High-performance springs ensure maximum production safety

The spring-buffered safety receiving device solves the problem of safely supporting the shaft lifting cage and overcomes many defects of the socket and the cradle, especially in the case that the entire lifting system does not need any technical transformation, only the supporting device is modified. Can shorten the lifting cycle time, saving not only the tank adjustment time

The spring-buffered safety receiving device solves the problem of safely supporting the shaft lifting cage and overcomes many defects of the socket and the cradle, especially in the case that the entire lifting system does not need any technical transformation, only the supporting device is modified. It can shorten the lifting cycle time, which not only saves the electricity consumption of the tank adjustment time, but also significantly improves the lifting efficiency. In addition, the gas emission from the goaf is reduced, and finally the gas concentration in the return air flow of the working face is reduced, and the purpose of safe production of the working surface is ensured.

Use the adjustment wind window to change the amount of wind passing through the work surface. As the cross-section of the wind window increases gradually, the working air volume in parallel with it gradually decreases, and the gas concentration in the return air flow of the working surface gradually decreases. Before the implementation of the scheme, the air volume of the working face is 710m3/min, and the gas concentration in the return air flow is as high as 0.81%. After the A and B dampers are changed to adjust the wind window, when the air volume of the A regulating wind window reaches 150m3/min, the working surface air volume Reduced to 580m3 / min, at this time, the gas concentration in the return flow of the working face fell to 0.52%.

In the case of meeting the wind volume of the working face, the damper that is connected in parallel with the branch is changed to the regulating wind window, which can reduce the energy consumption.

(1) Under certain conditions, the use of pressure equalization technology to control the gas emission from the goaf in the working face is an effective and economical safety technical measure.

(2) For mines without pumping conditions, the pressure equalization technique can be used to treat the gas emission from the goaf, but when the pressure equalization scheme is selected, the actual conditions of each mine should be combined. When the objective conditions permit, the fan and the wind window are combined to adjust, the effect will be better.

Thiocyanate (also known as rhodanide) is the anion [SCN]−. It is the conjugate base of thiocyanic acid. Common derivatives include the colourless salts Potassium Thiocyanate and Sodium Thiocyanate. Organic compounds containing the functional group SCN are also called thiocyanates. Mercury(II) thiocyanate was formerly used in pyrotechnics.

Thiocyanate is analogous to the cyanate ion, [OCN]−, wherein oxygen is replaced by sulfur. [SCN]− is one of the pseudohalides, due to the similarity of its reactions to that of halide ions. Thiocyanate used to be known as rhodanide (from a Greek word for rose) because of the red colour of its complexes with iron. Thiocyanate is produced by the reaction of elemental sulfur or thiosulfate with cyanide


Thiocyanate[4] is known to be an important part in the biosynthesis of hypothiocyanite by a lactoperoxidase.[5][6][7] Thus the complete absence of thiocyanate[8] or reduced thiocyanate[9] in the human body, (e.g., cystic fibrosis) is damaging to the human host defense system.[10][11]

Thiocyanate is a potent competitive inhibitor of the thyroid sodium-iodide symporter.[12] Iodine is an essential component of thyroxine. Since thiocyanates will decrease iodide transport into the thyroid follicular cell, they will decrease the amount of thyroxine produced by the thyroid gland. As such, foodstuffs containing thiocyanate are best avoided by Iodide deficient hypothyroid patients.[13]

In the early 20th century, thiocyanate was used in the treatment of hypertension, but it is no longer used because of associated toxicity.[14] Sodium nitroprusside, a metabolite of which is thiocyanate, is however still used for the treatment of a hypertensive emergency. Rhodanese catalyzes the reaction of sodium nitroprusside with thiosulfate to form the metabolite thiocyanate


Our main Thiocyanates are Sodium Thiocyanate, Potassium Thiocyanate, ammonium thiocyanate.

Thiocyanate

Sodium Thiocyanate, Potassium Thiocyanate,ammonium thiocyanate

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