CN210171221U - Low temperature denitration catalyst redox reaction jar - Google Patents

Abstract

The utility model discloses a low-temperature denitration catalyst oxidation-reduction reaction tank, which comprises a reaction tank body and an auxiliary component, wherein the reaction tank body is positioned at the inner side of the auxiliary component, when in use, two groups of different oxidation-reduction reaction raw materials are respectively conveyed into a reaction box A and a reaction box B through a feed inlet A and a feed inlet B, a temperature sensor and a pressure sensor detect the temperature and the pressure in the reaction box A and the reaction box B, the control box opens an electric control valve on a reaction channel to ensure that the reaction box A and the reaction box B are in a communicated state, a rotating motor drives the reaction tank body to integrally rotate, the two groups of raw materials are more uniformly mixed by adopting a rotating mode, the reaction is more thorough, incomplete reaction caused by uneven mixing of the raw materials is avoided, the reaction rate of the raw materials is improved, the cost waste is avoided, the mixing speed of the oxidation-reduction, the reaction efficiency is improved.

Description

Low temperature denitration catalyst redox reaction jar

Technical Field

The utility model relates to a redox reaction technical field specifically is a low temperature denitration catalyst redox reaction jar.

Background

Nitrogen oxide derives from the burning and the industrial production of used coal, fuel such as oil in production and life mostly, it easily takes place the photochemical reaction with carbon oxide in the air and forms the photochemistry smog, lead to the air quality to descend, solar radiation reduces, and then form haze weather, nitrogen oxide is still easily by the oxygen oxidation in the atmosphere, form acid rain and acid mist with the rainwater effect, aggravate the environmental degradation, it is selective catalytic reduction technology combined process that present industrialization uses more, current low temperature denitration catalyst redox retort only uses as redox reaction's container, the functionality is not strong, and adopt fixed raw materials input mode, the raw materials mixes inequality in the retort easily, thereby lead to the reaction incomplete, raw materials cost is extravagant more, reaction rate is slower, the practicality is not high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a low temperature denitration catalyst redox reaction jar, possess convenient the detection, the reaction of avoiding the raw materials to mix the inequality and leading to is incomplete, improve the raw materials reaction rate, avoid the cost extravagant, improve reaction efficiency's advantage, can solve among the prior art retort and only regard as redox reaction's container to use, the functionality is not strong, and adopt fixed raw materials input mode, the raw materials mixes the inequality in the retort easily, thereby lead to the reaction incomplete, the raw materials cost is extravagant more, reaction speed is slower, the not high problem of practicality.

In order to achieve the above object, the utility model provides a following technical scheme: a low-temperature denitration catalyst oxidation-reduction reaction tank comprises a reaction tank body and an auxiliary assembly, wherein the reaction tank body is positioned on the inner side of the auxiliary assembly, the auxiliary assembly comprises an arc-shaped base, a supporting shaft, an arc-shaped retainer, a rotating motor, a rotating shaft and a clamping hoop, the arc-shaped base is fixedly connected with the bottom of the supporting shaft, the top of the supporting shaft is welded on the arc-shaped retainer, the rotating motor is fixedly installed on the outer side of the arc-shaped retainer, the output end of the rotating motor penetrates through the arc-shaped retainer and is fixedly connected with one end of the rotating shaft, the other end of the rotating shaft is welded on the;

the reaction tank body comprises an end cover, a control box, control buttons, a tank shell and reaction content components, wherein the end cover is movably arranged at the top end of the tank shell through threads, the control box is fixedly arranged on the outer wall of the tank shell, a plurality of groups of control buttons are arranged on the control box, the control buttons are electrically connected with the control box, the reaction content components are arranged inside the tank shell, the reaction content components comprise a feed inlet A, a reaction box A, a feed inlet B, a reaction box B, a reaction channel, an electric control valve, a gas channel, a pressure sensor and a temperature sensor, the feed inlet A and the feed inlet B are both arranged at the top of the tank shell, the feed inlet A is communicated with the reaction box A, the pressure sensor and the temperature sensor are fixedly arranged inside the reaction box A, the feed inlet B is communicated with the reaction box B, the pressure sensor and the temperature sensor are fixedly arranged inside the reaction box B, the reaction channel is fixedly provided with an electric control valve, the bottom of the reaction box B is provided with a gas channel, and the gas channel is communicated with the outer side of the tank shell.

Preferably, the arc base, the supporting shaft, the arc retainer, the rotating motor and the rotating shaft are respectively provided with two groups, and the two groups of components are symmetrically arranged on two sides of the reaction tank body.

Preferably, the installation positions of the arc-shaped bases and the arc-shaped retainer are parallel to each other, and the distance between the two groups of arc-shaped bases is not less than the outer diameter of the reaction tank body.

Preferably, an electrically controlled valve is fixedly mounted on the gas channel.

Preferably, the electric control valve, the pressure sensor, the temperature sensor and the rotating motor are all electrically connected with the control box.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. this low temperature denitration catalyst redox reaction jar, temperature sensor and pressure sensor detect the temperature and the pressure in reaction box A and the reaction box B to become the testing result and show for the control box, make things convenient for the staff to master the basic reaction environment in reaction box A and the reaction box B in real time, increase the functionality.

