CN106595358B - A kind of immersion heat exchange tube assemblies of heating power variation - Google Patents

Abstract

The present invention provides a kind of heat exchanger assemblies, and including left pipe box, right pipe box and heat exchanger tube, heat exchanger tube is connected with left pipe box and right pipe box, and electric heater unit is arranged in left pipe box and/or right pipe box；Filling heating fluid in left pipe box, right pipe box and heat exchanger tube, forms heating fluid closed circulation；The electric heater unit constantly increases from the top of left pipe box and/or right pipe box to the bottom of left pipe box and/or right pipe box, the heating power of unit length.The present invention provides a kind of immersion heat exchanger assembly of heating power variation, improves the efficiency of heating surface and its uniformity of heating for the deficiency of water heater in the prior art.

Description

A kind of immersion heat exchange tube assemblies of heating power variation

Technical field

The present invention relates to a kind of heat-exchanging component more particularly to a kind of heat-exchanging components of immersion heat exchanger.

Background technology

Immersion heat exchanger is one of dividing wall type heat exchanger type.It is simple in structure, manufacture, installation, cleaning and repair side Just, it is cheap, and cooling, condensation especially suitable for high-pressure fluid, so modern be still used widely.This heat exchanger Various situations about being adapted with container are mostly coiled into or be made with metal pipe, and are immersed in the liquid in container.

But to there are problems that heat exchange efficiency low etc. for current immersion heat exchanger, therefore needs to increase under normal circumstances to stir Component increases heat exchange, and the heating power of immersion heat exchanger is not changed accordingly with the variation of immersion tube, Also cause heat exchange efficiency not high.

Invention content

The present invention provides a kind of immersion heat exchanger assembly of Novel structure for the deficiency of water heater in the prior art. The modular construction is simple, and heat exchange efficiency is high.

To achieve the above object, the present invention adopts the following technical scheme that：

A kind of heat exchanger assembly, including left pipe box, right pipe box and heat exchanger tube, heat exchanger tube is connected with left pipe box and right pipe box Logical, electric heater unit is arranged in left pipe box and/or right pipe box；Filling heating fluid, shape in left pipe box, right pipe box and heat exchanger tube Into heating fluid closed circulation；The electric heater unit is from the top of left pipe box and/or right pipe box to left pipe box and/or right pipe box Bottom, the heating power of unit length constantly increases.

Preferably, from the top of left pipe box and/or right pipe box to the bottom of left pipe box and/or right pipe box, electrical heating dress Constantly increased amplitude is increasing for the heating power for the unit length put.

Preferably, the electric heater unit is electrically heated rod.

Preferably, the electric heater unit is located at the medium position position to the right of left pipe box, i.e., described electrical heating dress The position between medium position and right part wall surface setting in left pipe box.

Preferably, the distance of the center line of the center line and left pipe box of the electric heater unit is in the pipe of left pipe box 1 The 1/4-1/3 of radius.

Preferably, the electric heater unit is located at the medium position position to the left of right pipe box, i.e., described electrical heating dress The position between medium position and left part wall surface setting in right pipe box.

Preferably, the distance of the center line of the center line and right pipe box of the electric heater unit is in the pipe of right pipe box 1 The 1/4-1/3 of radius.

Preferably, the heat-exchanging tube bundle is coil pipe, each coil pipe includes more arc-shaped heat exchanger tubes, adjacent heat exchange tubes End connection, more heat exchanger tubes is made to form cascaded structures, and the end of heat exchanger tube is caused to form heat exchanger tube free end；More The center line of arc-shaped heat exchanger tube is the circular arc of concentric circles；The concentric circles is using the center of the cross section of upper header as the center of circle Circle.

Preferably, the coil pipe is multiple, the multiple coil pipe is parallel-connection structure.

