CN205815665U - A kind of reactor cooling system - Google Patents

Abstract

The utility model discloses a kind of reactor cooling system, aim to solve the problem that reactor cools down problem, its drip irrigation device is: a kind of reactor cooling system, including reactor, it is cased with outside described reactor cooling down bucket, it is provided with the first coolant in described cooling bucket, described cooling bucket connects cooling tower, described cooling tower connects cistern, described cistern connects water pump, described water pump connects water tank, described water tank is arranged on above cooling bucket, described water tank and cooling bucket connect, it is provided with cooling coil in described cooling bucket, the second coolant it is provided with in described cooling coil, described cooling coil connects cooling bath, described cooling bath connects centrifugal pump, described centrifugal pump and cooling coil connect.A kind of reactor cooling system good cooling effect of the present utility model.

Description

A kind of reactor cooling system

Technical field

This utility model relates to a kind of reactor, more specifically, it relates to a kind of reactor cooling system.

Background technology

In high-temperature liquid-phase course of reaction, it will usually relate to cooling requirement in various degree, current industrial a lot of the most all Using the built-in cooling coil of reactor, the cooling water in conjunction with input is lowered the temperature.But in actual mechanical process, due to reaction In still, the temperature of liquid phase is too high, and amount of solution is big, and when being initially passed through cooling water, the heat that cooling water absorbs is excessive, often boils Rise and even gasify, if the cooling water inflow passed through controls improper, in easily causing cooling coil, produce substantial amounts of steam, substantial amounts of If steam is too much discharged not in time, easily cause rupturing of cooling coil, on the one hand damage equipment, have impact on the smooth of reaction Carrying out, the product in reactor can be polluted by the cooling water on the other hand overflowed, and cooling effect is bad.

For the problems referred to above, disclosed in the Chinese patent of Publication No. CN205288372U, a kind of reactor cooling water is automatic Change and control device, be characterized in that: the utility model discloses a kind of reactor cooling water automatic control device, including anti- Answering still, be provided with cooling coil in reactor, reactor is provided with the cooling water inlet and coolant outlet being connected with cooling coil, Connecting at cooling water inlet and have inlet ductwork, inlet ductwork connects bosh, and connecting at coolant outlet has outlet Road, export pipeline is also connected with bosh；Inlet ductwork is provided with pump and flow control valve；Reactor is provided with temperature pick-up Device, temperature transmitter connects and has PLC module；Described flow control valve is connected with PLC module.

It is higher that such scheme has safety, and Automated condtrol effect is preferable, the spy that cooling effectiveness is higher and easy to operate Point.This utility model provides a kind of new technical scheme to solve the problems referred to above simultaneously.

Utility model content

The deficiency existed for prior art, the purpose of this utility model is to provide a kind of reactor cooling system, logical Cross at the reactor the most sheathed outer cooling bucket, by cooling bucket, reactor is lowered the temperature, in cooling bucket, be provided with acceleration simultaneously The cooling coil of cooling inner bucket water cooling, can improve the effect of reactor cooling further by cooling coil.

Above-mentioned technical purpose of the present utility model has the technical scheme that a kind of reactor cooling system System, including reactor, is cased with outside described reactor cooling down bucket, is provided with the first coolant, described cooling bucket in described cooling bucket Connecting and have cooling tower, described cooling tower connects cistern, and described cistern connects water pump, and described water pump connects water tank, Described water tank is arranged on above cooling bucket, and described water tank and cooling bucket connect, and are provided with cooling coil in described cooling bucket, described Being provided with the second coolant in cooling coil, described cooling coil connects cooling bath, and described cooling bath connects centrifugal pump, institute State centrifugal pump and cooling coil connects.

By using technique scheme, the cooling bucket at reactor overcoat, in cooling bucket, add the first coolant, By the first coolant and reactor wall contacts, lowering the temperature to reactor, cooling bucket is connected to cooling tower, and then temperature raises First coolant flows in cooling tower, is cooled down the first coolant by cooling tower, and cooling tower is connected to cistern, cooling After the first coolant flow to cistern stores, cistern is connected to water pump, and water pump is connected to water tank, and water tank is arranged on The top of cooling bucket, the first coolant being stored in cistern is transported in water tank by water pump again, then in water tank First coolant back flows back in cooling bucket again, lowers the temperature reactor, is also provided with cooler pan in cooling bucket simultaneously Pipe, is provided with the second coolant in cooling coil, the first coolant is quickly cooled down by cooling coil so that the first cooling Liquid cooling fluid promotes the cooling effect to reactor, cooling coil and cooling bath and connects, when the second coolant in cooling coil After temperature improves, flowing to cool down in cooling bath, cooling bath connects centrifugal pump, and centrifugal pump and cooling coil connect, cooling The second coolant cooled down in groove flows to carry out work of lowering the temperature in cooling coil by centrifugal pump again.

