CN209292197U - A kind of molten-glass pool - Google Patents
A kind of molten-glass pool Download PDFInfo
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- CN209292197U CN209292197U CN201821797174.5U CN201821797174U CN209292197U CN 209292197 U CN209292197 U CN 209292197U CN 201821797174 U CN201821797174 U CN 201821797174U CN 209292197 U CN209292197 U CN 209292197U
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- demarcation plate
- glass metal
- area
- glass
- temperature adjustment
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Abstract
It is equipped with the utility model relates to a kind of molten-glass pool, including pond body, in pond body and pond body is divided into fusion zone and distributes first demarcation plate in area, offer channel on the first demarcation plate;It distributes and is equipped with the second demarcation plate of muti-piece in area vertically;The third demarcation plate being arranged with the second divider plate is equipped in distribution area, the second demarcation plate and third demarcation plate make distribution area be divided into settling section and temperature adjustment area;The heating member to heat up to glass metal is equipped in settling section;Temperature adjustment area is equipped with the cooling blower of the second combustion gas bocca and cooling heated to glass metal, and temperature adjustment area is equipped with conveyance conduit.The glass metal of fusing directly enters distribution area from fusion zone, efficiently reduces energy consumption of the glass metal in moving process;The setting in multiple temperature adjustment areas makes glass metal have the tendency that a lapse of temperature, the change that the second combustion gas bocca and cooling blower only need slightly to make the glass metal in some temperature adjustment area in temperature can be exported from conveyance conduit, has saved manufacturing cost.
Description
Technical field
The utility model relates to the technical fields of glass production, more particularly, to a kind of molten-glass pool.
Background technique
Molten-glass pool refers in glass manufacture for the Thermal Equipment of glass batch to be melted.By what is prepared by glass ingredient
The clinker (cullet) of powder and admixture high temperature melting in kiln forms glass metal.
Such as Fig. 5, which includes pond body 1, distribution of 1 one end of pond body for being reprocessed to glass metal is arranged in
Pond body 1 and the connecting tube 2 distributed between material path 6 and setting is arranged in distribution material path 6 for after reprocessing in material path 6
Glass metal be delivered to the conveyance conduit 9 of following process equipment;It is provided in distribution material path and clear clarification is carried out to glass metal
Area 13, settling section 13 are mainly used for reducing the bubble in glass metal, improve the quality of glass metal;It is additionally provided in distribution material path 6
Glass metal after multiple pairs of clarifications carries out the independent temperature area 18 of heat temperature raising.Glass metal after fusing is conveyed by connecting tube 2
To distribution material path 6, glass metal successively passes through settling section 13 and independent temperature adjustment area 18 is finally conveyed through conveyance conduit 9 one by one
It is formed to following process equipment.
In use, glass metal has big molten-glass pool in above-mentioned technology in the transmission process of connecting tube part
Partial heat is depleted, so that generally requiring to increase independent heating device at connecting tube, to the glass of connecting tube part
Glass liquid carries out heat temperature raising, and then substantially increases manufacturing cost;Meanwhile individual temperature adjustment area one by one in material path is distributed,
Increase the energy consumption in production process.
Utility model content
The purpose of the utility model is to provide a kind of molten-glass pool, the damage of molten-glass pool energy in process of production can be reduced
Consumption.
The above-mentioned purpose of utility model of the utility model has the technical scheme that
A kind of molten-glass pool, including pond body are equipped in the pond body vertically and pond body are divided into fusion zone and distributes the of area
One demarcation plate offers the channel for allowing glass metal to flow into distribution area from fusion zone on first demarcation plate;In the distribution area
It is equipped with the second demarcation plate of muti-piece vertically, second demarcation plate one end is fixedly connected with the first demarcation plate, and the other end is stayed with pond body inner wall
There is gap;The third demarcation plate that muti-piece and the second demarcation plate are set in distance, third demarcation plate one end are equipped in the distribution area
It is fixedly connected with pond body inner wall, there are gap, the second demarcation plate and third demarcation plates to make to distribute area for the other end and the first demarcation plate
Internal glass metal forms the flow path of S-shaped, while distribution area being made to be divided into settling section and multiple temperature adjustment areas;The settling section
It is interior equipped with the heating member further heated up to glass metal;The temperature adjustment area is equipped with the second combustion gas flame heated to glass metal
Mouth and the cooling blower to cool down are equipped with the conveying that glass metal is delivered to following process equipment in each temperature adjustment area
Pipeline.
