CN205056021U - Reation kettle with condensing equipment - Google Patents

Abstract

The utility model discloses a reation kettle with condensing equipment, the reactor comprises a kettle, cauldron body surface face is equipped with the coolant jacket, it has the coolant liquid to lead to in the coolant jacket, the coolant jacket outside is equipped with cooling back installation, cooling device includes the contact tube, the condenser pipe, condenser and back flow, the export UNICOM of contact tube and coolant jacket, because the contact tube is direct gaseous derivation the that forms high temperature cooling liquid, with the vertical setting of contact tube in reation kettle level top, can prevent that the staff from touching, after high temperature gaseous state coolant liquid is derived to the contact tube, through under condenser pipe excessive, its drop in temperature, cool off through the condenser once more, the problem of the contact tube scald is solved, and become the coolant liquid with the gaseous condensation of high temperature, again, lead back the coolant jacket by the back flow afterwards, finally form refrigeration cycle, and this kind of circulation is the conversion of the state of passing through gases liquid to be formed, do not need outside adding to establish the circulating pump and circulate, which is simple and convenient.

Description

A kind of reactor with condensing unit

Technical field

The utility model relates to a kind of stirred vessel, and more particularly, it relates to a kind of reactor with condensing unit.

Background technology

Namely reactor has the container of physics or chemical reaction, by the structural design of container and parameter configuration, realizes the mixture function of the heating of technological requirement, evaporation, cooling and low high speed.Reactor is made up of kettle, kettle cover, chuck, agitator, transmission device, gland seal device, supporting etc.Agitating device is when ratio of height to diameter is larger, and available multiple impellers leaf, also can match arbitrarily according to the requirement of user.Outside still wall, chuck is set, or heat-transfer surface is set in device, also carry out heat exchange by outer circulation.Supporting base has supporting type or hanging support etc.

Reactor of the prior art in use, generally outer setting heat-exchange device is all set all outside, ensure the temperature in chuck, its structure to application number for the reactor conduction oil induction system disclosed in 201510027286.7 is similar, man-hour is added at some reactors, because temperature is too high, need to lower the temperature, therefore external heat exchanging devices adopts cooling device, be made up of one and the conduit of chuck UNICOM and condenser, cooling fluid makes it be vaporized in chuck by the temperature in reactor, derived by conduit, again by condenser by its cooling down, import to chuck again, realize cycle heat exchange.

All be made up of the cooling fluid of high-temperature evaporation in the top conduit of this heat-exchange method, its temperature is high, therefore, ordinary a close-ups is carried out to reactor when, people easily encounters conduit, and guide rod is in order to ensure its service life, most employing metal material is made, and like this, the temperature of conduit is equally very high, therefore easily cause scald, there is potential safety hazard.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of reactor, and this reactor can prevent from encountering cooling device when usually observing, and solves the potential safety hazard that it exists.

For achieving the above object, the utility model provides following technical scheme: a kind of reactor with condensing unit, comprise kettle, described kettle surface is provided with coolant jacket, cooling fluid is connected with in described coolant jacket, described coolant jacket outside is provided with cooling back installation, described cooling device comprises delivery line, condenser pipe, condenser and return duct, the outlet UNICOM of described delivery line and coolant jacket, and delivery line is vertically arranged on above reactor level, described condenser pipe one end and delivery line UNICOM, the other end and condenser UNICOM, described return duct one end and condenser UNICOM, the entrance UNICOM of the other end and coolant jacket.

The utility model is set to further: described delivery line outer wall is provided with heat-insulation layer.

The utility model is set to further: described delivery line is provided with the temperature controller for controlling temperature in conduit.

The utility model is set to further: described temperature controller adopts electronic thermostat, described electronic thermostat comprise connect successively test side, controller and heater, described test side and heater are all arranged on delivery line inside.

Compared with prior art, the utility model adopts delivery line to be vertically arranged on the upper end of reactor, because delivery line is directly derived by the gas that high temperature coolant is formed, its temperature is relatively the highest, namely there is potential safety hazard in delivery line, and the delivery line be vertically arranged on above reactor level, can prevent staff from touching, and condenser pipe excessive under, its temperature declines, again cooled by condenser, solve the problem that delivery line is scalded, and cooling fluid that the gas cold of high temperature is congealed into, finally again lead back to coolant jacket by return duct again, final formation cool cycles.

Accompanying drawing explanation

Fig. 1 is the structure chart of the utility model embodiment;

Fig. 2 is the enlarged drawing at A place in Fig. 1.

