CN209541526U - A kind of deicer for deep-cooling heat exchanger - Google Patents

Abstract

The utility model relates to a kind of deicers for deep-cooling heat exchanger, including the first back box, the second back box, the first bottom cover, the second bottom cover, the first supporting bar, clip, the second supporting bar, heat transfer pad, blend stop, semicircle spiral baffle ring, heating wire, the first binding post, the second binding post and thermocouple；The utility model can effectively remove the ice cube generated in deep-cooling heat exchanger and its feeder pipe line, ensure that the stability of light component supplied materials in light component receiving tank, the light component content in pumped vacuum systems be greatly reduced, and structure is simple, easy to operate.

Description

A kind of deicer for deep-cooling heat exchanger

Technical field

The utility model relates to a kind of deicers for deep-cooling heat exchanger.

Background technique

Nine raw material of carbon is cracked in distillation process, it is (cold that the gas phase light component that tower top distillates carries out needing to carry out depth cooling Freezing liquid import is -20 DEG C, and exporting is -15 DEG C), it is cooled to rely on potential energy certainly from the light fraction outlet of heat exchanger after liquid phase light component It flow to light component receiving tank；Depth cooling requirement carries out in deep-cooling heat exchanger, will be few due to that can contain in cracking nine raw material of carbon The moisture of amount, in rectifying, moisture is distillated from rectifying tower top together with light component, although before entering deep-cooling heat exchanger, It has passed through water cooling heat exchanger and most water first condensed and is removed, but still there is a small amount of water to enter because of reasons such as entrainments Deep-cooling heat exchanger, water freeze in deep-cooling heat exchanger and are gathered, with the increase of running time, cause deep-cooling heat exchanger and its Blanking pipeline (i.e. light fraction outlet) blocking, and then light component receiving tank occur and occur greatly without light component supplied materials and pumped vacuum systems The light hydrocarbon component of amount influences the normal operation of vacuum degree and device, needs further improvement.

Utility model content

In view of the above-mentioned state of the art, the technical problem to be solved by the utility model is to provide it is a kind of can be effective The ice cube generated in deep-cooling heat exchanger and its feeder pipe line is removed, and structure is simple, easy to operate is used for deep-cooling heat exchanger Deicer.

Technical solution adopted by the utility model to solve the above technical problems is as follows: a kind of deicing for deep-cooling heat exchanger Device, including the first back box, the second back box, the first bottom cover, the second bottom cover, the first supporting bar, clip, the second supporting bar, heat transfer pad, gear Item, semicircle spiral baffle ring, heating wire, the first binding post, the second binding post and thermocouple, which is characterized in that first back box Side be provided with dismountable second back box, dismountable first bottom cover is provided at the lower opening of first back box, Dismountable second bottom cover is provided at the lower opening of second back box；It is solid above the two sides outer wall of first back box Surely there is first supporting bar, be respectively and fixedly provided with second supporting bar above the two sides outer wall of second back box；Two described first Multiple dismountable clips are provided between the top of supporting bar between the top of two second supporting bars；First back box Heat transfer pad is provided with above the second back box；Multiple along the circumferential direction isogonisms are fixed in the upper inner wall of first back box The blend stop for spending distribution, is formed with the first semicircle sleeve inside one end of first back box, inside one end of second back box It is formed with the second semicircle sleeve, the first semicircle sleeve corresponds to each other split with the second semicircle sleeve；First semicircular sleeve It is arranged in the outer lateral side of cylinder and the second semicircle sleeve and is fixed with multiple semicircle spiral baffle rings, multiple semicircle spiral baffle rings Between complement each other to form multiple spiral coils；The outside of second back box is interspersed to be fixed with the first binding post and the second wiring Column；Heating wire is provided between first back box and the inside of the second back box；Heat is additionally provided with above first back box Galvanic couple.

Preferably, it has been inwardly formed the first circular arc deep gouge above first back box, accordingly, second back box Top has been inwardly formed the second circular arc deep gouge, and the heat transfer pad is fixed on outside the upside of the first circular arc deep gouge and the second circular arc deep gouge On surface.

Preferably, each blend stop is respectively positioned on the downside of the first circular arc deep gouge.

Preferably, one end of the heating wire is fixed on the inner end of the first binding post, and the other end of the heating wire is successively Coiling is by multiple blend stops and then is passed around multiple spiral coils and is fixed on the inner end of the second binding post.

