CN2432537Y - Superconducting heat enamel glass tube shell heat exchanger - Google Patents

Abstract

The utility model relates to recuperative heat exchange equipment. A pipe plate is clamped between two sections of combined casings; a heat exchange pipe passes through the pipe plate and is supported by the pipe plate; cone-shaped through holes are evenly distributed on the two layer surfaces of the hollow pipe plate; both ends of the heat exchange pipe are closed; the outer wall of the middle section of the heat exchange pipe is provided with a cone-shaped platform matched with the shape of the cone-shaped through holes; enamel glass is lined on the outer wall of the cone-shaped platform, two outer lateral surfaces of the pipe plate, the inner surfaces of the cone-shaped holes, and the inner wall of one section of the casing; the bottom of the cone-shaped platform is connected with the end of a pipe body lined with enamel glass on the outer wall; the corn part of the cone-shaped platform is connected with the end of a carbon steel pipe body. The utility model is suitable for occasions needing enamel glass shell and pipe heat exchangers and having fluid with corrosiveness.

Description

The hot glass lining pipe shell heat exchanger of superconduction

The utility model relates to the wall-type heat exchange equipment in the chemical equipment, the hot glass lining pipe shell heat exchanger of especially a kind of novel superconduction.Be applicable to that fluid tool corrosivity need use the occasion of glass lining pipe shell heat exchanger.

Glass-lined equipment has glass and metal advantage concurrently, is a kind of resistance to chemical attack chemical equipment of composite.But enamel composite bed matter is crisp, and mechanical strength often stress raisers occur in the parts connection place, and causes the explosion of enamel composite bed not as good as the chemical equipment of single metal material.So plant-scale application of the enamel heat exchanger of prior art, basically still rest in the pattern of telescopic, disc-type, they or steel consumption are big or withstand voltage low (only reaching 0.3MPa as the disc-type operating pressure) or the thermal efficiency are low, far can not satisfy the needs of some chemical reaction.Some occasion still has to use the heat exchanger of other materials such as titanium, stainless steel, graphite, and they or high price or the low or intensity difference of corrosion-resistant rank.

The purpose of this utility model is the above-mentioned defective that overcomes the prior art enamel heat exchanger, develops a kind of hot glass lining pipe shell heat exchanger of superconduction that can industrial scale applications.

Concrete technical scheme is: design the hot glass lining pipe shell heat exchanger of a kind of superconduction, comprise housing, tube sheet and heat exchanger tube, it is characterized in that housing is two segments combined, wall liner enamel composite bed in one section barrel-type casing wherein, clamping connection tube sheet between two-piece housing, and heat exchanger tube supports by tube sheet and by tube sheet.Tube sheet hollow, uniform conical through-hole between two aspects of tube sheet, tube sheet two lateral surfaces and conical through-hole inner surface all serve as a contrast the enamel composite bed.The heat exchanger tube closed at both ends, its stage casing outer wall is provided with the taper platform with the conical through-hole form fit, the outer wall liner enamel composite bed of taper platform, taper platform bottom connects the pipe shaft end of outer wall liner enamel composite bed, and taper platform tapering connects carbon steel pipe shaft end.

The utility model is compared with the prior art enamel heat exchanger, and advantage is:

1. steel consumption is lower, the utility model is the combination of half glass lining pipe shell heat exchanger and half carbon steel pipe shell heat exchanger, and heat exchanger telescopic with the enamel of prior art, disc-type is compared, and steel consumption is lower, the enamel processing capacity is saved half, and cost is low.

2. withstand voltage rank is higher, and the utility model is withstand voltage can be reached 〉=1.0Mpa, superior more than the enamel heat exchanger of prior art.

3. the thermal efficiency is higher, because the structure uniqueness, its thermal efficiency is higher than the ordinary carbon steel shell-and-tube heat exchanger.

4. modular construction is convenient to change indivedual heat exchanger tubes that damage separately, rather than whole heat exchanger scrapped the saving fund.

Overall merit, withstand voltage, corrosion-resistant and the thermal efficiency is all good, steel are economized, cost is low, easily process easy care, and market prospects are wide.

Below in conjunction with the drawings and specific embodiments the utility model is further set forth:

Fig. 1 is the structural representation of an embodiment of the utility model;

Fig. 2 is an A portion structure for amplifying schematic diagram;

Fig. 3 is tube sheet 3 structural representations;

Fig. 4 is a B portion structure for amplifying schematic diagram.

The specific embodiment:

Among Fig. 1, with tube sheet 3 is the boundary, barrel-type casing 1 inwall, conical through-hole 12 inwalls and end cap 6 inwalls in its left side, taper platform 15 outer walls at the bilateral outer wall 11,13 of heat exchanger tube wide diameter end 16 outer walls, hollow tube sheet and heat exchanger tube middle part all serve as a contrast enamel composite bed (drawing dotted portion among the figure), form the wall-type heat exchange equipment of a corrosion-resistant enamel structure of closed shell side; Barrel-type casing 2 inwalls on its right side and end cap 5 inwalls, it all is the carbon steel structures that expose that 17 outer walls are held in the thin footpath of heat exchanger tube, forms the wall-type heat exchange equipment of a common water-cooling structure of closed shell side.

Need the hot fluid of cooling to enter housing 1 from charging aperture 9, contact with heat exchanger tube wide diameter end 16 outer walls, with the superconduction hot media in the heat transferred heat exchanger tube, cooling is after discharging opening 10 outflows; Cold water enters housing 2 from water inlet 8, holds 17 outer walls to contact with the thin footpath of heat exchanger tube, and the heat that the superconduction hot media receives in the heat exchanger tube is delivered to cold water, has received the cooling water of heat to flow out through delivery port 7, and retrieval system is applied mechanically after the cooling tower cooling.

Primary element heat exchanger tube closed at both ends, perfusion superconduction hot media in the pipe can be promptly with the heat transferred cold fluid, and its speed is approximately 20 times of water-cooled.In heat transfer process, the not loss of Natural Circulation in pipe of superconduction hot media.

Claims (3)

1. hot glass lining pipe shell heat exchanger of superconduction, comprise housing and be positioned at the heat exchanger tube and the tube sheet of housing, it is characterized in that housing is two segments combined, wherein a piece housing inwall (1) serves as a contrast the enamel composite bed, clamping connection tube sheet (3) between two-piece housing, and heat exchanger tube (4) supports by tube sheet (3) and by tube sheet (3).

2. according to the described heat exchanger of claim 1, it is characterized in that tube sheet (3) hollow, uniform conical through-hole (12) between two aspects of tube sheet (3), tube sheet two lateral surfaces (11), (13) and conical through-hole inner surface (14) all serve as a contrast the enamel composite bed.

3. according to the described heat exchanger of claim 1, it is characterized in that heat exchanger tube (4) closed at both ends, its stage casing outer wall is provided with the taper platform (15) with conical through-hole (12) form fit, taper platform (15) bottom connects pipe shaft (16), taper platform (15) tapering connects pipe shaft (17), taper platform (15) and the outer wall liner enamel of pipe shaft (16) composite bed.

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