CN203678361U - Phthalocyanine compound synthesizing device - Google Patents

Abstract

The utility model provides a phthalocyanine compound synthesizing device. The phthalocyanine compound synthesizing device comprises a first reaction kettle, a first condenser, a second reaction kettle and a second condenser, wherein the first reaction kettle is communicated with the second reaction kettle by a first material conveying pipe; the first condenser is provided with a first air inlet, a first air outlet, a first solvent reflowing opening and a first water discharging opening; the first reaction kettle is communicated with the first air inlet by a first mixed gas conveying pipe; the first solvent reflowing opening is communicated with the first reaction kettle by a first solvent reflowing pipe; the second condenser is provided with a second air inlet, a second air outlet, a second solvent reflowing opening and a second water discharging opening; the second reaction kettle is communicated with the second air inlet by a second mixed gas conveying pipe; the second solvent reflowing opening is communicated with the second reaction kettle by a second solvent reflowing pipe; the second air outlet is communicated with the first reaction kettle by a third mixed gas conveying pipe. According to the phthalocyanine compound synthesizing device, generated water can be effectively controlled, the quality of ammonia is improved, a carrier solvent is recycled, and the safety and the continuity of the operation are guaranteed.

Description

A kind of phthalocyanine compound synthesizer

Technical field

The utility model relates to the equipment for the manufacture of phthalocyanine compound, is specifically related to a kind of phthalocyanine compound synthesizer that is applicable to two step solvent methods production phthalocyanine compounds.

Background technology

The production method of phthalocyanine compound is divided into two kinds of solid phase method and solvent methods.

Because solid phase method is produced phthalocyanine compound heat and mass weak effect, material is difficult to abundant mixing, and intrasystem non-uniform temperature, and therefore product yield is low, of poor quality, and color and luster is not bright-coloured, and is difficult to realize fairly large industrial production.

Solvent method is produced phthalocyanine compound and is applied even more extensively because having overcome above-mentioned shortcoming.Solvent method is divided into one-step method and two step method.Adopt two step solvent methods to produce phthalocyanine compound, with respect to a step solvent method, have that reaction speed is fast, yield is high, easy control, quality are good, pollute less and save the advantages such as the energy, therefore increasing producer is studying and is adopting two step solvent methods to produce phthalocyanine compounds.

Produce in the process of phthalocyanine compounds at employing two step solvent methods, it is crucial how controlling security and the continuity that under the moisture generating in reaction system, the ammonia quality that improves generation in reaction, high temperature, in postreaction system, solvent, assurance reaction system move, but, existing phthalocyanine compound production equipment is all perfect not, cannot effectively solve above-mentioned each key issue.

Summary of the invention

Technical problem to be solved in the utility model is to provide a kind of phthalocyanine compound synthesizer, this phthalocyanine compound synthesizer can effectively be controlled the moisture generating in reaction system, improve the ammonia quality generating in reaction, the recycling of carrier solvent in realization response system, and guarantee security and the continuity that reaction system moves.The technical scheme adopting is as follows:

A kind of phthalocyanine compound synthesizer, is characterized in that comprising the first reactor, the first condenser, the second reactor and the second condenser;

The cavity of the first reactor is communicated with the cavity of the second reactor by the first Material pipeline;

The first condenser comprises the first condenser shell, in the first condenser shell, be provided with the first upper spacer and the first lower clapboard, the first upper spacer and the first lower clapboard are separated into the first condenser shell the first upper chamber of arranging from top to bottom, the first condensation chamber and the first fluid reservoir, in the first condensation chamber, be provided with multiple the first heat-exchange tubes, the first heat-exchange tube lower end is communicated with the cavity of the first fluid reservoir, the first heat-exchange tube upper end is communicated with the cavity of the first upper chamber, the sidewall of the first condensation chamber is provided with the first cooling fluid entrance and the first cooling liquid outlet, the first cooling fluid entrance and the first cooling liquid outlet are all communicated with the cavity of the first condensation chamber, the first upper chamber is provided with the first air inlet, the sidewall of the first fluid reservoir is provided with the first gas outlet and the first solvent refluxing mouth, and the first gas outlet is in the first solvent refluxing mouth top, and the first fluid reservoir bottom is provided with the first row mouth of a river, and first row mouth of a river place is provided with first row taps valve, the cavity of the first reactor is communicated with the first air inlet by the first mixed gas delivery pipe, the first solvent refluxing mouth is communicated with the cavity of the first reactor by the first solvent refluxing pipe,

The second condenser comprises the second condenser shell, in the second condenser shell, be provided with the second upper spacer and the second lower clapboard, the second upper spacer and the second lower clapboard are separated into the second condenser shell the second upper chamber of arranging from top to bottom, the second condensation chamber and the second fluid reservoir, in the second condensation chamber, be provided with multiple the second heat-exchange tubes, the second heat-exchange tube lower end is communicated with the cavity of the second fluid reservoir, the second heat-exchange tube upper end is communicated with the cavity of the second upper chamber, the sidewall of the second condensation chamber is provided with the second cooling fluid entrance and the second cooling liquid outlet, the second cooling fluid entrance and the second cooling liquid outlet are all communicated with the cavity of the second condensation chamber, the second upper chamber is provided with the second air inlet, the sidewall of the second fluid reservoir is provided with the second gas outlet and the second solvent refluxing mouth, and the second gas outlet is in the second solvent refluxing mouth top, and the second fluid reservoir bottom is provided with the second row mouth of a river, and second row mouth of a river place is provided with second row taps valve, the cavity of the second reactor is communicated with the second air inlet by the second mixed gas delivery pipe, the second solvent refluxing mouth is communicated with the cavity of the second reactor by the second solvent refluxing pipe, and the second gas outlet is communicated with the cavity of the first reactor by the 3rd mixed gas delivery pipe.

The outlet side (one end that the 3rd mixed gas delivery pipe is communicated with the cavity of the first reactor) of above-mentioned the 3rd mixed gas delivery pipe is stretched in the material in the first reactor conventionally.

In preferred version, on above-mentioned the first gas outlet, be connected with blast pipe, blast pipe is provided with pressure-control valve, and tail gas is discharged by blast pipe, and pressure-control valve is for controlling the pressure in reaction system.

What above-mentioned the second condenser produced for phthalocyanine compound production process contains ammonia, carbon dioxide, in the mist of steam and carrier solvent steam (as alkylbenzene steam), heterogeneity separates, steam in mist is become to liquid and separates with carrier solvent steam condensing, carrier solvent is recycled, and produce the gaseous mixture of satisfactory ammonia and carbon dioxide, its process is: by the second cooling fluid entrance to the cooling fluid that passes into uniform temperature in the cavity of the second condensation chamber (as the cooling water of 75 ℃, can be by steam and carrier solvent steam condensing at this temperature, and can effectively avoid ammonia, carbon dioxide and water generate carbonic hydroammonium, or ammonia and carbon dioxide reaction generate ammonium carbonate and blocking pipe), cooling fluid in the cavity of the second condensation chamber flows out through the second cooling liquid outlet simultaneously, in the cavity of the second condensation chamber, form cooling fluid stream, mist enters the second upper chamber from the second air inlet, then flows to the second fluid reservoir through the second heat-exchange tube, in mist is flowed through the second heat-exchange tube time, cooling fluid in mist in the second heat-exchange tube and the second condensation chamber cavity is carried out heat exchange, steam in mist and carrier solvent steam are condensed and become liquid (this liquid contains water and carrier solvent), these downward liquid flow are also stored in above-mentioned the second liquid storage cylinder, and remaining gas (being the gaseous mixture of ammonia and carbon dioxide) is discharged and is delivered in the cavity of the first reactor through the 3rd mixed gas delivery pipe from the second gas outlet after entering the second fluid reservoir, liquid in the second liquid storage cylinder comprises water and carrier solvent, because carrier solvent (as alkylbenzene) is water insoluble, therefore the water in the second liquid storage cylinder separates with carrier solvent, water is in lower floor, and carrier solvent is on upper strata, like this, when the liquid level of carrier solvent higher than the second solvent refluxing mouth under along time, the carrier solvent on upper strata can flow out from the second solvent refluxing mouth, and is back in the cavity of the second reactor the carrier solvent of replenish lost through the second solvent refluxing pipe.In the second liquid storage cylinder the water of lower floor in due course by the second row mouth of a river discharge (conventionally the liquid level of the water of lower floor be about to arrive under the second solvent refluxing mouth along time water is discharged).The operation principle of the first condenser is the same with the second condenser.

