CN218443446U - Titanium tube heat exchanger that heat exchange efficiency is high - Google Patents

Abstract

The utility model discloses a titanium pipe heat exchanger that heat exchange efficiency is high, belong to the heat exchanger field, which comprises a housin, fixed mounting has the spiral pipe in the casing, lower part fixed position on the casing installs the inlet tube, upper portion fixed position on the casing installs the outlet pipe, movable mounting has heat transfer mechanism on the casing, heat transfer mechanism includes the air-cooled shell, the air exhauster, the breather pipe, the filter, the bull stick, the stirring leaf, blow off pipe and screw cap, heat transfer mechanism through the setting, the air exhauster constantly extracts the air through the breather pipe, the heat on the breather pipe is dispelled in the air cooling, the medium fluid to titanium intraductal in the indirect air cooling heat dissipation that carries out, through the filter with the medium fluid, for example incrustation scale in the water medium fluid filters, avoid the incrustation scale to be infected with on the titanium pipe, influence both medium fluid's heat-conduction, constantly rotate through the stirring leaf, make the heat dissipation liquid rotate, heat-conduction is more frequent, the upper portion and the cold and hot homogeneous in lower part of heat dissipation liquid, make titanium pipe heat exchanger radiating effect better.

Description

Titanium tube heat exchanger that heat exchange efficiency is high

Technical Field

The utility model relates to a heat exchanger field, in particular to titanium tube heat exchanger that heat exchange efficiency is high.

Background

The titanium tube heat exchanger plays an important role in production by virtue of numerous advantages of industrial pure titanium, is a universal device for chemical industry, petroleum, power, food and other industrial departments, and mainly exchanges heat through two fluid media with different temperatures when in use so as to achieve the effect of heat exchange.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a titanium tube heat exchanger that heat exchange efficiency is high can effectively solve the problem in the background art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a titanium pipe heat exchanger that heat exchange efficiency is high, includes the casing, fixed mounting has the spiral pipe in the casing, lower part fixed position on the casing installs the inlet tube, upper portion fixed position on the casing installs the outlet pipe, movable mounting has heat transfer mechanism on the casing, heat transfer mechanism includes forced air cooling shell, air exhauster, breather pipe, filter, bull stick, stirring leaf, blow off pipe and screw cap, forced air cooling shell fixed mounting is in the bottom position of casing, air exhauster fixed mounting is in the middle part position of forced air cooling shell, breather pipe fixed mounting is in the casing, and runs through the higher authority and the ground position of casing, the breather pipe communicates with the forced air cooling shell each other, filter fixed mounting is in the casing, and is located the below position of spiral pipe, bull stick fixed mounting is in the casing, and is located the central point of casing, stirring leaf fixed mounting is on the bull stick, blow off pipe fixed mounting is in the lower part position of casing, screw cap movable mounting is on the blow off pipe.

Preferably, the heat exchange mechanism further comprises supporting legs, and the supporting legs are fixedly installed on the bottom surface of the air cooling shell.

Preferably, the vent pipe also penetrates through the filter plate inside the casing, and the vent pipe is located at an outer position of the spiral pipe.

Preferably, the heat exchange mechanism further comprises two bearings, the two bearings are movably mounted on the rotating rod, and the rotating rod is movably mounted on the upper position of the shell and the middle position of the filter plate through the bearings.

Preferably, the heat exchange mechanism further comprises a support and a speed reduction motor, the support is fixedly installed at the center of the shell, the speed reduction motor is fixedly installed on the support, and a rotating shaft of the speed reduction motor is fixedly installed with the rotating rod.

Preferably, the heat exchange mechanism further comprises a sealing gasket, the sealing gasket is fixedly installed in the threaded cover, threads are respectively carved on the inner side wall of the threaded cover and the outer side position of the sewage discharge pipe, and the threaded cover is movably installed with the sewage discharge pipe through threads.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses in, heat transfer mechanism through the setting, constantly extract the air through the breather pipe through the air exhauster, make outside cold air flow constantly take away on the breather pipe heat, and heat on the breather pipe is derived from the intraductal medium fluid of titanium, thereby indirectly carry out the forced air cooling heat dissipation to the intraductal medium fluid of titanium, with medium fluid through the filter, incrustation scale for example in the water medium fluid filters, avoid the incrustation scale to be infected with on the titanium pipe, influence the heat-conduction of both medium fluids, constantly rotate through the stirring leaf that sets up, make the radiating liquid in the casing rotate, thereby heat-conduction is more frequent, radiating liquid's upper portion and lower part cold and hot homogeneous, through heat transfer mechanism, make titanium pipe heat exchanger radiating effect better.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic structural view of the rotating rod of the present invention;

fig. 3 is a schematic structural view of the air-cooled casing of the present invention.