Compared with the prior art, the advantages of the utility model are: the utility model can effectively remove deep-cooling heat exchanger with And its ice cube generated in blanking pipeline, it ensure that the stability of light component supplied materials in light component receiving tank, pumping be greatly reduced Light component content in vacuum system, and structure is simple, it is easy to operate.

Detailed description of the invention

Fig. 1 is the installation site figure of the utility model；

Fig. 2 is the side elevational cross-section structure chart of the utility model；

Fig. 3 is the overlooking structure figure of the utility model；

Fig. 4 is the face upwarding assumption diagram inside first back box of the utility model；

Fig. 5 is the forward sight sectional structure chart of the utility model.

Specific embodiment

As shown in Fig. 1~5, a kind of deicer for deep-cooling heat exchanger, including the first back box 2, the second back box 3, One bottom cover 4, the second bottom cover 13, the first supporting bar 5, clip 6, the second supporting bar 7, heat transfer pad 8, blend stop 9, semicircle spiral baffle ring 15, electricity Heated filament 10, the first binding post 11, the second binding post 12 and thermocouple 14；The side of first back box 2 is provided with dismountable second Back box 3 is provided with dismountable first bottom cover 4 at the lower opening of first back box 2, is arranged at the lower opening of the second back box 3 There is dismountable second bottom cover 13；It is respectively and fixedly provided with first supporting bar 5 above the two sides outer wall of first back box 2, the second back box 3 Second supporting bar 7 is respectively and fixedly provided with above the outer wall of two sides；Between the top of two the first supporting bars 5 and two the second supporting bars 7 it is upper Multiple dismountable clips 6 are provided between side；The top of first back box 2 and the second back box 3 is provided with heat transfer pad 8；First bottom It is formed with the first semicircle sleeve 22 inside one end of box 2, the second semicircle sleeve 31 is formed with inside one end of the second back box 3, the Half round buss 22 corresponds to each other split with the second semicircle sleeve 31；It is heavy that the top of first back box 2 has been inwardly formed the first circular arc Slot 21, accordingly, the top of the second back box 3 have been inwardly formed the second circular arc deep gouge 32, and heat transfer pad 8 is fixed on the first circular arc deep gouge 21 and second circular arc deep gouge 32 upper outside surfaces on；Be fixed in the upper inner wall of first back box 2 it is multiple along the circumferential direction etc. The blend stop 9 of angular distribution, each blend stop 9 are respectively positioned on the downside of the first circular arc deep gouge 21；First semicircle sleeve 22 and the second semicircle It is arranged in the outer lateral side of sleeve 31 and is fixed with multiple semicircle spiral baffle rings 15, phase interworking between multiple semicircle spiral baffle rings 15 Conjunction forms multiple spiral coils；The outside of second back box 3 is interspersed to be fixed with the first binding post 11 and the second binding post 12, the first back box 2 and second back box 3 inside between be provided with heating wire 10；One end of heating wire 10 is fixed on the inner end of the first binding post 11, The other end of heating wire 10 successively coils by multiple blend stops 9 and then is passed around multiple spiral coils and is fixed on the second binding post 12 inner end；The top of first back box 2 is additionally provided with thermocouple 14.

Working principle: thermocouple 14 is mounted on inside the shell side of deep-cooling heat exchanger 1 and is located at outside tube side, and pass through signal Line is connected to external temperature indicating device (prior art)；Then the light fraction outlet pipe two sides below deep-cooling heat exchanger 1 Install the first back box 2 and the second back box 3；Then multiple clips 6 are set in from top to bottom above deep-cooling heat exchanger 1 and solid It is scheduled in two the first supporting bars 5 and two the second supporting bars 7, while heat transfer pad 8 being made to be adjacent to the downside shell side in deep-cooling heat exchanger 1 Outside, the height of the first back box 2 and the second back box 3 is about always high 1/3 of deep-cooling heat exchanger 1；Then, winding completes heating wire 10 simultaneously The both ends of heating wire 10 are connect respectively in the inner end of the first binding post 11 and the second binding post 12, the first binding post 11 and second connects The outer end collocation of terminal 12 is followed by finally loading onto the first bottom cover 4 and the second bottom cover into alternating current (prior art) using on-off switch 13；When light fraction outlet blanking temperature (being measured using thermocouple 14) reaches 8 DEG C, heating wire 10, which is powered, starts to work, and generates Heat melt the icing in 1 lower section shell side of deep-cooling heat exchanger and light fraction outlet pipe；When the temperature that thermocouple 14 measures reaches When to 2 DEG C, heating wire 10 stops working, and melt ice is completed.

