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Equipment for cutting manganese slag heat insulating materials

A technology for thermal insulation materials and equipment, which is applied in the field of equipment for cutting manganese slag thermal insulation materials, and can solve problems such as uneven mixing of mixed gas, low cutting efficiency, and poor effect

Inactive Publication Date: 2018-09-18
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 is dangerous and the cost is high
In addition, the manganese slag insulation material cutting device has poor flexibility, it is not convenient to adjust the position of the torch nozzle, and the cutting efficiency is low; at the same time, the mixed gas in the traditional manganese slag insulation material cutting device is mixed unevenly, and the cutting temperature is low. limit its efficiency

Method used

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  • Equipment for cutting manganese slag heat insulating materials
  • Equipment for cutting manganese slag heat insulating materials
  • Equipment for cutting manganese slag heat insulating materials

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0093] Prepare transmission shaft 6-4-1 of the present invention according to the following steps, and count parts by weight:

[0094] 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 122.7m 3 Xenon gas per min for 123.6 minutes; then add 2.1 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 163.8°C, keep warm for 123.8 minutes, a...

Embodiment 2

[0101] Prepare transmission shaft 6-4-1 of the present invention according to the following steps, and count parts by weight:

[0102] 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 163.3m 3 xenon gas per min for 134.4 minutes; then add 189.2 parts of Jinguanghong C to the energy-saving stirred reactor, start the steam coil heater in the energy-saving stirred reactor again, raise the temperature to 196.9°C, keep it warm for 134.3 minutes...

Embodiment 3

[0109] Prepare transmission shaft 6-4-1 of the present invention according to the following steps, and count parts by weight:

[0110]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 the rotating speed as 131rpm, start the steam coil heater in the energy-saving stirred reactor, make the temperature Rise to 146.9°C, add 133.9 parts of 4-methoxy-α-[[methylsulfonyl]oxy]imino]-phenylacetonitrile and stir evenly, react for 123.9 minutes, add 3-(methylthio)- 129.9 parts of butyraldehyde, the flow rate is 122.9m 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 the temperature for 123.9 ...

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Abstract

The invention provides equipment for cutting manganese slag heat insulating materials. A carriage is arranged on the upper portion of a workbench on a supporting frame, and the carriage is in slidingfit with a sliding way on the surface of the workbench through two X-axis sliding mechanisms. A Z-axis lifting mechanism is in sliding fit with the transverse direction of the carriage through a Y-axis sliding mechanism. A lifting drive gear drives a lifting frame to move in the longitudinal direction, and the lower end of the left side of the lifting frame is connected with a cutting torch nozzle. Servo motors in an X-axis lifting mechanism, a Y-axis lifting mechanism and the Z-axis lifting mechanism are all connected with a controller. A mixer capable of mixing acetylene and oxygen is arranged in the cutting torch nozzle, and an oxygen dispersion nozzle, a buffer chamber and an oxygen accelerating chamber cooperate jointly to increase the dispersion degree of the oxygen. A throttle control mechanism can control the flow of gas entering the buffer chamber. A modifier sucked by a modifier suction pipe can be mixed with refrigerant through a refrigerant turbulence chamber. The cutting torch nozzle is connected with the lower end of the lifting frame through a shock absorber. Position regulation in the front-and-back direction can be accelerated through a secondary accelerating mechanism in a Y-axis sliding gear. The equipment is good in cutting effect, and cutting positions can be rapidly regulated.

Description

technical field [0001] The invention belongs to the technical field of engineering treatment, and in particular relates to a device for cutting manganese slag insulation materials. Background technique [0002] Manganese slag insulation materials often need to be processed by cutting to obtain small-sized insulation materials. At present, the cutting of manganese slag insulation materials in the market is generally done by hand or by laser cutting. If manual processing is used, it is first necessary to make a template in the shape of an arch, which is first perforated and then cut. This method is slow, poor in effect, and has certain dangers, and the cost is also high. In addition, the manganese slag insulation material cutting device has poor flexibility, it is not convenient to adjust the position of the torch nozzle, and the cutting efficiency is low; at the same time, the mixed gas in the traditional manganese slag insulation material cutting device is mixed unevenly, a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B23K7/00B23K7/10C08L75/04C08L93/04C08K13/02C08K3/08C08K5/07C08K5/435
CPCB23K7/00B23K7/10C08K2201/011C08L75/04C08L93/04C08K13/02C08K3/08C08K5/07C08K5/435
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
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