CN204602166U - A kind of rapid temperature rise and drop reactor - Google Patents

Abstract

The utility model discloses a kind of rapid temperature rise and drop reactor, comprise kettle, feeding mouth and cooling pipe, described kettle sidewall is enclosed with cooling pipe, is provided with circulation duct in described kettle, described circulation duct is positioned on the inner wall of kettle at cooling pipe place, and circulation duct is connected with feeding mouth.Circulation duct is positioned on the inner wall of kettle at cooling pipe place, make the cooling of cooling pipe or heating effect can directly act on fluid mechanics in circulation duct, accelerate its cooling or heating, the temperature of fluid was reduced rapidly in the stage that enters, reduce the impact on material in reactor, and when leading to hot gas in cooling duct, the object that fluid is rapidly heated can be played.

Description

A kind of rapid temperature rise and drop reactor

Technical field

The utility model relates to a kind of reactor, and more particularly, it relates to a kind of rapid temperature rise and drop reactor.

Background technology

Namely reactor has the container of physics or chemical reaction, and by stirring solution the agitator in container, the mixing velocity of accelerating liquid, realizes mixture function at a high speed.

Existing a kind of reactor, comprises kettle, and kettle upper end is connected with the feeding mouth entered for fluid, and kettle side wrap has cooling pipe, is connected with cooling fluid in cooling pipe, is controlled the temperature of reactor.But existing this reactor, when reactor adds the fluid of stirring, its fluid directly enters in kettle from the middle part of end cap above kettle, and the cooling pipe of the kettle only external wall of cooling reactor, fluid is when entering kettle, need the cooling that a large amount of time carries out slowly, fluid is to enter kettle initial stage cooling velocity comparatively slow, and cooling effect is lower.

Utility model content

For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of rapid temperature rise and drop reactor, when fluid enters kettle, can cool fast fluid or heat.

For achieving the above object, the utility model provides following technical scheme: a kind of rapid temperature rise and drop reactor, comprise kettle, feeding mouth and cooling pipe, described kettle sidewall is enclosed with cooling pipe, circulation duct is provided with in described kettle, described circulation duct is positioned on the inner wall of kettle at cooling pipe place, and circulation duct is connected with feeding mouth.

By adopting technique scheme, circulation duct is connected with feeding mouth, fluid foods can flow in circulation duct from feeding mouth, and circulation duct is positioned on the inner wall of kettle at cooling pipe place, make the cooling of cooling pipe or heating effect can directly act on fluid mechanics in circulation duct, accelerate its cooling or heating, the temperature of fluid was reduced rapidly in the stage that enters, reduce the impact on material in reactor, and when leading to hot gas in cooling duct, the object that fluid is rapidly heated can be played.

The utility model is set to further: described cooling pipe spiral arranges and is wrapped on the outer surface of kettle sidewall, and described circulation duct spiral arranges and is positioned at the inner surface of kettle sidewall, and described circulation duct and cooling pipe are oppositely arranged about kettle sidewall.

By adopting technique scheme, cooling pipe and the equal spiral of circulation duct are arranged, and cooling pipe is corresponding with circulation duct, the flow direction of circulation duct is together advanced along cooling pipe, make circulation duct be in real-time cooling/heated condition, improve heat exchanger effectiveness, cooling heats up more rapid.

The utility model is set to further: the cross section semicircular in shape of described circulation duct, and the center of circle, cross section of described circulation duct is positioned on the inner surface of kettle sidewall.

By adopting technique scheme, pipeline section semicircular in shape, make the structural strength of circulation duct higher, the center of circle in cross section is positioned at the inner surface of sidewall, the inner surface contact area of fluid mechanics and sidewall is maximized, the heat exchange of circulation duct and cooling pipe maximizes, and improves intensification cooling rate.

The utility model is set to further: described circulation duct has outlet, and described outlet is positioned at autoclave body bottom.

By adopting technique scheme, the outlet of circulation duct is positioned at autoclave body bottom and first can utilizes fully cooling duct, and fluid is fully cooled; Secondly, fluid enters from kettle top feeding mouth, is flowed out by the outlet of circulation duct from autoclave body bottom, and fluid is when flowing into kettle, and flow from bottom to up, fluid pours in from below, reduces noise, reduces volatilization.

The utility model is set to further: described kettle outer surface is provided with heat preservation sandwich layer, and heat preservation sandwich layer covers on cooling pipe, and heat preservation sandwich layer vacuum is arranged or fill insulant material.

By adopting technique scheme, the setting of heat preservation sandwich layer is for reducing cooling pipe and extraneous heat exchange, and insulation material can be foamed plastic, cotton or other insulation gas.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model rapid temperature rise and drop reactor embodiment;

Fig. 2 is the structural representation of the utility model rapid temperature rise and drop reactor embodiment;

Fig. 3 is the sectional view of the utility model rapid temperature rise and drop reactor embodiment;

Fig. 4 is the partial enlarged drawing at A place in Fig. 3.