In the figure: 1. a housing; 2. a spiral tube; 3. a water inlet pipe; 4. a water outlet pipe; 5. a heat exchange mechanism; 501. air-cooling the shell; 502. an exhaust fan; 503. supporting legs; 504. a breather pipe; 505. a filter plate; 506. a rotating rod; 507. stirring blades; 508. a bearing; 509. a support; 510. a reduction motor; 511. a blow-off pipe; 512. A threaded cap; 513. and a gasket.

Detailed Description

In order to make the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficacy are easy to understand and understand, the utility model is further explained by combining the specific implementation mode.

As shown in fig. 1-3, a titanium tube heat exchanger with high heat exchange efficiency comprises a casing 1, a spiral tube 2 is fixedly installed in the casing 1, a water inlet tube 3 is fixedly installed at a lower position on the casing 1, a water outlet tube 4 is fixedly installed at an upper position on the casing 1, a heat exchange mechanism 5 is movably installed on the casing 1, the heat exchange mechanism 5 comprises an air cooling shell 501, an exhaust fan 502, an air vent tube 504, a filter plate 505, a rotating rod 506, a stirring blade 507, a sewage discharge tube 511 and a threaded cover 512, the air cooling shell 501 is fixedly installed at a bottom position of the casing 1, the exhaust fan 502 is fixedly installed at a middle position of the air cooling shell 501, the air vent tube 504 is fixedly installed in the casing 1 and penetrates through the upper surface and the ground position of the casing 1, the air vent tube 504 and the air cooling shell 501 are mutually communicated, the heat exchange mechanism 5 further comprises a supporting leg 503, the supporting leg 503 is fixedly installed at a bottom position of the air cooling shell 501, the air vent tube 504 also penetrates through the filter plate 505 inside the casing 1, the air vent tube 504 is located at an outer position of the spiral tube 2, the exhaust fan 502 is in the air cooling shell 501, the air vent tube 502 continuously extracts air from the air vent tube 504, the air is immersed in the spiral tube 504, the spiral tube, and the liquid flows through the spiral tube 2 indirectly.

The filter plate 505 is fixedly installed in the housing 1 and is located below the spiral pipe 2, the rotating rod 506 is fixedly installed in the housing 1 and is located at the center of the housing 1, the stirring blades 507 are fixedly installed on the rotating rod 506, the sewage discharge pipe 511 is fixedly installed at the lower portion of the housing 1, the threaded cover 512 is movably installed on the sewage discharge pipe 511, the heat exchange mechanism 5 further comprises two bearings 508, the number of the bearings 508 is two, the bearings 508 are movably installed on the rotating rod 506, the rotating rod 506 is movably installed at the upper portion of the housing 1 through the bearings 508, the middle portion of the filter plate 505 is movably installed, the heat exchange mechanism 5 further comprises a support 509 and a speed reduction motor 510, the support 509 is fixedly installed at the center of the upper portion of the housing 1, the speed reduction motor 510 is fixedly installed on the support 509, a rotating shaft of the speed reduction motor 510 is fixedly installed with the rotating rod 506, the heat exchange mechanism 5 further comprises a sealing gasket 513, the sealing gasket 513 is fixedly installed in the threaded cover 512, the inner side wall of the threaded cover 512 and the outer side wall of the sewage discharge pipe 511 are both engraved with threads, the upper portion of the stirring blades 505, the upper portion of the filtering plate is more frequently installed with the lower portion of the stirring blades 507, and the lower portion of the water in the housing 1, and the lower portion of the water is more frequently exchanged at the lower portion of the water.