By using above-mentioned technical proposal, the glass metal after melting in fusion zone is directly entered in distribution area by channel
Settling section, using flowing in temperature adjustment area after the clarification of settling section, glass metal is finally in the second combustion gas bocca and cooling
Realize regulation to temperature of glass liquid under the action of blower, it is final on meet the glass metal of predetermined temperature and be delivered to from conveyance conduit
It is formed in subsequent process equipment.Molten-glass pool compared to the prior art will build pond body between distribution area in the program
Inside, the glass metal being melted directly enter in distribution area from fusion zone, that is, effectively reduce glass metal in moving process
The loss of middle energy;Secondly, the setting in multiple temperature adjustment areas, makes glass metal have the tendency that a lapse of temperature, the second gas injection
The change that nozzles and cooling blower only need slightly to make the glass metal in some temperature adjustment area in temperature can be exported from conveyance conduit,
It does not need to carry out individual temperature regulation to the glass metal of the same temperature value in the prior art, further reduces energy in turn
Consumption, has saved manufacturing cost.
The utility model is further arranged to: be equipped in the temperature adjustment area spiral conveyor rod that glass metal is stirred and
For driving the driving link of spiral conveyor rod rotation, the direction of rotation of the spiral conveyor rod in two neighboring temperature adjustment area is opposite.
By using above-mentioned technical proposal, spiral conveyor rod is driven to be rotated around the axis of itself after driving link starting,
The glass metal that the rotation of spiral conveyor rod can exchange in warm area is stirred, and then keeps the temperature of glass metal in temperature adjustment area more equal
It is even, keep the heating of glass metal or cooling rapider, reduces energy consumption;Meanwhile two helical feeds that direction of rotation is opposite
Bar facilitates flow path of the glass metal along S-shaped.
The utility model is further arranged to: being provided with multiple four to be set in distance in the settling section and is separated
Plate and the 5th demarcation plate, the 4th demarcation plate and the 5th demarcation plate make the flow path of the formation S-shaped of the glass metal inside settling section;Institute
Stating heating member is electric heating tube, and heating member bending S-shaped in the horizontal direction is arranged to cooperate the S-shaped of glass metal to flow
Path.
By using above-mentioned technical proposal, the 4th demarcation plate and the 5th demarcation plate increase stream of the glass metal in settling section
Dynamic path, enables glass metal preferably to contact with heating member and then is heated up it, improves glass metal in settling section
Clarifying effect.
The utility model is further arranged to: the heating member S-shaped bending setting in the vertical direction.
By using above-mentioned technical proposal, after heating member is bent setting in the vertical direction, heating member and glass are increased
The contact area of liquid, and then the glass metal in settling section is enable to absorb heat more quickly heating, reduces the travelling expenses of heat, and allows glass
Air pocket in glass liquid can faster float hour and more efficient absorbing to minute bubbles.
The utility model is further arranged to: being fixedly installed on the heating member multiple for puncturing bubble in glass metal
Pricker.
By using above-mentioned technical proposal, the setting of pricker can effectively puncture the gas that glass metal is generated in clarification
Bubble, makes the clear better effect of glass metal, while reducing the glass metal residence time required in settling section, improves glass
The clear efficiency of liquid.
The utility model is further arranged to: the inside of first demarcation plate is hollow setting and is filled with heat-insulated material
Material.
By using above-mentioned technical proposal, effectively fusion zone and distribution area are completely cut off, reduced in fusion zone
The temperature that high temperature exchanges warm area influences, and adjusts the temperature in temperature adjustment area more quickly and efficiently.
The utility model is further arranged to: one layer of heat preservation layer is arranged on the outer wall of the conveyance conduit.
By using above-mentioned technical proposal, the setting of insulating layer effectively reduces glass metal heat during transportation
Loss, is conducive to following process equipment to the working process of glass metal.
The utility model is further arranged to: the graduation mark for showing glass metal height is equipped in the fusion zone.
