CN207552161U - Electrode block puopulsion equipment and electric smelting glass furnace - Google Patents
Electrode block puopulsion equipment and electric smelting glass furnace Download PDFInfo
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- CN207552161U CN207552161U CN201721603154.5U CN201721603154U CN207552161U CN 207552161 U CN207552161 U CN 207552161U CN 201721603154 U CN201721603154 U CN 201721603154U CN 207552161 U CN207552161 U CN 207552161U
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Abstract
This disclosure relates to a kind of electrode block puopulsion equipment and electric smelting glass furnace, the electrode block puopulsion equipment includes electrode block (1), the push structure with the electrode block (1) back-connected water cooling plant (2) and for adjusting the position of the water cooling plant (2) and the electrode block (1) along direction of propulsion (A).By the way that water cooling plant is connect with electrode block, water cooling plant can be made to be simultaneously advanced with starting state with electrode block, reduce the probability of water cooling plant damage, which thereby enhance the service life of water cooling plant.
Description
Technical field
This disclosure relates to base plate glass manufacturing field, and in particular, to a kind of electrode block puopulsion equipment and electric smelting glass furnace
Stove.
Background technology
In base plate glass manufacturing field, electric melting furnace is the most widely used at present for melting the technology of glass, is led to
It crosses using good conductive characteristic of the glass in high temperature fused state, electrode is inserted into glass melt, due to Joule effect glass
Electric energy inside glass melt translates into thermal energy, so as to fulfill being melted for glass.In the operational process of kiln, the glass of high temperature
Liquid will constantly wash away and erosion electrode brick, and the effective heating surface (area) (HS and heat rate for making electrode block constantly reduce, and then influences glass
The melting efficiency and quality of glass, it is therefore desirable to periodically the electrode block of exposed parts is promoted in kiln, to maintain electrode block just
Often work.
The electrode block water cooling plant and air cooling equipment used now is immovable, in the progradation of electrode block, needs
Cooling water and cooling wind are closed, pushes electrode block again after removing associate member, operational sequence is very cumbersome.Also, ought again to
When water cooling plant injects cooling water, since water cooling plant head temperature is excessively high, thermal shock caused by the huge temperature difference is likely to result in
The damage of water cooling plant.In addition, existing water cooling plant is mostly the coil arrangement being made of copper pipe, the contact area with electrode block
It is small, it is small and cooling effect is bad, this damage that will accelerate electrode block so as to cause amount of cooling water, the propulsion time of electrode block is caused to carry
Before.
In addition, as shown in figure 4, existing air cooling equipment 7 is mostly the round tube being arranged between electrode block 1 and tank block 8
Road, cooling range is limited, the phenomenon that segment glass liquid can be caused to leak into outside tank block dilatation joint, exists so as to cause tank block
It tilts or ruptures in electrode block progradation, threaten the life safety of operating personnel, be unfavorable for the steady of base plate glass production line
It is fixed.
Utility model content
The purpose of the disclosure is to provide the electrode block puopulsion equipment and electricity of a kind of service life that can improve water cooling plant
Calcar stove.
To achieve these goals, the disclosure provides a kind of electrode block puopulsion equipment, and the electrode block puopulsion equipment includes
Electrode block, water cooling plant back-connected with the electrode block and for adjusting the water cooling plant and described along direction of propulsion
The push structure of the position of electrode block.
Optionally, the push structure includes fixed pedestal and can be arranged on this with adjusting position along the direction of propulsion solid
Determine the pushing ram on pedestal, which is located at the water cooling plant and is filled back in the side of the electrode block and with the water cooling
Put abutting or connection.
Optionally, be provided with pushing plate on rear side of the water cooling plant, the pushing ram by the pushing plate with it is described
Water cooling plant abuts.
Optionally, the both sides of the pushing plate protrude from the both sides of the water cooling plant, and the pushing ram is two or more,
And the protrusion with the pushing plate both sides abuts respectively.