Reference numeral: 1, kettle; 11, cooling pipe; 2, feeding mouth; 3, circulation duct; 4, heat preservation sandwich layer.

Detailed description of the invention

Referring to figs. 1 through Fig. 4, the utility model rapid temperature rise and drop reactor embodiment is described further.

A kind of rapid temperature rise and drop reactor, comprise kettle 1, feeding mouth 2 and cooling pipe 11, described kettle 1 sidewall is enclosed with cooling pipe 11, circulation duct 3 is provided with in described kettle 1, described circulation duct 3 is positioned on kettle 1 inwall at cooling pipe 11 place, circulation duct 3 includes an inlet and an outlet, and entrance is connected with feeding mouth 2, and outlet is positioned at bottom kettle 1.Cooling pipe 11 and circulation duct 3 all spiral are arranged, and cooling pipe 11 is positioned at kettle 1 wall outer surface, and circulation duct 3 is welded in kettle 1 side wall inner surfaces, and circulation duct 3 and cooling pipe 11 are oppositely arranged about kettle 1 sidewall.

The entrance of circulation duct 3 is connected with feeding mouth 2, fluid foods flows in circulation duct 3 from feeding mouth 2, and circulation duct 3 is positioned on kettle 1 inwall at cooling pipe 11 place, make the cooling of cooling pipe 11 or heating effect can directly act on fluid mechanics in circulation duct 3, accelerate its cooling or heating, the temperature of fluid was reduced rapidly in the stage that enters, reduces the impact on material in reactor, and when leading to hot gas in cooling duct, the object that fluid is rapidly heated can be played.

The flow direction of circulation duct 3 is together advanced along cooling pipe 11, makes circulation duct 3 be in real-time cooling/heated condition, improves heat exchanger effectiveness, and cooling heats up more rapid.

The outlet of circulation duct 3 is positioned at bottom kettle 1 and first can utilizes fully cooling duct 11, and fluid is fully cooled; Secondly, fluid enters from kettle 1 top feeding mouth, is flowed out from the outlet bottom kettle 1 by circulation duct 3, and fluid is when flowing into kettle, and flow from bottom to up, fluid pours in from below, reduces noise, reduces volatilization.Compare fluid directly to enter from feeding mouth 2, first through air, clashing into the liquid level in kettle 1, volatile quantity is large, if camera is oily, gasoline etc. very easily produces a large amount of escaping gases, shock liquid level also can produce a large amount of noises simultaneously.Therefore, when fluid pours in reactor below liquid level through the outlet of circulation duct 3, liquid level can be raised stably, avoids the contact of fluid and air, reduces noise and volatilize fluid.

Wherein, the cross section semicircular in shape of described circulation duct 3, the center of circle, cross section of described circulation duct 3 is positioned on the inner surface of kettle 1 sidewall.

Pipeline section semicircular in shape, make the structural strength of circulation duct 3 higher, the center of circle in cross section is positioned at the inner surface of sidewall, and the inner surface contact area of fluid mechanics and sidewall is maximized, circulation duct 3 maximizes with the heat exchange of cooling pipe 11, improves intensification cooling rate.

Wherein, described kettle 1 outer surface is provided with heat preservation sandwich layer 4, and heat preservation sandwich layer 4 covers on cooling pipe 11, is filled with polyethylene foamed material between heat preservation sandwich layer 4 and kettle 1 outer surface.

The setting of heat preservation sandwich layer 4 is for reducing cooling pipe 11 and extraneous heat exchange, foaming PE(and polyethylene foamed) be a kind of novel environment-friendlygreen green material, environmentally safe, foam PE without degraded under the condition loseing light, long service life, and the PE heat insulation effect that foams is good, effectively can ensure in cooling pipe 11 and between air heat exchange.

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 (5)

1. a rapid temperature rise and drop reactor, comprise kettle, feeding mouth and cooling pipe, described kettle sidewall is enclosed with cooling pipe, it is characterized in that: be provided with circulation duct in described kettle, described circulation duct is positioned on the inner wall of kettle at cooling pipe place, and circulation duct is connected with feeding mouth.

2. rapid temperature rise and drop reactor according to claim 1, it is characterized in that: described cooling pipe spiral arranges and is wrapped on the outer surface of kettle sidewall, described circulation duct spiral arranges and is positioned at the inner surface of kettle sidewall, and described circulation duct and cooling pipe are oppositely arranged about kettle sidewall.

3. rapid temperature rise and drop reactor according to claim 1, is characterized in that: the cross section semicircular in shape of described circulation duct, and the center of circle, cross section of described circulation duct is positioned on the inner surface of kettle sidewall.

4. rapid temperature rise and drop reactor according to claim 1, it is characterized in that: described circulation duct has outlet, described outlet is positioned at autoclave body bottom.

5. rapid temperature rise and drop reactor according to claim 1, is characterized in that: described kettle outer surface is provided with heat preservation sandwich layer, and heat preservation sandwich layer covers on cooling pipe, and heat preservation sandwich layer vacuum is arranged or fill insulant material.