CN206483474U - A kind of production of resins anti-clogging reactor - Google Patents

Abstract

The utility model discloses a kind of production of resins anti-clogging reactor, including the reactor with heating tube, the upper end of reactor is provided with stirring motor, the upper end side of reactor is provided with feed pipe, the upper end opposite side of reactor is provided with probe tube, the periphery of reactor is provided with chuck, the lower end of reactor is provided with discharge nozzle, the periphery of discharge nozzle is fixedly connected with muff, the first thermally conductive sheet is inlaid with the madial wall of reactor, the second thermally conductive sheet is inlaid with the bottom surface of reactor, first thermally conductive sheet and the second thermally conductive sheet are fixedly connected, heat conduction ring is inlaid with the madial wall of discharge nozzle, the one end of second thermally conductive sheet away from the first thermally conductive sheet is fixedly connected with heat conduction ring.The utility model can be realized without additionally increasing heater, and hardening of resin is prevented by the heat of reactor itself, very convenient.

Description

A kind of production of resins anti-clogging reactor

Technical field

The utility model is related to reactor field, more specifically belongs to a kind of production of resins anti-clogging reactor.

Background technology

Resin reaction kettle is divided into high-temperature resin reactor (150 DEG C -300 DEG C) by the height of reaction temperature and low-temperature resins are anti- Kettle (60 DEG C -150 DEG C) is answered, resin reaction kettle is the most important equipment of resin complete production unit, is resin manufacturing processes Nucleus equipment, mainly for the production of unsaturated polyester resin, phenolic resin, alkyd resin, epoxy resin, ABS resin, paint Deng the complete reactor of resin is by reaction pot, vertical still, horizontal condenser, cistern, oil spilling groove, pipeline（Thinning vessel）Deng Composition, the use stainless steel of a complete set of equipment and material contact portion makes, and can be set in Stainless Steel Coil or chuck and sets in kettle Stainless Steel Coil.

Because the character of resin in itself is easily freezed in the case where temperature is relatively low, the heating tube of General reactions kettle is arranged on On the wall of side, so when resin discharges from reactor by discharge nozzle, temperature reduction is easy at reactor bottom and discharge nozzle Solidification, once solidification attendant's cleaning gets up cumbersome, is added at the bottom of reactor and discharge nozzle in the prior art If heater is heated to the bottom of reactor and discharge nozzle, so as to prevent hardening of resin, this mode needs extra Increase heater, and also need to safeguard heater, device for simultaneous heating needs to use the energy to cause the energy Waste, it is inconvenient.

Utility model content

The purpose of this utility model is to provide a kind of production of resins anti-clogging reactor, for existing in the prior art Need additionally to increase heater, and also need to safeguard heater, device for simultaneous heating needs to use the energy to make Into the energy waste the problem of, it can be realized without additionally increasing heater, and tree is prevented by the heat of reactor itself Fat solidifies, very convenient.

To solve the above problems, the utility model is adopted the following technical scheme that：

A kind of production of resins anti-clogging reactor, including the reactor 2 with heating tube, the upper end of the reactor 2 Provided with stirring motor 5, the lower end of reactor 2 is provided with lower carriage 4, and the top side of reactor 2 is provided with feed pipe 1, described The top opposite side of reactor 2 is provided with probe tube 6, and the outer wall of reactor 2 is provided with chuck 3, it is characterised in that：The reactor 2 Lower end is provided with discharge nozzle 7, and the outer wall of discharge nozzle 7, which is set with, to be inlaid with first on muff 8, the madial wall of reactor 2 and lead The second thermally conductive sheet 10 is inlaid with backing 9, the bottom surface of reactor 2, the thermally conductive sheet 10 of the first thermally conductive sheet 9 and second, which is fixed, to be connected Connect, be inlaid with heat conduction ring 11 on the madial wall of discharge nozzle 7, the one end of second thermally conductive sheet 10 away from the first thermally conductive sheet 9 and Heat conduction ring 11 is fixedly connected, and the inside of discharge nozzle 7 is provided with heat-insulation chamber 12.

Preferably, the width of heat conduction ring 11 is equal to the length of discharge nozzle 7, makes resin to absorb to come all the time during discharging From the heat of heat conduction ring, solidification is prevented.

Preferably, the surface of the first thermally conductive sheet 9, the second thermally conductive sheet 10 and heat conduction ring 11 scribbles waterproof layer, prevents reaction The first thermally conductive sheet of the more corrosion of hot-air moisture, the second thermally conductive sheet and heat conduction ring in kettle, influence thermal conductivity.

Preferably, heat-preservation cotton is filled with heat-insulation chamber 12, heat losses are preferably prevented, the energy is saved.

