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Shearing-separating-cleaning device and shearing-separating-cleaning method for regenerated-recovered materials

A technology for recycling materials and cleaning devices, which is applied in the direction of liquid cleaning methods, cleaning methods and utensils, chemical instruments and methods, etc., which can solve the problems of energy consumption and high energy consumption, and achieve the effect of improving the effect and efficiency

Active Publication Date: 2016-09-28
广东致顺化工环保设备有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] 3. Since the existing material cleaning device generates high-intensity agitation to the cleaning medium at the same time during the cleaning process, this invalid action consumes most of the energy and high energy consumption

Method used

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  • Shearing-separating-cleaning device and shearing-separating-cleaning method for regenerated-recovered materials
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  • Shearing-separating-cleaning device and shearing-separating-cleaning method for regenerated-recovered materials

Examples

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Effect test

Embodiment 1

[0035] see Figure 1-Figure 3 , The shear separation cleaning device for regenerated recycled materials in this embodiment includes a rinsing tank 1, a plurality of shear cleaning mechanisms 2 and a power mechanism. As an example, there are three shear cleaning mechanisms 2. The shearing and cleaning mechanism 2 includes a rotating shaft 3 and a shearing blade 4 arranged on the rotating shaft 3 , and the rotating shaft 3 is connected with the power mechanism for driving the rotating shaft 3 to rotate. The three shear cleaning mechanisms 2 are arranged on the rinse tank 1 along the flow direction of the cleaning solution 8, and are respectively the first shear cleaning mechanism 2-1, the second shear cleaning mechanism 2-2 and the third shear cleaning mechanism 2-1. Cleaning mechanism 2-3; the lower part of each shearing cleaning mechanism 2 is immersed in cleaning liquid 8, and is mainly used for cleaning floating objects. Along the flow direction of the cleaning liquid 8 , th...

Embodiment 2

[0045] see Figure 4 The difference between this embodiment and Embodiment 1 is that in this embodiment, the drive motor 5 is connected to the rotating shaft 3 in the third shearing and cleaning mechanism 2-3 through a chain transmission mechanism 6, and the rotating shaft 3 Constitute the active shaft, one end of the active shaft is provided with a single sprocket 6-1 for connecting with the drive motor 5, the other end of the active shaft 3 and the corresponding ends of the other shafts 3 are provided with drive gears 10, two adjacent shafts 3 A reversing gear 11 is also provided between the driving gears 10 of the drive gear 10, and a gear transmission mechanism is formed between the three rotating shafts 3; and the first shearing and cleaning mechanism 2-1, the second shearing and cleaning mechanism 2-2 and the third The diameter (or the number of teeth) of the drive gear 10 on the rotating shaft 3 in the shear cleaning mechanism 2-3 decreases successively to realize the i...

Embodiment 3

[0047] see Figure 5 The difference between this embodiment and Embodiment 1 is that, in this embodiment, along the flow direction of the cleaning liquid 8, the radial dimension of the shear blade 4 in the latter shear cleaning mechanism 2 is larger than that of the previous shear The radial dimension of the shearing blade 4 in the cleaning mechanism 2 (specifically, the diameter of the cylinder in the latter shearing and cleaning mechanism 2 is greater than the diameter of the cylinder in the previous shearing and cleaning mechanism 2, and the size of the shearing blade 4 itself is consistent), And the angular velocity of the rotating shaft 3 in the latter shearing cleaning mechanism 2 is equal to the angular velocity of the rotating shaft 3 in the preceding shearing cleaning mechanism 2 . In the case of the same angular velocity, the larger the radial dimension of the shearing blade 4 is, the greater the linear velocity is. Therefore, the above scheme meets the requirement t...

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Abstract

The invention discloses a shearing-separating-cleaning device and a shearing-separating-cleaning method for regenerated-recovered materials. The shearing-separating-cleaning device comprises a rinsing groove, a plurality of shearing-cleaning mechanisms and a power mechanism, wherein each shearing-cleaning mechanism comprises a rotary shaft and shearing blades arranged on the rotary shaft; the plurality of shearing-cleaning mechanisms are arrayed on the rinsing groove along a flowing direction of a cleaning liquid, and the lower parts of the shearing-cleaning mechanisms are partially or completely soaked in the cleaning liquid; and a linear velocity of each shearing blade in the rear shearing-cleaning mechanism is greater than a linear velocity of each shearing blade in the front shearing-cleaning mechanism along the flowing direction of the cleaning liquid. The shearing-separating-cleaning device further generates a shearing effect on the materials located between the front rear shearing blade and the rear shearing blade while having a function of stirring the materials to urge impurity separation, so that the shearing-cleaning mechanisms are further mutually cooperated to carry out shearing-cleaning on the materials while having a stirring-separating function, the cleaning effect is improved, and the cleaning efficiency is increased.

Description

technical field [0001] The invention relates to a recycling and processing device and method for renewable resources, in particular to a device and method for shearing, separating and cleaning recycled materials, such as recycled papermaking scum, polluted braids, and domestic waste recycling. Background technique [0002] In the recycling process of renewable resources, such as the recycling of recycled paper tailings, contaminated woven fabrics, agricultural film regeneration and recycling, and domestic waste recycling, etc., it usually involves cleaning materials to achieve material recovery. separation and removal of impurities. A common material cleaning device is usually formed by setting a rotary stirring mechanism on the rinsing tank. The rotary stirring mechanism is composed of a rotating shaft and a stirring member arranged on the rotating shaft. When working, the rotating shaft drives the stirring member to rotate to stir the material to be processed. Promote the...

Claims

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Application Information

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IPC IPC(8): B08B3/10B02C18/14
CPCB02C18/0084B02C18/14B02C2018/147B02C2201/06B08B3/042B08B3/102
Inventor 余志勇冯愚斌
Owner 广东致顺化工环保设备有限公司