SU581411A1 - Mechanical pulp sampler - Google Patents

Description

The claimed invention relates to pulp sampling devices and can be applied in many industries. A mechanical pulp sampler is known, comprising a tank with an upper annular overflow, into which pulp is being pumped from below, and a rotating hollow shaft with a sampler 1. A mechanical pulp sampler is also known, comprising a tank with an upper annular overflow, a rotating hollow shaft with a sampler and a cylindrical casing of the juice casing. branch pipe. The tank in the lower part is equipped with a valve associated with a system of levers with bucket 2. A disadvantage of the known device is the presence of a valve and a system of levers located in the pulp. This leads to the fact that when working with gypsum pulps, both the valve and the lever system in the axles are gypsum, as a result of which the valve sticks to the hole and remains in this state even after the pulp supply is stopped. In addition, the presence of impurities in the pulp leads to incomplete closure of the orifice with a valve, resulting in a distortion of the sample being taken. The purpose of the invention is to eliminate jamming and the effect of foreign inclusions on the mode of operation. This goal is achieved by the fact that the sampler is equipped with a retaining tank and a partition mounted in it with a hole in the bottom. The drawing shows a mechanical sampler, a general view. The sampler has a tank 1, inside which a sampler 3 is mounted on a vertical rotary shaft 2. The tank 1 is connected to a branch pipe 4 with a retaining tank 5, inside of which there is a vertical partition 6 with an opening 7 in the lower part. The device works as follows. A continuous stream of pulp, from which a constant volume sample per unit of time is to be taken, is fed into the tank from above and through pipe 4 enters the retaining tank 5. Using a partition b, a constant level of pulp is created in the tank 1. Pulp analysis is taken using the sampling unit 3, mounted on a rotating hollow shaft 2, and located below the level of the pulp in tank I. The representativeness of the sample is provided by the transverse intersection of the sampler of the sample flow. Part of the assembled lulpa flows through opening 7, the flow area of which is an order of magnitude smaller than that of pipe 4. When the supply of pulp is stopped, the remaining pulp in tanks 1 and 5 is removed through opening 7.

The proposed device was tested at the technical design stage. The test results are positive. Documentation for a prototype is being developed.

Claims (2)

1. Author's certificate number 186197, cl. G 01 N 1/10, 1956. 2. The author's certificate number 317949, cl. G 01 N 1/10, 1973.