raw optimum Cutting stress, makes finished glass edges of boards portion smooth, attractive in appearance, and finished glass plate is excellent when cutting simultaneously
Change minimum trimming size, reduce sideline judge's loss.
And when glass plate is cooled down, a kind of conventional two kinds of methods in prior art: employing compressed air
Cooling down glass plate, this kind of method cooling cost is high;Another kind of method directly adds water to glass plate edge
Cooling, the method is easily caused the problem that inhomogeneous cooling is even, and glass plate edge or edge once cool down not
Uniformly, it is easily formed poor stress, is likely to result in finished product edge and cuts uneven, zigzag, incompleteness,
Even fragmentation, causes huge edge cutting to lose.
Summary of the invention
It is an object of the invention to provide a kind of glass plate edge chiller, it is intended to solve prior art is deposited
Glass plate edge inhomogeneous cooling even, cooling effect difference problem.
For solving above-mentioned technical problem, the technical scheme is that offer a kind of glass plate edge cooling dress
Put, including: the first cooling unit, described first cooling unit includes: connecting portion, and described connecting portion is passed through
Coolant;With the first cooling end, described first cooling end is connected with described connecting portion, described first cooling end
Contacting with described glass pane surface, described first cooling end is suitable to draw described coolant to described glass plate
To cool down described glass plate;With the second cooling unit, described first cooling unit and described second cooling unit
Being separately positioned on the both sides in described sheet thickness direction, described second cooling unit includes: the second cooling end,
Described second cooling end contacts with the lower surface of described glass plate;And holding shell, described holding shell is internally formed
For cavity volume, described second cooling end is located in described cavity volume, is provided with described coolant in described cavity volume, described
Second cooling end is suitable to draw described coolant to described glass plate to cool down described glass plate.
In one embodiment of the invention, described first cooling unit also includes: regulation portion, described regulation
Portion is movably connected with described connecting portion, and described regulation portion is used for regulating described first cooling end at described glass
Position on glass plate.
In one embodiment of the invention, described first cooling unit also includes: supporting part, described regulation
Portion is formed as regulating ring, and the periphery of described regulation ring is connected with described supporting part, and described connecting portion is formed as even
Adapter, described connecting tube is inserted in described regulation ring movably, one end of described connecting tube and described first
Cooling end connects, and the other end of described connecting tube is passed through described coolant, and described first cooling end is suitable to draw
The described coolant being passed through from the other end of described connecting tube.
In one embodiment of the invention, described connecting tube includes: first paragraph, and described first paragraph is pivotable
Ground inserts in described regulation ring, and described first paragraph is vertically arranged;And second segment, described first paragraph with
Described second segment connects, and described second segment tilts to be connected to one end of described first paragraph, described second segment from
Being connected with described first cooling end by end, the free end of described first paragraph is suitable to be passed through described coolant.
In one embodiment of the invention, described first cooling end and described second cooling end are formed as sponge
Block.
In one embodiment of the invention, described glass plate edge chiller also includes drip tray, described
Drip tray is positioned at described second cooling unit and the lower section of described first cooling unit, and described drip tray is suitable to back
Receive the described coolant flowed out from described first cooling unit and/or described second cooling unit.
In one embodiment of the invention, described glass plate edge chiller also includes water pipe, described water
Pipe connects with described holding shell, and described water pipe is suitable to be passed through in described coolant extremely described holding shell.
In one embodiment of the invention, described water pipe is provided with water regulating valve, described water regulating valve
Be suitable to regulate the flow of the described coolant in described water pipe.
In one embodiment of the invention, described glass plate edge chiller also includes: drain pipe, institute
Stating drain pipe to connect with described drip tray, described drain pipe is suitable to the described cooling receiving in described drip tray
Liquid.
In one embodiment of the invention, described connecting tube is provided with water regulating valve, described runoff investigation
Valve is suitable to regulate the flow of the described coolant in described connecting tube.