This utility model is further arranged to: the outer wall of described cooling coil and reactor is conflicted and connected.

By using technique scheme, in order to improve the cooling-down effect of reactor, cooling coil and reactor further Outer wall conflict connect, by the conflict with reactor outer wall, the cooling-down effect to reactor can be greatly promoted.

This utility model is further arranged to: be provided with temperature sensor in described cooling bucket.

By using technique scheme, in cooling bucket, it is provided with temperature sensor, can be known by temperature sensor The temperature conditions of road reactor, if temperature is the highest, can control centrifugal pump, improves the flow velocity of the second coolant, thus Promote the cooling-down effect to reactor.

This utility model is further arranged to: described centrifugal pump connects controller, described controller and temperature sensor Connect.

By using technique scheme, in order to realize automatically controlling, centrifugal pump is connected to controller, controller and temperature Sensor connects, and when temperature sensor detects that temperature is higher, passes the signal along to controller, and controller controls centrifugal pump and changes The flow velocity of the second coolant, thus realize automatization.

This utility model is further arranged to: described cooling coil is in the shape of a spiral.

By using technique scheme, in order to reach preferable cooling effect, cooling coil is arranged to helical form, carries High cooling coil and the contact area of the first coolant, promote cooling effect.

This utility model is further arranged to: described first coolant and the second coolant all use water.

By using technique scheme, the first coolant and the second coolant all use water, and cost is relatively low.

This utility model is further arranged to: described cooling coil connects useful water pipe, and described water pipe connects the fire hose Head.

By using technique scheme, the water temperature in cooling coil is higher, and cooling coil has been also connected with, with water pipe, using water Pipe may be used for workman and has a bath, and is effectively improved the utilization rate of resource.

This utility model is further arranged to: be provided with helical blade in described cooling bucket.

By using technique scheme, in order to promote the cooling bucket cooling-down effect to reactor further, at cooling bucket Inside it is also provided with helical blade, stirs the first coolant by helical blade, improve the mobility of the first coolant, effectively carry The high cooling-down effect to reactor.

This utility model is further arranged to: described cooling coil uses copper pipe.

By using technique scheme, in order to improve the heat absorption capacity of cooling coil, cooling coil uses copper pipe, copper The cooling coil of material has preferable heat conductivity, can absorb the heat of the first coolant rapidly, be effectively improved the first cooling The liquid cooling-down effect to reactor.

This utility model is further arranged to: scribble antirust coat on described cooling coil outer wall.

By using technique scheme, owing to cooling coil is arranged in cooling bucket, contact with the first coolant for a long time, In order to prevent cooling coil from getting rusty, the outer wall of cooling coil is coated with antirust coat, has prevented from getting rusty.

In sum, this utility model has the advantages that

One, by cooling bucket sheathed in the outside of reactor, by the first coolant in cooling bucket to reactor Lower the temperature；

Its two, by cooling bucket in be provided with cooling coil, by the second coolant supplement heat rejecter in cooling coil Reactor is lowered the temperature by bucket, promotes cooling-down effect.

Its three, by cooling bucket in be provided with helical blade, improve the mobility of the first coolant, promote further Cooling-down effect to reactor.

Accompanying drawing explanation

Fig. 1 is each several part connection diagram of the present embodiment；

Fig. 2 is the structural representation in cooling bucket.

In figure: 1, reactor；2, cooling bucket；3, cooling tower；4, cistern；5, water pump；6, water tank；7, cooling coil；8、 Cooling bath；9, centrifugal pump；10, water pipe is used；11, faucet；12, helical blade；13, the first coolant；14, the second coolant.

Detailed description of the invention

Below in conjunction with the accompanying drawings and embodiment, this utility model is described in detail.

A kind of reactor cooling system, as shown in Figure 1 and 2, include reactor 1, the cooling bucket 2 at reactor 1 overcoat, Adding the first coolant 13 in cooling bucket 2, the first coolant 13 uses water, and cost is relatively low, by the first coolant 13 He Reactor 1 wall contacts, lowers the temperature to reactor 1, and cooling bucket 2 is connected to cooling tower 3, the first coolant 13 that then temperature raises Flowing in cooling tower 3, cooled down the first coolant 13 by cooling tower 3, cooling tower 3 is connected to cistern 4, after cooling First coolant 13 flows to store in cistern 4, and cistern 4 is connected to water pump 5, and water pump 5 is connected to water tank 6, and water tank 6 sets Putting above cooling bucket 2, the first coolant 13 being stored in cistern 4 is transported in water tank 6, so by water pump 5 again The first coolant 13 in rear water box 6 back flows back in cooling bucket 2 again, lowers the temperature reactor 1, in order to promote further The cooling bucket 2 cooling-down effect to reactor 1, is also provided with helical blade 12 in cooling bucket 2, stirs the by helical blade 12 One coolant 13, improves the mobility of the first coolant 13, is effectively improved the cooling-down effect to reactor 1.

