CN206924751U - A kind of chemical reaction kettle structure of nano-fluid generation - Google Patents

Abstract

The utility model discloses a kind of chemical reaction kettle structure of nano-fluid generation,Including reactor body,The upper end of the reactor body has been bolted reaction kettle cover,The upper surface side of reaction kettle cover is provided with is connected with material feeding box by two support columns,The lower surface of material feeding box is provided with two discharging openings,And two discharging openings are connected with the first magnetic valve and second solenoid valve,It can be filled by material feeding box and take two kinds of different raw materials,It can be detected by flow sensor and put into the intrinsic amount of reactor,So that the ratio of control raw material is more convenient,It can be inflated by air pump into reactor body,Finished product processed is exported with this,So that feeding is quicker,The chemical reaction kettle of nano-fluid generation is simple in construction,It is easy to operate,It can not only to heat raw material more Quick uniform,And it is more convenient to adjust material rate,Save substantial amounts of manual labor,And also save the substantial amounts of time.

Description

A kind of chemical reaction kettle structure of nano-fluid generation

Technical field

Reactor technical field is the utility model is related to, specially a kind of chemical reaction kettle structure of nano-fluid generation.

Background technology

Need to use reactor during the preparation of nano-fluid, but existing reactor needs to need in advance in charging Raw material proportioning be put into reactor well, it is very cumbersome, it is necessary to consume substantial amounts of manual labor in proportioning, and discharge again When, discharging needs the substantial amounts of time more slowly, and reactor is scattered and disappeared seriously, caused by outside heating, heat in heating Heating is slow, and heats uneven.

Utility model content

The technical problems to be solved in the utility model is to overcome the defects of existing, there is provided a kind of chemistry of nano-fluid generation Reactor structure, it is simple in construction, it is easy to operate, it can not only to heat raw material more Quick uniform, and original can be adjusted Material ratio is more convenient, saves substantial amounts of manual labor, and also saves the substantial amounts of time, can effectively solve background skill The problem of in art.

To achieve the above object, the utility model provides following technical scheme：A kind of chemical reaction of nano-fluid generation Kettle structure, including reactor body, the upper end of the reactor body have been bolted reaction kettle cover, have reacted the upper of kettle cover Surface side is provided with the material feeding box connected by two support columns, and the lower surface of material feeding box is provided with two discharging openings, and two go out Material mouth is connected with the first magnetic valve and second solenoid valve, and the charging aperture of the upper end of the reaction kettle cover is connected with flow sensor, The charging aperture of flow sensor is connected by discharging opening of the threeway conduit respectively with the first magnetic valve and second solenoid valve, and instead The upper surface center of kettle cover is answered to be provided with motor, the output shaft of motor runs through and extends to the inside of reactor body, and motor Output shaft end be provided with stirring rod, the outer surface of stirring rod is uniformly provided with paddle, the outside table of the reactor body Face is provided with the lagging casing of barreled, and the inner side of lagging casing is provided with the first heater strip, and the inner bottom surface of lagging casing is set There is the second heater strip, the side lower end of the reactor body is provided with discharge nozzle, and one end of discharge nozzle is run through and extends to insulation The outside of shell, one end that discharge nozzle is located at outside lagging casing are provided with valve, and the side of the material feeding box is provided with controller, control The output end of device processed electrically connects the input of motor, the first magnetic valve, second solenoid valve, the first heater strip and the second heater strip, And the input electrical connection flow sensor of controller and the output end of external power source.

As a kind of optimal technical scheme of the present utility model, the inside of the material feeding box is provided with dividing plate, and dividing plate will enter Hopper is divided into Liang Ge material-containing chamber, and two discharging openings of the material feeding box lower end are corresponding with Liang Ge material-containing chamber respectively.

As a kind of optimal technical scheme of the present utility model, the upper surface side of the reaction kettle cover is provided with air pump, gas The gas outlet of pump is connected by conduit with the air inlet of reactor cap upper surface, the conduit that the air pump is connected with reaction kettle cover The 3rd magnetic valve is provided with, the air pump electrically connects the output end of controller with the input of the 3rd magnetic valve.

As a kind of optimal technical scheme of the present utility model, the lower surface of the reaction kettle cover is provided with temperature sensor, The input of the output end electrical connection controller of temperature sensor.

As a kind of optimal technical scheme of the present utility model, the reactor body is provided with reacting the junction of kettle cover Sealing ring, and the inner homogeneous of reactor body is provided with heating plate.

Compared with prior art, the beneficial effects of the utility model are：The chemical reaction kettle structure of this nano-fluid generation It is upper to be provided with material feeding box, it can be filled by material feeding box and take two kinds of different raw materials, stream is provided with the charging aperture of reaction kettle cover Quantity sensor, it can be detected by flow sensor and put into the intrinsic amount of reactor so that control the ratio of raw material more It is convenient, cover there is provided air pump, can be inflated by air pump into reactor body, the finished product that will be processed with this in reactor Export so that feeding is quicker, and the chemical reaction kettle of nano-fluid generation is simple in construction, easy to operate, can not only make Raw material more Quick uniform must be heated, and material rate can be adjusted and more facilitated, saves substantial amounts of manual labor, and Also save the substantial amounts of time.

