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Big gear ring connecting structure of barium sulfate raw material calcining furnace

A connection structure, calciner technology, applied in the direction of calcium/strontium/barium sulfate, elements with teeth, belts/chains/gears, etc., can solve the problems of limited use range, poor practicability, increased vibration, etc. , to achieve the effect of low level of personnel participation, simple structure and working principle, and easy implementation

Active Publication Date: 2016-11-09
GUANGXI LIANZHUANG SCI & TECH CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The structure of the device is relatively complicated, and only the radial compensation of the deformation of the rotary kiln is considered. It is not known that the axial compensation of the rotary kiln is also a problem that cannot be ignored when the heat changes significantly. The influence of gear deformation on gear meshing comes, so the practicability is not strong, which limits its scope of use
[0006] To sum up, the furnace body of the traditional rotary kiln has the problem of radial shrinkage and expansion caused by temperature changes, which easily leads to uneven radial displacement, which makes the radial runout of the large ring gear exceed the standard during operation, and vibration Increase, directly affect the overall safe operation of the calciner and other defects

Method used

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  • Big gear ring connecting structure of barium sulfate raw material calcining furnace
  • Big gear ring connecting structure of barium sulfate raw material calcining furnace
  • Big gear ring connecting structure of barium sulfate raw material calcining furnace

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Embodiment Construction

[0017] Compare below figure 1 -3 to explain, in the traditional situation, the rotation of the rotary kiln 1 mainly depends on the transmission of the cylindrical gear 3 and the large ring gear on the furnace body. The large ring gear of the rotary kiln 1 is basically rigidly connected by lateral bolts. Before the device works, the connection of each component should be checked, especially whether the fixation of the rotary kiln 1 is reliable, and the connection of the cylindrical gear 3 on the rotary kiln 1 is to ensure that the components are connected reliably. To avoid safety accidents in which parts fall and injure people, the device has completed its preparatory work so far.

[0018] When the device is working, the clay raw material to be calcined is added from the upper end of the rotary kiln 1, and the rotary kiln 1 needs to rotate during the working process. Sleeved on the clasp 2, the other end is connected with the guide rod 5, the guide rod 5 slides in the axial g...

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Abstract

The invention discloses a big gear ring connecting structure of a barium sulfate raw material calcining furnace. In a working process, a rotary kiln needs to carry out rotational motion; a retaining ring is fixedly mounted at the lower end of the rotary kiln; one section of a cylindrical gear sleeves the retaining ring in an idle manner; the other end of the cylindrical gear is connected to guide rods; the guide rods slide in axial guide slots; dovetail-shaped guide rods are mounted inside the cylindrical gears; and the dovetail-shaped guide rods are fitted to dovetail-shaped guide slots. Under action of external driving force, the cylindrical gear is used for transmitting power to the dovetail-shaped guide rods which drive the rotary kiln to rotate through the dovetail-shaped guide slots; if the rotary kiln has axial deformation, the guide rods can compensate the axial deformation in the axial guide slots, and therefore, the big gear ring connecting structure can solve the problems that radial beat eccentricity exceeds standards and vibration is increased as a result of radial uneven dislocation in an operation process of the cylindrical gear.

Description

technical field [0001] The invention relates to an elastic coupling for transmitting rotary motion, in particular to a large ring gear connection structure of a calciner with axial and radial deformation compensation capabilities. Background technique [0002] Barium sulfate is widely used in tanning, papermaking, mineral processing, dye production and other fields. At present, the mature industrial barium sulfate production methods include high-temperature pulverized coal reducing mirabilite method and caustic lye absorbing by-product hydrogen sulfide method. However, in actual production, The pulverized coal reduction Glauber's salt method has the advantages of simple process equipment, easy operation and control, low requirements for raw and auxiliary materials and low production cost. Among the barium sulfate production units built in my country, 95% use the pulverized coal reduction Glauber's salt method. The process of this method mainly includes material preparation, ...

Claims

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Application Information

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IPC IPC(8): F16D3/02F16H55/17C01F11/46
CPCC01F11/46F16D3/02F16H55/17
Inventor 黎勤涛韦郁芬覃驿
Owner GUANGXI LIANZHUANG SCI & TECH CO LTD
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