The glass plate edge chiller of the embodiment of the present invention, is set by the both sides of the thickness direction at glass plate
Putting the first cooling unit and the second cooling unit, the first cooling end and the second cooling end can be to sheet thickness
Both side surface or the edge in direction cool down, thus glass plate carries out obtaining effective temperature-reducing, makes glass
The temperature of plate each several part is more uniform, and then the stress produced when can reduce glass plate cutting, after making cutting
Glass sheet shape more regular, attractive in appearance.
Accompanying drawing explanation
Fig. 1 is the structural representation of the glass plate edge chiller that the present invention provides;
Fig. 2 be first cooling end of glass plate edge chiller of the embodiment of the present invention, the second cooling end and
The assembling schematic diagram of glass plate.
Reference:
Glass plate edge chiller 100;
Supply unit 20;Roller-way 21;
First cooling unit 30;Connecting portion 31;First paragraph 311;Second segment 312;First cooling end 32;
Supporting part 33;Regulation portion 34;
Second cooling unit 40;Second cooling end 41;Holding shell 42;Water pipe 43;Drain pipe 44;
Drip tray 50;
Water regulating valve 60;
Glass plate 90.
Detailed description of the invention
In order to make the purpose of the present invention, technical scheme and advantage clearer, below in conjunction with accompanying drawing and reality
Execute example, the present invention is further elaborated.Only should be appreciated that specific embodiment described herein
Only in order to explain the present invention, it is not intended to limit the present invention.
It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, and it can
With directly on another element or may be simultaneously present centering elements.When an element is referred to as " connecting
In " another element, it can be directly to another element or may be simultaneously present centering elements.
Also, it should be noted the orientation term such as left and right, upper and lower in the present embodiment, it it is only phase each other
To concept or with the normal operating condition of product as reference, and should not be regarded as restrictive.
Specifically describe glass plate edge chiller 100 according to embodiments of the present invention below in conjunction with the accompanying drawings.
As depicted in figs. 1 and 2, glass plate edge chiller 100 according to embodiments of the present invention includes:
First cooling unit 30 and the second cooling unit 40.
First cooling unit 30 includes: connecting portion 31 and the first cooling end 32, connecting portion 31 is passed through cooling
Liquid, the first cooling end 32 is connected with connecting portion 31, the first cooling end 32 and the thickness direction of glass plate 90
On a side surface contact, the first cooling end 32 be suitable to draw coolant on glass plate 90 to cool down glass
Plate 90.First cooling unit 30 and the second cooling unit 40 are separately positioned on glass plate 90 thickness direction
Both sides, as it is shown in figure 1, the first cooling unit 30 and the second cooling unit 40 are separately positioned on glass plate
Above and below in the of 90.In other words, coolant or cooling water are guided or are sent to the by connecting portion 31
One cooling end 32, coolant or cooling water are guided or are sent to glass plate 90 by the first cooling end 32
On, thus there is heat exchange in coolant or cooling water and glass plate 90, it is achieved cold to glass plate 90
But.It is understood that the structure of connecting portion 31 can be mozzle, guiding gutter etc. can by coolant or
Person cools down water and guides the structure to the first cooling end 32 or parts.First cooling end 32 can be capillary tube,
Sponge block, hairbrush, fabric etc. coolant or cooling water can be guided to the structure on glass plate 90 or
Parts.
Second cooling unit 40 includes: the second cooling end 41 and holding shell 42, the second cooling end 41 and glass
Opposite side surface contact on the thickness direction of glass plate 90, holding shell 42 is internally formed as cavity volume, and second is cold
But portion 41 is located in cavity volume, is provided with coolant in cavity volume, and the second cooling end 41 is suitable to draw coolant to glass
To cool down glass plate 90 on glass plate 90.Specifically, the cavity volume of holding shell 42 be suitable to hold coolant or
Cooling water, coolant or cooling water are guided or are sent on glass plate 90 by the second cooling end 41, cooling
Water or coolant can produce heat exchange with glass plate 90, such that it is able to cooling glass plate 90.It is appreciated that
, the second cooling end 41 can be capillary tube, hairbrush, sponge block, fabric etc. can by coolant or
Cooling water guides or is sent to structure or the parts of glass plate 90.