Preferably, the inner side of chuck 3 is provided with heat-insulation layer, and the outside of the chuck 3 is provided with thermal insulation layer, and heat-insulation layer reduces reaction The loss of kettle heat, saves the energy, and thermal insulation layer prevents user's imprudence haptoreaction kettle surface to be burned.

Preferably, the second thermally conductive sheet 10 is evenly spaced on the bottom surface of reactor 2, is passed through between second thermally conductive sheet 10 Heat-conducting plate 13 is connected, and is made even heat branch in the bottom of reactor, is effectively prevented hardening of resin.

Heat in reactor 2 is oriented to the second thermally conductive sheet 10 by the utility model by the first thermally conductive sheet 9, then second is led Backing 10 by heat be oriented to discharge nozzle 7 at heat conduction ring 11 on, make reactor 2 bottom and discharge nozzle 7 at temperature rise, resin It will not be solidified during discharging, it is very convenient.

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

Heat in reactor is oriented to the second thermally conductive sheet, then the second heat conduction by 1 the utility model by the first thermally conductive sheet Heat is oriented on the heat conduction ring at discharge nozzle by piece, make reactor bottom and discharge nozzle at temperature rise, resin will not go out Solidified during material, it is very convenient.

The width of 2 heat conduction rings is equal to the length of discharge nozzle, resin is absorbed from heat conduction ring all the time during discharging Heat, prevent solidification.

The surface of 3 first thermally conductive sheets, the second thermally conductive sheet and heat conduction ring scribbles waterproof layer, prevents the hot-air in reactor The first thermally conductive sheet of the more corrosion of moisture, the second thermally conductive sheet and heat conduction ring, influence thermal conductivity.

Heat-preservation cotton is filled with 4 heat-insulation chambers, heat losses are preferably prevented, the energy is saved.

The inner side of 5 chucks is provided with heat-insulation layer, and the outside of the chuck is provided with thermal insulation layer, and heat-insulation layer reduces reactor heat It is lost in, saves the energy, thermal insulation layer prevents user's imprudence haptoreaction kettle surface to be burned.

6 second thermally conductive sheets are evenly spaced on the bottom surface of reactor, are connected between second thermally conductive sheet by heat-conducting plate, Make even heat branch in the bottom of reactor, effectively prevent hardening of resin.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model；

Fig. 2 is the utility model reactor internal structure schematic diagram；

Fig. 3 is enlarged diagram at Fig. 2 A；

Fig. 4 is the sectional view of the utility model discharge nozzle.

Label is as follows in figure：1 feed pipe, 2 reactors, 3 chucks, 4 lower carriages, 5 stirring motors, 6 probe tubes, 7 discharge nozzles, 8 muffs, 9 first thermally conductive sheets, 10 second thermally conductive sheets, 11 heat conduction rings, 12 heat-insulation chambers, 13 heat-conducting plates.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment；Technical scheme in the utility model embodiment is carried out Clearly and completely describe；Obviously；Described embodiment is only a part of embodiment of the utility model；Rather than whole Embodiment.Based on the embodiment in the utility model；Those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment obtained；Belong to the scope of the utility model protection.

Embodiment 1：

Referring to Fig. 1-4, a kind of production of resins anti-clogging reactor, including the reactor 2 with heating tube, the reaction The upper end of kettle 2 is provided with stirring motor 5, and the lower end of reactor 2 is provided with lower carriage 4, and the top side of reactor 2 is provided with charging Pipe 1, the top opposite side of reactor 2 is provided with probe tube 6, and the outer wall of reactor 2 is provided with chuck 3, the lower end of reactor 2 Provided with discharge nozzle 7, the outer wall of discharge nozzle 7 is set with muff 8, the madial wall of reactor 2 and is inlaid with the first thermally conductive sheet 9, the second thermally conductive sheet 10 is inlaid with the bottom surface of reactor 2, and first thermally conductive sheet 9 is fixedly connected with the second thermally conductive sheet 10, Heat conduction ring 11, second thermally conductive sheet 10 one end and heat conduction away from the first thermally conductive sheet 9 are inlaid with the madial wall of discharge nozzle 7 Ring 11 is fixedly connected, and the inside of discharge nozzle 7 is provided with heat-insulation chamber 12；The heat in reactor is oriented to the by the first thermally conductive sheet Two thermally conductive sheets, then the second thermally conductive sheet by heat be oriented to discharge nozzle at heat conduction ring on, make at bottom and the discharge nozzle of reactor Temperature is raised, and resin will not solidify during discharging, very convenient.