Preferably, the internal diameter of left pipe box is R1, the internal diameter of right pipe box is R2, and the power of the electric heater unit of left pipe box is P1, the power of the electric heater unit of right pipe box is P2, meets following relationship：

P1/P2=a*(R1/R2)²-b*(R1/R2)+c；

A, b, c are coefficients, wherein 0.82<a<0.91,1.95<b<2.05,2.67<c<2.77；

Wherein 58mm<R1<87mm;

29mm<R2<68mm；

1.2<R1/R2<2.1；

950W<P1<1500W；

400W<P2<1000W。

Preferably, with the increase of R1/R2, a, c increase, and b reduces.

The invention has the advantages that：

1st, the present invention further improves heating by the variation of heating power of the setting from the top of bobbin carriage to lower part Efficiency improves the heat exchange efficiency of heat exchanger assembly.

2nd, the configuration of the present invention is simple, it is easy to operate, directly heat exchanger assembly submergence can be used in a fluid.

3rd, floating coiled pipe is applied to immersion heat-exchanging component by the present invention, and by setting floating coiled pipe, heating fluid is heated After can generate volume expansion, induction floating coiled pipe free end BC, B ' C ' generates vibration, so as to augmentation of heat transfer.

4th, the present invention optimizes the best relation of the parameter of floating coiled pipe, so as to further improve by largely testing The efficiency of heating surface.

5th, the present invention is by the setting of the electric heater unit power of different bobbin carriages, improves the equal of the efficiency of heating surface and its heating Even property.

Description of the drawings：

Fig. 1 is the schematic cross-section of immersion heat exchanger assembly.

Fig. 2 is the schematic cross-section for the heat exchanger assembly for setting floating coiled pipe structure.

Fig. 3 is the Section A-A view in Fig. 2.

Fig. 4 is the scale diagrams of Fig. 3 structures.

Fig. 5 is the structure diagram of resistance heater.

In figure：1st, floating coiled pipe, 2, left pipe box, 3, free end, 4 tube banks, 5 electric heater units, 51 first electrical heating dress It puts, 52 second electric heater units, 6, right pipe box.

Specific embodiment

Fig. 1-2 illustrates the section schematic diagram of immersion heat-exchanging component, as shown in Figure 1, a kind of immersion heat exchanger assembly, Including left pipe box 2, right pipe box 6 and heat exchanger tube, heat exchanger tube is connected with left pipe box 2 and right pipe box 6, and electric heater unit 5 is arranged on In left pipe box 2 and/or right pipe box 6；Filling heating fluid in left pipe box 2, right pipe box 6 and heat exchanger tube, heating fluid is in left pipe box 2 With close flow is carried out in right pipe box 6 and heat exchanger tube.

The electric heater unit 5 is used to heat the interior fluid of heat-exchanging component, then heats heat exchange by the fluid of heating Fluid outside device assembly.

Preferably, electric heater unit 5 is arranged in left pipe box 2 or right pipe box 6.

Preferably, heat exchanger tube is straight tube.

Preferably, the heat exchanger tube is floating coiled pipe 1.

Floating coiled pipe 1 is for one group or multigroup, and every group of floating coiled pipe 1 includes more arc-shaped tube banks 4, and more arc-shaped Tube bank 4 center line be concentric circles circular arc, it is adjacent tube bank 4 end connection so that coil pipe 1 end formed tube bank Free end 3, such as the free end 3 in Fig. 3.

Preferably, the heating fluid is conduction oil.Certainly, those skilled in the art can be according to the temperature of heating Need other suitable fluids of selection.

Traditional floating coiled pipe is all to carry out vibration scale removal effect using the impact of the flowing of fluid to carry out augmentation of heat transfer, all It is to be used for forced-convection heat transfer, and the water flowing in immersion heat exchanger is poor, can not carry out forced-convection heat transfer flowing, and originally Floating coiled pipe is applied to immersion heat exchanger by invention for the first time, and by setting floating coiled pipe, body can be generated by heating after fluid is heated Product expansion, 1 free end 3 of induction floating coiled pipe generates vibration, because the vibration is transferred to surrounding fluid, the fluid of surrounding is generated Disturbance effect, so as to produce the effect of augmentation of heat transfer.