2. This low temperature denitration catalyst redox retort adopts the pivoted mode to make the mixture of two sets of raw materials more even, and the reaction is more thorough, and the reaction of avoiding the raw materials to mix the inequality and leading to is incomplete, improves raw materials reaction rate, avoids the cost extravagant.

3. This low temperature denitration catalyst redox reaction jar, the setting of three group reaction channel increases the mixing velocity of redox reaction raw materials, improves reaction efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the external structure of the reaction tank of the present invention;

fig. 3 is a schematic structural diagram of the reaction content assembly of the present invention.

In the figure: 1. a reaction tank body; 11. an end cap; 12. a control box; 13. a control button; 14. a tank shell; 15. a reaction content component; 151. a feed inlet A; 152. a reaction box A; 153. a feed inlet B; 154. a reaction box B; 155. a reaction channel; 156. an electrically controlled valve; 157. a gas channel; 158. a pressure sensor; 159. a temperature sensor; 2. an auxiliary component; 21. an arc-shaped base; 22. a support shaft; 23. an arc-shaped retainer; 24. rotating the motor; 25. a rotating shaft; 26. and clamping the hoop.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a low temperature denitration catalyst redox reaction tank comprises a reaction tank body 1 and an auxiliary component 2, wherein the reaction tank body 1 is positioned at the inner side of the auxiliary component 2, the auxiliary component 2 comprises an arc-shaped base 21, a support shaft 22, an arc-shaped retainer 23, a rotating motor 24, a rotating shaft 25 and a clamping hoop 26, the arc-shaped base 21 is fixedly connected with the bottom of the support shaft 22, the top of the support shaft 22 is welded on the arc-shaped retainer 23, the arc-shaped base 21, the support shaft 22, the arc-shaped retainer 23, the rotating motor 24 and the rotating shaft 25 are respectively provided with two groups, the two groups of components are symmetrically arranged at two sides of the reaction tank body 1, the installation positions of the arc-shaped base 21 and the arc-shaped retainer 23 are parallel to each other, the distance between the two groups of arc-shaped bases 21 is not less than the outer diameter of the reaction tank body 1, the, the other end of the rotating shaft 25 is welded on the outer wall of the clamping hoop 26, and the clamping hoop 26 is fixedly connected with the reaction tank body 1.

Referring to fig. 2-3, the reaction tank 1 includes an end cap 11, a control box 12, control buttons 13, a tank shell 14 and reaction content components 15, the end cap 11 is movably mounted on the top end of the tank shell 14 through threads, the control box 12 is fixedly mounted on the outer wall of the tank shell 14, a plurality of groups of control buttons 13 are disposed on the control box 12, the control buttons 13 are electrically connected with the control box 12, the reaction content components 15 are disposed inside the tank shell 14, each reaction content component 15 includes a feed inlet a151, a reaction box a152, a feed inlet B153, a reaction box B154, a reaction channel 155, an electrically controlled valve 156, a gas channel 157, a pressure sensor 158 and a temperature sensor 159, the feed inlet a151 and the feed inlet B153 are disposed on the top of the tank shell 14, the feed inlet a151 is communicated with the reaction box a152, the pressure sensor 158 and the temperature sensor 159 are fixedly mounted inside the reaction box a152, the feed inlet B153 is, a pressure sensor 158 and a temperature sensor 159 are fixedly installed inside the reaction box B154, three groups of reaction channels 155 are arranged between the reaction box A152 and the reaction box B154, electrically controlled valves 156 are fixedly installed on the reaction channels 155, the electrically controlled valves 156 are fixedly installed on the gas channels 157, a gas channel 157 is arranged at the bottom of the reaction box B154, the gas channel 157 is communicated with the outer side of the tank shell 14, and the electrically controlled valves 156, the pressure sensor 158, the temperature sensor 159 and the rotating motor 24 are electrically connected with the control box 12.

The working principle is as follows: when in use, two groups of different redox reaction raw materials are respectively conveyed into a reaction box A152 and a reaction box B154 through a feed inlet A151 and a feed inlet B153, a temperature sensor 159 and a pressure sensor 158 detect the temperature and the pressure in the reaction box A152 and the reaction box B154, the detection result is transmitted to a control box 12 for display, an electric control valve 156 on a reaction channel 155 is opened through the control box 12, so that the reaction box A152 and the reaction box B154 are in a communicated state, a rotating motor 24 drives a rotating shaft 25 to rotate and transmit the rotation to a clamping hoop 26, the clamping hoop 26 drives the reaction tank body 1 to integrally rotate, the control box 12 is a programmable electronic control structure, the mixing and the reaction of the redox reaction raw materials in the reaction box A152 and the reaction box B154 are realized by controlling the forward and backward rotation frequency and amplitude of the rotating motor 24, when the pressure displayed on the control box 12 is suddenly increased, when gas is generated in the reaction process, the electric control valve 156 on the control gas channel 157 on the control box 12 is opened to discharge the gas.