It by using above-mentioned technical proposal, distributes area and is set in pond body, and be connected to by channel with fusion zone, and then make point
Liquid level line of the liquid level line with glass metal in area always with glass metal in fusion zone is consistent, that is, is not needed to inside distribution area
The detection for carrying out liquid level line greatly reduces cost caused by detection.
In conclusion the advantageous effects of the utility model are as follows:
1. glass metal directly enters in distribution area from fusion zone, reduce the damage of glass metal energy in moving process
Consumption;
2. Duo Ge temperature adjustment area makes glass metal be in the trend of a lapse of temperature, it is only necessary to exchange the temperature of glass liquid in warm area
Slightly change;
3. advantageously reducing the bubble in glass metal, the quality of glass metal is improved.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model.
Fig. 2 is the top view that area is distributed in the utility model.
Fig. 3 is the broken section structural schematic diagram that area is distributed in the utility model.
Fig. 4 is the partial enlargement diagram of part A in Fig. 2.
Fig. 5 is the structure schematic diagram of the prior art.
In figure, 1, pond body;2, the first combustion gas bocca;3, fuel gas conduit;4, the first demarcation plate;5, fusion zone;6, area is distributed;
7, channel;8, it covers;9, conveyance conduit;10, insulating layer;11, graduation mark;12, the second demarcation plate;13, settling section;14, it heats
Part;15, cable;16, external power supply;17, third demarcation plate;18, temperature adjustment area;19, the second combustion gas bocca;20, cooling blower;
21, spiral conveyor rod;22, driving link;23, the 4th demarcation plate;24, the 5th demarcation plate;25, pricker.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Referring to Figures 1 and 2, a kind of molten-glass pool is used for below pond body 1 including pond body 1 in a rectangular parallelepiped shape with setting
The first combustion gas bocca 2 of heat temperature raising is carried out to pond body 1, the first combustion gas bocca 2 passes through fuel gas conduit 3 and external natural gas
The connection of pipeline (not shown).One piece of inner hollow and the first separation filled with heat-barrier material are vertically fixed in pond body 1
Pond body 1 is divided into the fusion zone for being used to melt glass batch 5 and is used to reprocess glass metal simultaneously by plate 4, the first demarcation plate 4
To the distribution area 6 of following process equipment, the middle part of the first demarcation plate 4 offers connection fusion zone 5 and distributes the channel in area 6 for distribution
7, the top in distribution area 6 is fixedly installed the capping 8 for sealing distribution 6 upper end opening of area;More are fixedly installed in pond body 1
With the conveyance conduit 9 that is connected to inside distribution area 6, fixing sleeve is equipped with one layer of heat preservation layer 10 on the outer wall of conveyance conduit 9;First combustion gas
Bocca 2 is located at the underface at 5 center of fusion zone.Glass batch is melting under the heat effect of the first combustion gas bocca 2
Glass metal is fused into area 5, glass metal is flowed into distribution area 6 by channel 7, is finally delivered to again through conveyance conduit 9 subsequent
Process equipment is formed.
The graduation mark 11 for showing glass solution height is fixedly welded on first demarcation plate 4, since distribution area 6 is set to
Inside pond body 1, and area 6 will be distributed by channel 7 and is connected to fusion zone 5, and then distributes the liquid level line of glass metal and fusing in area 6
The liquid level line in area 5 is always consistent, can not need individually to detect the glass metal height in distribution area 6, in turn
Reduce the measurement operation of operator.