In the present invention, because electric heater unit 5 is arranged in left pipe box 2 and/or right pipe box 6, therefore can directly be kept away Exempt from fluid to contact with electric heater unit, so as to avoid getting an electric shock, play the role of protection.

Preferably, the left pipe box 2, right pipe box 6 and floating coiled pipe 1 are all circular tube structures.

Preferably, the tube bank of floating coiled pipe 1 is elastic tube bundle.

By the way that the tube bank of floating coiled pipe 1 is set elastic tube bundle, the coefficient of heat transfer can be further improved.

Preferably, the concentric circles is the circle using the center of left pipe box 2 as the center of circle.That is the tube bank 4 of floating coiled pipe 1 surrounds The center line arrangement of left pipe box 2.

As shown in figure 3, tube bank 4 is not a complete circle, but an oral area is reserved, so as to form the freedom of tube bank End.Angle where the circular arc of the oral area is 65-85 degree, i.e. the sum of Fig. 4 angles b and c is 65-85 degree.

Preferably, the caliber of the left pipe box 2 is more than the caliber of right pipe box 6.

By above-mentioned setting, can further augmentation of heat transfer, improve the heat exchange efficiency of 8-15%.

Preferably, the internal diameter of left pipe box is R1, the internal diameter of right pipe box is R2, then 1.5<R1/R2<2.5.

It is preferably provided with by above-mentioned, heat exchange efficiency is enabled to reach best.

Preferably, with more remote apart from the center of left pipe box 2, the distance between adjacent tube bank is increasing.

Preferably, the increasing amplitude of the distance between adjacent tube bank constantly increases.

It is preferably provided with by above-mentioned, heat exchange efficiency can be further improved, increase the uniformity of heating.It is sent out by testing It is existing, the heat exchange efficiency of 10-11% can be improved by above-mentioned setting.

Preferably, with more remote apart from the center of left pipe box 2, the diameter of tube bank is increasing.

Preferably, the increasing amplitude of diameter of tube bank constantly increases.

It is preferably provided with by above-mentioned, heat exchange efficiency can be further improved, increase the uniformity of heating.It is sent out by testing It is existing, 10% or so heat exchange efficiency can be improved by above-mentioned setting.

Preferably, electric heater unit 5 is separately positioned in left pipe box 2 and right pipe box 6 as described in Figure 1, i.e., the first electricity adds Thermal 51 is arranged in left pipe box 2, and the second electric heater unit 52 is arranged in right pipe box 6.

Preferably, left pipe box 2 is identical with the length of right pipe box 6.

Caliber as preferred left pipe box is more than the caliber of right pipe box.

Preferably, as shown in Figure 1, 2, when water heater is run, the heating power of the first electric heater unit 51 is big In the heating power of the second electric heater unit 52.It by above-mentioned setting, is found through experiments that, enables to heating unit component Heat exchange efficiency higher is more uniform to the heat exchange of fluid.

Preferably, the heating power of the first electric heater unit 51 is the 1.3-2.8 of the power of the second electric heater unit 52 Times, preferably 1.5-2.4 times, further preferably 1.9-2.2 times.

It is found in numerical simulation and corresponding experiment, left pipe box 2, the size of right pipe box 6 and the first electrical heating dress Put 51 and second electric heater unit 52 power between proportionate relationship the efficiency of heating surface and uniformity can be had an impact.Such as The size of fruit left pipe box 2 and right pipe box 6 difference is too many, and 52 heating power of the first electric heater unit 51 and the second electric heater unit It differs smaller, then can generate that the efficiency of heating surface is low and non-uniform phenomenon occurs in heating, similarly if left pipe box 2, right pipe box 6 Size disparity is too small and the first electric heater unit 51 and 52 heating power of the second electric heater unit difference it is bigger, also will appear The heat exchange thermal efficiency is low and non-uniform phenomenon occurs in heat exchange.Therefore the present invention is by a large amount of numerical simulation, to above-mentioned relationship It is summarized, by being verified.Left pipe box 2, the size of right pipe box 6 and the first electric heater unit 51 are obtained Best relation between 52 heating power of the second electric heater unit.