Optionally, felt pad, the protruding portion of the pushing plate are provided between the pushing ram and the pushing plate
The groove that is useful for accommodating and position the felt pad is respectively formed on point.
Optionally, the pushing ram is the first screw rod, and mounting hole, the first screw rod peace are formed on the fixed pedestal
Be attached in the mounting hole and with the thread fitting of the fixed pedestal, support described to the end vertical of first screw rod
On pushing plate.
Optionally, the water cooling plant includes the first water cooling plant and the second water cooling plant, and first water cooling plant is set
It puts in the upper end at the electrode block rear portion, second water cooling plant is arranged on the lower end at the electrode block rear portion.
Optionally, be formed as hollow structure inside the water cooling plant for use as cooling passage, the first water cooling dress
Put the inlet for being respectively formed with the part of the close downside of second water cooling plant and circulating with the cooling passage, institute
The part for stating the close upside of the first water cooling plant and second water cooling plant is respectively formed with and the cooling passage stream
Logical liquid outlet.
Optionally, the water cooling plant is detachably connected by fastener and the electrode block rear portion.
Optionally, the fastener includes axis pin and bolt, offers the first threaded hole on the axis pin, the bolt is worn
The rear portion of the water cooling plant and the electrode block is crossed, the axis pin is worn perpendicular to the bolt and from the side of the electrode block
Into making the bolt and the first threaded hole thread fitting.
Optionally, the electrode block puopulsion equipment further includes air cooling equipment, and the air cooling equipment includes being located at the electrode
The first air cooling equipment and the second air cooling equipment and the third air cooling equipment positioned at the top of the electrode block of the both sides of brick,
Spaced apart multiple air outlets along its length are formed on each air cooling equipment, for the electrode block and
The gap blowing of tank block.
Optionally, the electrode block puopulsion equipment further includes the support construction positioned at the electrode block bottom, the support knot
Structure includes pedestal and setting on the base and the roll wheel assembly for being in rolling contact with the electrode block bottom.
Optionally, the roll wheel assembly can be arranged on to adjusting position the bottom by height adjusting part along in short transverse
On seat, the height adjusting part includes being arranged on lower wedge block on the pedestal, upper with lower wedge block lozenges cooperation
Wedge block and the second screw rod being arranged between the upper wedge block and the lower wedge block, the roll wheel assembly are arranged on
On the upper wedge block, which is used to that the upper wedge block to be driven to adjust position along lozenges relative to the lower wedge block
It puts, to adjust position of the roll wheel assembly in the short transverse.
Optionally, one end of the lower wedge block has been protrudedly formed protrusion towards the upper wedge block, on the protrusion
The through-hole passed through for the second screw rod is formed with, the upper wedge block, which corresponds on the end of the protrusion, is formed with the second screw thread
Hole, second screw rod are connect across the through-hole with second threaded hole, and second screw rod is axially limited by clamp spring
Position can rotate in the through-hole and relative to the through-hole, and the through-hole is formed as the second screw rod along the height side
To mobile slot hole.
By the way that water cooling plant to be fixed on to the rear portion of electrode block, water cooling plant can be as the propulsion synchronization of electrode block be towards kiln
It is moved in stove, and the sustainable work of water cooling plant in progradation, it, in this way can be to avoid because of water without closing cooling water circulation
Thus the damage of water cooling plant caused by thermal shock effect when device for cooling is again turned on improves the service life of water cooling plant.
According to another aspect of the disclosure, a kind of electric smelting glass furnace is provided, the electric smelting glass furnace includes above-mentioned
Electrode block puopulsion equipment.
Other feature and advantage of the disclosure will be described in detail in subsequent specific embodiment part.
