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A special treatment equipment for mine water bottom mud

A technology for processing equipment and mines, applied in metal processing, etc., can solve problems such as slow speed, different needs, low cutting efficiency, etc.

Active Publication Date: 2020-12-18
XUZHOU UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This method is slow, the effect is poor, and it needs to be different from the foundation, and the cost is higher
[0003] The traditional sludge drying treatment and cutting device has poor flexibility, it is not convenient to adjust the position of the torch nozzle, and the cutting efficiency is low; in addition, the traditional sludge drying treatment and cutting device is mostly operated by one hand during use, which will cause Cutting accuracy is not high and production accidents are prone to occur
Furthermore, the traditional cutting device is not convenient for collecting the small particle cutting debris generated during the cutting process.

Method used

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  • A special treatment equipment for mine water bottom mud
  • A special treatment equipment for mine water bottom mud
  • A special treatment equipment for mine water bottom mud

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0067] According to the following steps, the plowing teeth 13-1-1 of the present invention are prepared, and are calculated in parts by weight:

[0068] Step 1: In an energy-saving stirred reactor, add 338.7 parts of purified water and 2-methyl-pentadecanoic acid-2-ethyl-2-[[(2-methyl-1-oxopentadecyl ) Oxygen] methyl generation] 130.6 parts of 1,3-propylene esters, start the stirrer in the energy-saving stirred reactor, set the rotating speed as 131rpm, start the steam coil heater in the energy-saving stirred reactor, make the temperature Rise to 146.7°C, add 133.8 parts of 4-methoxy-α-[[methylsulfonyl]oxy]imino]-phenylacetonitrile and stir evenly, react for 123.6 minutes, add 3-(methylthio)- 129.8 parts of butyraldehyde, the flow rate is 122.7 m 3 The xenon gas of / min is 123.6 minutes; After that, add Jinguanghong C132.1 part in the energy-saving stirred reactor, start the steam coil heater in the energy-saving stirred reactor again, make the temperature rise to 163.8 ℃, ke...

Embodiment 2

[0075] According to the following steps, the plowing teeth 13-1-1 of the present invention are prepared, and are calculated in parts by weight:

[0076] Step 1: In an energy-saving stirred reactor, add 563.8 parts of purified water and 2-methyl-pentadecanoic acid-2-ethyl-2-[[(2-methyl-1-oxopentadecyl ) Oxygen] methyl generation] 172.4 parts of 1,3-propylene esters, start the stirrer in the energy-saving stirred reactor, set the rotating speed as 177rpm, start the steam coil heater in the energy-saving stirred reactor, make the temperature Rise to 147.8°C, add 242.9 parts of 4-methoxy-α-[[methylsulfonyl]oxy]imino]-phenylacetonitrile and stir evenly, react for 134.4 minutes, add 3-(methylthio)- 146.3 parts of butyraldehyde, the flow rate is 163.3 m 3 The xenon gas of / min is 134.4 minutes; After that, add 189.2 parts of Jinguanghong C in the energy-saving stirred reactor, start the steam coil heater in the energy-saving stirred reactor again, make the temperature rise to 196.9 ...

Embodiment 3

[0083] According to the following steps, the plowing teeth 13-1-1 of the present invention are prepared, and are calculated in parts by weight:

[0084] Step 1: In an energy-saving stirred reactor, add 338.9 parts of purified water and 2-methyl-pentadecanoic acid-2-ethyl-2-[[(2-methyl-1-oxopentadecyl ) Oxygen] methyl generation] 130.9 parts of 1,3-propylene esters, start the stirrer in the energy-saving stirred reactor, set rotating speed is 131rpm, start the steam coil heater in the energy-saving stirred reactor, Raise the temperature to 146.9°C, add 133.9 parts of 4-methoxy-α-[[methylsulfonyl]oxy]imino]-phenylacetonitrile and stir evenly, carry out the reaction for 123.9 minutes, add 3-(methylthio )-butyraldehyde 129.9 parts, the flow rate is 122.9 m 3 xenon gas per min for 123.9 minutes; then add 2.9 parts of Jinguanghong C13 to the energy-saving stirred reactor, start the steam coil heater in the energy-saving stirred reactor again, raise the temperature to 163.9°C, keep ...

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Abstract

The invention relates to treatment equipment special for mine water bottom mud. A workbench composed of a plurality of grids and connecting rods is arranged at the upper end of a supporting frame. A waste tank with a transverse sliding function is formed under the workbench, a loosening device and a ploughing machine are arranged in the waste tank, and loosening device clasp nails on the looseningdevice and ploughing teeth on the ploughing machine rotate under the drive of a motor to stir waste. A sliding frame is arranged above the workbench, and the lower ends of two vertical beams of the sliding frame are in sliding fit with slideways arranged on the surface of the workbench through two X-axis sliding mechanisms. A Z-axis lifting mechanism connected with a cutting torch nozzle is matched with a cross beam of the sliding frame in the front-back direction through a Y-axis sliding mechanism. A Z-axis servo motor in the Z-axis lifting mechanism drives a vertically arranged screw rod torotate, and a sliding pair matched with the screw rod through threads is connected with the cutting torch nozzle. Servo motors in the X-axis, Y-axis and Z-axis lifting mechanisms are all connected toa controller. The treatment equipment special for mine water bottom mud can conveniently realize rapid adjustment of the position of the cutting torch nozzle, has good cutting effect, and can uniformly loosen waste.

Description

technical field [0001] The invention belongs to the field of environmental protection sludge drying treatment, and in particular relates to special treatment equipment for mine underwater mud. Background technique [0002] The sludge drying treatment cutting device can cut various sludge drying blocks that are difficult to cut by oxygen cutting with different working gases, especially for river and lake sediment drying blocks cutting effect is better; currently, the sludge drying treatment on the market The cutting device generally adopts manual opening or laser cutting. If manual processing is used, it is first necessary to make a template in the shape of an arch, and then perforate and then cut along the line. This method is slow, the effect is poor, and it requires a different foundation, and the cost is higher. [0003] The traditional sludge drying treatment and cutting device has poor flexibility, it is not convenient to adjust the position of the torch nozzle, and th...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B26F3/06B26D7/26B26D7/00B26D7/20C08L75/04C08L93/04C08K13/02C08K3/22C08K5/521C08K3/08
CPCB26D7/00B26D7/20B26D7/2628B26D2007/0018B26D2007/206B26F3/06C08K2003/0862C08K2003/222C08L75/04C08L2205/035C08L93/04C08K13/02C08K3/22C08K5/521C08K3/08
Inventor 梁峙梁骁马捷韩宝平刘喜坤许旭张明胜陈兴祥董平
Owner XUZHOU UNIV OF TECH