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Weight type self-balancing eccentric shaft

A self-balancing, eccentric shaft technology, applied to eccentric shafts, shafts, shafts and bearings, etc., can solve the problems of complicated jaw crusher mechanism, increased power consumption, frequent replacement, etc., to eliminate double power consumption factors and reduce equipment manufacturing. cost, improve work efficiency

Inactive Publication Date: 2013-09-18
YIWU BLACK AND WHITE MINING MACHINERY
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] The method of solving eccentric vibration in the above-mentioned prior art has the following deficiencies: ① It is necessary to add a pair of heavy flywheels and add eccentric balance weights on the flywheels, which complicates the mechanism of the jaw crusher and increases the manufacturing cost and power consumption in operation; In equipment manufacturing, it is difficult to detect the accuracy of its moment of inertia balance (the weight of the eccentric block is insufficient or exceeds, and the eccentric azimuth error will cause eccentric vibration), so the general jaw crusher products are not tested for balance when they leave the factory.
Therefore, in the use of the prior art jaw crusher, eccentric vibration will cause fatigue damage to related parts and reduce its service life. Among them, the screws connecting the crusher and the stand are easy to break and need to be replaced frequently; eccentric vibration will cause related parts to produce Fatigue damage reduces its service life; eccentric moment of inertia increases power consumption and generates noise due to vibration

Method used

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  • Weight type self-balancing eccentric shaft
  • Weight type self-balancing eccentric shaft
  • Weight type self-balancing eccentric shaft

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] Embodiment 1: as figure 2 As shown, a counterweight type self-balancing eccentric shaft is composed of an eccentric bearing gear 4, a concentric bearing gear 3, a locking gear 2 and a reference gear 1 that are symmetrically connected to both sides of the connecting gear 5 from the inside to the outside. The axes of concentric bearing gear 3, locking gear 2 and reference gear 1 on both sides are located at the rotation center line O of the whole shaft 1 -O 1 On the top, the center of the eccentric bearing gear 4 on both sides is located on the eccentric centerline O of the whole shaft 2 -O 2 superior;

[0035] A counterweight 6 is arranged on the connecting gear 5 opposite to the eccentricity of the eccentric bearing gear 4, and the center line of the counterweight 6 is located where both the eccentric center line of the eccentric bearing gear 4 and the rotation center line of the concentric bearing gear 3 are located. On the plane; even if the centroid point N of t...

Embodiment 2

[0036] Embodiment 2: as image 3As shown, the counterweight 6 is provided with a matching overlapping piece 7 , and the matching overlapping piece 7 is locked by the adjusting screw hole 8 and the adjusting bolt 9 , and the adjusting screw hole 8 is located on the center line of the counterweight 6 . All the other are with embodiment 1.

Embodiment 3

[0037] Embodiment 3: as image 3 As shown, the connecting gear 5 is provided with a screw hole 12 that runs through its center in the radial direction, and the screw hole direction of the screw hole 12 is perpendicular to the centerline of the counterweight 6, and a screw hole 12 is provided with a screw threaded with it. Screws for torque fine-tuning. The pair of torque fine-tuning screws includes two adjusting screws 13 and stop screws 14 that cooperate with each other and abut together one after the other.

[0038] All the other are with embodiment 2.

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Abstract

The invention discloses a weight type self-balancing eccentric shaft. A balance weight is fillet-welded on the opposite side, close to an eccentric center line, of a connecting guard in an eccentric shaft in the prior art, so that the center of mass of the connecting guard shifts toward the opposite side, relative to a rotary center line, of eccentric bearing guards and the eccentric inertia moment generated by the connecting guard is equal to the eccentric inertia moments generated by the eccentric bearing guards but the directions are opposite, thus achieving self-balancing of the eccentric inertia spin moment of the eccentric shaft. The eccentric inertia spin moment of the eccentric shaft in the prior art is self-balanced by the interior of the eccentric shaft instead of original external flywheels, thus eccentric balance weights on the external flywheels can be omitted. The weight type self-balancing eccentric shaft has high balance precision and a simplified structure, is easy to detect and control, reduces the manufacturing cost of equipment and saves the operating cost.

Description

technical field [0001] The invention relates to the technical field of jaw crushers, in particular to a heavy block type self-balancing eccentric shaft. Background technique [0002] Jaw crusher, commonly known as jaw crusher, is one of the oldest and most widely used crushing equipment. The eccentric shaft is the core part of the jaw crusher equipment. The jaw plate in the jaw crushing pair is tightened and loosened when crushing materials, which comes from the eccentric design of the eccentric shaft. [0003] Prior art eccentric shafts have two centerlines (see figure 1 ): ① Rotation center line, that is, the center line where the axes of the concentric bearing gear, locking gear and reference gear are located; ② Eccentric center line, that is, the center line where the axes of the eccentric bearing gear and the connecting gear are located. The working mechanism of the eccentric shaft is: when the motor is connected with the flywheel on the reference gear through the V-b...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F16C3/18F16C3/20B02C1/02
Inventor 朱兴良
Owner YIWU BLACK AND WHITE MINING MACHINERY
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