In preferred version, above-mentioned phthalocyanine compound synthesizer also comprises constant temperature water tank, the first cooling fluid entrance and the second cooling fluid entrance are all communicated with the delivery port of constant temperature water tank, the first cooling liquid outlet and the second cooling liquid outlet are all communicated with the water inlet of constant temperature water tank by return pipe, and return pipe outer wall is provided with radiator.By the temperature control numerical value of constant temperature water tank is set, can make constant temperature water tank carry the cooling water of suitable temperature (as 75 ± 0.5 ℃) to the first condensation chamber and the second condensation chamber; After cooling water and mist carry out heat exchange, its temperature rises to some extent, lowers the temperature, then be back in constant temperature water tank in the time of radiator to extraneous distribute heat.Radiator can adopt existing apparatus.

Above-mentioned the first reactor is provided with the first charge door, and the first charge door is for material (being raw material) is added to the first reactor, and reinforced rear the first charge door is closed.

Material in the first reactor can be delivered in the second reactor by the first Material pipeline.Conventionally on the first Material pipeline, be provided with the first conveying switch valve, while needing convey materials, the first conveying switch valve is opened and makes the first Material pipeline conducting.Preferably above-mentioned the first Material pipeline two ends connect respectively the first reactor bottom and the second reactor top.

The first reactor is provided with first heater.Above-mentioned first heater can be the first heating jacket of being located on the first reactor outer wall, the first heating jacket is provided with the first heat medium entrance and the outlet of the first heat medium, and the first heat medium entrance and the outlet of the first heat medium are all communicated with the cavity of the first heating jacket; Heat medium can adopt deep fat.In addition, above-mentioned first heater also can adopt the electric heater unit of being located on the first reactor bottom or sidewall.

Conventionally, above-mentioned the first reactor is provided with the first agitating device.The first agitating device comprises stirring motor, shaft and agitator, stirring motor is located at the first reactor top, the power output shaft of shaft and stirring motor is in transmission connection, agitator is arranged on shaft, in the cavity of agitator in the first reactor, in stirring motor when running,, drive shaft rotation, and agitator rotates and stirs the material in the first reactor around shaft.

Above-mentioned the second reactor is provided with the second charge door, and for material (being raw material) is added to the second reactor, reinforced rear the second charge door is closed.

The second reactor is provided with secondary heating mechanism.Above-mentioned secondary heating mechanism can be the second heating jacket of being located on the second reactor outer wall, the second heating jacket is provided with the second heat medium entrance and the outlet of the second heat medium, and the second heat medium entrance and the outlet of the second heat medium are all communicated with the cavity of the second heating jacket; Heat medium can adopt deep fat.In addition, above-mentioned secondary heating mechanism also can adopt the electric heater unit of being located on the second reactor bottom or sidewall.

Conventionally, above-mentioned the second reactor is provided with the second agitating device.The second agitating device comprises stirring motor, shaft and agitator, stirring motor is located at the second reactor top, the power output shaft of shaft and stirring motor is in transmission connection, agitator is arranged on shaft, in the cavity of agitator in the second reactor, in stirring motor when running,, drive shaft rotation, and agitator rotates and stirs the material in the second reactor around shaft.

In above-mentioned the first condenser, the part in the cavity of the first fluid reservoir below the first solvent refluxing mouth forms the first liquid storage cylinder; Part in the cavity of the first fluid reservoir more than the first solvent refluxing mouth forms the first venting cavity can supplied gas passing through.

In preferred version, above-mentioned the first heat-exchange tube is the straight tube moving towards up and down.

In preferred version, above-mentioned the first cooling fluid entrance is located at the bottom of the first condensation chamber sidewall, the first cooling liquid outlet is located at the top of the first condensation chamber sidewall, like this, bottom-up the flowing of cooling fluid stream in the cavity of the first condensation chamber, mist in the first heat-exchange tube from up to down flows, and is conducive to mist and cooling fluid and flows and fully carry out heat exchange.

On above-mentioned the first solvent refluxing pipe, there is the first U-shaped liquid storage pipe; The first U-shaped liquid storage pipe comprises the first vertical feed liquor pipeline section, the first horizontal pipeline section and the first vertical fluid pipeline section, and the first vertical feed liquor pipeline section lower end connects the first horizontal pipeline section front end, and the first horizontal pipeline section rear end connects the first vertical fluid pipeline section lower end.The upper end of the first vertical feed liquor pipeline section is the liquid feeding end of the first U-shaped liquid storage pipe, and the upper end of the first vertical fluid pipeline section is the outlet end of the first U-shaped liquid storage pipe, and the first U-shaped liquid storage pipe is connected on the first solvent refluxing pipe by above-mentioned liquid feeding end, outlet end.In above-mentioned the first U-shaped liquid storage pipe, in the first horizontal pipeline section, can store liquid, in the first vertical feed liquor pipeline section and the first vertical fluid pipeline section, also can store liquid, thereby formation fluid-tight, like this, solvent in the first fluid reservoir can flow out in the cavity of the first reactor automatically, continuously through the first solvent refluxing pipe, and gas can not pass through from the first solvent refluxing pipe.

In preferred version, the sidewall of above-mentioned the first fluid reservoir is provided with the first pressure gauge connection, and the first pressure gauge connection, in the first solvent refluxing mouth top, is provided with the first Pressure gauge on the first pressure gauge connection.Above-mentioned the first Pressure gauge is for detection of the gas pressure in the first condenser.

In preferred version, the sidewall of above-mentioned the first fluid reservoir is provided with two windows, and these two windows are arranged from top to bottom, and window glass is installed on described window.By above-mentioned window is set, be convenient to staff and observe the state of material in the first fluid reservoir.

In preferred version, above-mentioned the first upper chamber top is provided with the first gas evacuation port, and the first gas evacuation port place is provided with the emptying switch valve of the first gas.Above-mentioned the first gas evacuation port is for the first condenser inspection and maintenance, for example, in the time that the first heat-exchange tube stops up (being stopped up by carbonic hydroammonium or ammonium carbonate), can pass into high-temperature steam from the first gas evacuation port, and for example, while causing the hypertonia of reaction system when blast pipe obstruction, can open the first gas evacuation port and discharge the gas in the first condenser, to reduce the pressure of reaction system.

In above-mentioned the second condenser, the part in the cavity of the second fluid reservoir below the second solvent refluxing mouth forms the second liquid storage cylinder; Part in the cavity of the second fluid reservoir more than the second solvent refluxing mouth forms the second venting cavity can supplied gas passing through.

In preferred version, above-mentioned the second heat-exchange tube is the straight tube moving towards up and down.

In preferred version, above-mentioned the second cooling fluid entrance is located at the bottom of the second condensation chamber sidewall, the second cooling liquid outlet is located at the top of the second condensation chamber sidewall, like this, bottom-up the flowing of cooling fluid stream in the cavity of the second condensation chamber, mist in the second heat-exchange tube from up to down flows, and is conducive to mist and cooling fluid and flows and fully carry out heat exchange.

On above-mentioned the second solvent refluxing pipe, there is the second U-shaped liquid storage pipe; The second U-shaped liquid storage pipe comprises the second vertical feed liquor pipeline section, the second horizontal pipeline section and the second vertical fluid pipeline section, and the second vertical feed liquor pipeline section lower end connects the second horizontal pipeline section front end, and the second horizontal pipeline section rear end connects the second vertical fluid pipeline section lower end.The upper end of the second vertical feed liquor pipeline section is the liquid feeding end of the second U-shaped liquid storage pipe, and the upper end of the second vertical fluid pipeline section is the outlet end of the second U-shaped liquid storage pipe, and the second U-shaped liquid storage pipe is connected on the second solvent refluxing pipe by above-mentioned liquid feeding end, outlet end.In above-mentioned the second U-shaped liquid storage pipe, in the second horizontal pipeline section, can store liquid, in the second vertical feed liquor pipeline section and the second vertical fluid pipeline section, also can store liquid, thereby formation fluid-tight, like this, solvent in the second fluid reservoir can flow out in the cavity of the second reactor automatically, continuously through the second solvent refluxing pipe, and gas can not pass through from the second solvent refluxing pipe.