Description of the drawings
Attached drawing is for providing further understanding of the disclosure, and a part for constitution instruction, with following tool
Body embodiment is used to explain the disclosure, but do not form the limitation to the disclosure together.In the accompanying drawings:
Fig. 1 is the front view for the electrode block puopulsion equipment that disclosure illustrative embodiments provide;
Fig. 2 is the side view for the electrode block puopulsion equipment that disclosure illustrative embodiments provide;
Fig. 3 is that the air cooling equipment in the electrode block puopulsion equipment that disclosure illustrative embodiments provide is expanded to tank block
The partial schematic diagram of seam conveying cooling wind;
Fig. 4 is the partial schematic diagram that the air cooling equipment that the prior art provides conveys cooling wind to tank block dilatation joint.
Reference sign
1 electrode block, 2 water cooling plant
21 first water cooling plant, 22 second water cooling plant
23 inlet, 24 liquid outlet
3 fixed pedestal, 31 mounting hole
4 pushing ram, 5 pushing plate
51 felt pad, 61 axis pin
62 bolt, 7 air cooling equipment
71 first air cooling equipment, 72 second air cooling equipment
73 third air cooling equipment, 74 air outlet
8 tank block, 91 pedestal
Wedge block on 92 times wedge blocks 93
94 second screw rod, 95 protrusion
96 roll wheel assembly 96a idler wheels
96b articulated shaft 96c fixed blocks
97 second threaded hole of 96d connectors
98 slot hole A direction of propulsion
Specific embodiment
The specific embodiment of the disclosure is described in detail below in conjunction with attached drawing.It should be understood that this place is retouched
The specific embodiment stated is only used for describing and explaining the disclosure, is not limited to the disclosure.
In the disclosure, in the case where not making to illustrate on the contrary, the noun of locality such as " upper and lower, left and right, top, bottom that use
Portion " typically refers to " upper and lower, left and right, top, the bottom " of corresponding construction under electrode block puopulsion equipment use state, in addition, such as
" direction of propulsion " refers to electrode block in the case where electrode block puopulsion equipment is suitable for glass furnace relative to glass furnace
The direction that side wall profile pushes from outside to inside, " short transverse " are the short transverse under electrode block puopulsion equipment use state.
As shown in Figure 1 to Figure 3, the disclosure provides a kind of electrode block puopulsion equipment, including electrode block 1 and 1 rear portion of electrode block
The water cooling plant 2 of connection and the push structure for adjusting the position of water cooling plant 2 and electrode block 1 along direction of propulsion A.It is inciting somebody to action
Electrode block 1 as described above is suitable under the assembled state of glass furnace, and electrode block 1 is arranged on the side wall of glass furnace, electricity
The forepart of pole brick 1, i.e., the side contacted with the glass metal in kiln is for heating glass metal, the rear portion of electrode block 1, that is, deviate from
The side of glass metal contact is exposed to outside kiln and is connect with water cooling plant 2.During the use of electrode block 1, the glass of high temperature
Glass liquid will constantly wash away and erosion electrode brick 1, reduces its effective heating surface (area) (HS and heat rate, above-mentioned push structure can be to electricity
The rear portion of pole brick 1 applies an active force, kiln external electrode brick 1 will be exposed to towards propulsion inside kiln, to increase electrode block 1
Effective heating surface (area) (HS.In addition, water cooling plant 2 can be made of the metal material of high temperature resistant and high mechanical strength, for example, resistance to height
The stainless steel of temperature, so that water cooling plant 2 can bear the high temperature more than 1700 DEG C, and be not easy to be etched, to ensure electrode block 1 just
Often work.
By the way that water cooling plant 2 to be fixed on to the rear portion of electrode block 1, water cooling plant 2 can synchronize court with the propulsion of electrode block 1
It is moved into kiln, and the 2 sustainable work of water cooling plant in progradation, without closing cooling water circulation.In this way, on the one hand
The operability that electrode block 1 promotes work can be improved, it is generated when on the other hand can be again turned on to avoid water cooling plant 2
Thermal shock effect and damage water cooling plant 2, thus improve water cooling plant 2 service life.