In cooling bucket 2, it is also provided with cooling coil 7 simultaneously, cooling coil 7 is arranged to helical form, improves cooler pan Pipe 7 and the contact area of the first coolant 13, effectively promote cooling effect, and the outer wall of cooling coil 7 and reactor 1 is conflicted even Connect, by the conflict with reactor 1 outer wall, the cooling-down effect to reactor 1 can be greatly promoted, cooling coil 7 is provided with Second coolant 14, the second coolant 14 uses water, and cost is relatively low, and the first coolant 13 is carried out the coldest by cooling coil 7 But so that the first coolant 13 coolant promotes the cooling effect to reactor 1, cooling coil 7 and cooling bath 8 connect, due to Cooling coil 7 is arranged in cooling bucket 2, contacts with the first coolant 13 for a long time, in order to prevent cooling coil 7 from getting rusty, in cooling It is coated with antirust coat on the outer wall of coil pipe 7, has prevented from getting rusty；After the second coolant 14 temperature in cooling coil 7 improves, flow to cold But cooling down in groove 8, cooling bath 8 connects has centrifugal pump 9, centrifugal pump 9 and cooling coil 7 to connect, and has cooled down in cooling bath 8 Second coolant 14 flows to carry out work of lowering the temperature in cooling coil 7 by centrifugal pump 9 again；Due to the water temperature in cooling coil 7 Higher, cooling coil 7 has been also connected with, with water pipe 10, may be used for workman with water pipe 10 and having a bath, be effectively improved the utilization of resource Rate.

Being provided with temperature sensor in cooling bucket 2, temperature sensor is connected to controller, and controller is connected to centrifugal pump 9, by temperature sensor it is known that the temperature conditions of reactor 1, when temperature sensor detects that temperature is higher, signal is passed Being delivered to controller, controller controls centrifugal pump 9 and changes the flow velocity of the second coolant 14, improves the flow velocity of the second coolant 14, from And promote the cooling-down effect to reactor 1, thus realize automatization.

The above is only preferred implementation of the present utility model, and protection domain of the present utility model is not limited merely to Above-described embodiment, all technical schemes belonged under this utility model thinking belong to protection domain of the present utility model.Should refer to Go out, for those skilled in the art, without departing from the some improvement under this utility model principle premise and Retouching, these improvements and modifications also should be regarded as protection domain of the present utility model.

Claims (10)

1. a reactor cooling system, including reactor (1), it is characterised in that: it is cased with outside described reactor (1) cooling down bucket (2), being provided with the first coolant (13) in described cooling bucket (2), described cooling bucket (2) connects cooling tower (3), described cooling Tower (3) connects cistern (4), and described cistern (4) connects water pump (5), and described water pump (5) connects water tank (6), described Water tank (6) is arranged on cooling bucket (2) top, described water tank (6) and cooling bucket (2) and connects, and is provided with cold in described cooling bucket (2) But coil pipe (7), are provided with the second coolant (14) in described cooling coil (7), described cooling coil (7) connects cooling bath (8), described cooling bath (8) connects centrifugal pump (9), and described centrifugal pump (9) and cooling coil (7) connect.

A kind of reactor cooling system the most according to claim 1, it is characterised in that: described cooling coil (7) and reaction The outer wall of still (1) is conflicted and is connected.

A kind of reactor cooling system the most according to claim 1, it is characterised in that: it is provided with in described cooling bucket (2) Temperature sensor.

A kind of reactor cooling system the most according to claim 3, it is characterised in that: described centrifugal pump (9) connects control Device processed, described controller and temperature sensor connect.

A kind of reactor cooling system the most according to claim 1, it is characterised in that: described cooling coil (7) is helically Shape.

A kind of reactor cooling system the most according to claim 1, it is characterised in that: described first coolant (13) and the Two coolants (14) all use water.

A kind of reactor cooling system the most according to claim 6, it is characterised in that: described cooling coil (7) connects to be had With water pipe (10), described water pipe (10) connects faucet (11).

A kind of reactor cooling system the most according to claim 1, it is characterised in that: it is provided with in described cooling bucket (2) Helical blade (12).

A kind of reactor cooling system the most according to claim 1, it is characterised in that: described cooling coil (7) uses copper Tubulation.

A kind of reactor cooling system the most according to claim 9, it is characterised in that: on described cooling coil (7) outer wall Scribble antirust coat.