In preferred version, the sidewall of above-mentioned the second fluid reservoir is provided with the second pressure gauge connection, and the second pressure gauge connection, in the second solvent refluxing mouth top, is provided with the second Pressure gauge on the second pressure gauge connection.Above-mentioned the second Pressure gauge is for detection of the gas pressure in the second condenser.

In preferred version, the sidewall of above-mentioned the second fluid reservoir is provided with two windows, and these two windows are arranged from top to bottom, and window glass is installed on described window.By above-mentioned window is set, be convenient to staff and observe the state of material in the second fluid reservoir.

In preferred version, above-mentioned the second upper chamber top is provided with the second gas evacuation port, and the second gas evacuation port place is provided with the emptying switch valve of the second gas.Above-mentioned the second gas evacuation port is for the second condenser inspection and maintenance, for example, in the time that the second heat-exchange tube stops up (being stopped up by carbonic hydroammonium or ammonium carbonate), can pass into high-temperature steam from the second gas evacuation port, and for example, while causing the hypertonia of reaction system when the 3rd mixed gas delivery blockage, can open the gas in the second gas evacuation port eductor condenser, to reduce the pressure of reaction system.

Complete after phthalocyanine compound synthetic, what in the second reactor, obtain is that (wherein phthalocyanine compound is solid material for the solid-liquid mixture of phthalocyanine compound and carrier solvent, carrier solvent is liquid material), in order better carrier solvent to be separated with phthalocyanine compound, and realize the recycling of carrier solvent, in preferred version, above-mentioned phthalocyanine compound synthesizer also comprises Minton dryer, and Minton dryer comprises the 3rd reactor, the 3rd condenser, the first solvent recovery tank and vavuum pump, the cavity of the second reactor is communicated with the cavity of the 3rd reactor by the second Material pipeline, and the 3rd reactor is provided with the 3rd heater, the 3rd condenser comprises the 3rd condenser shell, in the 3rd condenser shell, be provided with the 3rd upper spacer and the 3rd lower clapboard, the 3rd upper spacer and the 3rd lower clapboard are separated into the 3rd condenser shell the 3rd upper chamber of arranging from top to bottom, the 3rd condensation chamber and the 3rd lower chamber, in the 3rd condensation chamber, be provided with multiple the 3rd heat-exchange tubes, the 3rd heat-exchange tube lower end is communicated with the cavity of the 3rd lower chamber, the 3rd heat-exchange tube upper end is communicated with the cavity of the 3rd upper chamber, the sidewall of the 3rd condensation chamber is provided with the 3rd cooling fluid entrance and the 3rd cooling liquid outlet, the 3rd cooling fluid entrance and the 3rd cooling liquid outlet are all communicated with the cavity of the 3rd condensation chamber, the cavity of the 3rd reactor is communicated with the cavity of the 3rd lower chamber, and the cavity of the 3rd upper chamber is communicated with vavuum pump, the first solvent recovery tank is located at the 3rd condenser below, and the cavity of the 3rd lower chamber is communicated with the cavity of the first solvent recovery tank.

On above-mentioned the second Material pipeline, be typically provided with the second conveying switch valve, in course of reaction, the second conveying switch valve cuts out, need to the product in the second reactor be moved in the 3rd reactor time, the second conveying switch valve be opened, and in process of vacuum drying, the second conveying switch valve cuts out.

After having reacted, the product (being the solid-liquid mixture of phthalocyanine compound and carrier solvent) in the second reactor moves in the 3rd reactor by the second Material pipeline.Above-mentioned Minton dryer adopts following manner by the separated from solvent in the solid-liquid mixture being contained in the 3rd reactor and reclaims: start vavuum pump and the 3rd heater, and in the cavity of the 3rd condensation chamber, pass into cooling fluid (as cooling water) by the 3rd cooling fluid entrance, cooling fluid in the cavity of the 3rd condensation chamber flows out through the 3rd cooling liquid outlet simultaneously, forms cooling fluid stream in the cavity of the 3rd condensation chamber; The solid-liquid mixture in the 3rd reactor is heated to required temperature by the 3rd heater, and vavuum pump vacuumizes the 3rd reactor inside, makes the carrier solvent in solid-liquid mixture form solvent vapour, realizes Separation of Solid and Liquid; Solvent vapour from the 3rd reactor out, successively through the 3rd lower chamber, the 3rd heat-exchange tube, the 3rd upper chamber and vavuum pump; In solvent vapour is flowed through the 3rd heat-exchange tube time, cooling fluid in solvent vapour in the 3rd heat-exchange tube and the 3rd condensation chamber cavity is carried out heat exchange, solvent vapour in the 3rd heat-exchange tube is condensed and liquefy solvent, and flow in the first solvent recovery tank, realize the recovery of carrier solvent.

Above-mentioned the 3rd heater can be the 3rd heating jacket of being located on the 3rd reactor outer wall, the 3rd heating jacket is provided with the 3rd heat medium entrance and the outlet of the 3rd heat medium, and the 3rd heat medium entrance and the outlet of the 3rd heat medium are all communicated with the cavity of the 3rd heating jacket; Heat medium can adopt deep fat.In addition, above-mentioned the 3rd heater also can adopt the electric heater unit of being located on the 3rd reactor bottom or sidewall.

Conventionally, above-mentioned the 3rd reactor is provided with the 3rd agitating device.The 3rd agitating device comprises stirring motor, shaft and agitator, and stirring motor is located at the 3rd reactor top, and the power output shaft of shaft and stirring motor is in transmission connection, and agitator is arranged on shaft, in the cavity of agitator in the 3rd reactor.When stirring motor running, drive shaft rotation, agitator rotates and stirs the material in the 3rd reactor around shaft, can accelerate rate of drying and guarantee that temperature of charge is even.

Conventionally, above-mentioned the 3rd reactor is provided with discharge gate (this discharge gate is located at the 3rd reactor bottom conventionally), and this discharge gate goes out to be provided with discharge switch valve, and this discharge gate is for shifting out the 3rd reactor by the solid material obtaining after dry.

In preferred version, above-mentioned the 3rd heat-exchange tube is the straight tube moving towards up and down.

In preferred version, above-mentioned Minton dryer also comprises the 4th condenser and the second solvent recovery tank, the 4th condenser comprises the 4th condenser shell, in the 4th condenser shell, be provided with the 4th upper spacer and the 4th lower clapboard, the 4th upper spacer and the 4th lower clapboard are separated into the 4th condenser shell the 4th upper chamber of arranging from top to bottom, the 4th condensation chamber and the 4th lower chamber, in the 4th condensation chamber, be provided with multiple the 4th heat-exchange tubes, the 4th heat-exchange tube lower end is communicated with the cavity of the 4th lower chamber, the 4th heat-exchange tube upper end is communicated with the cavity of the 4th upper chamber, the sidewall of the 4th condensation chamber is provided with the 4th cooling fluid entrance and the 4th cooling liquid outlet, the 4th cooling fluid entrance and the 4th cooling liquid outlet are all communicated with the cavity of the 4th condensation chamber, the cavity of described the 3rd upper chamber is communicated with the cavity of the 4th lower chamber, and the cavity of the 4th upper chamber is communicated with vavuum pump, the second solvent recovery tank is located at the 4th condenser below, and the cavity of the 4th lower chamber is communicated with the cavity of the second solvent recovery tank.The course of work of above-mentioned the 4th condenser is identical with the 3rd condenser.After the 3rd condenser, remaining solvent vapour is further condensed into liquid solvent by the 4th condenser, and is reclaimed by the second solvent recovery tank.

More preferably in scheme, above-mentioned the 4th heat-exchange tube is the straight tube moving towards up and down.

In preferred version, between above-mentioned the 3rd reactor and the 3rd condenser, be provided with surge tank, surge tank is located at the 3rd reactor top, surge tank is provided with vapour inlet and vapor outlet port, the 3rd cavity of reactor and the vapour inlet of surge tank are communicated with, and the vapor outlet port of surge tank is communicated with the cavity of the 3rd lower chamber.By surge tank is set, the solid-liquid mixture violent agitation can prevent from vacuumizing time in the 3rd reactor, in order to avoid solid material (being phthalocyanine compound) is gone out with solvent vapour.