Glass plate edge chiller 100 according to embodiments of the present invention, by the thickness at glass plate 90
The both sides in direction arrange the first cooling unit 30 and the second cooling unit 40, the first cooling end 32 and second
The both side surface of glass plate 90 thickness direction or edge can be cooled down by cooling end 41, thus glass plate
90 carry out obtaining effective temperature-reducing, and the temperature making glass plate 90 each several part is more uniform, and then can reduce
The stress produced during glass plate 90 cutting, makes the glass plate after cutting 90 shape more regular, attractive in appearance.
It is understood that the first cooling unit 30 and the second cooling unit 40 may be located at glass plate 90
Left side and right side, the first cooling end 32 and the second cooling end 41 substantially with the left and right sides of glass plate 90
EDGE CONTACT, such that it is able to region or edge to the left and right sides adjacent edges of glass plate 90 carry out cold
But.Furthermore it is possible to by first cooling end 32 and the of the second cooling unit 40 of the first cooling unit 30
Two cooling ends 41 move to edge or the edge of the left and right sides of the left and right sides of glass plate 90, thus can
To strengthen the cooling effect of the edge of the lateral edges to the left and right sides of glass plate 90 or the left and right sides.When
So, the first cooling unit 30 and the second cooling unit 40 do not limit with the contact position of glass plate 90,
Relative set can be carried out according to the temperature regime of glass plate 90.
It is understood that can respectively arrange the first cooling unit 30 above and below glass plate 90,
Or the second cooling unit is respectively set above and below glass plate 90, or above glass plate 90
Or lower section arranges the first cooling unit 30 or the second cooling unit 90.Thus, it is possible to cooling glass plate
The upper surface of 90 and/or lower surface.
In a specific embodiment of the present invention, the first cooling unit 30 also includes: regulation portion 34,
Regulation portion 34 is movably connected with connecting portion 31, and regulation portion 34 is for regulating the first cooling end 32 at glass
Position on glass plate 90.Such as, regulation portion 34 and connecting portion 31 can be formed as sliding at least partially
Rail structure, in order to adjust the position of connecting portion 31, and then regulation the first cooling end 32 is on glass plate 90
Position.Or, regulation portion 34 and connecting portion 31 are formed as universal joint adjustment structure, it is also possible to the company of realization
Connect the adjustment of the position in portion 31.Or, regulation portion 34 and connecting portion 31 be formed as pivot at least partially
Turn attachment structure, it is also possible to realize the position adjustment of connecting portion 31.Thus, regulation portion 34 can be to connection
The position of portion 31 and the first cooling end 32 is adjusted, so can to the first cooling end 32 with glass
The position of plate 90 contact is adjusted, such that it is able to according to the temperature regime of glass plate 90 with the most right
Glass plate 90 cools down.
Generally in the manufacture process of glass plate 90, because edge edge machine can form impression print to glass plate 90,
And the part that there is this impression print on glass plate 90 needs excision, simultaneously (thick because of the temperature difference near impression print
Thin difference) the bad problem of cutting can be produced, glass plate 90 finished product needs to carry out good edge cooling and controls.
Can be by regulation portion 34 by the side of the position adjustments of the first cooling end 32 to the left and right sides of glass plate 90
Edge, the lateral edges of the left and right sides of glass plate 90 is cooled down by the first cooling end 32 absorption cooling water,
So that cutting knife produces optimum Cutting stress at glass plate 90 side, make glass plate 90 finished product edge smooth, beautiful
Seeing, finished product optimizes minimum trimming size when cutting simultaneously, reduces sideline judge's loss.
In a specific embodiment of the present invention, the first cooling unit 30 also includes: supporting part 33,
Regulation portion 34 is formed as regulating ring, and the periphery of regulation ring is connected with supporting part 33, and connecting portion 31 is formed as
Connecting tube, connecting tube movably insert regulation ring in, one end of connecting tube connects with the first cooling end 32,
The other end of connecting tube is passed through coolant, and the first cooling end 32 is suitable to draw the other end from connecting tube and is passed through
Coolant.Specifically, structure and the shape of supporting part 33 do not limit, as long as supporting part 33 can will be adjusted
Joint portion 34 is fixed on a certain position.Such as, supporting part 33 can be to support metalwork.Regulation portion
34 can be formed as ring-shaped article, and connecting tube is inserted in the internal ring in regulation portion, thus connecting tube can be relative
Rotate in regulation portion 34, and connecting tube can also carry out up and down and then permissible in regulation portion 34
Adjust the contact position in regulation portion 34 and glass plate 90.Certainly, the structure in regulation portion 34 is not limited to above-mentioned
Ring-shaped article structure, such as, regulation portion 34 can also be hinge arrangement, hinge arrangement a part support
Portion 33 connects, and hinge arrangement another part is connected with connecting tube, thus connecting tube can also be tied by hinge
The rotation of structure and realize the regulation of position.Connecting tube can be passed through water, thus the first cooling end 32 can be by
Water is drawn to glass plate 90 to cool down glass plate 90.
