CN202133319U - Spacer grid supporting pin-finned tube heat exchanger - Google Patents

Abstract

The utility model provides a spacer grid supporting pin-finned tube heat exchanger which comprises the following components: a housing, a tube bundle, an upper tube box and a lower tube box. The tube bundle is provided in the housing. Two ends of the tube bundle are provided on an upper tube plate and a lower tube plate. The upper tube plate is provided between the housing and the upper tube box. The lower tube plate is provided between the housing and the lower tube box. The housing is provided with a housing stroke inlet and a housing stroke outlet. The upper tube box is provided with a tube stroke inlet. The lower tube box is provided a tube stroke outlet. The tube bundle is composed of incontinuous pin-finned tubes. A spacer grid is provided on the area without pin or fin on the pin-finned tubes. The spacer grid supporting pin-finned tube heat exchanger supports high-efficiency reinforced heat exchange tubes through a special spacer grid, and can realize the following functions: reducing flowing dead area, increasing heat transfer coefficient, and reducing flowing resistance.

Description

A kind of grid spacer supports the Needle fin tube heat exchanger

Technical field

The utility model relates to a kind of shell-and-tube heat exchanger.

Background technology

Shell-and-tube heat exchanger is widely used in fields such as power, machinery, nuclear energy; But present most of heat exchanger exists heat exchange efficiency low; The shortcoming that volume and weight is big; Along with the continuous development with power-saving technology that is becoming tight the day of the energy, all in the performance of being devoted to improve this heat exchanger, constantly improve it countries in the world.In dynamical systems such as power plant, boats and ships, many plant equipment utilize lubricating oil to suppress the wearing and tearing between each parts, simultaneously friction means are cooled off, in order to the life-span of prolonged mechanical equipment.But if lubricating oil temperature is too high; Will cause its viscosity to descend, the greasy property of lubricating oil and loading capacity of oil film are descended, and deterioration of lubricant be very fast under the high temperature; Its service life can be shortened greatly, so require the temperature value of lubricating oil to keep within the specific limits.Because the lubricating oil oneself viscosity is big, use more common enhanced heat exchange element and common heat exchanger aspect two of heat transfer coefficient and pressure drops, to obtain gratifying effect simultaneously at present.

Needle fin tube is a kind of novel reinforced heat exchange element, and its pin wing can effectively destroy the viscous sublayer that forms on the border when high viscosity liquid flows, and the enhance fluid disturbance makes high viscosity medium be issued to excess flow or turbulent condition at lower Reynolds number.Name is called the patent document (number of patent application: 00220040.6), adopt Needle fin tube to replace light pipe to strengthen heat exchange, air-water, air-freon heat exchange are had augmentation of heat transfer effect preferably of " Needle fin tube heat exchanger ".But this kind heat exchanger is prone to exist by-pass flow when being applied to lubricated wet goods high viscosity medium, limited its exchange capability of heat, and do not supported between the Needle fin tube, makes heat exchanger tube produce vibration easily, shortens heat exchanger service life; For baffle heat exchanger (like number of patent application: the technical scheme in 200520093064.7 and 200810052113.0 the patent document) can produce bigger flow dead, increase energy consumption; (like number of patent application: the technical scheme in 87209430 and 93247942.1 the patent document), then the convection cell disturbance is less, and heat transfer coefficient is not high, installs cumbersomely, does not all meet energy-efficient requirement for deflection rod heat exchanger.Therefore, the high-performance heat exchanger that needs a kind of novel supporting construction of utility model.

Summary of the invention

The grid spacer that the purpose of the utility model is to provide a kind of and can reduces flow dead, increases heat transfer coefficient, be convenient to install supports the Needle fin tube heat exchanger.

The purpose of the utility model is achieved in that

Comprise housing, tube bank, upper tube box, lower tube box; Tube bank is arranged in housing, and the tube bank two ends are installed on upper perforated plate and the lower perforated plate, and upper perforated plate is installed between housing and the upper tube box; Lower perforated plate is installed between housing and the lower tube box; Have the outlet of shell side import and shell side on the housing, have the tube side import on the upper tube box, have the tube side outlet on the lower tube box; Said tube bank is made up of the intermittent type Needle fin tube, and needleless wing district is provided with grid spacer on Needle fin tube.

The utility model can also comprise:

1, in the periphery of tube bank coaming plate is set; The inner edge of coaming plate is tangent with tube bank; Coaming plate is arranged between pipe and plate grid spacer, plate grid spacer and plate grid spacer, plate grid spacer and the lower perforated plate, welds between coaming plate end and grid spacer or the upper and lower tube sheet.

2, described tube bank is an eight-sided formation, and the intermittent type Needle fin tube is square arrangement.

3, described grid spacer is made up of some connectors and support member, welds between connector and the support member, and the parent tube outer wall of connector and intermittent type Needle fin tube is tangent, and grid spacer and inner walls are tangent.