Further, as an alternative embodiment, as shown in Fig. 2, above-mentioned push structure include fixed pedestal 3,
With the pushing ram 4 that can be arranged on adjusting position along direction of propulsion A on fixed pedestal 3.Fixed pedestal 3 is located at outside kiln, and
It is arranged in parallel with water cooling plant 2, fixed pedestal 3 is used to fix and support pushing ram 4, it should be noted that the bottom of fixed pedestal 3
End cannot directly be fixed with ground, and optionally, fixed pedestal 3 is fixed on the steel construction of kiln bottom, to meet kiln entirety
The requirement of ground connection.Above-mentioned pushing ram 4 can be perpendicular to water cooling plant 2, and is located at water cooling plant 2 back in the side of electrode block 1.
Pushing ram 4 can be fixed on water cooling plant 2, to apply one towards the active force moved in kiln to water cooling plant 2, so as to
Electrode block 1 is pushed to move.The end vertical of pushing ram 4 can also be supported on water cooling plant 2, with push water cooling plant 2 and
Electrode block 1 moves.
Further, the rear side of water cooling plant 2, i.e., back to can set on the side contacted in water cooling plant 2 with electrode block 1
Pushing plate 5 is equipped with, above-mentioned pushing ram 4 is abutted by pushing plate 5 with water cooling plant 2, and pushing ram 4 can be by pushing plate 5 to water
Device for cooling 2 and electrode block 1 apply propulsive force.For water cooling plant 2 and electrode block 1 is enable to be uniformly advanced, as a kind of optional
Embodiment, pushing ram 4 can be multiple, and the both sides of pushing plate 5 can protrude from the both sides of water cooling plant 2, pushing ram 4 with
The protrusion of above-mentioned 5 both sides of pushing plate abuts.Optionally, pushing plate 5 is rectangular plate-like structure, and pushing ram 4 can be connected to this
Four edges of rectangular plate-like structure.It is this in a manner that pushing plate 5 promotes electrode block 1, can be with dispersive electrode
The active force required when promoting of brick 1, enables electrode block 1 uniformly to be pushed.In addition, since electrode block 1 need to be powered work, pushing plate
The electric source line interface (not shown) that power supply source line passes through can be offered on 5.Optionally, pushing plate 5 can be welded with water cooling plant 2
Connection is connected by bolt 62.
Since electrode block 1 is at work in energized state, the component contacted with electrode block 1 is preferably made of insulating materials
Or insulation processing need to be carried out, therefore, the disclosure provide illustrative embodiments in, as depicted in figs. 1 and 2, pushing ram 4 with
Be provided with felt pad 51 between pushing plate 5, and formed on the protrusion for protruding from 2 both sides of water cooling plant on pushing plate 5 by
For accommodating and positioning the groove (not shown) of felt pad 51.Optionally, heat safe insulation may be used in above-mentioned felt pad 51
Ceramic block.
Further, in the illustrative embodiments provided in the disclosure, above-mentioned pushing ram 4 is surface tool threaded the
One screw rod, be formed on fixed pedestal 3 for the first screw rod by mounting hole 31, the end of the first screw rod may pass through mounting hole 31
And vertically support on pushing plate 5, the screw thread coordinated with the first screw rod is provided in mounting hole 31.In this way, pass through rotation the
One screw rod can apply one to pushing plate 5 makes it towards the active force moved in kiln, and arrangement letter as described above
It is single and more reasonable.As an alternative embodiment, nut is embedded in mounting hole 31 to coordinate with the first screw flight.
In other embodiments, it could be formed with screw thread on 31 inner surface of mounting hole.
In addition, in the electrode block puopulsion equipment provided in the disclosure, water cooling plant 2 includes the first water cooling plant 21 and second
Water cooling plant 22, the first water cooling plant 22 are arranged on the upper end at 1 rear portion of electrode block, and the second water cooling plant 22 is arranged on electrode block 1
The lower end at rear portion.Compared with the design method of a water cooling plant 2 is only arranged at 1 rear portion of electrode block, this multiple water coolings of arrangement
On the one hand the design method of device 2 can make the coolant after heat absorption flow out water cooling plant 2 rapidly, so as to improve following for coolant
Ring rate and cooling effect, on the other hand can to avoid when 2 length of water cooling plant is long during being pushed into bar 4 and promoting
It deforms upon.