More preferably in scheme, between above-mentioned surge tank and the 3rd condenser, be provided with cyclone separator, the vapor outlet port of surge tank is communicated with the air inlet of cyclone separator, and the gas outlet of cyclone separator is communicated with the cavity of the 3rd lower chamber.The Main Function of cyclone separator is to remove the solid material particle carrying in solvent vapour, also can remove contained drop in solvent vapour simultaneously, to guarantee the normal operation of the equipment such as the 3rd condenser, the 4th condenser, vavuum pump.

In preferred version, can be provided with gas-liquid separator in above-mentioned vavuum pump front, to avoid liquid to enter vavuum pump, be specially: in the situation that above-mentioned Minton dryer does not arrange the 4th condenser and the second solvent recovery tank, between above-mentioned the 3rd condenser and vavuum pump, be provided with gas-liquid separator, the 3rd cavity of upper chamber and the air inlet of gas-liquid separator are communicated with, and the gas outlet of gas-liquid separator is communicated with vavuum pump; In the situation that above-mentioned Minton dryer is provided with the 4th condenser and the second solvent recovery tank, between above-mentioned the 4th condenser and vavuum pump, be provided with gas-liquid separator, the 4th cavity of upper chamber and the air inlet of gas-liquid separator are communicated with, and the gas outlet of gas-liquid separator is communicated with vavuum pump.

The solvent outlet of above-mentioned the first solvent recovery tank, the second solvent recovery tank, gas-liquid separator etc. can be connected to a solvent recovery pipeline, and solvent wherein can add in the first reactor and the second reactor through solvent recovery pipeline.

In another kind of scheme, also can be not by Minton dryer being set to isolate the carrier solvent in product, but on above-mentioned the second reactor, be provided with discharge gate (discharge gate is located at the second reactor bottom conventionally), this discharge gate is for shifting out the second reactor by product, this discharge gate place can be provided with discharge switch valve, after having reacted, product is shifted out to the second reactor by this discharge gate, isolate the carrier solvent in product by operations such as filtrations.

The utility model is realized the ammonia that contains producing in phthalocyanine compound production process by the first condenser and the second condenser, carbon dioxide, in the mist of steam and carrier solvent steam, heterogeneity separates, steam in mist is become to liquid and separates with carrier solvent steam condensing, the water wherein producing after water vapor condensation can be through the first row mouth of a river, discharge at the second row mouth of a river, carrier solvent can be back to the first reactor or be back to the second reactor through the second solvent refluxing pipe through the first solvent refluxing pipe, the ammonia that the second condenser produces and the gaseous mixture of carbon dioxide can be delivered to the first reactor and participate in subsequent reactions through the 3rd mixed gas delivery pipe, thereby realize the eliminating of moisture, the recycling of carrier solvent and the purifying of gas, and, two Main Stage of whole phthalocyanine compound production process can be carried out respectively in the first reactor and the second condenser, and the material in the first reactor can be transferred in the second reactor by the first Material pipeline, and after being shifted out, the product in the second reactor can carry out next round production, therefore can realize continuous production, and enhance productivity, in production process, pass into the cooling fluid (as the cooling water of 75 ± 0.5 ℃) of uniform temperature to the first condenser, the second condenser, can make the gas after condensation purifying there is suitable temperature, ammonia and carbon dioxide can not react generation ammonium carbonate, ammonia and carbon dioxide can not react with residual steam yet and generate carbonic hydroammonium, prevent from, because generating carbonic hydroammonium or ammonium carbonate blocking pipe, can guaranteeing the safety of equipment and carrying out smoothly of reaction.Therefore, phthalocyanine compound synthesizer of the present utility model can effectively be controlled the moisture generating in reaction system, improves the ammonia quality generating in reaction, the recycling of carrier solvent in realization response system, and guaranteeing security and the continuity that reaction system moves, production efficiency is high.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model preferred embodiment 1;

Fig. 2 is the structural representation of the first condenser in the utility model preferred embodiment 1;

Fig. 3 is the structural representation (cutaway view) of the first condensation chamber in Fig. 2;

Fig. 4 is the structural representation of the second condenser in the utility model preferred embodiment 1;

Fig. 5 is the structural representation (cutaway view) of the second condensation chamber in Fig. 4;

Fig. 6 is the structural representation of Minton dryer in the utility model preferred embodiment 1;

Fig. 7 is the structural representation of the 3rd condenser in the utility model preferred embodiment 1;

Fig. 8 is the structural representation of the 4th condenser in the utility model preferred embodiment 1;

Fig. 9 is the structural representation of Minton dryer in the utility model preferred embodiment 2;

Figure 10 is the structural representation of Minton dryer in the utility model preferred embodiment 3.

The specific embodiment

Embodiment 1

As shown in Figure 1, this phthalocyanine compound synthesizer comprises the first reactor 1, the first condenser 2, the second reactor 3, the second condenser 4 and Minton dryer 5.

The cavity of the first reactor 1 is communicated with the cavity of the second reactor 3 by the first Material pipeline 01.

Referring to figs. 2 and 3, the first condenser 2 comprises the first condenser shell 21, in the first condenser shell 21, be provided with the first upper spacer 22 and the first lower clapboard 23, the first upper spacer 22 and the first lower clapboard 23 are separated into the first condenser shell 21 the first upper chamber 24 of arranging from top to bottom, the first condensation chamber 25 and the first fluid reservoir 26, in the first condensation chamber 25, be provided with multiple the first heat-exchange tubes 27, the first heat-exchange tube 27 lower ends are communicated with the cavity of the first fluid reservoir 26, the first heat-exchange tube 27 upper ends are communicated with the cavity of the first upper chamber 24, the sidewall of the first condensation chamber 25 is provided with the first cooling fluid entrance 28 and the first cooling liquid outlet 29, the first cooling fluid entrance 28 and the first cooling liquid outlet 29 are all communicated with the cavity of the first condensation chamber 25, the first upper chamber 24 is provided with the first air inlet 210, the sidewall of the first fluid reservoir 26 is provided with the first gas outlet 211 and the first solvent refluxing mouth 212, the first gas outlet 211 is in the first solvent refluxing mouth 212 tops, the first fluid reservoir 26 bottoms are provided with the first row mouth of a river 213, and 213 places, the first row mouth of a river are provided with first row taps valve 214, the cavity of the first reactor 1 is communicated with the first air inlet 210 by the first mixed gas delivery pipe 02, the first solvent refluxing mouth 212 is communicated with the cavity of the first reactor 1 by the first solvent refluxing pipe 03.

In the first condenser 2, in the cavity of the first fluid reservoir 26, form the first liquid storage cylinder in the part of the first solvent refluxing mouth below 212; In the cavity of the first fluid reservoir 26, form in more than 212 part of the first solvent refluxing mouth the first venting cavity can supplied gas passing through.

The first heat-exchange tube 27 is the straight tubes that move towards up and down.

The first cooling fluid entrance 28 is located at the bottom of the first condensation chamber 25 sidewalls, and the first cooling liquid outlet 29 is located at the top of the first condensation chamber 25 sidewalls, like this, and bottom-up the flowing of cooling fluid stream in the cavity of the first condensation chamber 25.

On the first solvent refluxing pipe 03, there is the first U-shaped liquid storage pipe 08; The first U-shaped liquid storage pipe 08 comprises the first vertical feed liquor pipeline section 081, the first horizontal pipeline section 082 and the first vertical fluid pipeline section 083, the first vertical feed liquor pipeline section 081 lower end connects the first horizontal pipeline section 082 front end, and the first horizontal pipeline section 082 rear end connects the first vertical fluid pipeline section 083 lower end.The upper end of the first vertical feed liquor pipeline section 081 is the liquid feeding end of the first U-shaped liquid storage pipe 08, the upper end of the first vertical fluid pipeline section 083 is the outlet end of the first U-shaped liquid storage pipe 08, and the first U-shaped liquid storage pipe 08 is connected on the first solvent refluxing pipe 03 by above-mentioned liquid feeding end, outlet end.In the first U-shaped liquid storage pipe 08, in the first horizontal pipeline section 082, can store liquid, in the first vertical feed liquor pipeline section 081 and the first vertical fluid pipeline section 083, also can store liquid, thereby formation fluid-tight, like this, solvent in the first fluid reservoir 26 can flow out in the cavity of the first reactor 1 automatically, continuously through the first solvent refluxing pipe 03, and gas can not pass through from the first solvent refluxing pipe 03.

