High-efficiency dedusting system for high-temperature separation device of recycled cables
A technology of separation device and dust removal system, which is applied in the direction of combination device, separation method, and separation of dispersed particles, which can solve the problems of waste gas recovery and impurity removal, and achieve the effects of stable operation, efficient recovery, and enhanced efficiency
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Embodiment 1
[0034] A high-efficiency dedusting system for a high-temperature separation device for recycling cables, comprising a first dedusting mechanism, an energy conversion mechanism connected to the first end of the first dedusting mechanism, and a first dedusting mechanism connected to the second end of the first dedusting mechanism. The regeneration mechanism, the settling mechanism connected with the energy conversion mechanism, the dust accumulation module arranged at the lower part of the settling mechanism, the absorbing mechanism arranged at the rear of the settling mechanism, and the discharge mechanism 11 arranged at the upper part of the absorbing mechanism , a circulation mechanism connected with the absorption mechanism, and a discharge module arranged at the lower part of the absorption mechanism;
[0035] The first dust removal mechanism includes a plurality of dust collectors 1 connected in parallel, a first air inlet pipe 22 arranged at the air inlet end of the dust c...
Embodiment 2
[0045] Embodiment 2, which is different from Embodiment 1 in that: the regeneration pipeline 2, the regeneration discharge pipe 21, and the first air intake pipe 22 are all equipped with a detection module 19;
[0046] The detection module 19 includes a flow rate sensor 192 , a dust sensor 191 and a temperature sensor 193 .
[0047] The first regeneration mechanism adopted in this embodiment includes a regeneration pipeline communicated with the discharge mechanism, solenoid valves arranged at both ends of the regeneration pipeline, a regeneration supercharger arranged in the middle of the regeneration pipeline, and a The regeneration discharge pipe at the lower part of the dust collector; the airflow can be pressurized by the regeneration supercharger to ensure that there is a high-speed airflow to clean the dust collector during back-blowing and dust removal, which can greatly reduce the amount of back-blowing gas and ensure The effect of overall cleaning; the energy convers...
Embodiment 3
[0048] Embodiment 3: The difference between it and Embodiment 2 is that: the first dust removal mechanism, the energy conversion mechanism, the first regeneration mechanism, the sedimentation mechanism, the dust accumulation module, the absorption mechanism, the discharge mechanism, the circulation mechanism, and the unloading module are all compatible with The signal interconnection of the control modules arranged on the outer wall of the dust collector;
[0049] The control module is PLC or personal computer.
[0050] The settling mechanism adopted in this embodiment includes a conical cylinder whose lower part communicates with the spiral tube, and the air inlet pipe is arranged in the tangential direction of the side wall of the conical cylinder, so that the airflow entering it is a helical airflow, thereby generating a high-speed swirling airflow , and as the airflow rises, due to the increase in space, large particles settle and fall into the dust accumulation module, wh...
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