Further, be formed as hollow structure inside water cooling plant 2 for use as cooling passage, 21 He of the first water cooling plant
The part of the close downside of second water cooling plant 22 is respectively formed with the inlet 23 to circulate with cooling passage, the first water cooling dress
Put 21 and second the part of close upside of water cooling plant 22 be respectively formed with the liquid outlet 24 to circulate with cooling passage.Cooling
Liquid can constantly enter water cooling plant 2 by inlet 23 to be full of the inside of entire water cooling plant 2, by coolant and electrode block
The contact area at 1 rear portion maximizes, and compared with the coiled water cooling plant 2 of the prior art, the water cooling plant 2 that the disclosure provides is cold
But contact area bigger, cooling effect is more preferable, so as to extend the propulsion time of electrode block 1.
Water cooling plant 2 and the connection at 1 rear portion of electrode block can be realized by numerous embodiments, for example, being provided in the disclosure
Electrode block puopulsion equipment in, water cooling plant 2 is removably joined together by fastener and 1 rear portion of electrode block.In this way, work as
Water cooling plant 2 is by the water cooling plant 2 that after high temperature erosion or damage, operating personnel can rapidly dismantle and more renew, to ensure electricity
The normal work of pole brick 1.
Further, as shown in Fig. 2, fastener includes axis pin 61 and bolt 62, the first threaded hole is offered on axis pin 61
(not shown), bolt 62 pass through the rear portion of water cooling plant 2 and electrode block 1, and axis pin 61 is perpendicular to bolt 62 and from the side of electrode block 1
Portion pierces into, and makes bolt 62 and the first threaded hole (not shown) thread fitting on axis pin 61.
In addition, the temperature of the tank block dilatation joint between cooling electrode block 1 and tank block 8, avoids glass metal from leaking into
The outside of tank block dilatation joint causes tank block 8 to tilt or rupture in the pushing course of electrode block 1, the electricity that the disclosure provides
Brick 1 puopulsion equipment in pole further includes air cooling equipment 7, and air cooling equipment 7 includes 71 He of the first air cooling equipment positioned at the both sides of electrode block 1
Second air cooling equipment 72 and the third air cooling equipment 73 positioned at the top of electrode block 1.Each air cooling equipment 7 has been respectively formed on
Spaced apart multiple air outlets 74 along its length, the air outlet 74 is towards the tank block between electrode block 1 and tank block 8
Dilatation joint, the temperature of tank block dilatation joint is dried and equably reduced to tank block dilatation joint.Optionally, the first air cooling equipment
71 and second air cooling equipment 72 can be fixed on pushing plate 5 the protrusion of both sides on, third air cooling equipment 73 can be fixed
At the top of pushing plate 5, make air cooling equipment 7 also can be with water cooling plant 2 and the advancing movement of electrode block 1.It in addition, can be according to air-cooled
The installation environment of device 7 and the position of cooling wind delivery pipe, any position on air cooling equipment 7 open up to connect cooling wind
The air inlet (not shown) of delivery pipe.
On the other hand, the electrode block puopulsion equipment that the disclosure provides further includes the support construction positioned at 1 bottom of electrode block, should
Support construction includes pedestal 91 and is arranged on the roll wheel assembly 96 on the pedestal 91 and for being in rolling contact with 1 bottom of electrode block.
Since 1 usual volume of electrode block is big, quality is big, there are very big stiction, above-mentioned rollers between electrode block 1 and tank block 8
Idler wheel 96a in component 96 can provide an active force that it is assisted to promote to electrode block 1, to reduce 1 progradation of electrode block
In resistance, electrode block 1 is made to be made smooth advances to kiln.To meet the requirement of insulation, resistance to height may be used in roll wheel assembly 96
The insulating ceramic materials of temperature.Optionally, above-mentioned rollers component 96 includes idler wheel 96a and the fixed block for accommodating idler wheel 96a
96c, idler wheel 96a support the bottom of electrode block 1 and are rotationally hinged in fixed block 96c by articulated shaft 96b, idler wheel 96a
Quantity can be set according to factors such as the size of electrode block 1, weight.