Preferably, the internal diameter of left pipe box is R1, the internal diameter of right pipe box is R2, the heating work(of the electric heater unit of left pipe box Rate is P1, and the heating power of the electric heater unit of right pipe box is P2, meets following relationship：

P1/P2=a*(R1/R2)²-b*(R1/R2)+c；

A, b, c are coefficients, wherein 0.82<a<0.91,1.95<b<2.05,2.67<c<2.77；

Wherein 58mm<R1<87mm;

29mm<R2<68mm；

1.2<R1/R2<2.1；It is preferred that 1.5<P1/P2<2.3;

950W<P1<1500W；

400W<P2<1000W。

Preferably, with the increase of R1/R2, a, c increase, and b reduces.

Preferably, the quantity of tube bank is 3-5 roots, preferably 3 or 4.

Preferably, a=0.87, b=2, c=2.72.

The distance of 6 center line of left pipe box 2 and right pipe box is 220-270mm；Preferably 240-250mm.

The radius of tube bank is preferably 10-25mm；

P1, P2 are provided in total heating power of the electrical heating assembling device in left pipe box and right pipe box.Such as left pipe box Or during the right pipe box multiple electric heater units of setting, P1, P2 are the heating work(of multiple electric heater units in left pipe box and right pipe box The sum of rate.

Preferably, in the tube bank adjacent thereto of the circular arc where the tube bank center line of left pipe box center line recently The distance between circular arc where heart line（Such as the distance between center of arc's line in Fig. 3 where tube bank A and B）For two pipes Beam mean outside diameter（Outer dia）1.1-2.0 times, preferably 1.2-1.7 times, preferably 1.3-1.5 times.

The weighted average of two pipe diameters of average out to of the diameter of two tube banks.

Preferably, end part aligning of the tube bank in the same side, in the same plane, the extended line of end（Or end The plane at place）By the center line of left pipe box 2, as shown in Figure 4.

Further preferably, the electric heater unit 5 is electrically heated rod.

Electric heater unit of the present invention, as shown in figure 3, the left pipe box 2 is connected with floating coiled pipe A ends；Right pipe box 6 It is connected with floating coiled pipe D ends.

Preferably, as shown in figure 3, floating coiled pipe 1 inside tube bank first end connect with left pipe box 2, second end and One end connection is restrained in adjacent outside, and one end of the outermost tube bank of floating coiled pipe 1 is connect with right pipe box 6, adjacent tube bank End connects, so as to form the structure of a series connection.

Plane and the angle c that the plane where 6 center line of left pipe box 2 and right pipe box is formed where first end are 40-50 Degree.

Plane and the angle b that the plane where 6 center line of left pipe box 2 and right pipe box is formed where second end are 25-35 Degree.

Pass through the design of above-mentioned preferred angle so that the vibration of free end reaches best, so that the efficiency of heating surface reaches To optimal.

As shown in figure 3, the tube bank of floating coiled pipe is 4, A, B, C, D unicom are restrained.Certainly, four are not limited to, it can be with It is arranged as required to multiple, specific connection structure is identical with Fig. 4.

The floating coiled pipe 1 is multiple, and multiple floating coiled pipes 1 independently connect left pipe box 2 and right pipe box 6, i.e., multiple Floating coiled pipe 1 is parallel-connection structure.

Preferably, 5 cross section of electric heater unit is preferably circular.

