CN205007955U - Titanium reation kettle reinforces cooling device - Google Patents

Abstract

The utility model discloses a titanium reation kettle reinforces cooling device, it divide into titanium reation kettle inner structure and titanium reation kettle exterior structure, and the exterior structure of titanium reation kettle exterior structure includes liquid nitrogen cooling device, circulating pump and heat reclaim unit, and the inside that communicates titanium reation kettle is responsible for in lower heat transfer, goes up the heat transfer and be responsible for and be connected to the setting at the outside rotatory piece of titanium reation kettle, and rotatory piece is connected to the liquid nitrogen exit tube. The beneficial effect of the utility model have: adopt the liquid nitrogen to be responsible for the heat transfer branch pipe as coolant liquid, liquid nitrogen through the heat transfer, arrive heat transfer hollow cylinder again for heat transfer area increase improves heat exchange efficiency, and heat exchange tube and heat transfer hollow cylinder are rotatable, further strengthen the heat transfer effect, be equipped with heat reclaim unit, can utilize environmental protection and energy saving at the heat recovery of titanium reation kettle internal absorption with the liquid nitrogen, flow controller is controlled to the temperature in the accessible temperature -sensing ware response titanium reation kettle to reach the purpose of dominant discharge, avoid causing the waste of liquid nitrogen.

Description

A kind of titanium reactor strengthening cooling device

Technical field

The utility model relates to a kind of cooling device, particularly a kind of titanium reactor strengthening cooling device.

Background technology

In the use procedure of titanium reactor, the danger of decomposition blast has become extremely low, this comes from the continuous progress of present reactor research and development technology certainly, the safety coefficient of all kinds of reactor product is obtained significantly improve, but the operation of some serious improper uses still may can bring the danger of stainless steel cauldron decomposition blast, and the too much or rate of feeding of such as catalyst amount is too fast to be caused the instantaneous temperature rate of climb too soon etc. all causing stainless steel cauldron decomposition blast.This will ask reactor will have effective cooling device, and it is long that existing cooling device mostly also exists cool time, and effect is high not.

Utility model content

The technical problems to be solved in the utility model, be to provide a kind of titanium reactor to strengthen cooling device, this cooling device can reduce reactor temperature rapidly, and can by heat recovery.

The utility model is realized by following proposal: a kind of titanium reactor strengthening cooling device, it is divided into titanium reactor internal structure and titanium reactor external structure, the external structure of titanium reactor external structure comprises cooled with liquid nitrogen device, circulating pump and heat reclaim unit, described nitrogen cooling device is connected to described circulating pump by liquid nitrogen circulation pipe, described circulating pump is connected to the liquid nitrogen inlet pipe being arranged on described titanium reactor lower end, described liquid nitrogen inlet pipe is connected to lower heat exchange supervisor by swivel joint, described lower heat exchange supervisor is communicated to the inside of described titanium reactor, and be connected to lower heat exchange hollow cylinder by multiple heat exchange arm, described lower heat exchange hollow cylinder is connected to heat exchange transition conduit by multiple heat exchange arm, described heat exchange transition conduit is connected to upper heat exchange hollow cylinder by multiple heat exchange arm, described upper heat exchange hollow cylinder is connected to upper heat exchange supervisor by multiple heat exchange arm again, described upper heat exchange supervisor is connected to the spill spin block being arranged on described titanium reactor outside, described spill spin block is connected to liquid nitrogen and goes out pipe, described liquid nitrogen goes out pipe and is connected to described liquid nitrogen circulation pipe, described liquid nitrogen circulation pipe is connected back to described cooled with liquid nitrogen device through described heat reclaim unit, heat recovery tracheae is through described heat reclaim unit, described lower heat exchange supervisor, heat exchange arm, lower heat exchange hollow cylinder, transition conduit, upper heat exchange hollow cylinder, upper heat exchange supervisor belongs to titanium reactor internal structure, described spill spin block can drive titanium reactor internal structure to rotate.

Described cooled with liquid nitrogen device is connected to liquid nitrogen and supplements pipe, compensate the liquid nitrogen lost in cooling procedure.

The inwall of described titanium reactor is provided with temperature inductor, can respond to the temperature in described titanium reactor.

Described liquid nitrogen inlet pipe is provided with flow controller, controls liquid nitrogen flow size.