Nine raw material of carbon is cracked in distillation process, it is (cold that the gas phase light component that tower top distillates carries out needing to carry out depth cooling Freezing liquid import is -20 DEG C, and exporting is -15 DEG C), it is cooled to rely on potential energy certainly from the light fraction outlet of heat exchanger after liquid phase light component It flow to light component receiving tank；Depth cooling requirement carries out in deep-cooling heat exchanger, will be few due to that can contain in cracking nine raw material of carbon The moisture of amount, in rectifying, moisture is distillated from rectifying tower top together with light component, although before entering deep-cooling heat exchanger, It has passed through water cooling heat exchanger and most water first condensed and is removed, but still there is a small amount of water to enter because of reasons such as entrainments Deep-cooling heat exchanger, water freeze in deep-cooling heat exchanger and are gathered, with the increase of running time, cause deep-cooling heat exchanger and its Blanking pipeline (i.e. light fraction outlet) blocking, and then light component receiving tank occur and occur greatly without light component supplied materials and pumped vacuum systems The light hydrocarbon component of amount influences the normal operation of vacuum degree and device；The utility model can effectively remove deep-cooling heat exchanger and its The ice cube generated in blanking pipeline ensure that the stability of light component supplied materials in light component receiving tank, be greatly reduced and vacuumize Light component content in system, and structure is simple, it is easy to operate.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those of skill in the art that its according to It is so possible to modify the technical solutions described in the foregoing embodiments, or part of technical characteristic is replaced on an equal basis It changes；And these are modified or replaceed, various embodiments of the utility model technical solution that it does not separate the essence of the corresponding technical solution Spirit and scope.

Claims (4)

1. a kind of deicer for deep-cooling heat exchanger, including the first back box, the second back box, the first bottom cover, the second bottom cover, One supporting bar, clip, the second supporting bar, heat transfer pad, blend stop, semicircle spiral baffle ring, heating wire, the first binding post, the second binding post and Thermocouple, which is characterized in that the side of first back box is provided with dismountable second back box, the lower section of first back box Opening is provided with dismountable first bottom cover, and dismountable second bottom cover is provided at the lower opening of second back box； First supporting bar is respectively and fixedly provided with above the two sides outer wall of first back box, the two sides outer wall top of second back box is solid Surely there is second supporting bar；It is provided between the top of two second supporting bars between the top of two first supporting bars Multiple dismountable clips；Heat transfer pad is provided with above first back box and the second back box；The top of first back box It is fixed with multiple blend stops being along the circumferential direction angularly distributed on inner wall, the first half are formed with inside one end of first back box Round buss is formed with the second semicircle sleeve, the first semicircle sleeve and the second semicircular sleeve inside one end of second back box Cylinder corresponds to each other split；It is arranged in the outer lateral side of the first semicircle sleeve and the second semicircle sleeve and is fixed with multiple semicircles Spiral baffle ring complements each other to form multiple spiral coils between multiple semicircle spiral baffle rings；It is worn on the outside of second back box It inserts and is fixed with the first binding post and the second binding post；Heating wire is provided between first back box and the inside of the second back box； Thermocouple is additionally provided with above first back box.

2. a kind of deicer for deep-cooling heat exchanger according to claim 1, which is characterized in that first back box Top be inwardly formed the first circular arc deep gouge, accordingly, the second circular arc deep gouge has been inwardly formed above second back box, The heat transfer pad is fixed in the upper outside surfaces of the first circular arc deep gouge and the second circular arc deep gouge.

3. a kind of deicer for deep-cooling heat exchanger according to claim 1, which is characterized in that each blend stop It is respectively positioned on the downside of the first circular arc deep gouge.

4. a kind of deicer for deep-cooling heat exchanger according to claim 1, which is characterized in that the heating wire One end is fixed on the inner end of the first binding post, and the other end of the heating wire is successively coiled by multiple blend stops and then is passed around Multiple spiral coils and the inner end for being fixed on the second binding post.