In a specific embodiment of the present invention, regulation portion 34 is additionally provided with locking member, specifically,
Locking member is formed as lock-screw, and regulation ring is provided with the screw hole adaptive with lock-screw, lock-screw
Screw rod inserts in the screw hole on regulation ring, and rotary fastenings can make connecting tube be in clamping or unclamp shape
State, thus the position of connecting tube can be fixed by locking member.
In a specific embodiment of the present invention, connecting tube includes: first paragraph 311 and second segment 312.
First paragraph 311 inserts in regulation ring movably, and first paragraph 311 is vertically arranged, first paragraph 311
Connecting with second segment 312, second segment 312 tilts to be connected to one end of first paragraph 311, second segment 312
Free end and the first cooling end 32 connect, the free end of first paragraph 311 is suitable to be passed through coolant.Specifically
Ground, first paragraph 311 is approximately perpendicular to the plane at the place of glass plate 90, second segment 312 and first paragraph 311
Between angle substantially 10-80 °.Alternatively, the angle between second segment 312 and first paragraph 311
Being 40 °, cooling water flow to sponge block by first paragraph 311 and second segment 312.Due to second segment 312
Being in obliquity, the first cooling end 32 being connected with second segment 312 is also at obliquity, now may be used
To be moved down the position of connecting tube, so that sponge block is pressed on glass plate 90, and sponge block is made to produce
Certain deformation, such that it is able to the contact pressure increased between sponge block and glass plate 90 and contact area,
So that more cooling water flow on glass plate 90, strengthen cooling effect.
In a specific embodiment of the present invention, the first cooling end 32 and the second cooling end 41 are formed as
Sponge block.Thus, the first cooling end 32 and the second cooling end 41 that are formed as sponge are possible not only to inhale water
Take the surface to glass plate 90, and sponge quality is softer, the structure of glass plate 90 will not be caused damage.
In a specific embodiment of the present invention, glass plate edge chiller 100 also includes drip tray
50, drip tray 50 is positioned at the second cooling unit 40 and the lower section of the first cooling unit 30, drip tray 50
Be suitable to reclaim the coolant flowed out from the first cooling unit 30 and/or the second cooling unit 40, say, that
Can be according to different cooling Water Sproading demands, drip tray 50 can reclaim what the first cooling unit 30 flowed out
Coolant, or drip tray 50 reclaims the coolant that the second cooling unit 40 flows out, or drip tray 50
Reclaim the first cooling unit 30 and the coolant of the second cooling unit 40 outflow.Thus, drip tray 50 times
Receive the coolant flowed out from the first cooling unit 30 and/or the second cooling unit 40, and drip tray 50
Connecting tube and/or the second cooling that the coolant of recovery can also be passed through the first cooling unit 30 again are single
In the holding shell 42 of unit 40, it is achieved thereby that coolant or the circular treatment of cooling water, more energy-saving ring
Protect.
Alternatively, drip tray 50 can be connected with holding shell 42, and drip tray 50 is positioned at holding shell 42
Lower section with the first cooling end 32.Thus, it is possible to make the structure of glass plate edge chiller 100 more
Simply.
In a specific embodiment of the present invention, glass plate edge chiller 100 also includes water pipe
43, water pipe 43 connects with holding shell 42, and water pipe 43 is suitable to be passed through coolant in holding shell 42.Thus,
Coolant or cooling water can be passed through to holding shell 42 by water pipe 43, protect in holding shell 42 can be made
Hold a certain amount of coolant or cooling water.
