CN207793032U

CN207793032U - A kind of continous way cooling and drying system of optical glass clinker preparation process section

Info

Publication number: CN207793032U
Application number: CN201721846968.1U
Authority: CN
Inventors: 罗天剑; 陈凯达
Original assignee: Salience Science & Technology Industrial Co Ltd
Current assignee: Salience Science & Technology Industrial Co Ltd
Priority date: 2017-12-26
Filing date: 2017-12-26
Publication date: 2018-08-31
Anticipated expiration: 2027-12-26

Abstract

The utility model is related to a kind of continous way cooling and drying systems of optical glass clinker preparation process section, structure includes glass clinker diversion pipe and the bosh for being set to glass clinker water conservancy diversion bottom of the tube, glass clinker collecting chamber is arranged in bosh bottom, plug-in type filter plate is set between bosh and glass clinker collecting chamber, and plug-in type filter plate is flexible coupling with bosh joint using soft seal ring；The utility model helps to improve glass clinker cooling efficiency, reduces cooling water waste, improves glass clinker cooling efficiency, reduces cooling water waste, avoids glass clinker from being polluted when cooling workshop section is with the switching of drying workshop section, is impacted to glass clinker purity.

Description

A kind of continous way cooling and drying system of optical glass clinker preparation process section

Technical field

The utility model is related to optical glass production technical field, more particularly to a kind of optical glass clinker preparation process section Continous way cooling and drying system.

Background technology

In optical glass production process, the unstability of the indexs such as photosensitiveness, degree of staining for being brought based on glass melting once, It needs optical glass powder being prepared into glass clinker, is carrying out secondary smelting.Temperature is up to 1100 DEG C ~ 1500 after glass melting DEG C, the glass clinker of room temperature in order to obtain, it usually needs be quickly cooled down, glass clinker after cooling surface usually contains a large amount of water Point, it needs to carry out drying and processing, existing glass clinker cooling equipment and drying equipment are usually arranged as independent split type knot Structure, cooling for glass clinker and drying are typically to be completed in independent process section and equipment, needed after the completion of cooling by Glass clinker is forwarded to stoving process section, thus be easy to cause the pollution to glass clinker, and the glass for influencing finally to obtain is ripe Expect purity, at the same time, existing glass clinker cooling device, cooling efficiency is low, and cooling water is be easy to cause in cooling procedure Waste.

Utility model content

The purpose of this utility model is to carry out technological improvement for existing glass clinker cooling equipment, design a kind of optics The continous way cooling and drying system of glass clinker preparation process section improves glass clinker cooling efficiency, reduces cooling water waste, keeps away Exempt from glass clinker to pollute when cooling workshop section is with the switching of drying workshop section, glass clinker purity is impacted.

The utility model is achieved through the following technical solutions：

A kind of continous way cooling and drying system of optical glass clinker preparation process section, which is characterized in that structure includes glass Glass clinker diversion pipe（1）And it is set to glass clinker diversion pipe（1）The bosh of bottom（2）, bosh（2）Bottom is set Set glass clinker collecting chamber（3）, bosh（2）With glass clinker collecting chamber（3）Between be arranged plug-in type filter plate（5）, it is inserted into Formula filter plate（5）With bosh（2）Joint uses soft seal ring（51）It is flexible coupling；

The glass clinker collecting chamber（3）Discharge valve is arranged in bottom（301）；

The discharge valve（301）Hot dry wind formula glass clinker, which is arranged, in bottom dries cavity（7）, the baking of hot dry wind formula glass clinker Dry cavity（7）Hot dry wind air blower is arranged in bottom（8）, hot dry wind formula glass clinker drying cavity（7）Vacuum-pumping type is arranged in top Air-introduced machine（9）, hot dry wind formula glass clinker drying cavity（7）Mesh laminated board for storage is arranged in middle part（701）；

The bosh（2）Coolant intake pipe is arranged in left side（101）, bosh（2）Right side setting heat exchange Water overflow pipe（102）With hydrocone type cooling water drainage tube（103）, hydrocone type cooling water drainage tube（103）Bottom setting siphon is drawn Stream pump（13）；

The heat-exchanging water overflow pipe（102）The external high pressure reflow pump in outlet end（12）, high pressure reflow pump（12）Pass through cycle Water-supply-pipe（6）It is connected to air-cooled water cooling tower（11）, air-cooled water cooling tower（11）Cooling water outlet end and cooling water Input pipe（101）Connection；

The glass clinker diversion pipe（1）The glass clinker deflection cone being vertically distributed is arranged in center（4）, glass clinker Deflection cone（4）Top is set as the arc surface structure of sealing, glass clinker deflection cone（4）Bottom is set as cylindrical body structure.

Further, the coolant intake pipe（101）Extend to bosh（2）Bottom.