Described liquid nitrogen inlet pipe is perpendicular to described lower heat exchange supervisor, and described liquid nitrogen goes out pipe perpendicular to described upper heat exchange supervisor.

Described liquid nitrogen inlet pipe and described liquid nitrogen go out Guan Jun perpendicular to described liquid nitrogen circulation pipe.

The beneficial effects of the utility model are:

1, a kind of titanium reactor strengthening of the utility model cooling device adopts liquid nitrogen as cooling fluid, and liquid nitrogen is responsible for heat exchange arm through heat exchange, then to heat exchange hollow cylinder, heat exchange area is increased, improve heat exchange efficiency, and heat exchanger tube and heat exchange hollow cylinder are rotatably, strengthen heat transfer effect further;

2, a kind of titanium reactor strengthening of the utility model cooling device is provided with heat reclaim unit, can by liquid nitrogen at the systemic heat recovery and utilization of titanium reactor, environmental protection and energy saving;

3, a kind of titanium reactor strengthening of the utility model cooling device carrys out control flow check amount controller by temperature inductor induction titanium reactor temperature, to reach the object controlling flow, avoids the waste causing liquid nitrogen.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of titanium reactor strengthening of the utility model cooling device.

In figure: 1 is titanium reactor, 2 is cooled with liquid nitrogen device, and 3 is circulating pump, and 4 is heat reclaim unit, 5 is liquid nitrogen circulation pipe, and 6 is liquid nitrogen inlet pipe, and 7 is swivel joint, 8 is lower heat exchange supervisor, and 9 is heat exchange arm, and 10 is lower heat exchange hollow cylinder, 11 is heat exchange transition conduit, and 12 is upper heat exchange hollow cylinder, and 13 is upper heat exchange supervisor, 14 is spill spin block, 15 for liquid nitrogen go out pipe, 16 is heat recovery tracheae, 17 manage for liquid nitrogen supplements, and 18 is temperature inductor, and 19 is flow controller.

Detailed description of the invention

Below in conjunction with Fig. 1, the utility model is further illustrated, but the utility model protection domain does not limit to described content.

A kind of titanium reactor strengthening cooling device, it is divided into titanium reactor 1 internal structure and titanium reactor 1 external structure, the external structure of titanium reactor 1 external structure comprises cooled with liquid nitrogen device 2, circulating pump 3 and heat reclaim unit 4, nitrogen cooling device 2 is connected to circulating pump 3 by liquid nitrogen circulation pipe 5, circulating pump 3 is connected to the liquid nitrogen inlet pipe 6 being arranged on titanium reactor 1 lower end, liquid nitrogen inlet pipe 6 is connected to lower heat exchange supervisor 8 by swivel joint 7, lower heat exchange supervisor 8 is communicated to the inside of titanium reactor 1, and be connected to lower heat exchange hollow cylinder 10 by multiple heat exchange arm 9, lower heat exchange hollow cylinder 10 is connected to heat exchange transition conduit 11 by multiple heat exchange arm 9, heat exchange transition conduit 11 is connected to upper heat exchange hollow cylinder 12 by multiple heat exchange arm 9, upper heat exchange hollow cylinder 12 is connected to upper heat exchange supervisor 13 by multiple heat exchange arm 9 again, upper heat exchange supervisor 13 is connected to the spill spin block 14 being arranged on titanium reactor 1 outside, spill spin block 14 is connected to liquid nitrogen and goes out pipe 15, liquid nitrogen goes out pipe 15 and is connected to liquid nitrogen circulation pipe 5, liquid nitrogen circulation pipe 5 is connected back to cooled with liquid nitrogen device 2 through heat reclaim unit 4, heat recovery tracheae 16 is through heat reclaim unit 4, lower heat exchange supervisor 8, heat exchange arm 9, lower heat exchange hollow cylinder 10, transition conduit 11, upper heat exchange hollow cylinder 12, upper heat exchange supervisor 13 belongs to titanium reactor 1 internal structure, spill spin block 14 can drive titanium reactor 1 internal structure to rotate, cooled with liquid nitrogen device 2 is connected to liquid nitrogen and supplements pipe 17, compensate the liquid nitrogen lost in cooling procedure, the inwall of titanium reactor 1 is provided with temperature inductor 18, the temperature in titanium reactor 1 can be responded to, liquid nitrogen inlet pipe 6 is provided with flow controller 19, control liquid nitrogen flow size, liquid nitrogen inlet pipe 6 is perpendicular to lower heat exchange supervisor 8, liquid nitrogen goes out pipe 15 perpendicular to upper heat exchange supervisor 13, liquid nitrogen inlet pipe 6 and liquid nitrogen go out pipe 15 all perpendicular to liquid nitrogen circulation pipe 5.

