CN206046003U - A kind of energy-conservation reactor - Google Patents

Abstract

The utility model discloses a kind of energy-conservation reactor, it is related to chemical reaction field of containers, the device includes kettle, the first feed pipe, the first discharge nozzle, scrap collecting tank and serpentine pipe, and serpentine pipe is located in scrap collecting tank, and scrap collecting tank offers inlet and outlet；One end of first feed pipe is connected with the top of kettle, and the other end is connected with one end of serpentine pipe, and the other end of serpentine pipe is passed through unreacted liquid reagent；One end of first discharge nozzle is connected with the bottom of kettle, the inlet communication of the other end and scrap collecting tank, the liquid reagent after the outlet output-response of scrap collecting tank.This utility model is using the unreacted reagent of reagent heat after the completion of reaction, it is to avoid energy dissipation.

Description

A kind of energy-conservation reactor

Technical field

This utility model is related to chemical reaction field of containers, and in particular to a kind of energy-conservation reactor.

Background technology

The broad understanding of reactor has the container for physically or chemically reacting, and is matched somebody with somebody by the structure design to container and parameter Put, realize the mixture function of heating, evaporation, cooling and the low high speed of technological requirement, be provided with which for stirring, accelerating reaction The stirring paddle for carrying out.Reactor is widely used, and can be used to complete the liquid phase reaction courses such as hydrolysis, hydro-thermal, solvent thermal, crystallization, by In the restriction of the high specific heat capacity and traditional heating mode of liquid phase medium, the heating rate of kettle is limited, reaction temperature to be reached Longer time is generally required, existing a certain degree of generation is reacted in this temperature-rise period.

Higher chemical reaction is required especially for those reaction temperatures, reagent is first heated to certain temperature by needs After be passed through reactor, and keep the temperature constant in reactor, just can guarantee that reaction is quick, carry out completely；After the completion of reaction, will Reagent discharges reactor.In some chemical industry finished product production processes, the reagent after being constantly passed through heating is needed, and constantly will reaction Reagent afterwards discharges reactor, to ensure that chemical reaction is uninterruptedly carried out.In above-mentioned process, Jing often will be reacted Reagent is directly drained, and is not used, and the reagent discharged still contains amount of heat, directly drains and can cause energy wave Take, this is obviously against the purpose for realizing energy conservation type society.

Utility model content

For defect present in prior art, the purpose of this utility model is to provide a kind of energy-conservation reactor, is utilized The unreacted reagent of reagent heat after the completion of reaction, it is to avoid energy dissipation.

To reach object above, this utility model is adopted the technical scheme that：A kind of energy-conservation reactor, including kettle, One feed pipe, the first discharge nozzle, scrap collecting tank and serpentine pipe, serpentine pipe are located in scrap collecting tank, and scrap collecting tank is opened up There is inlet and outlet；

One end of first feed pipe is connected with the top of kettle, and the other end is connected with one end of serpentine pipe, serpentine pipe it is another One end is passed through unreacted liquid reagent；

One end of first discharge nozzle is connected with the bottom of kettle, and the inlet communication of the other end and scrap collecting tank, waste material are received Liquid reagent after the outlet output-response of header.

On the basis of above-mentioned technical proposal, it is provided with first feed pipe for will be unreacted liquid reagent defeated Enter the first hydraulic pump of kettle.

On the basis of above-mentioned technical proposal, it is provided with first feed pipe for heating unreacted liquid reagent Primary heater.

On the basis of above-mentioned technical proposal, the energy-conservation reactor also includes the second feed pipe, the second discharge nozzle and sets The chuck of kettle periphery is placed in, the top of chuck is connected with one end of the second feed pipe, the other end and waste material of the second feed pipe The outlet of collecting box, the bottom of chuck are connected with the second discharge nozzle.

On the basis of above-mentioned technical proposal, it is provided with second feed pipe for will be reacted liquid reagent defeated Enter the second hydraulic pump of chuck.

Liquid reagent on the basis of above-mentioned technical proposal, after being provided with for reacting by heating on second feed pipe Secondary heater.

On the basis of above-mentioned technical proposal, the scrap collecting tank offers inlet and outlet and is oppositely arranged.

Compared with prior art, the utility model has the advantage of：

(1) serpentine pipe of the present utility model is located in scrap collecting tank, is connected at the top of one end of the first feed pipe and kettle Logical, the other end is connected with one end of serpentine pipe, and the other end of serpentine pipe is passed through unreacted liquid reagent；The one of first discharge nozzle End is connected with the bottom of kettle, the inlet communication of the other end and scrap collecting tank, after the outlet output-response of scrap collecting tank Liquid reagent.In kettle, reacted liquid reagent is entered in scrap collecting tank, serpentine pipe of the heating in scrap collecting tank Interior liquid reagent, so as to utilize the unreacted reagent of reagent heat after the completion of reacting, it is to avoid energy dissipation.

(2) top of chuck of the present utility model is connected with one end of the second feed pipe, the other end of the second feed pipe with The outlet of scrap collecting tank, the bottom of chuck are connected with the second discharge nozzle, the reacted liquid examination in scrap collecting tank Agent is entered in chuck, the liquid reagent in heating kettle body, so as to not anti-further with the reagent heat after the completion of reaction The reagent answered, it is to avoid energy dissipation.

Description of the drawings

Fig. 1 is the structural representation of energy-conservation reactor in this utility model embodiment.

