CN214327916U - Inner container type glass fiber reinforced plastic electrolytic tank - Google Patents
Inner container type glass fiber reinforced plastic electrolytic tank Download PDFInfo
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- CN214327916U CN214327916U CN202022775489.3U CN202022775489U CN214327916U CN 214327916 U CN214327916 U CN 214327916U CN 202022775489 U CN202022775489 U CN 202022775489U CN 214327916 U CN214327916 U CN 214327916U
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- fiber reinforced
- reinforced plastic
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- inner bag
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Abstract
An inner container type glass fiber reinforced plastic electrolytic tank, comprising: the glass steel inner bag, glass steel inner bag external surface is fixed with the fastener, the fastener is the I-shaped structure, fastener one end middle part is equipped with the ring channel, install the positioning reinforcement in the ring channel, the positioning reinforcement encircles in the glass steel inner bag outside, the fastener sets up ring channel one end side and is equipped with the backing plate, the positioning reinforcement is located between fastener and the backing plate, the outside ring of glass steel inner bag is wrapped up in the concrete, the outside coating of glass steel inner bag has vinyl resin layer, be stained with the rubble on the vinyl resin layer. Due to the embedding of the rubble in the concrete, the outer side wall of the glass fiber reinforced plastic liner is well attached to the concrete.
Description
Technical Field
The utility model relates to the technical field of electrolytic cells, in particular to a liner type glass fiber reinforced plastic electrolytic cell.
Background
The electrolytic bath is the main equipment for copper and zinc electrolysis production, and the electrolytic bath is filled with electrolyte and has cathode and anode plates arranged at intervals. At present, all copper and zinc smelting plants are commonly used for manufacturing reinforced concrete tanks, manually pasting glass fiber reinforced plastics in the tanks, adhering the glass fiber reinforced plastics on the surfaces of the concrete tanks, because the actual environmental conditions of air holes, moisture, roughness, environmental temperature, air humidity and the like of the concrete tank body all affect the quality of the hand-pasted lining glass fiber reinforced plastic, because the thickness is not easy to detect in the construction of manually pasting the glass fiber reinforced plastic in the groove, bubbles are easy to generate and not easy to eliminate, electrolyte is leaked to the concrete groove body, the liquid inlet and outlet pipe and the liquid discharge pipe small piece are stuck and installed with the lining at the later stage, the quality of the joint part is difficult to ensure, the leakage is often generated, the electrolyte is crystallized, the leakage is caused, when the glass fiber reinforced plastic is coated in the concrete tank body, the ventilation condition is poor, the benzene concentration in the air greatly exceeds the standard after the benzene in the resin is volatilized, the construction personnel can hardly operate for a long time, and the physical and mental health of the construction personnel is seriously damaged.
In the electrolytic cell after production, the outer side wall of the glass fiber reinforced plastic liner cannot be well attached to concrete, and a gap is easily formed between the outer side wall and the concrete, so that the service life of the electrolytic cell is influenced.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the problem that the outer side wall of the glass fiber reinforced plastic inner container can not be well laminated with concrete, and aims to provide the inner container type glass fiber reinforced plastic electrolytic tank.
The utility model discloses the technical problem that will solve adopts following technical scheme to realize:
an inner container type glass fiber reinforced plastic electrolytic tank, comprising:
the glass steel inner bag, glass steel inner bag external surface is fixed with the fastener, the fastener is the I-shaped structure, fastener one end middle part is equipped with the ring channel, install the positioning reinforcement in the ring channel, the positioning reinforcement encircles in the glass steel inner bag outside, the fastener sets up ring channel one end side and is equipped with the backing plate, the positioning reinforcement is located between fastener and the backing plate, the outside ring of glass steel inner bag is wrapped up in the concrete, the outside coating of glass steel inner bag has vinyl resin layer, be stained with the rubble on the vinyl resin layer.
Furthermore, the concrete is filled with skeleton reinforcing steel bars, and the skeleton reinforcing steel bars are bundled together with the positioning reinforcing steel bars through steel wires.
Furthermore, the particle size of the rubble is 0.5cm-1.5 cm.
Furthermore, a mud discharging pipe is arranged at the bottom of the glass fiber reinforced plastic inner container.
Further, a notch plate is arranged on the outer side of an upper end opening of the glass fiber reinforced plastic inner container, the notch plate and the glass fiber reinforced plastic inner container are integrally formed, a positioning column is arranged on the notch plate, and the positioning column is connected with the framework steel bars through steel wires.
Furthermore, a reinforcing rib plate is arranged between the notch plate and the outer side wall of the glass fiber reinforced plastic inner container.
The utility model has the advantages that:
the utility model discloses simple structure, adopt the mode of pre-production glass steel inner bag, effectively avoided coating the glass steel inner bag in the narrow and small space of concrete groove, be convenient for operate, through set up I-shaped fastener on glass steel inner bag lateral wall, utilize fastener and backing plate fixed position reinforcing bar, when concrete placement, the positioning bar buries inside the concrete, can carry out effectual being connected with glass steel inner bag and concrete, and the vinyl resin layer that coats on the glass steel inner bag lateral wall, it is fixed with a plurality of rubbles to utilize the vinyl resin layer bonding, the concrete placement in-process, inside the rubble can imbed into the concrete, with the fine laminating of rubble in the concrete, behind the electrolysis trough shaping, because the embedding of rubble in the concrete, make fine laminating between glass steel inner bag lateral wall and concrete.
Drawings
FIG. 1 is a block diagram of the present invention;
FIG. 2 is a cross-sectional view of the sidewall of the glass fiber reinforced plastic liner of the present invention;
in the figure: 1. a glass fiber reinforced plastic inner container; 12. a fastener; 13. an annular groove; 14. positioning the reinforcing steel bars; 15. a base plate; 16. concrete; 17. a vinyl resin layer; 18. rubble; 21. framework steel bars; 22. a mud pipe is arranged; 23. a slot plate; 24. a positioning column; 25. and a reinforcing plate.