The sidewall of the first fluid reservoir 25 is provided with the first pressure gauge connection 215, the first pressure gauge connection 215 is in the first solvent refluxing mouth 212 tops, on the first pressure gauge connection 215, the first Pressure gauge is installed, the first Pressure gauge is for detection of the gas pressure in the first condenser 2.

The sidewall of the first fluid reservoir 25 is provided with 216, two windows 216 of two windows and arranges from top to bottom, and window glass is installed on window 216.

The first upper chamber 24 tops are provided with the first gas evacuation port 217, the first gas evacuation port 217 places and are provided with emptying switch valve 218, the first gas evacuation ports 217 of the first gas for the first condenser 2 inspection and maintenances.

With reference to figure 4 and Fig. 5, the second condenser 4 comprises the second condenser shell 41, in the second condenser shell 41, be provided with the second upper spacer 42 and the second lower clapboard 43, the second upper spacer 42 and the second lower clapboard 43 are separated into the second condenser shell 41 the second upper chamber 44 of arranging from top to bottom, the second condensation chamber 45 and the second fluid reservoir 46, in the second condensation chamber 45, be provided with multiple the second heat-exchange tubes 47, the second heat-exchange tube 47 lower ends are communicated with the cavity of the second fluid reservoir 46, the second heat-exchange tube 47 upper ends are communicated with the cavity of the second upper chamber 44, the sidewall of the second condensation chamber 45 is provided with the second cooling fluid entrance 48 and the second cooling liquid outlet 49, the second cooling fluid entrance 48 and the second cooling liquid outlet 49 are all communicated with the cavity of the second condensation chamber 45, the second upper chamber 44 is provided with the second air inlet 410, the sidewall of the second fluid reservoir 46 is provided with the second gas outlet 411 and the second solvent refluxing mouth 412, the second gas outlet 411 is in the second solvent refluxing mouth 412 tops, the second fluid reservoir 46 bottoms are provided with the second row mouth of a river 413, and 413 places, the second row mouth of a river are provided with second row taps valve 414, the cavity of the second reactor 3 is communicated with the second air inlet 410 by the second mixed gas delivery pipe 04, the second solvent refluxing mouth 412 is communicated with the cavity of the second reactor 3 by the second solvent refluxing pipe 05, and the second gas outlet 411 is communicated with the cavity of the first reactor 1 by the 3rd mixed gas delivery pipe 06.

In the second condenser 4, in the cavity of the second fluid reservoir 46, form the second liquid storage cylinder in the part of the second solvent refluxing mouth below 412; In the cavity of the second fluid reservoir 46, form in more than 412 part of the second solvent refluxing mouth the second venting cavity can supplied gas passing through.

The second heat-exchange tube 47 is the straight tubes that move towards up and down.

The second cooling fluid entrance 48 is located at the bottom of the second condensation chamber 45 sidewalls, and the second cooling liquid outlet 49 is located at the top of the second condensation chamber 25 sidewalls, like this, and bottom-up the flowing of cooling fluid stream in the cavity of the second condensation chamber 45.

On the second solvent refluxing pipe 05, there is the second U-shaped liquid storage pipe 09; The second U-shaped liquid storage pipe 09 comprises the second vertical feed liquor pipeline section 091, the second horizontal pipeline section 092 and the second vertical fluid pipeline section 093, the second vertical feed liquor pipeline section 091 lower end connects the second horizontal pipeline section 092 front end, and the second horizontal pipeline section 092 rear end connects the second vertical fluid pipeline section 093 lower end.The upper end of the second vertical feed liquor pipeline section 091 is the liquid feeding end of the second U-shaped liquid storage pipe 09, the upper end of the second vertical fluid pipeline section 093 is the outlet end of the second U-shaped liquid storage pipe 09, and the second U-shaped liquid storage pipe 09 is connected on the second solvent refluxing pipe 05 by above-mentioned liquid feeding end, outlet end.In the second U-shaped liquid storage pipe 09, in the second horizontal pipeline section 092, can store liquid, in the second vertical feed liquor pipeline section 091 and the second vertical fluid pipeline section 093, also can store liquid, thereby formation fluid-tight, like this, solvent in the second fluid reservoir 46 can flow out in the cavity of the second reactor 3 automatically, continuously through the second solvent refluxing pipe 05, and gas can not pass through from the second solvent refluxing pipe 05.

The sidewall of the second fluid reservoir 46 is provided with the second pressure gauge connection 415, the second pressure gauge connection 415 is in the second solvent refluxing mouth 412 tops, on the second pressure gauge connection 415, the second Pressure gauge is installed, the second Pressure gauge is for detection of the gas pressure in the second condenser 4.

The sidewall of the second fluid reservoir 46 is provided with 416, two windows 416 of two windows and arranges from top to bottom, and window glass is installed on window 416.

The second upper chamber 44 tops are provided with the second gas evacuation port 417, the second gas evacuation port 417 places and are provided with the emptying switch valve 418 of the second gas.The second gas evacuation port 417 is for the second condenser inspection and maintenance.

The outlet side (one end that the 3rd mixed gas delivery pipe 06 is communicated with the cavity of the first reactor 1) of the 3rd mixed gas delivery pipe 06 is stretched in the material in the first reactor 1.

On the first gas outlet 211, be connected with blast pipe 07, blast pipe 07 is provided with pressure-control valve 6, and tail gas is discharged by blast pipe 07, and pressure-control valve 6 is for controlling the pressure in reaction system.

The first reactor 1 is provided with the first charge door, and the first charge door is for material (being raw material) is added to the first reactor 1, and reinforced rear the first charge door is closed.

The first Material pipeline 01 two ends connect respectively the first reactor 1 bottom and the second reactor 3 tops, and the material in the first reactor 1 is delivered in the second reactor 3 by the first Material pipeline 01.Can on the first Material pipeline 01, be provided with the first conveying switch valve 7, while needing convey materials, the first conveying switch valve 7 is opened and makes the first Material pipeline 01 conducting.

The first reactor 1 is provided with first heater, in the present embodiment, first heater is the first heating jacket 11 of being located on the first reactor 1 outer wall, the first heating jacket 11 is provided with the first heat medium entrance 12 and the first heat medium outlet 13, the first heat medium entrances 12 and the first heat medium outlet 13 and is all communicated with the cavity of the first heating jacket 11; Heat medium can adopt deep fat.In addition, above-mentioned first heater also can adopt the electric heater unit of being located on the first reactor bottom or sidewall.

The first reactor is provided with the first agitating device 14.The first agitating device 14 can adopt prior art, for example, the first agitating device 14 comprises stirring motor, shaft and agitator, stirring motor is located at the first reactor 1 top, and the power output shaft of shaft and stirring motor is in transmission connection, and agitator is arranged on shaft, in the cavity of agitator in the first reactor 1, in stirring motor when running,, drive shaft rotation, and agitator rotates and stirs the material in the first reactor 1 around shaft.

The second reactor 3 is provided with the second charge door, and for material (being raw material) is added to the second reactor 3, reinforced rear the second charge door is closed.

The second reactor 3 is provided with secondary heating mechanism, in the present embodiment, secondary heating mechanism is the second heating jacket 31 of being located on the second reactor 3 outer walls, the second heating jacket 31 is provided with the second heat medium entrance 32 and the second heat medium outlet 33, the second heat medium entrances 32 and the second heat medium outlet 33 and is all communicated with the cavity of the second heating jacket 31; Heat medium can adopt deep fat.In addition, above-mentioned secondary heating mechanism also can adopt the electric heater unit of being located on the second reactor bottom or sidewall.

The second reactor 3 is provided with the second agitating device 34.The second agitating device 34 can adopt prior art, for example the second agitating device 34 comprises stirring motor, shaft and agitator, stirring motor is located at the second reactor 3 tops, the power output shaft of shaft and stirring motor is in transmission connection, agitator is arranged on shaft, in the cavity of agitator in the second reactor 3, when stirring motor running, drive shaft rotation, agitator rotates and stirs the material in the second reactor 3 around shaft.