It referring to Fig. 2 and Fig. 3, distributes in area 6 and is vertically arranged with two piece of second demarcation plate 12, two piece of second demarcation plate 12 is symmetrical
Be set to channel 7(such as Fig. 1) two sides, one end of the second demarcation plate 12 is fixedly connected with the first demarcation plate 4, the second demarcation plate 12
The other end along pond body 1 length direction extend and there are gaps with the inner wall of pond body 1;It is formed between two piece of second demarcation plate 12
For carrying out clear settling section 13 to glass metal, it is provided in settling section 13 and further heat temperature raising is carried out to glass metal adds
Warmware 14, the heating member 14 are set as electric heating tube, and one end of heating member 14 is pierced by pond body 1 and by cable 15 and external power supply
16 connections;Distribution is also vertically arranged with two pieces of third demarcation plates 17 in area 6, and two pieces of third demarcation plates 17 are symmetrically disposed on settling section
On 13 two sides, one end of third demarcation plate 17 is fixedly connected with 1 inner wall of pond body, and the other end of third demarcation plate 17 is along pond body 1
Length direction extend and with the first demarcation plate 4 there are gap, each piece of third demarcation plate 17 is by the region of 13 two sides of settling section
It is divided into Liang Ge temperature adjustment area 18, the glass metal that the top in each temperature adjustment area 18 is mounted on for exchanging in warm area 18 is heated
Second combustion gas bocca 19 of heating or the cooling blower 20 to cool down.Wherein, conveyance conduit 9 distributes the tune in area 6 respectively
Warm area 18 is connected.The glass metal that the setting of second demarcation plate 12 and third demarcation plate 17 makes to distribute inside area 6 forms the stream of S-shaped
Dynamic path, extends the flow path of glass metal, while cooperating the use of the second combustion gas bocca 19 and cooling blower 20 again, can
The regulation in temperature is carried out with the glass metal effectively exchanged in warm area 18.
Length direction in each temperature adjustment area 18 along pond body 1 is provided with the spiral conveyor rod being stirred to glass metal
21, which is connected in temperature adjustment area 18 around own axis, and spiral conveyor rod 21 is far from the first demarcation plate 4
One end is pierced by pond body 1 and is equipped with the driving link 22 of its rotation of driving, and driving link 22 is set as motor, 13 the same side of settling section
The direction of rotation of two spiral conveyor rods 21 is opposite.After driving link 22 starts, spiral conveyor rod 21 is driven to revolve around the axis of itself
Turn, not only contributes to flow path of the glass metal along S-shaped, while the glass metal that can also be exchanged in warm area 18 is stirred
It mixes, glass metal is made to heat up or cool down rapider.
Referring to Figures 1 and 2, the 4th demarcation plate 23, length of the 4th demarcation plate 23 along pond body 1 are vertically arranged in settling section 13
Degree direction is evenly arranged with three pieces, and one end of the 4th demarcation plate 23 is fixedly connected with the second demarcation plate 12 of 7 side of channel, and the 4th
The other end of demarcation plate 23 extends along the width direction of pond body 1 and there are gaps with the second demarcation plate 12 of 7 other side of channel;It is clear
It is also vertically arranged with the 5th demarcation plate 24 in clear area 13, the 5th demarcation plate 24 is equally evenly arranged with along the length direction of pond body 1
Three pieces, one end of the 5th demarcation plate 24 is fixedly connected with the second demarcation plate 12 of 7 other side of channel, the 5th demarcation plate 24 it is another
It holds the width direction extension along pond body 1 and there are gaps with the second demarcation plate 12 of 7 side of channel.4th demarcation plate 23 and the 5th
The setting of demarcation plate 24 makes the glass metal inside settling section 13 form the flow path of S-shaped, and corresponding heating member 14 is in level
S-shaped bending setting on direction, while the also S-shaped bending setting in the vertical direction of heating member 14, the S-shaped stream of glass metal
The bending setting of the S-shaped of dynamic path and heating member 14, increases the contact area of heating member 14 Yu glass metal, enables glass metal
More rapidly and uniformly heat up, bubble big in glass metal promoted constantly to grow up and float, small bubble constantly reduce and
It is absorbed by glass metal.
Referring to Fig. 4, multiple pointed prickers 25 are also evenly arranged on heating member 14, multiple contact pins are along heating member 14
Extending direction arrangement.Contact pin can effectively puncture bubble of the glass metal in settling section 13, make the clarifying effect of glass metal
More preferably.
The implementation principle of the present embodiment are as follows: glass batch is under the heat effect of the first combustion gas bocca 2 in fusion zone 5
It is inside fused into glass metal, glass metal passes through channel 7 again and enters in the settling section 13 of 1 one end of pond body, makees in the heating of heating member 14
Under, glass metal can quickly heat up, and bubble big in glass metal is promoted constantly to grow up and float, small bubble constantly reduce and
It is absorbed by glass metal.Glass metal after clarification enters in temperature adjustment area 18 from settling section 13, and glass metal is on the flowing road of S-shaped
The variation in temperature is carried out under the action of diameter, the second combustion gas bocca 19 and cooling blower 20, is finally delivered to from conveyance conduit 9
Subsequent process equipment is formed.