Preferably, electric heater unit 5 is electrically heated rod.

Preferably, the electric heater unit 51 is located at the medium position position to the right of left pipe box 2, i.e., described electrical heating Device is located at the position between the medium position of left pipe box and right part wall surface.

Preferably, the distance of the center line of the center line and left pipe box of the electric heater unit 51 is the pipe of left pipe box 1 The 1/4-1/3 of inside radius.

Preferably, the electric heater unit 52 is located at the medium position position to the left of right pipe box 2, i.e., described electrical heating Device 52 is located at the position between the medium position of right pipe box and left part wall surface.

Preferably, the distance of the center line of the center line and right pipe box of the electric heater unit 52 is the pipe of right pipe box 1 The 1/4-1/3 of inside radius.

It is found through experiments that, setting by doing so, the heat exchange efficiency of 10-13% or so can be improved, and can make The fluid heating obtained in heat exchange tube assemblies is more uniform, and the optimal of heating effect can be reached by putting, so as to reach heat transfer effect It is optimal.

Preferably, the electric heater unit 5 is from the top of left pipe box 2 and/or right pipe box 6 to left pipe box 2 and/or right pipe The lower part of case 6, the heating power of unit length constantly increase.That is 5 upper position heating power highest of electric calorifie installation, lower portion The heating power put is minimum.

Preferably, add from the top of left pipe box 2 and/or right pipe box 6 to the lower part of left pipe box 2 and/or right pipe box 6, electricity Constantly increased amplitude is increasing for the heating power of the unit length of thermal 5.

By the design of above-mentioned optimization, heat exchange efficiency can be further improved.Because main cause is the low stream of temperature Body is all to be located at lower part, is set by doing so, the heating power of enlarged lower part, so as to improve the heat exchange efficiency of lower part.Pass through reality It issues after examination and approval now, heat exchange efficiency 15-18% can be improved by above-mentioned setting.

Preferably, the electric heater unit 5 divides for multistage, from the top of left pipe box 2 and/or right pipe box 6 to left pipe box 2 And/or the lower part of right pipe box 6, the heating power of the unit length of the electric heater unit of the difference section constantly increase.It is i.e. electric 5 upper position heating power of thermal is minimum, the heating power highest of lower end.

Preferably, from the top of left pipe box 2 and/or right pipe box 6 to the lower part of left pipe box 2 and/or right pipe box 6, it is different Constantly increased amplitude is increasing for the heating power of the unit length of the electric heater unit 5 of section.

It is on the one hand easy to process by the design of above-mentioned optimization, heat exchange efficiency can be further improved.Principle and front It is identical.It is found through experiments that, 15% or so heat exchange efficiency can be improved by above-mentioned setting.

Fig. 5 illustrates electric heater unit 5 and divides structure for multistage.

The electric heater unit is by the way of resistance heating.

Preferably, the electric heater unit 5 is rod resistance.Preferably, quantity is one or more.

Preferably, the electric heater unit 5 is resistance wire.Preferably, quantity is one or more.

Preferably, the electric heater unit 5（As one or more preferred rod resistance or one or more Resistance wire）From the top of left pipe box 2 and/or right pipe box 6 to the lower end of lower tube box, the outer diameter of electric heater unit is less and less, i.e., Electric heater unit is more and more thinner.That is electric calorifie installation lower position is most thin, and top is most thick.Such as shown in figure 5, by above-mentioned excellent Change setting, the heating power for reaching electric heater unit different location is different, so as to improve electrically heated efficiency.

Preferably, add from the top of left pipe box 2 and/or right pipe box 6 to the lower part of left pipe box 2 and/or right pipe box 6, electricity The amplitude that 5 outer diameter of thermal becomes smaller is increasing.

Change by using outer diameter so that the resistance of lower part is maximum, and heat generation rate is maximum, so as to improve heat exchange tube assemblies Heat exchange efficiency.