In the present embodiment, phthalocyanine compound synthesizer also comprises constant temperature water tank, the first cooling fluid entrance 28 and the second cooling fluid entrance 48 are all communicated with the delivery port of constant temperature water tank, the first cooling liquid outlet 29 and the second cooling liquid outlet 49 are all communicated with the water inlet of constant temperature water tank by return pipe, and return pipe outer wall is provided with radiator.By the temperature control numerical value of constant temperature water tank is set, can make constant temperature water tank carry the cooling water of suitable temperature (as 75 ± 0.5 ℃) to the first condensation chamber 25 and the second condensation chamber 45; After cooling water and mist carry out heat exchange, its temperature rises to some extent, lowers the temperature, then be back in constant temperature water tank in the time of radiator to extraneous distribute heat.Radiator can adopt existing apparatus.

As shown in Figure 6, Minton dryer 5 comprises the 3rd reactor 51, surge tank 52, cyclone separator 53, the 3rd condenser 54, the first solvent recovery tank 55, the 4th condenser 56, the second solvent recovery tank 57, gas-liquid separator 58 and vavuum pump 59.

The cavity of the second reactor 3 is communicated with the cavity of the 3rd reactor 51 by the second Material pipeline 010, and the second Material pipeline 010 is provided with the second conveying switch valve 8.In course of reaction, the second conveying switch valve 8 cuts out, and need to the product in the second reactor 3 be moved in the 3rd reactor 51 time, the second conveying switch valve 8 be opened, and in process of vacuum drying, the second conveying switch valve 8 cuts out.

The 3rd reactor 51 is provided with the 3rd heater; The 3rd heater is the 3rd heating jacket 511 of being located on the 3rd reactor 51 outer walls, the 3rd heating jacket 511 is provided with the 3rd heat medium entrance 512 and the 3rd heat medium outlet 513, the three heat medium entrances 512 and the 3rd heat medium outlet 513 and is all communicated with the cavity of the 3rd heating jacket 511; Heat medium can adopt deep fat.In addition, above-mentioned the 3rd heater also can adopt the electric heater unit of being located on the 3rd reactor bottom or sidewall.

The 3rd reactor 51 is provided with the 3rd agitating device 514.The 3rd agitating device 514 comprises stirring motor, shaft and agitator, stirring motor is located at the 3rd reactor 51 tops, the power output shaft of shaft and stirring motor is in transmission connection, and agitator is arranged on shaft, in the cavity of agitator in the 3rd reactor 51.When stirring motor running, drive shaft rotation, agitator rotates and stirs the material in the 3rd reactor 51 around shaft, can accelerate rate of drying and guarantee that temperature of charge is even.

The 3rd reactor 51 is provided with this discharge gate 515 of discharge gate 515(and is located at the 3rd reactor 51 bottoms), this discharge gate 515 goes out to be provided with discharge switch valve 516, and this discharge gate 515 is for shifting out the 3rd reactor 51 by the solid material obtaining after dry.

As shown in Figure 7, the 3rd condenser 54 comprises the 3rd condenser shell 541, in the 3rd condenser shell 541, be provided with the 3rd upper spacer 542 and the 3rd lower clapboard 543, the 3rd upper spacer 542 and the 3rd lower clapboard 543 are separated into the 3rd condenser shell 541 the 3rd upper chamber 544 of arranging from top to bottom, the 3rd condensation chamber 545 and the 3rd lower chamber 546, in the 3rd condensation chamber 545, be provided with multiple the 3rd heat-exchange tubes 547, the 3rd heat-exchange tube 547 lower ends are communicated with the cavity of the 3rd lower chamber 546, the 3rd heat-exchange tube 547 upper ends are communicated with the cavity of the 3rd upper chamber 544, the sidewall of the 3rd condensation chamber 545 is provided with the 3rd cooling fluid entrance 548 and the 3rd cooling liquid outlet 549, the 3rd cooling fluid entrance 548 and the 3rd cooling liquid outlet 549 are all communicated with the cavity of the 3rd condensation chamber 545, the first solvent recovery tank 55 is located at the 3rd condenser 54 belows, and the cavity of the 3rd lower chamber 546 is communicated with the cavity of the first solvent recovery tank 55.The 3rd heat-exchange tube 547 is the straight tubes that move towards up and down.

Surge tank 52 is located between the 3rd reactor 51 and the 3rd condenser 54, and cyclone separator 53 is located between surge tank 52 and the 3rd condenser 54, that is to say, the 3rd reactor 51, surge tank 52, cyclone separator 53 and the 3rd condenser 54 are connected successively.Surge tank 52 is located at the 3rd reactor 51 tops, and surge tank 52 is provided with vapour inlet 521 and vapor outlet port 522.

The cavity of the 3rd reactor 51 is communicated with the vapour inlet 521 of surge tank 52 by appendix 501, the vapor outlet port 522 of surge tank 52 is communicated with the air inlet 531 of cyclone separator 53 by appendix 502, and the gas outlet 532 of cyclone separator 53 is communicated with the cavity of the 3rd lower chamber 546 by appendix 503.

As shown in Figure 8, the 4th condenser 56 comprises the 4th condenser shell 561, in the 4th condenser shell 561, be provided with the 4th upper spacer 562 and the 4th lower clapboard 563, the 4th upper spacer 562 and the 4th lower clapboard 563 are separated into the 4th condenser shell 561 the 4th upper chamber 564 of arranging from top to bottom, the 4th condensation chamber 565 and the 4th lower chamber 566, in the 4th condensation chamber 565, be provided with multiple the 4th heat-exchange tubes 567, the 4th heat-exchange tube 567 lower ends are communicated with the cavity of the 4th lower chamber 566, the 4th heat-exchange tube 567 upper ends are communicated with the cavity of the 4th upper chamber 564, the sidewall of the 4th condensation chamber 565 is provided with the 4th cooling fluid entrance 568 and the 4th cooling liquid outlet 569, the 4th cooling fluid entrance 568 and the 4th cooling liquid outlet 569 are all communicated with the cavity of the 4th condensation chamber 565, the cavity of the 3rd upper chamber 544 is communicated with the cavity of the 4th lower chamber 566 by appendix 504, the second solvent recovery tank 57 is located at the 4th condenser 56 belows, and the cavity of the 4th lower chamber 566 is communicated with the cavity of the second solvent recovery tank 57.The 4th heat-exchange tube 567 is the straight tubes that move towards up and down.

Gas-liquid separator 58 is located between the 4th condenser 56 and vavuum pump 59.

The cavity of the 4th upper chamber 564 is communicated with the air inlet 581 of gas-liquid separator 58 by appendix 505, and the gas outlet 582 of gas-liquid separator 58 is communicated with vavuum pump 59 by appendix 506.

The solvent outlet of the first solvent recovery tank 55, the second solvent recovery tank 57, gas-liquid separator 58 etc. is connected to solvent recovery pipeline 507, and solvent wherein can add in the first reactor 1 and the second reactor 3 through solvent recovery pipeline 507.

Above-mentioned surge tank 52, cyclone separator 53, gas-liquid separator 58 and vavuum pump 59 all can adopt prior art.

Introduce the operation principle of this phthalocyanine compound synthesizer below in conjunction with concrete reaction:

This phthalocyanine compound synthesizer is applied to the synthetic metal phthalocyanine compound of two step solvent methods.

In the first reactor 1, drop into carrier solvent and phthalic anhydride.

In the time starting to produce, the material dropping at the second reactor 3 is in the first batch carrier solvent, phthalic anhydride, urea, metal chloride and catalyst and additive.Follow-up batch be in the material in the first reactor 1 is moved into the second reactor 3 after, drop into urea, metal chloride, catalyst and additive at the second reactor 3.

When reaction, by the first heating jacket 11, the first reactor 1 is heated, by the second heating jacket 31, the second reactor 3 is heated simultaneously, the first reactor 1 is communicated with the first condenser 2, and the second reactor 3 is communicated with the second condenser 4.

