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Full-automatic sampling device

A sampling device, fully automatic technology, applied in the direction of sampling devices, sampling, measuring devices, etc., can solve the problems of poor sampling stability, affecting sampling efficiency, and filter pipes are easily blocked by dust, etc., to achieve low filtration resistance and high filtration efficiency. The effect of large flow rate and good toughness

Active Publication Date: 2016-09-28
成都市倍诚分析技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] The sampling device disclosed in this patent document does not have backflushing. After the sampling device works for a long time, its filter and pipeline are easily blocked by dust, resulting in poor sampling stability and affecting sampling efficiency.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042] see figure 1 , a fully automatic sampling device, including a filter, also includes a hot bath thermostat, the hot bath thermostat includes a stainless steel cylinder 1, an electric heater 2 and a temperature control setter 3 arranged on the stainless steel cylinder 1, and an electric heater 2. The heater 2 is electrically connected to the temperature control given device 3; the filter comprises a stainless steel tube 4 and a stainless steel braided filter element 5 located in the stainless steel pipe 4, and the stainless steel braided filter element 5 is provided with a stainless steel tube 1 extending into the stainless steel tube 1. The heating pipe 6 inside, the stainless steel pipe 4 and the stainless steel cylinder 1 are connected by the flange 7, the stainless steel cylinder 1 is provided with a sampling pipe 8, the sampling pipe 8 is connected with a sampling solenoid valve 9, and the sampling pipe 8 is braided with stainless steel. The filter element 5 is conne...

Embodiment 2

[0045] see figure 2 , a fully automatic sampling device, including a filter, also includes a hot bath thermostat, the hot bath thermostat includes a stainless steel cylinder 1, an electric heater 2 and a temperature control setter 3 arranged on the stainless steel cylinder 1, and an electric heater 2. The heater 2 is electrically connected to the temperature control given device 3; the filter comprises a stainless steel tube 4 and a stainless steel braided filter element 5 located in the stainless steel pipe 4, and the stainless steel braided filter element 5 is provided with a stainless steel tube 1 extending into the stainless steel tube 1. The heating pipe 6 inside, the stainless steel pipe 4 and the stainless steel cylinder 1 are connected by the flange 7, the stainless steel cylinder 1 is provided with a sampling pipe 8, the sampling pipe 8 is connected with a sampling solenoid valve 9, and the sampling pipe 8 is braided with stainless steel. The filter element 5 is conn...

Embodiment 3

[0051] see image 3 , a fully automatic sampling device, including a filter, also includes a hot bath thermostat, the hot bath thermostat includes a stainless steel cylinder 1, an electric heater 2 and a temperature control setter 3 arranged on the stainless steel cylinder 1, and an electric heater 2. The heater 2 is electrically connected to the temperature control given device 3; the filter comprises a stainless steel tube 4 and a stainless steel braided filter element 5 located in the stainless steel pipe 4, and the stainless steel braided filter element 5 is provided with a stainless steel tube 1 extending into the stainless steel tube 1. The heating pipe 6 inside, the stainless steel pipe 4 and the stainless steel cylinder 1 are connected by the flange 7, the stainless steel cylinder 1 is provided with a sampling pipe 8, the sampling pipe 8 is connected with a sampling solenoid valve 9, and the sampling pipe 8 is braided with stainless steel. The filter element 5 is conne...

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PUM

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Abstract

The invention discloses a full-automatic sampling device, and belongs to the technical field of gas analysis. The full-automatic sampling device comprises a filter, and is characterized by further comprising a heat bath thermostat, wherein the heat bath thermostat comprises a stainless steel cylinder, an electric heater and a temperature control setter; the filter comprise a stainless steel tube and a stainless steel woven filter element; a heating tube is arranged inside the stainless steel woven filter element; the stainless steel tube and the stainless steel cylinder are connected through a flange; a sampling tube is arranged inside the stainless steel cylinder; a solenoid valve is connected with the sampling tube; the sampling tube is communicated with the sampling stainless steel woven filter element; a gas inlet tube is connected with the stainless steel cylinder; a back blowing solenoid valve is connected with the gas inlet tube; an escape pipe is arranged inside the stainless steel tube; a needle valve is connected with the escape pipe. Due to adoption of the heat bath thermostat, heat balance can be maintained, a sample gas is kept at relatively high temperature in the whole sampling process, moisture in the sample gas can be prevented from condensation and liquidation, the sample gas can be prevented from distortion, sampling stability can be ensured, and the sampling efficiency can be improved.

Description

technical field [0001] The invention relates to the technical field of gas analysis, in particular to a kind of sampling suitable for automatic sampling for continuous sampling of industrial flue gas, kiln gas, blast furnace gas, open-hearth furnace gas, metallurgical furnace gas and waste incineration gas exhaust gas after combustion. device. Background technique [0002] As the sample gas processing technology becomes more and more mature, in recent years, the development of on-line gas analysis is also getting faster and faster. On-line gas analysis is widely used in petroleum, chemical, building materials, metallurgy, pharmaceutical, food, energy, energy conservation, environmental protection and resource development industries. It has made great contributions to production capacity, quality control, and promotion of technological transformation. [0003] The core component of on-line gas analysis is the sample gas processing system. The sample gas processing system, ...

Claims

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Application Information

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IPC IPC(8): G01N1/22
CPCG01N1/2205G01N1/2247G01N1/2258G01N2001/2261G01N2001/227
Inventor 魏东魏闻魏正森
Owner 成都市倍诚分析技术有限公司
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