In use procedure, circulating pump 3 is by liquid nitrogen supercharging, titanium reactor 1 is entered into inner through liquid nitrogen inlet pipe 6, successively through lower heat exchange supervisor 7, heat exchange arm 9, lower heat exchange hollow cylinder 10, upper heat exchange hollow cylinder 12, upper heat exchange supervisor 13, also all rotate under the effect of spill spin block 14 with upper-part, make cooling more abundant, efficiency is improved, after having cooled, liquid nitrogen goes out pipe 15 from liquid nitrogen and flows out, through heat reclaim unit 4 pairs of liquid nitrogen with heat reclaim, then liquid nitrogen enters cool cycles again after the cooling processing through cooled with liquid nitrogen device 2.

Although done comparatively detailed elaboration to the technical solution of the utility model and enumerated; be to be understood that; to those skilled in the art; amendment is made to above-described embodiment or adopts equivalent replacement scheme; this is apparent to those skilled in the art; these modifications or improvements on the basis of not departing from the utility model spirit, all belong to the scope that the utility model is claimed.

Claims (6)

1. a titanium reactor strengthening cooling device, it is characterized in that: it is divided into titanium reactor (1) internal structure and titanium reactor (1) external structure, the external structure of titanium reactor (1) external structure comprises cooled with liquid nitrogen device (2), circulating pump (3) and heat reclaim unit (4), described nitrogen cooling device (2) is connected to described circulating pump (3) by liquid nitrogen circulation pipe (5), described circulating pump (3) is connected to the liquid nitrogen inlet pipe (6) being arranged on described titanium reactor (1) lower end, described liquid nitrogen inlet pipe (6) is connected to lower heat exchange supervisor (8) by swivel joint (7), described lower heat exchange supervisor (8) is communicated to the inside of described titanium reactor (1), and be connected to lower heat exchange hollow cylinder (10) by multiple heat exchange arm (9), described lower heat exchange hollow cylinder (10) is connected to heat exchange transition conduit (11) by multiple heat exchange arm (9), described heat exchange transition conduit (11) is connected to upper heat exchange hollow cylinder (12) by multiple heat exchange arm (9), described upper heat exchange hollow cylinder (12) is connected to upper heat exchange supervisor (13) by multiple heat exchange arm (9) again, described upper heat exchange supervisor (13) is connected to and is arranged on the outside spill spin block (14) of described titanium reactor (1), described spill spin block (14) is connected to liquid nitrogen and goes out pipe (15), described liquid nitrogen goes out pipe (15) and is connected to described liquid nitrogen circulation pipe (5), described liquid nitrogen circulation pipe (5) is connected back to described cooled with liquid nitrogen device (2) through described heat reclaim unit (4), heat recovery tracheae (16) is through described heat reclaim unit (4), described lower heat exchange supervisor (8), heat exchange arm (9), lower heat exchange hollow cylinder (10), transition conduit (11), upper heat exchange hollow cylinder (12), upper heat exchange supervisor (13) belongs to titanium reactor (1) internal structure, described spill spin block (14) can drive titanium reactor (1) internal structure to rotate.

2. a kind of titanium reactor strengthening cooling device according to claim 1, is characterized in that: described cooled with liquid nitrogen device (2) is connected to liquid nitrogen and supplements pipe (17).

3. a kind of titanium reactor strengthening cooling device according to claim 1, is characterized in that: the inwall of described titanium reactor (1) is provided with temperature inductor (18).

4. a kind of titanium reactor strengthening cooling device according to claim 1, is characterized in that: described liquid nitrogen inlet pipe (6) is provided with flow controller (19).

5. a kind of titanium reactor strengthening cooling device according to claim 1, is characterized in that: described liquid nitrogen inlet pipe (6) is perpendicular to described lower heat exchange supervisor (8), and described liquid nitrogen goes out pipe (15) perpendicular to described upper heat exchange supervisor (13).

6. a kind of titanium reactor strengthening cooling device according to claim 1, is characterized in that: described liquid nitrogen inlet pipe (6) and described liquid nitrogen go out to manage (15) all perpendicular to described liquid nitrogen circulation pipe (5).