Urea generation decomposition reaction and the complex reaction process of the second reactor 3 when reaction starts, generate a large amount of ammonias and carbon dioxide and part water, part carrier solvent is subject to thermal evaporation simultaneously, ammonia, carbon dioxide, the mist of steam and carrier solvent steam enters the second condenser 4 by the second mixed gas delivery pipe 04, to the cooling fluid (as the water of 75 ℃) that passes into uniform temperature in the cavity of the second condensation chamber 45, the second condenser 4 becomes liquid by steam with carrier solvent steam condensing, form the mixing material of water and carrier solvent and enter the second fluid reservoir 46, water in the second liquid storage cylinder 46 separates with carrier solvent, water in lower floor and carrier solvent on upper strata, can be back in the second reactor 3 through the second solvent refluxing mouth 412, the second solvent refluxing pipe 05 carrier solvent of replenish lost at the carrier solvent on upper strata, above-mentioned mist is isolated after steam and carrier solvent steam, and remaining ammonia and the mist of carbon dioxide enter in the first reactor 1 by the 3rd mixed gas delivery pipe 06.

After the mist of ammonia and carbon dioxide enters in the first reactor 1 by the 3rd mixed gas delivery pipe 06, generate phthalimide and water with phthalic anhydride, water wherein at high temperature becomes rapidly steam, enters the first condenser 2 together with carbon dioxide, carrier solvent steam, unnecessary ammonia by the first mixed gas delivery pipe 02; The first condenser 2 becomes liquid by steam with carrier solvent steam condensing, and flow into the first fluid reservoir 26, water in the first fluid reservoir 26 separates with carrier solvent, water in lower floor and carrier solvent on upper strata, carrier solvent on upper strata can be back in the first reactor 1 through the first solvent refluxing mouth 212, the first solvent refluxing pipe 03, the carrier solvent of replenish lost; After condensation, remaining gas (tail gas) is discharged by the first gas outlet 211, blast pipe 07.

The phthalimide generating in the first reactor 1 moves in the second reactor 3 through the first Material pipeline 01, reacts generate metal phthalocyanine compound in the second reactor 3 with unclassified stores; After having reacted, product in the second reactor 3 moves in the 3rd reactor 51 by the second Material pipeline 010, restart Minton dryer 5 carrier solvent is separated with metal phthalocyanine compound, the dry metal phthalocyanine compound product obtaining is discharged from discharge gate 515.The phthalimide generating in the first reactor 1, after the first Material pipeline 01 moves in the second reactor 3, can drop into carrier solvent and phthalic anhydride again in the first reactor 1, proceeds to produce; Equally, the product in the second reactor 3 can drop into raw material after moving in the 3rd reactor 51 by the second Material pipeline 010 again in the second reactor 3, proceeds to produce.

In reaction, pass through the pressure of pressure-control valve 6 regulating systems.

Water in the first fluid reservoir 26 of the first condenser 2 is discharged by the first row mouth of a river 213 in due course, and the water in the second fluid reservoir 46 of the second condenser 4 is discharged by the second row mouth of a river 413 after every batch of product is synthetic.

The course of work of the second condenser 4 is: by the second cooling fluid entrance 48 to the cooling fluid (as the cooling water of 75 ℃) that passes into uniform temperature in the cavity of the second condensation chamber 45, cooling fluid in the cavity of the second condensation chamber 45 flows out through the second cooling liquid outlet 49 simultaneously, forms cooling fluid stream in the cavity of the second condensation chamber 45, mist enters the second upper chamber 44 from the second air inlet 410, then flows to the second fluid reservoir 46 through the second heat-exchange tube 47, in mist is flowed through the second heat-exchange tube 47 time, cooling fluid in mist in the second heat-exchange tube 47 and the second condensation chamber 45 cavitys is carried out heat exchange, steam in mist and carrier solvent steam are condensed and become liquid (this liquid contains water and carrier solvent), these downward liquid flow are also stored in above-mentioned the second liquid storage cylinder, remaining gas (being the gaseous mixture of ammonia and carbon dioxide) is discharged from the second gas outlet 411 and is delivered in the cavity of the first reactor 1 through the 3rd mixed gas delivery pipe 06 after entering the second fluid reservoir 46, liquid in the second liquid storage cylinder comprises water and carrier solvent, because carrier solvent (as alkylbenzene) is water insoluble, therefore the water in the second liquid storage cylinder separates with carrier solvent, water is in lower floor, and carrier solvent is on upper strata, like this, when the liquid level of carrier solvent higher than the second solvent refluxing mouth 412 times along time, the carrier solvent on upper strata can flow out from the second solvent refluxing mouth 412, and is back in the cavity of the second reactor 3 carrier solvent of replenish lost through the second solvent refluxing pipe 05.The operation principle of the first condenser 2 is the same with the second condenser.

By Minton dryer 5, carrier solvent is separated with metal phthalocyanine compound, and realize the recycling of carrier solvent.The operation principle of Minton dryer 5 is: while carrying out vacuum drying, close the second conveying switch valve 8, then start the 3rd heater 511, the 3rd agitating device 514 and vavuum pump 59, and in the cavity of the 3rd condensation chamber 545, pass into cooling fluid (as cooling water) by the 3rd cooling fluid entrance 548, cooling fluid in the cavity of the 3rd condensation chamber 545 flows out through the 3rd cooling liquid outlet 549 simultaneously, in the cavity of the 3rd condensation chamber 545, form cooling fluid stream, equally, in the cavity of the 4th condensation chamber 565, pass into cooling fluid (as cooling water) by the 4th cooling fluid entrance 568, cooling fluid in the cavity of the 4th condensation chamber 565 flows out through the 4th cooling liquid outlet 569 simultaneously, in the cavity of the 4th condensation chamber 565, form cooling fluid stream, the solid-liquid mixture in the 3rd reactor 51 is heated to required temperature by the 3rd heater 511, and vavuum pump 59 vacuumizes the 3rd reactor 51 inside, makes the carrier solvent in solid-liquid mixture form solvent vapour, realizes Separation of Solid and Liquid.Solvent vapour from the 3rd reactor 51 out, pass through successively surge tank 52, cyclone separator 53, the 3rd condenser 54, the 4th condenser 56 and gas-liquid separator 58.Solid-liquid mixture violent agitation when surge tank 52 can prevent from vacuumizing in the 3rd reactor 51, in order to avoid solid material is gone out with solvent vapour.Cyclone separator 53 can be removed the solid material particle and the drop that in solvent vapour, carry.At the 3rd condenser 54, solvent vapour is successively through the 3rd lower chamber 546, the 3rd heat-exchange tube 547 and the 3rd upper chamber 544, in solvent vapour is flowed through the 3rd heat-exchange tube 547 time, cooling fluid in solvent vapour in the 3rd heat-exchange tube 547 and the 3rd condensation chamber 545 cavitys is carried out heat exchange, solvent vapour in the 3rd heat-exchange tube 547 is condensed and liquefy solvent, and flow in the first solvent recovery tank 55, realize the recovery of solvent.The course of work of the 4th condenser 56 is identical with the 3rd condenser 54, and after the 3rd condenser 54, remaining solvent vapour is further condensed into liquid solvent by the 4th condenser 56, and is reclaimed by the second solvent recovery tank 57.While passing through gas-liquid separator 58 from the 4th condenser 56 gas out, isolate liquid wherein by gas-liquid separator 58, to avoid liquid to enter vavuum pump 59.The temperature of the material in the 3rd reactor 51 is about 150 ~ 190 ℃, and the vacuum in the 3rd reactor 51 is-0.04 ~-0.1Mpa.

After being dried, the dry material (being phthalocyanine compound) of opening in discharge switch valve 516, the three reactors 51 shifts out the 3rd reactor 51 by discharge gate 515; Be stored in the solvent recoverable in the first solvent recovery tank 55, the second solvent recovery tank 57, gas-liquid separator 58 etc.

Embodiment 2

As shown in Figure 9, the present embodiment is compared with embodiment 1, and its difference is: in Minton dryer 5, between surge tank 52 and the 3rd condenser 54, cyclone separator 53 is not set, and saves appendix 503; The vapor outlet port 522 of surge tank 2 is communicated with the cavity of the 3rd lower chamber 546 by appendix 502.

All the other structures of the present embodiment are identical with embodiment 1.