Brief description of the drawings

Fig. 1 is the utility model structure diagram；

Fig. 2 is the utility model section structural representation.

In figure：1 motor, 2 air pumps, 3 reaction kettle covers, 4 lagging casings, 5 discharge nozzles, 6 valves, 7 support columns, 8 material feeding box, 9 Dividing plate, 10 controllers, 11 first magnetic valves, 12 second solenoid valves, 13 flow sensors, 14 temperature sensors, 15 first heating Silk, 16 the 3rd magnetic valves, 17 stirring rod, 18 reactor bodies, 19 heating plates, 20 second heater strips.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out Clearly and completely describing, it is clear that described embodiment is only the utility model part of the embodiment, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained, belong to the scope of the utility model protection.

Fig. 1-2 is referred to, the utility model provides a kind of technical scheme：A kind of chemical reaction kettle knot of nano-fluid generation Structure, including reactor body 18, the upper end of reactor body 18 have been bolted reaction kettle cover 3, have reacted the upper table of kettle cover 3 Face side is provided with the material feeding box 8 connected by two support columns 7, and the lower surface of material feeding box 8 is provided with two discharging openings, material feeding box 8 Inside be provided with dividing plate 9, and dividing plate 9 divides material feeding box 8 for Liang Ge material-containing chamber, two discharging openings of the lower end of material feeding box 8 respectively with Liang Ge material-containing chamber is corresponding, and different raw materials, and two discharging opening connections can be held by the material feeding box 8 with Liang Ge material-containing chamber There are the first magnetic valve 11 and second solenoid valve 12, the charging aperture for reacting the upper end of kettle cover 3 is connected with flow sensor 13, passes through stream Quantity sensor 13 can detect the amount put into reactor body 18, and the charging aperture of flow sensor 13 passes through threeway conduit point Discharging opening not with the first magnetic valve 11 and second solenoid valve 12 is connected, and the upper surface center for reacting kettle cover 3 is provided with motor 1, the output shaft of motor 1 runs through and extends to the inside of reactor body 18, and the output shaft end of motor 1 is provided with stirring rod 17, the outer surface of stirring rod 17 is uniformly provided with paddle, and the outer surface of reactor body 18 is provided with the lagging casing of barreled 4, the inner side of lagging casing 4 is provided with the first heater strip 15, and the inner bottom surface of lagging casing 4 is provided with the second heater strip 20, The side lower end of reactor body 18 is provided with discharge nozzle 5, and one end of discharge nozzle 5 is run through and extends to the outside of lagging casing 4, goes out One end that expects pipe 5 is located at outside lagging casing 4 is provided with valve 6, and the side of material feeding box 8 is provided with controller 10, controller 10 it is defeated Go out the input of end electrical connection motor 1, the first magnetic valve 11, second solenoid valve 12, the first heater strip 15 and the second heater strip 20, And the input electrical connection flow sensor 13 of controller 10 and the output end of external power source, reactor body 18 and reactor The junction of lid 3 is provided with sealing ring, and the inner homogeneous of reactor body 18 is provided with heating plate 19, passes through heating plate 19 More convenient to the raw material heating in reactor body 18, the upper surface side of reaction kettle cover 3 is provided with air pump 2, the outlet of air pump 2 Mouthful be connected by conduit with the air inlet of reaction kettle cover 3 upper surface, air pump 2 is with reacting conduit that kettle cover 3 is connected provided with the Three magnetic valves 16, air pump 2 electrically connect the output end of controller 10 with the input of the 3rd magnetic valve 16, can be with by air pump 2 Inflate into reactor body 18, exported the finished product processed with this so that feeding is quicker, reacts the following table of kettle cover 3 Face is provided with temperature sensor 14, and the input of the output end electrical connection controller 10 of temperature sensor 14, controller 10 is monolithic Machine, its controller 10 control temperature sensor 14, flow sensor 13, air pump 2, the 3rd magnetic valve 16, motor 1, the first electromagnetism Valve 11, second solenoid valve 12, the first heater strip 15 and the second heater strip 20 are method commonly used in the prior art, are passed by temperature Sensor 14 can detect the temperature in reactor body 18 so that the temperature in control reactor is more convenient, the nano-fluid The chemical reaction kettle of generation is simple in construction, easy to operate, can not only to heat raw material more Quick uniform, and can adjusting It is more convenient to save material rate, saves substantial amounts of manual labor, and also save the substantial amounts of time.