Further, the hydrocone type cooling water drainage tube（103）Extend to bosh（2）Bottom.

Further, the heat-exchanging water overflow pipe（102）Input end be set to bosh（2）Top is apart from bosh （2）2 ~ 3cm of top is at position.

The utility model provides a kind of continous way cooling and drying system of optical glass clinker preparation process section, and existing Technology is compared, and advantageous effect is：

1, the continous way cooling and drying system of the optical glass clinker preparation process section of the utility model design, glass clinker Diversion pipe（1）The glass clinker deflection cone being vertically distributed is arranged in center（4）, glass clinker deflection cone（4）Top is set as The arc surface structure of sealing, glass clinker deflection cone（4）Bottom is set as cylindrical body structure；Above-mentioned design, convenient for via glass Clinker diversion pipe（1）The glass clinker of input is in bosh（2）Inside dispersion, improves the dispersion degree of glass clinker, further The contact rate of cooling water and glass clinker is improved, the cooling efficiency of glass clinker is improved.

2, the continous way cooling and drying system of the optical glass clinker preparation process section of the utility model design, bosh （2）Coolant intake pipe is arranged in left side（101）, bosh（2）Heat-exchanging water overflow pipe is arranged in right side（102）And hydrocone type Cooling water drainage tube（103）, hydrocone type cooling water drainage tube（103）Siphon drain pump is arranged in bottom（13）；Heat-exchanging water overflow pipe （102）The external high pressure reflow pump in outlet end（12）, high pressure reflow pump（12）By recycling water-supply-pipe（6）It is connected to air-cooled water cooling But tower（11）, air-cooled water cooling tower（11）Cooling water outlet end and coolant intake pipe（101）Connection；Above-mentioned design, Convenient for by heat-exchanging water overflow pipe（102）The heat-exchanging water of output is pumped directly to air-cooled water cooling tower（11）, further by cold But water inlet pipe（101）Into bosh（2）Cooling down again to glass clinker is realized, to realize the cycle of cooling water It utilizes, reduces cooling water waste.

3, discharge valve（301）Hot dry wind formula glass clinker, which is arranged, in bottom dries cavity（7）, the drying of hot dry wind formula glass clinker Cavity（7）Hot dry wind air blower is arranged in bottom（8）, hot dry wind formula glass clinker drying cavity（7）Top setting vacuum-pumping type draws Wind turbine（9）, hot dry wind formula glass clinker drying cavity（7）Mesh laminated board for storage is arranged in middle part（701）；Above-mentioned design, in glass After glass clinker cooling, you can glass clinker after cooling is dried in realization, removes moisture remaining in cooling procedure, is realized The continuity of glass clinker cooling and drying avoids glass clinker dirty caused by when cooling workshop section is with the transfer of drying workshop section Dye improves the whole purity of glass clinker, improves the optical glass quality of acquisition.

Description of the drawings

Fig. 1 is the structural representation of the continous way cooling and drying system of the utility model optical glass clinker preparation process section Figure.

Specific implementation mode

The utility model is described further refering to attached drawing 1.

The utility model is related to a kind of continous way cooling and drying system of optical glass clinker preparation process section, feature exists In structure includes glass clinker diversion pipe（1）And it is set to glass clinker diversion pipe（1）The bosh of bottom（2）, cooling Sink（2）Glass clinker collecting chamber is arranged in bottom（3）, bosh（2）With glass clinker collecting chamber（3）Between plug-in type is set Filter plate（5）, plug-in type filter plate（5）With bosh（2）Joint uses soft seal ring（51）It is flexible coupling；

As an improvement, the coolant intake pipe（101）Extend to bosh（2）Bottom.

As an improvement, the hydrocone type cooling water drainage tube（103）Extend to bosh（2）Bottom.

As an improvement, the heat-exchanging water overflow pipe（102）Input end be set to bosh（2）Top is apart from cooling water Slot（2）2 ~ 3cm of top is at position.

Compared with prior art, the continous way cooling and drying of the optical glass clinker preparation process section of the utility model design System, glass clinker diversion pipe（1）The glass clinker deflection cone being vertically distributed is arranged in center（4）, glass clinker deflection cone （4）Top is set as the arc surface structure of sealing, glass clinker deflection cone（4）Bottom is set as cylindrical body structure；Above-mentioned design, Convenient for via glass clinker diversion pipe（1）The glass clinker of input is in bosh（2）Inside dispersion improves point of glass clinker Divergence further increases the contact rate of cooling water and glass clinker, improves the cooling efficiency of glass clinker.