Embodiment 3

As shown in figure 10, the Minton dryer of the present embodiment comprises the 3rd reactor 51, the 3rd condenser 54, the first solvent recovery tank 55 and vavuum pump 59, the cavity of the 3rd reactor 51 is communicated with the cavity of the 3rd lower chamber 546 by appendix 501, and the cavity of the 3rd upper chamber 544 is communicated with vavuum pump 59 by appendix 506.Position relationship and annexation between the 3rd condenser 54 and the first solvent recovery tank 55 are identical with embodiment 1, and all the other structures of the present embodiment are also identical with embodiment 1.

Claims (10)

1. a phthalocyanine compound synthesizer, is characterized in that comprising the first reactor, the first condenser, the second reactor and the second condenser;

The cavity of the first reactor is communicated with the cavity of the second reactor by the first Material pipeline;

The first condenser comprises the first condenser shell, in the first condenser shell, be provided with the first upper spacer and the first lower clapboard, the first upper spacer and the first lower clapboard are separated into the first condenser shell the first upper chamber of arranging from top to bottom, the first condensation chamber and the first fluid reservoir, in the first condensation chamber, be provided with multiple the first heat-exchange tubes, the first heat-exchange tube lower end is communicated with the cavity of the first fluid reservoir, the first heat-exchange tube upper end is communicated with the cavity of the first upper chamber, the sidewall of the first condensation chamber is provided with the first cooling fluid entrance and the first cooling liquid outlet, the first cooling fluid entrance and the first cooling liquid outlet are all communicated with the cavity of the first condensation chamber, the first upper chamber is provided with the first air inlet, the sidewall of the first fluid reservoir is provided with the first gas outlet and the first solvent refluxing mouth, and the first gas outlet is in the first solvent refluxing mouth top, and the first fluid reservoir bottom is provided with the first row mouth of a river, and first row mouth of a river place is provided with first row taps valve, the cavity of the first reactor is communicated with the first air inlet by the first mixed gas delivery pipe, the first solvent refluxing mouth is communicated with the cavity of the first reactor by the first solvent refluxing pipe,

The second condenser comprises the second condenser shell, in the second condenser shell, be provided with the second upper spacer and the second lower clapboard, the second upper spacer and the second lower clapboard are separated into the second condenser shell the second upper chamber of arranging from top to bottom, the second condensation chamber and the second fluid reservoir, in the second condensation chamber, be provided with multiple the second heat-exchange tubes, the second heat-exchange tube lower end is communicated with the cavity of the second fluid reservoir, the second heat-exchange tube upper end is communicated with the cavity of the second upper chamber, the sidewall of the second condensation chamber is provided with the second cooling fluid entrance and the second cooling liquid outlet, the second cooling fluid entrance and the second cooling liquid outlet are all communicated with the cavity of the second condensation chamber, the second upper chamber is provided with the second air inlet, the sidewall of the second fluid reservoir is provided with the second gas outlet and the second solvent refluxing mouth, and the second gas outlet is in the second solvent refluxing mouth top, and the second fluid reservoir bottom is provided with the second row mouth of a river, and second row mouth of a river place is provided with second row taps valve, the cavity of the second reactor is communicated with the second air inlet by the second mixed gas delivery pipe, the second solvent refluxing mouth is communicated with the cavity of the second reactor by the second solvent refluxing pipe, and the second gas outlet is communicated with the cavity of the first reactor by the 3rd mixed gas delivery pipe.

2. phthalocyanine compound synthesizer according to claim 1, is characterized in that: on described the first gas outlet, be connected with blast pipe, blast pipe is provided with pressure-control valve.

3. phthalocyanine compound synthesizer according to claim 1 and 2, is characterized in that: described the first reactor is provided with first heater and the first agitating device; The second reactor is provided with secondary heating mechanism and the second agitating device.

4. phthalocyanine compound synthesizer according to claim 1 and 2, is characterized in that: on described the first solvent refluxing pipe, have the first U-shaped liquid storage pipe; The first U-shaped liquid storage pipe comprises the first vertical feed liquor pipeline section, the first horizontal pipeline section and the first vertical fluid pipeline section, and the first vertical feed liquor pipeline section lower end connects the first horizontal pipeline section front end, and the first horizontal pipeline section rear end connects the first vertical fluid pipeline section lower end.

5. phthalocyanine compound synthesizer according to claim 1 and 2, is characterized in that: on described the second solvent refluxing pipe, have the second U-shaped liquid storage pipe; The second U-shaped liquid storage pipe comprises the second vertical feed liquor pipeline section, the second horizontal pipeline section and the second vertical fluid pipeline section, and the second vertical feed liquor pipeline section lower end connects the second horizontal pipeline section front end, and the second horizontal pipeline section rear end connects the second vertical fluid pipeline section lower end.

6. phthalocyanine compound synthesizer according to claim 1 and 2, is characterized in that: described phthalocyanine compound synthesizer also comprises Minton dryer, and Minton dryer comprises the 3rd reactor, the 3rd condenser, the first solvent recovery tank and vavuum pump, the cavity of the second reactor is communicated with the cavity of the 3rd reactor by the second Material pipeline, and the 3rd reactor is provided with the 3rd heater, the 3rd condenser comprises the 3rd condenser shell, in the 3rd condenser shell, be provided with the 3rd upper spacer and the 3rd lower clapboard, the 3rd upper spacer and the 3rd lower clapboard are separated into the 3rd condenser shell the 3rd upper chamber of arranging from top to bottom, the 3rd condensation chamber and the 3rd lower chamber, in the 3rd condensation chamber, be provided with multiple the 3rd heat-exchange tubes, the 3rd heat-exchange tube lower end is communicated with the cavity of the 3rd lower chamber, the 3rd heat-exchange tube upper end is communicated with the cavity of the 3rd upper chamber, the sidewall of the 3rd condensation chamber is provided with the 3rd cooling fluid entrance and the 3rd cooling liquid outlet, the 3rd cooling fluid entrance and the 3rd cooling liquid outlet are all communicated with the cavity of the 3rd condensation chamber, the cavity of the 3rd reactor is communicated with the cavity of the 3rd lower chamber, and the cavity of the 3rd upper chamber is communicated with vavuum pump, the first solvent recovery tank is located at the 3rd condenser below, and the cavity of the 3rd lower chamber is communicated with the cavity of the first solvent recovery tank.

7. phthalocyanine compound synthesizer according to claim 6, is characterized in that: described the second Material pipeline is provided with the second conveying switch valve.

8. phthalocyanine compound synthesizer according to claim 6, is characterized in that: described Minton dryer also comprises the 4th condenser and the second solvent recovery tank, the 4th condenser comprises the 4th condenser shell, in the 4th condenser shell, be provided with the 4th upper spacer and the 4th lower clapboard, the 4th upper spacer and the 4th lower clapboard are separated into the 4th condenser shell the 4th upper chamber of arranging from top to bottom, the 4th condensation chamber and the 4th lower chamber, in the 4th condensation chamber, be provided with multiple the 4th heat-exchange tubes, the 4th heat-exchange tube lower end is communicated with the cavity of the 4th lower chamber, the 4th heat-exchange tube upper end is communicated with the cavity of the 4th upper chamber, the sidewall of the 4th condensation chamber is provided with the 4th cooling fluid entrance and the 4th cooling liquid outlet, the 4th cooling fluid entrance and the 4th cooling liquid outlet are all communicated with the cavity of the 4th condensation chamber, the cavity of described the 3rd upper chamber is communicated with the cavity of the 4th lower chamber, and the cavity of the 4th upper chamber is communicated with vavuum pump, the second solvent recovery tank is located at the 4th condenser below, and the cavity of the 4th lower chamber is communicated with the cavity of the second solvent recovery tank.

9. phthalocyanine compound synthesizer according to claim 6, it is characterized in that: between described the 3rd reactor and the 3rd condenser, be provided with surge tank, surge tank is located at the 3rd reactor top, surge tank is provided with vapour inlet and vapor outlet port, the 3rd cavity of reactor and the vapour inlet of surge tank are communicated with, and the vapor outlet port of surge tank is communicated with the cavity of the 3rd lower chamber.

10. phthalocyanine compound synthesizer according to claim 9, it is characterized in that: between described surge tank and the 3rd condenser, be provided with cyclone separator, the vapor outlet port of surge tank is communicated with the air inlet of cyclone separator, and the gas outlet of cyclone separator is communicated with the cavity of the 3rd lower chamber.

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