When in use：Raw material is added in material feeding box 8 first, allowed by opening the first magnetic valve 11 one in material feeding box 8 Kind raw material is entered in reactor body 18, and the amount of input can be detected by flow sensor 13, is referred to when the amount of input reaches During fixed numerical value, the signal of detection is passed to controller 10 by flow sensor 13, and controller 10 controls the first magnetic valve 11 to close Close, control second solenoid valve 12 is opened, and allows another raw material to enter in reactor body 18, the detection input of flow sensor 13 Amount, after raw material input is answered in kettle body 18, drive stirring rod 17 to be stirred by motor 1 so that raw material is sufficiently anti- Should, during reaction, the raw material in reactor body 18 is heated by the first heater strip 15 and the second heater strip 20, then passes through It is more uniform that heating plate 19 heats raw material, then by temperature sensor 14 to carrying out temperature detection in reactor body 18, when When reaching the temperature of setting, the signal of detection is passed to controller 10, the heating of the control of controller 10 first by temperature sensor 14 The heater strip 20 of silk 15 and second stops heating, and after reaction terminates, the material processed by opening valve 6 to make exports from discharge nozzle 5, In discharging, can be inflated by air pump 2 into reactor body 18 so that feeding is quicker.

The utility model can be filled by material feeding box 8 takes two kinds of different raw materials, can be detected by flow sensor 13 The amount put into reactor body 18 so that control the ratio of raw material more convenient, can be to reactor body by air pump 2 Inflate in 18, exported the finished product processed with this so that feeding is quicker, the chemical reaction kettle knot of nano-fluid generation Structure is simple, easy to operate, can not only to heat raw material more Quick uniform, and it is more square to adjust material rate Just, substantial amounts of manual labor is saved, and also saves the substantial amounts of time.

While there has been shown and described that embodiment of the present utility model, for the ordinary skill in the art, It is appreciated that these embodiments can be carried out with a variety of changes in the case where not departing from principle of the present utility model and spirit, repaiied Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of chemical reaction kettle structure of nano-fluid generation, including reactor body (18), it is characterised in that：The reaction The upper end of kettle body (18) has been bolted reaction kettle cover (3), and the upper surface side of reaction kettle cover (3), which is provided with, passes through two The material feeding box (8) of support column (7) connection, the lower surface of material feeding box (8) are provided with two discharging openings, and two discharging openings are connected with the One magnetic valve (11) and second solenoid valve (12), the charging aperture of the upper end of the reaction kettle cover (3) are connected with flow sensor (13), the charging aperture of flow sensor (13) by threeway conduit respectively with the first magnetic valve (11) and second solenoid valve (12) Discharging opening connects, and the upper surface center for reacting kettle cover (3) is provided with motor (1), and the output shaft of motor (1) runs through and extended to The inside of reactor body (18), and the output shaft end of motor (1) is provided with stirring rod (17), the outside table of stirring rod (17) Face is uniformly provided with paddle, and the outer surface of the reactor body (18) is provided with the lagging casing (4) of barreled, lagging casing (4) inner side is provided with the first heater strip (15), and the inner bottom surface of lagging casing (4) is provided with the second heater strip (20), institute The side lower end for stating reactor body (18) is provided with discharge nozzle (5), and one end of discharge nozzle (5) is run through and extends to lagging casing (4) outside, discharge nozzle (5) are located at the outside one end of lagging casing (4) and are provided with valve (6), and the side of the material feeding box (8) is set There is a controller (10), the output end electrical connection motor (1) of controller (10), the first magnetic valve (11), second solenoid valve (12), the The input of one heater strip (15) and the second heater strip (20), and the input electrical connection flow sensor of controller (10) (13) and external power source output end.

A kind of 2. chemical reaction kettle structure of nano-fluid generation according to claim 1, it is characterised in that：The charging The inside of case (8) is provided with dividing plate (9), and material feeding box (8) is divided into Liang Ge material-containing chamber by dividing plate (9), material feeding box (8) lower end Two discharging openings are corresponding with Liang Ge material-containing chamber respectively.

A kind of 3. chemical reaction kettle structure of nano-fluid generation according to claim 1, it is characterised in that：The reaction The upper surface side of kettle cover (3) is provided with air pump (2), and the gas outlet of air pump (2) is entered by conduit and reaction kettle cover (3) upper surface Gas port connects, and the conduit that the air pump (2) is connected with reaction kettle cover (3) is provided with the 3rd magnetic valve (16), the air pump (2) The output end of controller (10) is electrically connected with the input of the 3rd magnetic valve (16).

A kind of 4. chemical reaction kettle structure of nano-fluid generation according to claim 1, it is characterised in that：The reaction The lower surface of kettle cover (3) is provided with temperature sensor (14), and the output end of temperature sensor (14) electrically connects the defeated of controller (10) Enter end.

A kind of 5. chemical reaction kettle structure of nano-fluid generation according to claim 1, it is characterised in that：The reaction The junction of kettle body (18) and reaction kettle cover (3) is provided with sealing ring, and the inner homogeneous of reactor body (18) is provided with and added Backing (19).