It should be noted that, the utility model relates to a titanium tube heat exchanger with high heat exchange efficiency, the heat-dissipating medium fluid, such as water, etc., flows in from the water inlet pipe 3, gradually fills the inside of the shell 1, the liquid level rises, then flows out from the water outlet pipe 4 at the upper position of the shell 1, thereby the water cooling is carried out to the spiral tube 2 in the shell 1, the water flows into the bottom of the shell 1, in the process that the liquid level gradually rises, after contacting with the filter 505, thereby being filtered by the filter 505 fixedly installed, the impurities such as incrustation scale are left at the position below the filter 505, the incrustation scale is prevented from being stained on the spiral tube 2 at the upper position, a thick incrustation scale layer is generated, the heat exchange between the liquid in the spiral tube 2 and the water is affected, the sewage discharge pipe 511 is arranged at the position below the filter 505 on the shell 1, the screw cap 512 is unscrewed movably, the dirt at the position below the filter 505 is convenient to remove, simultaneously, the exhaust fan 502 and the speed reducing motor 510 are started, the exhaust fan 502 is arranged in the air cooling shell 501, air is continuously extracted through the vent pipe 504, the vent pipe 504 is soaked in water, the heat in the water is from the liquid in the spiral pipe 2, the cold air continuously flows from the vent pipe 504, so that the heat in the vent pipe 504 is taken away, the liquid in the spiral pipe 2 is indirectly cooled, the heat radiating effect of the heat exchanger is better through the mode that air cooling and water cooling are mutually matched, the speed reducing motor 510 is started, the rotating rod 506 is rotated, the stirring blades 507 on the rotating rod 506 are positioned above and below the filter plate 505, water above and below the filter plate 505 rotates along with the stirring of the stirring blades 507, so that heat exchange is more frequent, the temperature of the upper part and the lower part of the water in the shell 1 is more uniform, and the heat radiation is more uniform, so that the heat dissipation effect of the spiral tube 2 is better.

The foregoing shows and describes the basic principles and principal features of the invention, together with the advantages thereof. It should be understood by those skilled in the art that the present invention may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but that the invention is not limited to the embodiments set forth herein and can be practiced with many modifications, alterations, substitutions and alterations without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a titanium tube heat exchanger that heat exchange efficiency is high, includes casing (1), fixed mounting has spiral pipe (2) in casing (1), lower part fixed position on casing (1) installs inlet tube (3), upper portion fixed position on casing (1) installs outlet pipe (4), its characterized in that: movable mounting has heat transfer mechanism (5) on casing (1), heat transfer mechanism (5) include air-cooled shell (501), air exhauster (502), breather pipe (504), filter (505), bull stick (506), stirring leaf (507), blow off pipe (511) and screw cap (512), air-cooled shell (501) fixed mounting is in the bottom position of casing (1), air exhauster (502) fixed mounting is in the middle part position of air-cooled shell (501), breather pipe (504) fixed mounting is in casing (1), and runs through the higher authority and the ground position of casing (1), breather pipe (504) and air-cooled shell (501) communicate each other, filter (505) fixed mounting is in casing (1), and is located the below position of spiral pipe (2), bull stick (506) fixed mounting is in casing (1), and is located the central point of casing (1), stirring leaf (507) fixed mounting is on bull stick (511), blow off pipe (511) fixed mounting is in the lower part position of casing (1), screw cap (512) is on the blow off pipe.

2. The titanium tube heat exchanger with high heat exchange efficiency as recited in claim 1, wherein: the heat exchange mechanism (5) further comprises supporting legs (503), and the supporting legs (503) are fixedly installed on the bottom surface of the air cooling shell (501).

3. The titanium tube heat exchanger with high heat exchange efficiency as recited in claim 2, wherein: the vent pipe (504) also penetrates through the filter plate (505) inside the shell (1), and the vent pipe (504) is positioned at the outer side position of the spiral pipe (2).

4. The titanium tube heat exchanger with high heat exchange efficiency as recited in claim 3, wherein: the heat exchange mechanism (5) further comprises two bearings (508), the number of the bearings (508) is two, the bearings (508) are movably mounted on the rotating rod (506), and the rotating rod (506) is movably mounted at the upper position of the shell (1) and the middle position of the filter plate (505) through the bearings (508).

5. The titanium tube heat exchanger with high heat exchange efficiency as recited in claim 4, wherein: the heat exchange mechanism (5) further comprises a support (509) and a speed reducing motor (510), the support (509) is fixedly installed in the center of the upper portion of the shell (1), the speed reducing motor (510) is fixedly installed on the support (509), and a rotating shaft of the speed reducing motor (510) is fixedly installed with the rotating rod (506).

6. The titanium tube heat exchanger with high heat exchange efficiency as recited in claim 5, wherein: heat exchange mechanism (5) still include sealed the pad (513), sealed pad (513) fixed mounting is in screw thread lid (512), the outside position of screw thread lid (512) inboard lateral wall and blow off pipe (511) is carved with the screw thread all, screw thread lid (512) are through screw thread and blow off pipe (511) movable mounting.

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