In summary, the following steps: the low-temperature denitration catalyst oxidation-reduction reaction tank is characterized in that two groups of different oxidation-reduction reaction raw materials are respectively conveyed into a reaction box A152 and a reaction box B154 through a feed inlet A151 and a feed inlet B153 when the low-temperature denitration catalyst oxidation-reduction reaction tank is used, a temperature sensor 159 and a pressure sensor 158 detect the temperature and the pressure in the reaction box A152 and the reaction box B154 and transmit the detection results to a control box 12 for displaying, a worker can conveniently master the basic reaction environment in the reaction box A152 and the reaction box B154 in real time and increase the functionality, the reaction box A152 and the reaction box B154 are in a communicated state by opening an electric control valve 156 on a reaction channel 155 through the control box 12, a rotating motor 24 drives a rotating shaft 25 to rotate and transmits the rotation to a clamping hoop 26, the clamping hoop 26 drives a reaction tank body 1 to integrally rotate, the control box 12 is of a programmable electronic control structure, and the forward and backward rotation frequency and forward rotation amplitude of, realize the mixture and the reaction of the inside redox reaction raw materials of reaction box A152 and reaction box B154, adopt the pivoted mode to make the mixture of two sets of raw materials more even, the reaction is more thorough, it is incomplete to avoid the reaction that the raw materials mix the inequality and lead to, improve raw materials reaction rate, avoid the cost extravagant, three sets of reaction channel 155's of group setting increase the mixing velocity of redox reaction raw materials, the efficiency of the reaction is improved, when the pressure that shows on control box 12 increases suddenly, it produces to explain that there is gas in the reaction process, open through the automatically controlled valve 156 on the control gas passageway 157 on the control box 12, realize gaseous the discharge.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a low temperature denitration catalyst redox retort, includes retort body (1) and auxiliary assembly (2), and retort body (1) is located the inboard of auxiliary assembly (2), its characterized in that: the auxiliary assembly (2) comprises an arc-shaped base (21), a supporting shaft (22), an arc-shaped retainer (23), a rotating motor (24), a rotating shaft (25) and a clamping hoop (26), the arc-shaped base (21) is fixedly connected with the bottom of the supporting shaft (22), the top of the supporting shaft (22) is welded on the arc-shaped retainer (23), the rotating motor (24) is fixedly installed on the outer side of the arc-shaped retainer (23), the output end of the rotating motor (24) penetrates through the arc-shaped retainer (23) to be fixedly connected with one end of the rotating shaft (25), the other end of the rotating shaft (25) is welded on the outer wall of the clamping hoop (26), and the clamping hoop (26) is fixedly connected with the reaction tank body;

the reaction tank body (1) comprises an end cover (11), a control box (12), control buttons (13), a tank shell (14) and reaction content components (15), wherein the end cover (11) is movably installed at the top end of the tank shell (14) through threads, the control box (12) is fixedly installed on the outer wall of the tank shell (14), a plurality of groups of control buttons (13) are arranged on the control box (12), the control buttons (13) are electrically connected with the control box (12), the reaction content components (15) are arranged inside the tank shell (14), each reaction content component (15) comprises a feed inlet A (151), a reaction box A (152), a feed inlet B (153), a reaction box B (154), a reaction channel (155), an electric control valve (156), a gas channel (157), a pressure sensor (158) and a temperature sensor (159), and the feed inlets A (151) and B (153) are all arranged at the top of the tank shell (14), feed inlet A (151) and reaction box A (152) intercommunication, inside fixed mounting pressure sensor (158) and temperature sensor (159) of reaction box A (152), feed inlet B (153) and reaction box B (154) intercommunication, inside fixed mounting pressure sensor (158) and temperature sensor (159) of reaction box B (154), set up three group reaction channel (155) between reaction box A (152) and reaction box B (154), equal fixed mounting electrically controlled valve (156) on reaction channel (155), gas channel (157) are set up to the bottom of reaction box B (154), gas channel (157) and the outside intercommunication of jar body shell (14).

2. The low-temperature denitration catalyst redox reaction tank of claim 1, characterized in that: the arc-shaped base (21), the supporting shaft (22), the arc-shaped retainer (23), the rotating motor (24) and the rotating shaft (25) are respectively provided with two groups, and the two groups of components are symmetrically arranged on two sides of the reaction tank body (1).

3. The low-temperature denitration catalyst redox reaction tank of claim 1, characterized in that: the installation positions of the arc-shaped bases (21) and the arc-shaped retainer (23) are parallel to each other, and the distance between the two groups of arc-shaped bases (21) is not less than the outer diameter of the reaction tank body (1).

4. The low-temperature denitration catalyst redox reaction tank of claim 1, characterized in that: an electric control valve (156) is fixedly arranged on the gas channel (157).

5. The low-temperature denitration catalyst redox reaction tank of claim 1, characterized in that: the electric control valve (156), the pressure sensor (158), the temperature sensor (159) and the rotating motor (24) are all electrically connected with the control box (12).

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