It is found through experiments that, passes through above-mentioned optimal design-aside so that electrically heated utilization ratio highest so that heat pipe reaches Best electric heating utilization ratio can improve 15% or so heat utilization efficiency.

Preferably, the outer shape of electric heater unit is parabolical shape.

In multi-segment structure, from the top of left pipe box 2 and/or right pipe box 6 to the lower part of left pipe box 2 and/or right pipe box 6, The caliber of the electric heater unit 5 of different sections is less and less.Such as shown in Figure 5.

In multi-segment structure, from the top of left pipe box 2 and/or right pipe box 6 to the lower part of left pipe box 2 and/or right pipe box 6, The amplitude that the caliber of the electric heater unit 5 of different sections is less and less is constantly increasing.

First electric heater unit, 51 and/or second electric heater unit 52 is more, first electric heater unit 51 And/or second electric heater unit 52 around the center line of left pipe box and/or right pipe box set.

It sets by doing so, the uniformity of heat exchange can be further provided for.

The present apparatus is simple in structure, using conveniently, is used directly for various occasions.Such as it is directly placed at the stream in babinet It exchanges heat with fluid in body, is used as radiator, submergence is in air.As spray-type evaporator, liquid is directly sprayed Leaching is on heat exchanger assembly.

Although the present invention has been disclosed in the preferred embodiments as above, present invention is not limited to this.Any art technology Personnel without departing from the spirit and scope of the present invention, can make various changes or modifications, therefore protection scope of the present invention should When being subject to claim limited range.

Claims (9)

1. a kind of heat exchanger assembly, including left pipe box, right pipe box and heat-exchanging tube bundle, heat-exchanging tube bundle is connected with left pipe box and right pipe box Logical, electric heater unit is arranged in left pipe box and/or right pipe box；Filling heating fluid, shape in left pipe box, right pipe box and heat exchanger tube Into heating fluid close flow；The electric heater unit is from the top of left pipe box and/or right pipe box to left pipe box and/or right pipe box Bottom, the heating power of unit length constantly increases.

2. heat exchanger assembly as described in claim 1, from the top of left pipe box and/or right pipe box to left pipe box and/or right pipe The bottom of case, constantly increased amplitude is increasing for the heating power of the unit length of electric heater unit.

3. heat exchanger assembly as described in claim 1, which is characterized in that the electric heater unit is electrically heated rod.

4. heat exchanger assembly as described in claim 1, which is characterized in that the electric heater unit is located at the middle position of left pipe box Position to the right is put, i.e., described electric heater unit is located at the position between the medium position of left pipe box and right part wall surface.

5. heat exchanger assembly as claimed in claim 4, which is characterized in that the center line of the electric heater unit and left pipe box The distance of center line is the 1/4-1/3 of the pipe inside radius of left pipe box.

6. heat exchanger assembly as described in claim 1, which is characterized in that the electric heater unit is located at the middle position of right pipe box Position to the left is put, i.e., described electric heater unit is located at the position between the medium position of right pipe box and left part wall surface.

7. heat exchanger assembly as described in claim 1, which is characterized in that the center line of the electric heater unit and right pipe box The distance of center line is the 1/4-1/3 of the pipe inside radius of right pipe box.

8. heat exchanger assembly as described in claim 1, which is characterized in that the heat-exchanging tube bundle is coil pipe, and each coil pipe includes More arc-shaped heat exchanger tubes, the end connection of adjacent heat exchange tubes, make more heat exchanger tubes form cascaded structure, and cause heat exchange The end of pipe forms heat exchanger tube free end；The center line of more arc-shaped heat exchanger tubes is the circular arc of concentric circles；The concentric circles It is the circle using the center of the cross section of left pipe box as the center of circle.

9. heat exchanger assembly as claimed in claim 8, which is characterized in that the coil pipe is multiple, and the multiple coil pipe is simultaneously It is coupled structure.