The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this
The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical
Within novel protection scope.
Claims (8)
1. a kind of molten-glass pool, including pond body (1), it is characterised in that: be equipped with vertically in the pond body (1) and be divided into pond body (1)
Fusion zone (5) and the first demarcation plate (4) for distributing area (6) offer on first demarcation plate (4) and allow glass metal from fusion zone
(5) channel (7) of distribution area (6) is flowed into;The second demarcation plate of muti-piece (12) is equipped in the distribution area (6) vertically, second separates
Plate (12) one end is fixedly connected with the first demarcation plate (4), and there are gaps with pond body (1) inner wall for the other end;In the distribution area (6)
Equipped with the third demarcation plate (17) that muti-piece and the second demarcation plate (12) are set in distance, third demarcation plate (17) one end and pond body
(1) inner wall is fixedly connected, and there are gap, the second demarcation plate (12) and third demarcation plates (17) for the other end and the first demarcation plate (4)
Make to distribute area (6) internal glass metal and form the flow path of S-shaped, while making to distribute area (6) and being divided into settling section (13) and more
A temperature adjustment area (18);The heating member (14) further heated up to glass metal is equipped in the settling section (13);The temperature adjustment area
(18) each described equipped with the second combustion gas bocca (19) heated to glass metal and the cooling blower (20) to cool down
The conveyance conduit (9) that glass metal is delivered to following process equipment is equipped in temperature adjustment area (18).
2. a kind of molten-glass pool according to claim 1, it is characterised in that: be equipped in the temperature adjustment area (18) to glass metal
The spiral conveyor rod (21) being stirred and the driving link (22) for driving spiral conveyor rod (21) to rotate, two neighboring temperature adjustment
The direction of rotation of spiral conveyor rod (21) in area (18) is opposite.
3. a kind of molten-glass pool according to claim 2, it is characterised in that: be provided in the settling section (13) more
A the 4th demarcation plate (23) and the 5th demarcation plate (24) being set in distance, four demarcation plates and the 5th demarcation plate (24) make settling section
(13) internal glass metal forms the flow path of S-shaped;The heating member (14) is electric heating tube, and the heating member (14) is in water
Square bending setting S-shaped upwards is to cooperate the S-shaped flow path of glass metal.
4. a kind of molten-glass pool according to claim 3, it is characterised in that: the heating member (14) is in the vertical direction
The bending of S-shaped is arranged.
5. a kind of molten-glass pool according to claim 4, it is characterised in that: be fixedly installed on the heating member (14) more
A pricker (25) for being used to puncture bubble in glass metal.
6. a kind of molten-glass pool according to claim 1, it is characterised in that: during the inside of first demarcation plate (4) is
Sky is arranged and is filled with heat-barrier material.
7. a kind of molten-glass pool according to claim 1, it is characterised in that: be arranged on the outer wall of the conveyance conduit (9)
There are one layer of heat preservation layer (10).
8. a kind of molten-glass pool according to claim 1, it is characterised in that: be equipped in the fusion zone (5) for showing
The graduation mark (11) of glass metal height.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821797174.5U CN209292197U (en) | 2018-11-01 | 2018-11-01 | A kind of molten-glass pool |
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Application Number | Priority Date | Filing Date | Title |
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CN201821797174.5U CN209292197U (en) | 2018-11-01 | 2018-11-01 | A kind of molten-glass pool |
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CN209292197U true CN209292197U (en) | 2019-08-23 |
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ID=67647629
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CN201821797174.5U Active CN209292197U (en) | 2018-11-01 | 2018-11-01 | A kind of molten-glass pool |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117700071A (en) * | 2024-02-05 | 2024-03-15 | 海安明光光学玻璃科技有限公司 | Device for reducing air bubbles of optical glass and production process thereof |
-
2018
- 2018-11-01 CN CN201821797174.5U patent/CN209292197U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN117700071A (en) * | 2024-02-05 | 2024-03-15 | 海安明光光学玻璃科技有限公司 | Device for reducing air bubbles of optical glass and production process thereof |
CN117700071B (en) * | 2024-02-05 | 2024-04-30 | 海安明光光学玻璃科技有限公司 | Device for reducing air bubbles of optical glass and production process thereof |
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