Further, roll wheel assembly 96 can be arranged on to adjusting position pedestal 91 by height adjusting part along in short transverse
On, height adjusting part includes the lower wedge block 92 being arranged on pedestal 91, the upper wedge shape with lower 92 lozenges of the wedge block cooperation
Block 93 and the second screw rod 94 being arranged between wedge block 93 and lower wedge block 92, roll wheel assembly 96 pass through connector 96d
It is fixed on wedge block 93, which is used to that wedge block 93 to be driven to adjust along lozenges relative to lower wedge block 92
Position, to adjust the position of roll wheel assembly 96 in the height direction.In this way, roll wheel assembly 96 can be made by adjusting the second screw rod 94
It is moved in vertical height direction, to eliminate the installation error of support construction, it is ensured that roll wheel assembly 96 can support the bottom of electrode block 1
Portion.
Further, one end of lower wedge block 92 has been protrudedly formed protrusion 95 towards upper wedge block 93, shape on protrusion 95
Into there is the through-hole that passes through for the second screw rod 94, upper wedge block 93, which corresponds on the end of protrusion 95, is formed with the second threaded hole 97,
Second screw rod 94 may pass through 97 thread fitting of through-hole and the second threaded hole, and the second screw rod 94 is by clamp spring axial limiting in through-hole
It is interior, that is, it limits the second screw rod 94 and is moved on direction is extended along a length thereof, which can rotate relative to through-hole.It is above-mentioned
Clamp spring can be arranged on through hole, to keep out and prevent the second screw rod 94 to be moved axially during rotation.In this way,
When rotating the second screw rod 94, the screw thread of 94 end of the second screw rod can apply one with upward wedge block 93 with threaded hole cooperation and continue
Active force, which can be such that wedge block 93 is moved axially along lozenges, to adjust the height of roll wheel assembly 96.It is above-mentioned logical
Hole can be formed as the slot hole 98 moved for the second screw rod 94 along short transverse, so that the second screw rod 94 can be in vertical height direction
Upper movement.
When kiln technique, which reaches the propulsion of electrode block 1, to be required, the electrode block puopulsion equipment that the disclosure provides can be used to promote
Electrode block 1.It need to ensure that electrode block 1 has powered off and discharge off over the ground, then, can close air cooling equipment when promoting electrode block 1
7, stop conveying cooling wind to 8 expansion wall of tank block, at this point, cold glass at 8 expansion wall of tank block will be persistently overheating and in 20-
After-tack in 30 minutes reaches electrode block 1 and promotes requirement.After ensuring that roll wheel assembly 96 has supported 1 lower part of electrode block, rotatable propulsion
Bar 4 makes pushing ram 4 push pushing plate 5, so as to which water cooling plant 2, air cooling equipment 7 and electrode block 1 be driven to be moved simultaneously into kiln
It is dynamic, in entire progradation, without closing or removing water cooling plant 2, substantially increase the operability of the propulsion of electrode block 1.
According to another aspect of the disclosure, a kind of electric smelting glass furnace is provided, the electric smelting glass furnace includes above-mentioned
Electrode block puopulsion equipment.
The preferred embodiment of the disclosure is described in detail above in association with attached drawing, still, the disclosure is not limited to above-mentioned reality
The detail in mode is applied, in the range of the technology design of the disclosure, a variety of letters can be carried out to the technical solution of the disclosure
Monotropic type, these simple variants belong to the protection domain of the disclosure.
It is further to note that specific technical features described in the above specific embodiments, in not lance
In the case of shield, it can be combined by any suitable means.