The width of heat conduction ring 11 is equal to the length of discharge nozzle 7, resin is absorbed from heat conduction all the time during discharging The heat of ring, prevents solidification.The surface of first thermally conductive sheet 9, the second thermally conductive sheet 10 and heat conduction ring 11 scribbles waterproof layer, prevents anti- The first thermally conductive sheet of the more corrosion of the hot-air moisture in kettle, the second thermally conductive sheet and heat conduction ring are answered, thermal conductivity is influenceed.In heat-insulation chamber 12 Filled with heat-preservation cotton, heat losses are preferably prevented, the energy is saved.The inner side of chuck 3 is provided with outside heat-insulation layer, the chuck 3 Side is provided with thermal insulation layer, and heat-insulation layer reduces the loss of reactor heat, saves the energy, and thermal insulation layer prevents user's imprudence from contacting anti- Kettle surface is answered to be burned.Second thermally conductive sheet 10 is evenly spaced on the bottom surface of reactor 2, is passed through between second thermally conductive sheet 10 Heat-conducting plate 13 is connected, and is made even heat branch in the bottom of reactor, is effectively prevented hardening of resin.

Operation principle of the present utility model：When reactor 2 works, feed, stirring motor 5 is operated, heat from feed pipe 1 Pipe heating response kettle 2, while can be sampled from probe tube 6, chuck 3 can be incubated to reactor 2, reduce heat losses, when When needing discharging, the heat of the side wall of reactor 2 is oriented to the second thermally conductive sheet by the side wall of heating tube heating response kettle 2, the first thermally conductive sheet 9 10, even heat is dispersed in the bottom of reactor 2 by heat-conducting plate 13 by the second thermally conductive sheet 10, and then the second thermally conductive sheet 10 is by warm Amount is oriented in the heat conduction ring 11 inlayed on the inwall of discharge nozzle 7, and the heat that the heat-insulation chamber 12 in discharge nozzle 7 reduces heat conduction ring 11 passes through Discharge nozzle 7 is outwardly lost in, while muff 8 can be also incubated to discharge nozzle 7, the resin of liquid is along anti-in reactor 2 Answer the bottom of kettle 2 to flow to the surface of heat conduction ring 11 in discharge nozzle 7, be then out coming, will not because temperature is too low and frozen plug Discharge nozzle 7.

It is described above；Only the utility model preferably embodiment；But protection domain of the present utility model is not It is confined to this；Any one skilled in the art is in the technical scope that the utility model is disclosed；According to this practicality New technical scheme and its improvement design is subject to equivalent substitution or change；It should all cover in protection domain of the present utility model It is interior.

Claims (6)

1. a kind of production of resins anti-clogging reactor, including the reactor with heating tube（2）, the reactor（2）It is upper End is provided with stirring motor（5）, the reactor（2）Lower end is provided with lower carriage（4）, the reactor（2）Top side be provided with into Expects pipe（1）, the reactor（2）Top opposite side is provided with probe tube（6）, the reactor（2）Outer wall is provided with chuck（3）, its It is characterised by：The reactor（2）Lower end is provided with discharge nozzle（7）, the discharge nozzle（7）Outer wall is set with muff（8）, it is described Reactor（2）The first thermally conductive sheet is inlaid with madial wall（9）, the reactor（2）The second thermally conductive sheet is inlaid with bottom surface（10）, First thermally conductive sheet（9）With the second thermally conductive sheet（10）It is fixedly connected, the discharge nozzle（7）Heat conduction ring is inlaid with madial wall （11）, second thermally conductive sheet（10）Away from the first thermally conductive sheet（9）One end and heat conduction ring（11）It is fixedly connected, the discharge nozzle （7）Inside is provided with heat-insulation chamber（12）.

2. a kind of production of resins anti-clogging reactor according to claim 1, it is characterised in that：The heat conduction ring（11） Width be equal to discharge nozzle（7）Length.

3. a kind of production of resins anti-clogging reactor according to claim 1, it is characterised in that：First thermally conductive sheet （9）, the second thermally conductive sheet（10）And heat conduction ring（11）Surface scribble waterproof layer.

4. a kind of production of resins anti-clogging reactor according to claim 1, it is characterised in that：The heat-insulation chamber（12） It is interior to be filled with heat-preservation cotton.

5. a kind of production of resins anti-clogging reactor according to claim 1, it is characterised in that：The chuck（3）'s Inner side is provided with heat-insulation layer, the chuck（3）Outside be provided with thermal insulation layer.

6. a kind of production of resins anti-clogging reactor according to claim 1, it is characterised in that：Second thermally conductive sheet （10）It is evenly spaced in reactor（2）Bottom surface on, second thermally conductive sheet（10）Between pass through heat-conducting plate（13）Connection.