CN205146184U - Self -balancing reactor - Google Patents

Abstract

The utility model discloses a self -balancing reactor, it includes that one end sets up discharge gate (2) were seted up to feed inlet (1) other end cylindrical airtight cavity (3), exhaust duct (4) have been stretched into in the feed inlet, exhaust duct's the terminal outside extension and the lateral wall intercommunication of cylindrical airtight cavity, exhaust duct's terminal interior adaptation has mobilizable piston (5), the piston extends connecting rod (6) the rigid coupling that passes cylindrical airtight cavity lateral wall through the level has pressure boost piece (7). The beneficial effects of the utility model are that getting into low boiling impurity in the isopropylidene acetone of cylindrical airtight cavity and becoming and gaseously discharged by exhaust duct, gas can the automatic discharge and then is guaranteed reactor's balance.

Description

Self-balancing type reactor

Technical field

The utility model relates to reactor, particularly relates to for the isomerized reactor of isopropylidene acetone.

Background technology

Reactor is the equipment of realization response process, also known as reactor, is widely used in the industrial departments such as chemical industry, oil refining, metallurgy, light industry.Reactor is used for realizing the heterogeneous reaction process such as single liquid phase course of reaction and liquid liquid, gas-liquid, liquid-solid, gas-liquid-solid.Isopropylidene acetone isomerization reactor is used to the device that isomerization isopropylidene acetone produces isopropylidene acetone isomers, current isopropylidene acetone isomerization reactor is owing to containing low-boiling point material as acetone, water etc. in reactant, gas can be become in course of reaction, vapour lock is formed at charging aperture, inlet amount is tailed off, affects driving load.

Utility model content

The technical problems to be solved in the utility model is that existing isopropylidene acetone isomerization reactor can produce gas in course of reaction, gas rises to charging aperture and forms vapour lock, hinder charging continue carry out, affect driving load, a kind of self-balancing type reactor be provided for this reason.

The technical solution of the utility model is: self-balancing type reactor, it comprises one end and offers the cylindrical enclosure cavity that the charging aperture other end offers discharging opening, discharge duct has been stretched in described charging aperture, the end of described discharge duct stretches out and to be communicated with the sidewall of cylindrical enclosure cavity, in the end of described discharge duct, adaptation has moveable piston, and described piston is connected with booster block by the connecting rod extending horizontally through cylindrical enclosure cavity wall.

The improvement of such scheme is that described discharge duct is communicated with one-way exhaust valve near charging aperture place.

The further improvement of such scheme has hollow interlayer near discharge outlet adaptation in described cylindrical enclosure cavity, described hollow interlayer offers inlet near the side of charging aperture, described hollow interlayer offers liquid outlet near the side of discharging opening, in described hollow interlayer, middle part is mounted with catalyst, and described inlet and liquid outlet are symmetrical arranged about catalyst.

The beneficial effects of the utility model are that the low boiling impurity entered in the isopropylidene acetone of cylindrical enclosure cavity becomes gas and discharged by discharge duct, when gas gets more and more, in discharge duct, pressure increase promotion piston moves to cylindrical enclosure cavity, booster block is to cylindrical enclosure inside cavity motion acting, make the gas Accelerating Removal in cylindrical enclosure cavity, when the gas content in discharge duct increases further, can be discharged by one-way exhaust valve, and then the pressure adaptive self-regulation in guarantee reactor, the balance in reactor can be discharged and then ensure to gas automatically.

Accompanying drawing explanation

Fig. 1 is the utility model schematic diagram;

In figure, 1, charging aperture, 2, discharging opening, 3, cylindrical enclosure cavity, 4, discharge duct, 5, piston, 6, connecting rod, 7, booster block, 8, one-way exhaust valve, 9, inlet, 10, liquid outlet, 11, catalyst.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described further.

As shown in Figure 1, the utility model comprises one end and offers the cylindrical enclosure cavity 3 that charging aperture 1 other end offers discharging opening 2, discharge duct 4 has been stretched in described charging aperture, the end of described discharge duct stretches out and to be communicated with the sidewall of cylindrical enclosure cavity, in the end of described discharge duct, adaptation has moveable piston 5, and described piston is connected with booster block 7 by the connecting rod 6 extending horizontally through cylindrical enclosure cavity wall.

When the isopropylidene acetone containing impurity enters after in cylindrical enclosure cavity from charging aperture, the gas that impurity produces can enter generation air pressure in discharge duct and move to promote piston, piston promotes booster block and moves in cylindrical enclosure cavity, booster block preferably has rectangle or the Else Rule shape of larger cross-section, can to supercharging in cylindrical enclosure cavity, accelerate gas and enter discharge duct, form pressurized exhaust gas circulation, avoid other to hinder charging.

In order to prevent gas too much in discharge duct inner accumulated, one-way exhaust valve 8 can be communicated with at discharge duct near charging aperture place, discharge excessive gas, ensure that the stable of pressurized exhaust gas carries out, and finally make all gas be discharged by one-way exhaust valve.

In order to accelerate the isomerization reaction of isopropylidene acetone, hollow interlayer can be had near discharge outlet adaptation in cylindrical enclosure cavity, described hollow interlayer offers inlet 9 near the side of charging aperture, described hollow interlayer offers liquid outlet 10 near the side of discharging opening, in described hollow interlayer, middle part is mounted with catalyst 11, and described inlet and liquid outlet are symmetrical arranged about catalyst.

With catalyst exposure after isopropylidene acetone is entered hollow interlayer by inlet, accelerate reaction rate, then discharged by liquid outlet, finally discharged by discharging opening.Because inlet and liquid outlet are symmetrical arranged about catalyst, fully contacting of isopropylidene acetone and catalyst can be ensured.

Claims (3)

1. self-balancing type reactor, it comprises one end and offers the cylindrical enclosure cavity (3) that charging aperture (1) other end offers discharging opening (2), it is characterized in that in described charging aperture, having stretched into discharge duct (4), the end of described discharge duct stretches out and to be communicated with the sidewall of cylindrical enclosure cavity, in the end of described discharge duct, adaptation has moveable piston (5), and described piston is connected with booster block (7) by the connecting rod (6) extending horizontally through cylindrical enclosure cavity wall.

2. self-balancing type reactor as claimed in claim 1, is characterized in that described discharge duct is communicated with one-way exhaust valve (8) near charging aperture place.

3. self-balancing type reactor as claimed in claim 2, it is characterized in that there is hollow interlayer near discharge outlet adaptation in described cylindrical enclosure cavity, described hollow interlayer offers inlet (9) near the side of charging aperture, described hollow interlayer offers liquid outlet (10) near the side of discharging opening, in described hollow interlayer, middle part is mounted with catalyst (11), and described inlet and liquid outlet are symmetrical arranged about catalyst.