In addition, arbitrary combination can also be carried out between a variety of different embodiments of the disclosure, as long as it is without prejudice to originally
Disclosed thought should equally be considered as disclosure disclosure of that.
Claims (15)
1. a kind of electrode block puopulsion equipment, which is characterized in that the electrode block puopulsion equipment includes electrode block (1) and the electricity
Pole brick (1) back-connected water cooling plant (2) and for adjusting the water cooling plant (2) and the electrode along direction of propulsion (A)
The push structure of the position of brick (1).
2. electrode block puopulsion equipment according to claim 1, which is characterized in that the push structure includes fixed pedestal
(3) and pushing ram (4) on the fixed pedestal (3), the pushing ram can be arranged on adjusting position along the direction of propulsion (A)
(4) it abuts or connect back in the side of the electrode block (1) and with the water cooling plant (2) positioned at the water cooling plant (2).
3. electrode block puopulsion equipment according to claim 2, which is characterized in that the rear side setting of the water cooling plant (2)
There is pushing plate (5), the pushing ram (4) is abutted by the pushing plate (5) with the water cooling plant (2).
4. electrode block puopulsion equipment according to claim 3, which is characterized in that the both sides of the pushing plate (5) protrude from
The both sides of the water cooling plant (2), the pushing ram (4) is more than two, and the protrusion with the pushing plate (5) both sides respectively
Part abuts.
5. electrode block puopulsion equipment according to claim 4, which is characterized in that the pushing ram (4) and the pushing plate
(5) felt pad (51) is provided between, is respectively formed on the protrusion of the pushing plate (5) and is useful for accommodating and position
The groove of the felt pad (51).
6. electrode block puopulsion equipment according to claim 3, which is characterized in that the pushing ram (4) be the first screw rod, institute
State and mounting hole (31) be formed on fixed pedestal (3), first screw rod be installed in the mounting hole (31) and with it is described solid
Determine the thread fitting of pedestal (3), support on the pushing plate (5) to the end vertical of first screw rod.
7. the electrode block puopulsion equipment according to any one of claim 1-6, which is characterized in that the water cooling plant (2)
Including the first water cooling plant (21) and the second water cooling plant (22), first water cooling plant (21) is arranged on the electrode block
(1) upper end at rear portion, second water cooling plant (22) are arranged on the lower end at the electrode block (1) rear portion.
8. electrode block puopulsion equipment according to claim 7, which is characterized in that be formed as inside the water cooling plant (2)
Cavity structure is for use as cooling passage, the close downside of first water cooling plant (21) and second water cooling plant (22)
Part be respectively formed with the inlet (23) to circulate with the cooling passage, first water cooling plant (21) and described
The part of the close upside of two water cooling plants (22) is respectively formed with the liquid outlet (24) to circulate with the cooling passage.
9. electrode block puopulsion equipment according to claim 1, which is characterized in that the water cooling plant (2) passes through fastener
It is detachably connected with the electrode block (1) rear portion.
10. electrode block puopulsion equipment according to claim 9, which is characterized in that the fastener include axis pin (61) and
Bolt (62), offers the first threaded hole on the axis pin (61), and the bolt (62) is across the water cooling plant (2) and described
The rear portion of electrode block (1), the axis pin (61) are pierced into perpendicular to the bolt (62) and from the side of the electrode block (1), are made
The bolt (62) and the first threaded hole thread fitting.
11. electrode block puopulsion equipment according to claim 1, which is characterized in that the electrode block puopulsion equipment further includes
Air cooling equipment (7), the first air cooling equipment (71) of both sides of the air cooling equipment (7) including being located at the electrode block (1) and
Two air cooling equipments (72) and the third air cooling equipment (73) positioned at the top of the electrode block (1), each air cooling equipment
(7) spaced apart multiple air outlets (74) along its length are formed on, for the electrode block (1) and tank block
(8) gap blowing.