In figure：1- kettlies, the first feed pipes of 2-, the first discharge nozzles of 3-, 4- scrap collecting tanks, 4a- imports, 4b- outlets, 5- Serpentine pipe, 6- chucks, the second feed pipes of 7-, the second discharge nozzles of 8-, the first hydraulic pumps of 9-, 10- primary heaters, 11- second add Hot device, the second hydraulic pumps of 12-.

Specific embodiment

Embodiment of the present utility model is described in further detail below in conjunction with accompanying drawing.

Shown in Figure 1, this utility model embodiment provides a kind of energy-conservation reactor, including kettle 1, the first feed pipe 2, First discharge nozzle 3, scrap collecting tank 4 and serpentine pipe 5, serpentine pipe 5 be located at scrap collecting tank 4 in, scrap collecting tank 4 offer into Mouth 4a and outlet 4b, scrap collecting tank 4 offers import 4a and outlet 4b is oppositely arranged；One end of first feed pipe 2 and kettle 1 Top connection, the other end connected with one end of serpentine pipe 5, and the other end of serpentine pipe 5 is passed through unreacted liquid reagent；First One end of discharge nozzle 3 is connected with the bottom of kettle 1, and the other end is connected with the import 4a of scrap collecting tank 4, scrap collecting tank 4 Liquid reagent after outlet 4b output-responses.

In order that liquid reagent is input into automatically kettle 1 and is reacted, it is provided with the first feed pipe 2 for will be unreacted Liquid reagent is input into the first hydraulic pump 9 of kettle 1, and the first hydraulic pump 9 provides conveying power.

In order that unreacted reagent is heated to uniform temperature in advance, needs are provided with for adding on the first feed pipe 2 The primary heater 10 of the unreacted liquid reagent of heat.

In order to further using the heat of reagent after reaction, after can heat reagent after reaction, input chuck 6 is to kettle Body 1 is heated, and concrete mode is the chuck 6 for arranging the second feed pipe 7, the second discharge nozzle 8 and being arranged at 1 periphery of kettle, is pressed from both sides The top of set 6 is connected with one end of the second feed pipe 7, and the other end of the second feed pipe 7 is connected with the outlet 4b of scrap collecting tank 4 It is logical, it is provided with the second feed pipe 7 for reacted liquid reagent to be input into the second hydraulic pump 12 of chuck 6, the second charging The secondary heater 11 of the liquid reagent after being provided with for reacting by heating on pipe 7, the bottom of chuck 6 are connected with the second discharge nozzle 8 It is logical.

The course of work of this utility model energy-conservation reactor is：

The other end of serpentine pipe 5 is passed through unreacted liquid reagent, and the first hydraulic pump 9 works, by unreacted in serpentine pipe 5 Liquid reagent be input into the first feed pipe 2, carry out being heated to after uniform temperature by primary heater 10, pump in kettle 1.

Unreacted liquid reagent reacts, and is discharged by the first discharge nozzle 3, enters scrap collecting tank 4 by import 4a, gives up Reacted liquid reagent in material collecting box 4, using the unreacted liquid reagent in its waste heat heating coil 5.

Second hydraulic pump 12 works, and the liquid reagent in scrap collecting tank 4 is entered the second feed pipe 7 by 4b is exported, by After secondary heater 11 carries out being heated to uniform temperature, kettle 1 is heated in being passed through chuck 6, finally by the second discharge nozzle 8 Discharge.

This utility model is not only limited to above-mentioned preferred forms, and anyone can be obtained under enlightenment of the present utility model Go out other various forms of products, however, make any change in its shape or structure, it is every with this utility model phase Same or akin technical scheme, within its protection domain.

Claims (7)

1. a kind of energy-conservation reactor, it is characterised in that：Including kettle (1), the first feed pipe (2), the first discharge nozzle (3), waste material Collecting box (4) and serpentine pipe (5), in scrap collecting tank (4), scrap collecting tank (4) offers import (4a) to serpentine pipe (5) With outlet (4b)；

One end of first feed pipe (2) is connected with the top of kettle (1), and the other end is connected with the one end of serpentine pipe (5), serpentine pipe (5) the other end is passed through unreacted liquid reagent；

One end of first discharge nozzle (3) is connected with the bottom of kettle (1), and the other end is connected with the import (4a) of scrap collecting tank (4) It is logical, the liquid reagent after outlet (4b) output-response of scrap collecting tank (4).

2. energy-conservation reactor as claimed in claim 1, it is characterised in that：It is provided with first feed pipe (2) for inciting somebody to action Unreacted liquid reagent is input into first hydraulic pump (9) of kettle (1).

3. energy-conservation reactor as claimed in claim 1, it is characterised in that：It is provided with first feed pipe (2) for adding The primary heater (10) of the unreacted liquid reagent of heat.

4. energy-conservation reactor as claimed in claim 1, it is characterised in that：The energy-conservation reactor also includes the second feed pipe (7), the second discharge nozzle (8) and the chuck (6) of kettle (1) periphery is arranged at, top and second feed pipe (7) of chuck (6) One end connects, and the other end of the second feed pipe (7) connected with the outlet (4b) of scrap collecting tank (4), the bottom of chuck (6) and the Two discharge nozzles (8) are connected.

5. energy-conservation reactor as claimed in claim 4, it is characterised in that：It is provided with second feed pipe (7) for inciting somebody to action Reacted liquid reagent is input into second hydraulic pump (12) of chuck (6).

6. energy-conservation reactor as claimed in claim 4, it is characterised in that：It is provided with second feed pipe (7) for adding The secondary heater (11) of the liquid reagent after thermal response.

7. energy-conservation reactor as claimed in claim 1, it is characterised in that：The scrap collecting tank (4) offers import (4a) It is oppositely arranged with outlet (4b).