CN220405683U - Furnace end device for gas analyzer - Google Patents

Abstract

The utility model relates to a furnace end device for a gas analyzer, which comprises a device main body and a reaction mechanism, wherein a control system is arranged on the left side in front of the device main body, a heat radiating device is arranged on one side of the control system, a connecting port is arranged on one side of the heat radiating device, buckles are arranged on two sides of the device main body, and a top cover is connected to the buckles. Meanwhile, as the samples are analyzed under the constant temperature condition, the uniformity and the stability of the reaction process can be ensured, the analysis precision and the reliability are further improved, and the constant temperature state of the samples in the furnace end device can be ensured through the arrangement of the constant temperature system, so that the precision and the repeatability of the experiment are improved, the temperature can be automatically controlled, the intervention of an experimenter on the experiment is reduced, and the experiment efficiency and the experiment time are improved.

Description

Furnace end device for gas analyzer

Technical Field

The utility model relates to the technical field of chemical analysis, in particular to a furnace end device for a gas analyzer.

Background

Gas analyzers can be used in industrial applications for detecting pollutants, exhaust emissions during production, production quality monitoring, etc. In terms of environmental monitoring, gas analyzers can be used to sample and analyze toxic gases, fumes, gases, etc. in air, thereby protecting the public health and environment. In addition, the gas analyzer can be applied to the scientific research fields of medicine, military, geology, astronomy and the like.

When it is desired to thermally decompose and crack a gaseous sample or to vaporize a liquid object, a burner apparatus is required, and the burner apparatus of the prior art may have the following problems: the temperature of the furnace end is affected by the environmental temperature, the size of the furnace body, the number of samples and other factors, the heating process of the samples is difficult to control, so that experimental errors are caused, a control system is not arranged, the temperature and the time of the furnace end device are required to be manually adjusted, experimental repeatability is poor, and the accuracy and the precision of the experiment are reduced.

Disclosure of Invention

The utility model provides a furnace end device for a gas analyzer, which solves the problems that the temperature of a furnace end is influenced by factors such as ambient temperature, furnace body size, sample number and the like in the related technology, the heating process of a sample is difficult to control, so that experimental errors are caused, a control system is not arranged, the temperature and time of the furnace end device are required to be manually adjusted, the experimental repeatability is easy to be poor, and the experimental precision and accuracy are reduced.

The technical scheme of the utility model is as follows: the utility model provides a furnace end device for gas analysis appearance, includes device main part and reaction mechanism, device main part the place ahead left side is provided with control system, control system one side is provided with heat abstractor, heat abstractor one side is provided with the connector, device main part both sides all are provided with the buckle, be connected with the top cap on the buckle, the viewing aperture has been seted up on the top cap, be provided with the push rod behind the back the device main part, the push rod right side is provided with the push pedal, the inside reaction mechanism that is provided with of device main part, device main part and top cap junction are provided with sealed the pad, the inside intermediate position of device main part is provided with the reaction tank, device main part inner wall both sides all are provided with the electric plate.

Preferably, the control system is embedded in the device main body, and the size of the control system is larger than that of the heat dissipation device.

Preferably, the connection ports are connected with the device main body through screws, and the number of the connection ports is two, one is an air inlet and the other is an air outlet.

Preferably, the buckles are connected with the device main body through screws, and the number of the buckles is four.

Preferably, a filter device is arranged on one side of the electric heating plate, a temperature sensor is arranged on one side of the filter device, and a piston is arranged right opposite to the temperature sensor.

Preferably, the reaction tank is arranged at the bottom side inside the device main body, and the size of the reaction tank is smaller than that of the device main body.

Preferably, the electric heating plates are connected with the device main body through screws, and the electric heating plates are distributed on two side walls of the inside of the device main body in a matrix mode.

The working principle and the beneficial effects of the utility model are as follows:

through the setting of the control system, the heating temperature and time of the furnace end device can be accurately controlled, so that errors in the heating process are reduced, and the analysis precision and accuracy are improved. Meanwhile, as the samples are analyzed under the constant temperature condition, the uniformity and the stability of the reaction process can be ensured, the analysis precision and the reliability are further improved, and the constant temperature state of the samples in the furnace end device can be ensured through the arrangement of the constant temperature system, so that the precision and the repeatability of the experiment are improved, the temperature can be automatically controlled, the intervention of an experimenter on the experiment is reduced, and the experiment efficiency and the experiment time are improved.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic view showing the overall appearance of a burner apparatus for a gas analyzer according to the present utility model;

FIG. 2 is a schematic view of a reaction mechanism of a burner apparatus for a gas analyzer according to the present utility model;

FIG. 3 is a rear schematic view of the burner apparatus for gas analyzer of the present utility model;

FIG. 4 is a schematic front view of a burner apparatus for a gas analyzer according to the present utility model;

in the figure: 1. a device body; 2. a control system; 3. a heat sink; 4. a connection port; 5. a buckle; 6. a top cover; 7. an observation port; 8. a push rod; 9. a push plate; 10. a reaction mechanism; 1001. a sealing gasket; 1002. a reaction tank; 1003. an electric heating plate; 1004. a filtering device; 1005. a temperature sensor; 1006. and (3) a piston.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides a burner device for a gas analyzer, which comprises: including device main part 1 and reaction mechanism 10, device main part 1 the place ahead left side is provided with control system 2, control system 2 one side is provided with heat abstractor 3, heat abstractor 3 one side is provided with connector 4, device main part 1 both sides all are provided with buckle 5, be connected with top cap 6 on the buckle 5, viewing aperture 7 has been seted up on the top cap 6, device main part 1 back is provided with push rod 8, push rod 8 right side is provided with push pedal 9, the inside reaction mechanism 10 that is provided with of device main part 1, device main part 1 and top cap 6 junction are provided with sealed pad 1001, the inside intermediate position of device main part 1 is provided with reaction tank 1002, device main part 1 inner wall both sides all are provided with electric plate 1003.