12. electrode block puopulsion equipment according to claim 1, which is characterized in that the electrode block puopulsion equipment further includes
Support construction positioned at the electrode block (1) bottom, the support construction include pedestal (91) and are arranged on the pedestal (91) simultaneously
For the roll wheel assembly (96) being in rolling contact with the electrode block (1) bottom.
13. electrode block puopulsion equipment according to claim 12, which is characterized in that the roll wheel assembly (96) passes through height
Regulating part can be arranged on to adjusting position along in short transverse on the pedestal (91), and the height adjusting part includes being arranged on institute
State the lower wedge block (92) on pedestal (91), the upper wedge block (93) coordinated with lower wedge block (92) lozenges and setting
The second screw rod (94) on described between wedge block (93) and the lower wedge block (92), the roll wheel assembly (96) are arranged on
On the upper wedge block (93), second screw rod (94) is for driving the upper wedge block (93) relative to the lower wedge block
(92) position is adjusted along lozenges, to adjust position of the roll wheel assembly (96) in the short transverse.
14. electrode block puopulsion equipment according to claim 13, which is characterized in that one end court of the lower wedge block (92)
Protrusion (95) has been protrudedly formed to the upper wedge block (93), has been formed on the protrusion (95) and is passed through for the second screw rod (94)
Through-hole, the upper wedge block (93) is corresponding to being formed with the second threaded hole (97) on the end of the protrusion (95), described
Two screw rods (94) are connect across the through-hole with second threaded hole (97), and second screw rod (94) passes through clamp spring axial direction
Limiting can rotate in the through-hole and relative to the through-hole, and the through-hole is formed as the second screw rod (94) along described
The slot hole (98) of short transverse movement.
15. a kind of electric smelting glass furnace, which is characterized in that the electric smelting glass furnace includes any one of claim 1-14 institutes
The electrode block puopulsion equipment stated.
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CN201721603154.5U CN207552161U (en) | 2017-11-24 | 2017-11-24 | Electrode block puopulsion equipment and electric smelting glass furnace |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107892464A (en) * | 2017-11-24 | 2018-04-10 | 郑州旭飞光电科技有限公司 | Electrode block puopulsion equipment and electric smelting glass furnace |
CN109851203A (en) * | 2019-03-06 | 2019-06-07 | 彩虹显示器件股份有限公司 | A kind of heating device and its application method of flat glass furnace |
CN110294589A (en) * | 2019-07-31 | 2019-10-01 | 彩虹(合肥)光伏有限公司 | A kind of device of glass furnace pool wall wind duckbilled installation positioning |
CN111072259A (en) * | 2019-12-30 | 2020-04-28 | 彩虹显示器件股份有限公司 | Device and method for propelling upper and lower electrodes of glass kiln |
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2017
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CN107892464A (en) * | 2017-11-24 | 2018-04-10 | 郑州旭飞光电科技有限公司 | Electrode block puopulsion equipment and electric smelting glass furnace |
CN109851203A (en) * | 2019-03-06 | 2019-06-07 | 彩虹显示器件股份有限公司 | A kind of heating device and its application method of flat glass furnace |
CN109851203B (en) * | 2019-03-06 | 2022-04-22 | 彩虹显示器件股份有限公司 | Heating device of plate glass kiln and using method thereof |
CN110294589A (en) * | 2019-07-31 | 2019-10-01 | 彩虹(合肥)光伏有限公司 | A kind of device of glass furnace pool wall wind duckbilled installation positioning |
CN110294589B (en) * | 2019-07-31 | 2021-11-05 | 彩虹(合肥)光伏有限公司 | Device for mounting and positioning duckbills on pool wall of glass kiln |
CN111072259A (en) * | 2019-12-30 | 2020-04-28 | 彩虹显示器件股份有限公司 | Device and method for propelling upper and lower electrodes of glass kiln |
CN111072259B (en) * | 2019-12-30 | 2023-05-16 | 彩虹显示器件股份有限公司 | Device and method for propelling upper and lower electrode layers of glass kiln |
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