Alternatively, water pipe 43 is provided with water regulating valve 60, and water regulating valve 60 is suitable to regulate water pipe 43
The flow of interior coolant.Thus, the cooling water in holding shell 42 can be regulated by water regulating valve 60
Or the capacity of coolant.
Further, connecting tube is provided with water regulating valve 60, and water regulating valve 60 is suitable to regulate connecting tube
The flow of interior coolant.Thus, by water regulating valve 60 can regulate the first cooling end 32 draw to
The flow of the cooling water on glass plate 90.
It is alternatively possible to will move on the position of holding shell 42, so that the sponge block pressure being positioned in holding shell 42
The lower surface of tight glass plate 90, to increase contact pressure and the contact area of sponge block and glass plate 90.
Alternatively, glass plate edge chiller 100 also includes: drain pipe 44, drain pipe 44 and water receiving
Dish 50 connects, and drain pipe 44 is suitable to receive the coolant in drip tray 50.Thus, by drain pipe 44
Cooling water in drip tray 50 can be guided to the water pipe on the free end of connecting tube or holding shell 42
The porch of 43, such that it is able to realize recycling of cooling water.
In a specific embodiment of the present invention, the second cooling unit 40 can be arranged slide rail or
The structures such as pulley, so that the position on the vertical direction of the second cooling unit 40 or the position in horizontal direction
Put and can adjust, thus the second cooling end 41 on the second cooling unit 40 and glass plate 90 contact position
Put and can adjust.
In a specific embodiment of the present invention, glass plate edge chiller 100 also includes: conveying
Unit 20, supply unit 20 is suitable to transmit glass plate 90.Specifically, the structure of supply unit 20 is permissible
For multiple, conveyer device 20 may be used for transmitting glass plate 90, and such as, supply unit 20 can include
Multiple spaced apart roller-ways 21 being set up in parallel, glass plate 90 is placed on the wheel rim of multiple roller-way 21, logical
Cross the rotation of roller-way 21, i.e. can transmit glass plate 90.
It should be noted that as depicted in figs. 1 and 2, the both sides of the thickness direction of glass plate 90 can be with
The both sides up and down of glass plate 90 are corresponding, both sides and the flow direction of glass plate 90 before and after glass plate 90
Corresponding.Certainly, above-mentioned orientation is not specifically to limit glass plate edge chiller 100, and
It is in order to for explaining and the content such as the structure that glass plate edge chiller 100 is described.
The cooling procedure to glass plate 90 of glass plate edge chiller 100 is briefly described below.
Connecting tube and holding shell 42 are passed through cooling water, and by two water yields in connecting tube and water pipe 43
Regulation valve 60 cuts out.During use, regulate and lock regulation portion 34, fix the position of the first cooling end 32.
Slowly open the water regulating valve 60 in connecting tube, the cooling effect at sight glass plate pane edge, then see
The edge examining glass plate 90 cuts the situation fine setting water yield.The position of mobile holding shell 42, makes the second cooling end
41 positions being in glass plate pane edge, the most slowly open the water regulating valve 60 on water pipe 43, see
Examine the cooling effect at glass plate pane edge and cut the situation fine setting water yield.
Other structure and the operation of glass plate edge chiller 100 according to embodiments of the present invention belong to
Those of ordinary skill in the art are easy to understand and obtain, and no longer repeat at this.
These are only presently preferred embodiments of the present invention, not in order to limit the present invention, all the present invention's
Any amendment, equivalent and the improvement etc. made within spirit and principle, should be included in the guarantor of the present invention
Within the scope of protecting.
Claims (10)
1. a glass plate edge chiller, it is characterised in that including:
First cooling unit, described first cooling unit includes:
Connecting portion, described connecting portion is passed through coolant;
With the first cooling end, described first cooling end is connected with described connecting portion, described first cooling end
Contacting with the side surface on the thickness direction of described glass plate, described first cooling end is suitable to draw described cold
But to cool down described glass plate on liquid extremely described glass plate;
It is separately positioned on described with the second cooling unit, described first cooling unit and described second cooling unit
The both sides in sheet thickness direction, described second cooling unit includes:
Second cooling end, described second cooling end and the opposite side table on the thickness direction of described glass plate
Face contacts;
And holding shell, described holding shell is internally formed as cavity volume, and described second cooling end is located at described appearance
Intracavity, is provided with described coolant in described cavity volume, described second cooling end is suitable to draw described coolant to institute
State on glass plate to cool down described glass plate.