The continous way cooling and drying system of the optical glass clinker preparation process section of the utility model design, bosh （2）Coolant intake pipe is arranged in left side（101）, bosh（2）Heat-exchanging water overflow pipe is arranged in right side（102）And hydrocone type Cooling water drainage tube（103）, hydrocone type cooling water drainage tube（103）Siphon drain pump is arranged in bottom（13）；Heat-exchanging water overflow pipe （102）The external high pressure reflow pump in outlet end（12）, high pressure reflow pump（12）By recycling water-supply-pipe（6）It is connected to air-cooled water cooling But tower（11）, air-cooled water cooling tower（11）Cooling water outlet end and coolant intake pipe（101）Connection；Above-mentioned design, Convenient for by heat-exchanging water overflow pipe（102）The heat-exchanging water of output is pumped directly to air-cooled water cooling tower（11）, further by cold But water inlet pipe（101）Into bosh（2）Cooling down again to glass clinker is realized, to realize the cycle of cooling water It utilizes, reduces cooling water waste.

Discharge valve（301）Hot dry wind formula glass clinker, which is arranged, in bottom dries cavity（7）, hot dry wind formula glass clinker drying cavity Body（7）Hot dry wind air blower is arranged in bottom（8）, hot dry wind formula glass clinker drying cavity（7）Vacuum-pumping type air inducing is arranged in top Machine（9）, hot dry wind formula glass clinker drying cavity（7）Mesh laminated board for storage is arranged in middle part（701）；Above-mentioned design, in glass After clinker cooling, you can glass clinker after cooling is dried in realization, is removed moisture remaining in cooling procedure, is realized The continuity of glass clinker cooling and drying avoids glass clinker from being polluted caused by when cooling workshop section is with the transfer of drying workshop section, The whole purity for improving glass clinker, improves the optical glass quality of acquisition.

When the utility model is used, the glass of the condition of high temperature is somehow via glass clinker diversion pipe（1）Input, in cooling Sink（2）Cooling is completed in inside, and glass clinker after cooling is stored in glass clinker collecting chamber（3）Inside is filtered using plug-in type Plate（5）Glass clinker in cooling procedure is accepted, radiating efficiency is improved, after the completion of cooling, extracts plug-in type filter out to the left Plate（5）, glass clinker after cooling can enter glass clinker collecting chamber（3）Inside, glass clinker after cooling is in hot dry wind Formula glass clinker dries cavity（7）Drying is completed in inside, removes the moisture for remaining on glass clinker surface in cooling procedure.

As described above, you can the utility model is applied.

The preferable specific implementation mode of the above, only the utility model, but the scope of protection of the utility model is not Be confined to this, any one skilled in the art within the technical scope disclosed by the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims

1. a kind of continous way cooling and drying system of optical glass clinker preparation process section, which is characterized in that structure includes glass Clinker diversion pipe（1）And it is set to glass clinker diversion pipe（1）The bosh of bottom（2）, bosh（2）Bottom is arranged Glass clinker collecting chamber（3）, bosh（2）With glass clinker collecting chamber（3）Between be arranged plug-in type filter plate（5）, plug-in type Filter plate（5）With bosh（2）Joint uses soft seal ring（51）It is flexible coupling；

The discharge valve（301）Hot dry wind formula glass clinker, which is arranged, in bottom dries cavity（7）, hot dry wind formula glass clinker drying cavity Body（7）Hot dry wind air blower is arranged in bottom（8）, hot dry wind formula glass clinker drying cavity（7）Vacuum-pumping type air inducing is arranged in top Machine（9）, hot dry wind formula glass clinker drying cavity（7）Mesh laminated board for storage is arranged in middle part（701）；

The bosh（2）Coolant intake pipe is arranged in left side（101）, bosh（2）Right side is arranged heat-exchanging water and overflows Flow tube（102）With hydrocone type cooling water drainage tube（103）, hydrocone type cooling water drainage tube（103）Siphon drain pump is arranged in bottom （13）；

The heat-exchanging water overflow pipe（102）The external high pressure reflow pump in outlet end（12）, high pressure reflow pump（12）By recycling water delivery Pipe（6）It is connected to air-cooled water cooling tower（11）, air-cooled water cooling tower（11）Cooling water outlet end and cooling water input Pipe（101）Connection；

The glass clinker diversion pipe（1）The glass clinker deflection cone being vertically distributed is arranged in center（4）, glass clinker water conservancy diversion Cone（4）Top is set as the arc surface structure of sealing, glass clinker deflection cone（4）Bottom is set as cylindrical body structure.

2. the continous way cooling and drying system of optical glass clinker preparation process section according to claim 1, feature exist In the coolant intake pipe（101）Extend to bosh（2）Bottom.

3. the continous way cooling and drying system of optical glass clinker preparation process section according to claim 1, feature exist In the hydrocone type cooling water drainage tube（103）Extend to bosh（2）Bottom.

4. the continous way cooling and drying system of optical glass clinker preparation process section according to claim 1, feature exist In the heat-exchanging water overflow pipe（102）Input end be set to bosh（2）Top is apart from bosh（2）2 ~ 3cm of top At position.