Detailed Description
In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings.
Example 1
As shown in fig. 1; an inner container type glass fiber reinforced plastic electrolytic tank, comprising:
glass steel inner bag 1, 1 external fixed surface of glass steel inner bag has straining piece 12, straining piece 12 is the I-shaped structure, straining piece 12 one end middle part is equipped with ring channel 13, install positioning steel bar 14 in the ring channel 13, positioning steel bar 14 encircles in the 1 outside of glass steel inner bag, straining piece 12 sets up ring channel 13 one end side and is equipped with backing plate 15, positioning steel bar 14 is located between straining piece 12 and the backing plate 15, the concrete 16 is wrapped up in to 1 outside ring of glass steel inner bag, 1 outside coating of glass steel inner bag has vinyl resin layer 17, be stained with rubble 18 on vinyl resin layer 17. The rubble 18 is granite rubble.
A liner type glass fiber reinforced plastic electrolytic tank has the working principle that:
the mode of pre-producing the glass fiber reinforced plastic liner 1 is adopted, the glass fiber reinforced plastic liner is effectively prevented from being coated in the narrow space of the concrete tank, the operation is convenient, by arranging the I-shaped fastening piece 12 on the outer side wall of the glass fiber reinforced plastic liner 1, fixing the positioning reinforcing steel bar 14 by using the fastening piece 12 and the backing plate 15, when the concrete 16 is poured, the positioning steel bars 14 are embedded into the concrete 16, the glass fiber reinforced plastic inner container 1 can be effectively connected with the concrete 16, and the outer side wall of the glass fiber reinforced plastic inner container 1 is coated with a vinyl resin layer 17, a plurality of rubbles 18 are bonded and fixed by the vinyl resin layer 17, in the pouring process of the concrete 16, the rubble 18 can be embedded into the concrete 16 and well attached to the crushed stones in the concrete 16, and after the electrolytic cell is formed, due to the fact that the rubble 18 is embedded in the concrete 16, the outer side wall of the glass fiber reinforced plastic inner container 1 is well attached to the concrete 16.
Example 2
On the basis of embodiment 1, the concrete 16 is filled with the framework steel bars 21, and the framework steel bars 21 are bound with the positioning steel bars 14 through steel wires. The strength of the concrete 16 is enhanced, and the integrity of the electrolytic cell is improved.
The particle size of the rubble 18 is 0.5cm-1.5 cm.
The bottom of the glass fiber reinforced plastic liner 1 is provided with a mud discharging pipe 22.
The notch plate 23 is arranged on the outer side of the upper port of the glass fiber reinforced plastic liner 1, the notch plate 23 and the glass fiber reinforced plastic liner 1 are integrally formed, a positioning column 24 is arranged on the notch plate 23, and the positioning column 24 is connected with the framework steel bar 21 through a steel wire. Ensuring the upper end opening of the glass fiber reinforced plastic liner 1 to be fully attached to the concrete 16.
A reinforcing rib plate 25 is arranged between the notch plate 23 and the outer side wall of the glass fiber reinforced plastic liner 1.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (6)
1. A glass fiber reinforced plastic electrolytic tank with an inner container is characterized by comprising:
the glass steel inner bag, glass steel inner bag external surface is fixed with the fastener, the fastener is the I-shaped structure, fastener one end middle part is equipped with the ring channel, install the positioning reinforcement in the ring channel, the positioning reinforcement encircles in the glass steel inner bag outside, the fastener sets up ring channel one end side and is equipped with the backing plate, the positioning reinforcement is located between fastener and the backing plate, the outside ring of glass steel inner bag is wrapped up in the concrete, the outside coating of glass steel inner bag has vinyl resin layer, be stained with the rubble on the vinyl resin layer.
2. The glass fiber reinforced plastic electrolytic cell as claimed in claim 1, wherein the concrete is filled with skeleton steel bars, and the skeleton steel bars are bound with the positioning steel bars through steel wires.
3. The glass fiber reinforced plastic electrolytic cell as claimed in claim 1, wherein the rubble particles have a size of 0.5cm to 1.5 cm.
4. The glass fiber reinforced plastic electrolytic cell as claimed in claim 1, wherein a sludge discharge pipe is disposed at the bottom of the glass fiber reinforced plastic inner container.
5. The glass fiber reinforced plastic electrolytic cell as claimed in claim 2, wherein a notch plate is disposed outside the upper port of the glass fiber reinforced plastic inner container, the notch plate and the glass fiber reinforced plastic inner container are integrally formed, and the notch plate is provided with a positioning column connected with the framework steel bars through steel wires.
6. The glass fiber reinforced plastic electrolytic cell of claim 5, wherein a reinforcing rib plate is arranged between the slot plate and the outer side wall of the glass fiber reinforced plastic inner container.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022775489.3U CN214327916U (en) | 2020-11-26 | 2020-11-26 | Inner container type glass fiber reinforced plastic electrolytic tank |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022775489.3U CN214327916U (en) | 2020-11-26 | 2020-11-26 | Inner container type glass fiber reinforced plastic electrolytic tank |
Publications (1)
Publication Number | Publication Date |
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CN214327916U true CN214327916U (en) | 2021-10-01 |
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Family Applications (1)
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CN202022775489.3U Active CN214327916U (en) | 2020-11-26 | 2020-11-26 | Inner container type glass fiber reinforced plastic electrolytic tank |
Country Status (1)
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CN (1) | CN214327916U (en) |
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2020
- 2020-11-26 CN CN202022775489.3U patent/CN214327916U/en active Active
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