Reference numeral: 1, kettle; 2, coolant jacket; 3, delivery line; 4, condenser pipe; 5, condenser; 6, return duct; 7, heat-insulation layer; 8, temperature controller; 81, controller; 82, test side; 83, heater.

Detailed description of the invention

Referring to figs. 1 through Fig. 2, a kind of reactor embodiment with condensing unit of the utility model is described further.

As shown in Figure 1 to Figure 2, a kind of reactor with condensing unit, comprise kettle 1, described kettle 1 surface is provided with coolant jacket 2, cooling fluid is connected with in coolant jacket 2, coolant jacket 2 outside is provided with cooling back installation, cooling device comprises delivery line 3, condenser pipe 4, condenser 5 and return duct 6, the outlet UNICOM of delivery line 3 and coolant jacket 2, because delivery line 3 is directly derived by the gas that high temperature coolant is formed, its temperature is relatively the highest, namely there is potential safety hazard in delivery line 3, delivery line 3 is vertically arranged on above reactor level, can prevent staff from touching, condenser pipe 4 one end and delivery line 3 UNICOM, the other end and condenser 5 UNICOM, return duct 6 one end and condenser 5 UNICOM, the entrance UNICOM of the other end and coolant jacket 2, after high-temperature gas cooling fluid derives by delivery line 3, by condenser pipe 4 excessive under, its temperature declines, again cooled by condenser 5, solve the problem that delivery line 3 is scalded, and cooling fluid that the gas cold of high temperature is congealed into, finally again lead back to coolant jacket 2 by return duct 6 again, final formation cool cycles, and this circulation is formed by the conversion of the state of gas liquid, do not need outside to add circulating pump to circulate, simple and convenient.

Because delivery line 3 is the gas of deriving high temperature coolant formation straight up, like this, in the process upwards derived, can due to the impact of external environment condition, gas can be cooled, thus the cooling fluid that there will be high-temperature gas can not derive smoothly, when reaching delivery line 3 end, gas will liquefy, can not continue to rise, like this, cooling system can not be circulated, its cooling effect reduces, therefore, in order to ensure that gas can be derived smoothly, delivery line 3 outer wall arranges a heat-insulation layer 7, gas is incubated, make it can not liquefy before entering condenser pipe 4, thus ensure that gas is derived smoothly, finally reach circulation, heat-insulation layer 7 can be made up of the material with reflection characteristic of zinc-plated film or zinc-plated film, like this, when heat energy is to external radiation, can by the reflection of protective layer, place scattering and disappearing of heat energy, finally reach the effect of insulation.

Affect larger because this circulatory system of being carried out the change formation of state by cooling fluid receives external environment, therefore, delivery line 3 is provided with the temperature controller 8 for controlling temperature in conduit, like this, gas temperature can be ensured, finally reach the object transferred out by gas smoothly, and temperature controller 8 can adopt electronic thermostat 8 to realize, it is more accurate that electronic thermostat 8 temperature controls, electronic thermostat 8 comprises the test side 82 connected successively, controller 81 and heater 83, it is inner that test side 82 and heater 83 are all arranged on delivery line 3, internal temperature is detected in test side 82, and heater 83 heats inside, this electronic thermostat 8 can adopt application number be 201110299882.2 attemperating unit realize, also can adopt application number be 201420275843.8 electronic thermostat 8 realize.

The above is only preferred embodiment of the present utility model, protection domain of the present utility model be not only confined to above-described embodiment, and all technical schemes belonged under the utility model thinking all belong to protection domain of the present utility model.It should be pointed out that for those skilled in the art, do not departing from the some improvements and modifications under the utility model principle prerequisite, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (4)

1. the reactor with condensing unit, comprise kettle, described kettle surface is provided with coolant jacket, cooling fluid is connected with in described coolant jacket, it is characterized in that: described coolant jacket outside is provided with cooling back installation, described cooling device comprises delivery line, condenser pipe, condenser and return duct, the outlet UNICOM of described delivery line and coolant jacket, and delivery line is vertically arranged on above reactor level, described condenser pipe one end and delivery line UNICOM, the other end and condenser UNICOM, described return duct one end and condenser UNICOM, the entrance UNICOM of the other end and coolant jacket.

2. a kind of reactor with condensing unit according to claim 1, is characterized in that: described delivery line outer wall is provided with heat-insulation layer.

3. a kind of reactor with condensing unit according to claim 1, is characterized in that: described delivery line is provided with the temperature controller for controlling temperature in conduit.

4. a kind of reactor with condensing unit according to claim 3, it is characterized in that: described temperature controller adopts electronic thermostat, described electronic thermostat comprise connect successively test side, controller and heater, described test side and heater are all arranged on delivery line inside.