4, said support member front end is tapered, and the rear end is four leaf plum blossom cylindricalitys.

The utility model has provided a kind of grid spacer and has supported the Needle fin tube heat exchanger to the problem that the baffle heat exchanger flow dead is big, the deflection rod heat exchanger heat exchange efficiency is low.This heat exchanger utilizes special grid spacer that efficient thermoexcell is supported, and can reach the purpose that reduces flow dead, increase heat transfer coefficient, reduces flow resistance.

Heat exchanger tube adopts arranged in squares; Needleless wing district on the intermittent type Needle fin tube is provided with grid spacer; Four leaf plum blossom styletables of grid spacer support member match with Needle fin tube parent tube size, support Needle fin tube and prevent its vibrations, thereby the cone segments of grid spacer can play the local resistance that shunting action reduces support member; And can force fluid that the pin wing is washed away, improve the heat transfer coefficient of heat exchanger.Grid spacer outer rim and inner walls face are tangent.The tube bank cross section is an eight-sided formation, and the outside adds coaming plate and prevents the shell fluid leakage, has maximally utilised the shell-side space of heat exchanger, improves the heat of its unit volume, effectively strengthens the heat exchange property of heat exchanger.

Compare with traditional shell-and-tube heat exchanger, the utility model grid spacer supports the Needle fin tube heat exchanger and has following advantage and effect:

1, adopts grid spacer to match, saved supporter between pipes such as traditional deflection plate or rod baffle, can also reduce the flow dead of shell fluid when suppressing tube bundle vibration, reduce flow resistance, the heat exchanger comprehensive effectiveness is improved with tube bank.

2, adopting Needle fin tube is the enhanced heat exchange element, and the pin wing can destroy the boundary layer of fluid effectively, increases the turbulivity of fluid, has increased the heat transfer coefficient of shell fluid greatly, and pipe is less scaling in the work.

3, four leaf plum blossom shell of columns of grid spacer support member play a supportive role to tube bank, and conical section can increase the perturbation action of convection cell, and its special streamline structure can reduce the local resistance of support member effectively.

4, coaming plate is installed in the tube bank periphery, efficiently solves the problem of shell-side fluid by-pass flow, and coaming plate segmentation and grid spacer weld, and have solved the support problem of grid spacer.

5, grid spacer outer rim and inner walls are tangent, and its connector and parent tube outer wall are tangent, have reduced the leakage of shell fluid, are convenient to the assembling between Needle fin tube and the tube sheet, can improve the economic benefit of heat exchanger.

Description of drawings

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

Fig. 2 is the A-A cross-section structure of Fig. 1;

Fig. 3 is Fig. 2 I place partial enlarged drawing;

Fig. 4 is the grid spacer profile;

Fig. 5 is Fig. 4 vertical view.

The specific embodiment

Provide the embodiment of the utility model below, and combine accompanying drawing explanation.

In conjunction with Fig. 1, the composition that grid spacer supports the Needle fin tube heat exchanger comprises housing 4, is installed in the tube bank 5 in the housing, and the tube bank two ends are installed on upper perforated plate 9 and the lower perforated plate 12; Support and locate by grid spacer 11; Upper perforated plate is installed between housing 4 and the upper tube box 7, and lower perforated plate is installed between housing 4 and the lower tube box 2, has shell side import 3 and shell side outlet 10 on the housing; Have tube side import 8 on the upper tube box, have tube side outlet 1 on the lower tube box.Combine Fig. 2 simultaneously, described tube bank 5 is made up of intermittent type Needle fin tube 13 square arrangement, and the tube bank cross section is eight-sided formation, in the periphery of tube bank 5 coaming plate 6 is set, and the inner edge of coaming plate 6 is tangent with tube bank, and two ends are welded on tube sheet and the grid spacer 11.Combine Fig. 3, Fig. 4 and Fig. 5 simultaneously, grid spacer is processed through welding processing by support member 14 and connector 15, and the needleless wing district between per 4 intermittent type Needle fin tubes arranges a support member.Described Needle fin tube is square arrangement; Needleless wing district is provided with grid spacer on Needle fin tube; Grid spacer support member and Needle fin tube parent tube outer wall are tangent, and grid spacer outer rim and inner walls are tangent, and grid spacer is processed with support member 14 welding processing by some connectors 15; Support member 14 front ends are tapered, and the rear end is four leaf plum blossom cylindricalitys.

For preventing the tube bank vibrations, reduce flow dead, adopt grid spacer as the supporting construction that supports Needle fin tube in the utility model; Grid spacer is made up of some support members and connector, and the support member front end is a pyramidal structure, can reduce the support member local resistance; The physical efficiency of convection current simultaneously plays certain distributional effects, forces fluid to flow through in pin wing district, destroys fluid boundary layer; Increase the turbulivity of fluid, effectively increase the shell-side heat transfer coefficient of heat exchanger, the support member rear end is four leaf plum blossom column constructions; Support each other between the outer rim of four leaf plum blossom posts and the parent tube outer wall, size is formulated according to the pore size between four Needle fin tube parent tubes; Connector connects into integral body with support member, is convenient to the location and the installation of whole screen work, and the connector size matches with Needle fin tube parent tube outer wall and inner walls, reduces the shell-side actual internal area, reduces the leakage flow of fluid, increases rate of flow of fluid.