2. glass plate edge chiller as claimed in claim 1, it is characterised in that described first cold
But unit also includes: regulation portion, and described regulation portion is movably connected with described connecting portion, described regulation portion
For regulating described first cooling end position on the glass plates.
3. glass plate edge chiller as claimed in claim 2, it is characterised in that described first cold
But unit also includes: supporting part, and described regulation portion is formed as regulating ring, and the periphery of described regulation ring is with described
Supporting part connects, and described connecting portion is formed as connecting tube, and described connecting tube inserts described regulation ring movably
In, one end of described connecting tube connects with described first cooling end, and the other end of described connecting tube is passed through described
Coolant, described first cooling end is suitable to draw the described coolant that the other end from described connecting tube is passed through.
4. glass plate edge chiller as claimed in claim 3, it is characterised in that described connecting tube
Including:
First paragraph, described first paragraph inserts in described regulation ring movably, and described first paragraph is vertically
Arrange;
And second segment, described first paragraph connects with described second segment, and described second segment tilts to be connected to described the
One end of one section, the free end of described second segment is connected with described first cooling end, the freedom of described first paragraph
End is suitable to be passed through described coolant.
5. glass plate edge chiller as claimed in claim 1, it is characterised in that described first cold
But portion and described second cooling end are formed as sponge block.
6. glass plate edge chiller as claimed in claim 1, it is characterised in that described glass plate
Edge chiller also includes that drip tray, described drip tray are positioned at described second cooling unit and described first cold
But the lower section of unit, described drip tray is suitable to reclaim from described first cooling unit and/or described second cooling
The described coolant that unit flows out.
7. glass plate edge chiller as claimed in claim 6, it is characterised in that described glass plate
Edge chiller also includes that water pipe, described water pipe connect with described holding shell, and described water pipe is suitable to be passed through institute
State in coolant extremely described holding shell.
8. glass plate edge chiller as claimed in claim 7, it is characterised in that on described water pipe
Being provided with water regulating valve, described water regulating valve is suitable to regulate the flow of the described coolant in described water pipe.
9. glass plate edge chiller as claimed in claim 6, it is characterised in that described glass plate
Edge chiller also includes: drain pipe, and described drain pipe connects with described drip tray, and described drain pipe is fitted
Described coolant in receiving described drip tray.
10. glass plate edge chiller as claimed in claim 1, it is characterised in that described connecting tube
Being provided with water regulating valve, described water regulating valve is suitable to regulate the stream of the described coolant in described connecting tube
Amount.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN107285613A (en) * | 2017-07-27 | 2017-10-24 | 吴江南玻玻璃有限公司 | The water cooling plant of plate pendulum can be traced in a kind of self-shield |
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CN104402206A (en) * | 2014-10-16 | 2015-03-11 | 江苏烨泰玻璃有限公司 | Glass production cooling apparatus |
CN204400810U (en) * | 2014-12-29 | 2015-06-17 | 衢州市众诚玻璃有限公司 | A kind of refrigerating unit of glass production line |
CN105461199A (en) * | 2016-01-28 | 2016-04-06 | 中国建材国际工程集团有限公司 | Cooling method and device for low-temperature area of U-shaped glass annealing kiln |
CN105502901A (en) * | 2016-01-28 | 2016-04-20 | 中国建材国际工程集团有限公司 | U-shaped glass annealing furnace heat preservation area edge part cooling method and device |
CN205710412U (en) * | 2016-06-13 | 2016-11-23 | 信义节能玻璃(四川)有限公司 | A kind of glass plate edge chiller |
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CN107285613A (en) * | 2017-07-27 | 2017-10-24 | 吴江南玻玻璃有限公司 | The water cooling plant of plate pendulum can be traced in a kind of self-shield |
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