When the device is used, firstly, the gas to be decomposed is added into the device through the connecting port 4, the required parameters are adjusted through the control system 2, the electric heating plate 1003 starts to heat the internal gas, such as the temperature is too high or too low, then the temperature sensor 1005 can sense the temperature of the internal gas, then the electric heating plate 1003 and the heat dissipation device 3 are automatically adjusted through the system to reach a fixed value for controlling the internal temperature of the device, then the push plate 9 can push the push rod 8 to drive the piston 1006 to squeeze the gas, so that the gas enters the gas analyzer through the connecting port 4, meanwhile, the filtering device 1004 can filter other impurities in the gas, if the liquid object is to be vaporized, the top cover 6 can be detached through the buckle 5, then the liquid object is added into the reaction tank 1002, the liquid can be vaporized through the heating of the electric heating plate 1003, the reaction condition can be observed through the observation port 7, and the gas leakage can be prevented through the sealing gasket 1001 to influence the result, so that the using process of the device for the gas analyzer is completed.

Specifically, the control system 2 is embedded in the device main body 1, the size of the control system 2 is larger than that of the heat dissipation device 3, and the temperature inside the device can be controlled more accurately through the arrangement of the control system 2, and meanwhile, the influence of manual operation on analysis results is reduced.

Specifically, be the screw connection between connector 4 and the device main part 1, connector 4 quantity is two, and one is the air inlet, and one is the gas outlet, through the setting of connector 4, can let gas enter into the device inside, also can let gas shift to in the analysis appearance fast in the device simultaneously to make the device more facilitate the use.

Specifically, be screw connection between buckle 5 and the device main part 1, the quantity of buckle 5 is four, through the setting of buckle 5, can let the device leakproofness better to the degree of accuracy when having improved the analysis.

Specifically, a filter device 1004 is arranged on one side of the electric heating plate 1003, a temperature sensor 1005 is arranged on one side of the filter device 1004, a piston 1006 is arranged right opposite to the temperature sensor 1005, and the inside of the device is kept in a relatively closed state through the arrangement of the sealing gasket 1001, so that the influence on analysis results caused by the entering of other gases is avoided.

Specifically, the reaction tank 1002 is formed at the bottom side inside the device main body 1, and the size of the reaction tank 1002 is smaller than that of the device main body 1, so that the device is not only limited to heating gas, but also can heat liquid after vaporization, and the practicability of the device is improved.

Specifically, the electric heating plates 1003 are connected with the device main body 1 through screws, the electric heating plates 1003 are distributed on two side walls of the inside of the device main body 1 in a matrix mode, and the inside of the device can be heated uniformly and stably through the arrangement of the electric heating plates 1003, so that an experimental structure is not influenced, and the accuracy in analysis is improved.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a furnace end device for gas analysis appearance, includes device main part (1) and reaction mechanism (10), a serial communication port, device main part (1) the place ahead left side is provided with control system (2), control system (2) one side is provided with heat abstractor (3), heat abstractor (3) one side is provided with connector (4), device main part (1) both sides all are provided with buckle (5), be connected with top cap (6) on buckle (5), viewing aperture (7) have been seted up on top cap (6), be provided with push rod (8) behind device main part (1), push rod (8) right side is provided with push pedal (9), device main part (1) inside is provided with reaction mechanism (10), device main part (1) are provided with sealing gasket (1001) with top cap (6) junction, device main part (1) inside intermediate position is provided with reaction tank (1002), device main part (1) inner wall both sides all are provided with electric heating plate (1003).

2. The burner device for a gas analyzer according to claim 1, wherein the control system (2) is embedded in the device body (1), and the size of the control system (2) is larger than the size of the heat sink (3).

3. The burner device for a gas analyzer according to claim 1, wherein the connection ports (4) are screw-connected to the device body (1), and the number of the connection ports (4) is two, one is an air inlet and the other is an air outlet.

4. The burner device for a gas analyzer according to claim 1, wherein the number of the buckles (5) is four, and the buckles (5) are connected with the device main body (1) by screws.

5. The burner device for a gas analyzer according to claim 1, wherein a filter device (1004) is provided on one side of the electric plate (1003), a temperature sensor (1005) is provided on one side of the filter device (1004), and a piston (1006) is provided on the opposite side of the temperature sensor (1005).

6. The burner device for a gas analyzer according to claim 5, wherein the reaction groove (1002) is formed at the bottom side inside the device body (1), and the size of the reaction groove (1002) is smaller than that of the device body (1).

7. The burner device for a gas analyzer according to claim 5, wherein the electric hot plates (1003) are connected with the device main body (1) by screws, and the electric hot plates (1003) are distributed on two side walls of the inside of the device main body (1) in a matrix.