For preventing the by-pass of shell fluid; Restrain 5 outsides and surrounded by coaming plate 6, weld between coaming plate 6 and the grid spacer 11, the inner edge of coaming plate 6 is tangent with tube bank 5; The internal face of the outer rim of grid spacer 11 and housing 4 is tangent; Both efficiently solved the problem of shell-side fluid by-pass flow, solved the support problem of grid spacer again, can prevent that the shell fluid transversal flow from causing concussion to damage to restraining 5 simultaneously.

For reducing the flow resistance of heat exchanger, improve its heat exchange efficiency, grid spacer supports the Needle fin tube heat exchanger and adopts the single process reverse flow to arrange.With reference to shown in Figure 1, the flow process of tube side fluid is: tube side fluid gets into from tube side import 8, enters in the tube bank 5 through upper tube box 7 and upper perforated plate 9, then through lower perforated plate 12 and lower tube box 2, is flowed out by tube side outlet 1.The flow process of shell-side fluid is: shell-side fluid enters in the housing 4 through shell side inlet 3, after tube bank 5 heat exchange, is flowed out by shell side outlet 10.

Simple for heat exchanger is installed, grid spacer matches with Needle fin tube and shell dimension, and the concrete installation implementation process that grid spacer supports the Needle fin tube heat exchanger is following: according to support member and the connector welding of design size with the grid spacer identical layer; When mounted, fix the grid spacer of the bottom earlier, place the ground floor Needle fin tube then in the above, continue to place second layer grid spacer, after installation is correct two-layer grid spacer spot welding is fixed; Weld whole grid spacer after installing correctly so successively, make it to become one; After the installation grid spacer, at the peripheral coaming plate of installing of tube bank, the coaming plate inner edge is close to tube bank, and end and grid spacer weld; After this one side pipe plate is installed earlier, after expanded joint to be restrained fixes, coaming plate is welded on the tube sheet, reach final fixedly purpose; At last housing is put in mounted tube bank, same method is installed the opposite side tube sheet, treats operations completion such as expanded joint, welding, and parts such as bobbin carriage, flange adapter are installed, and finally forms a kind of novel location screen work and supports the Needle fin tube heat exchanger.

Claims (7)

1. a grid spacer supports the Needle fin tube heat exchanger, comprises housing, tube bank, upper tube box, lower tube box, and tube bank is arranged in housing; The tube bank two ends are installed on upper perforated plate and the lower perforated plate; Upper perforated plate is installed between housing and the upper tube box, and lower perforated plate is installed between housing and the lower tube box, has the outlet of shell side import and shell side on the housing; Have the tube side import on the upper tube box, have the tube side outlet on the lower tube box; It is characterized in that: said tube bank is made up of the intermittent type Needle fin tube, and needleless wing district is provided with grid spacer on Needle fin tube.

2. a kind of grid spacer according to claim 1 supports the Needle fin tube heat exchanger; It is characterized in that: the periphery in tube bank is provided with coaming plate; The inner edge of coaming plate is tangent with tube bank; Coaming plate is arranged between pipe and plate grid spacer, plate grid spacer and plate grid spacer, plate grid spacer and the lower perforated plate, welds between coaming plate end and grid spacer or the upper and lower tube sheet.

3. a kind of grid spacer according to claim 1 and 2 supports the Needle fin tube heat exchanger, and it is characterized in that: described tube bank is an eight-sided formation, and the intermittent type Needle fin tube is square arrangement.

4. a kind of grid spacer according to claim 1 and 2 supports the Needle fin tube heat exchanger; It is characterized in that: described grid spacer is made up of some connectors and support member; Weld between connector and the support member; The parent tube outer wall of connector and intermittent type Needle fin tube is tangent, and grid spacer and inner walls are tangent.

5. a kind of grid spacer according to claim 3 supports the Needle fin tube heat exchanger; It is characterized in that: described grid spacer is made up of some connectors and support member; Weld between connector and the support member; The parent tube outer wall of connector and intermittent type Needle fin tube is tangent, and grid spacer and inner walls are tangent.

6. a kind of grid spacer according to claim 4 supports the Needle fin tube heat exchanger, and it is characterized in that: said support member front end is tapered, and the rear end is four leaf plum blossom cylindricalitys.

7. a kind of grid spacer according to claim 5 supports the Needle fin tube heat exchanger, and it is characterized in that: said support member front end is tapered, and the rear end is four leaf plum blossom cylindricalitys.

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