CN205808187U - Multichannel many journeys shell-and-tube gas-liquid heat-exchange - Google Patents

Abstract

The utility model discloses a kind of multichannel many journeys shell-and-tube gas-liquid heat-exchange.Including shell, the first bobbin carriage and the second bobbin carriage, one end of described shell is fixed with the first tube sheet, and the other end is fixed with the second tube sheet, uniform between described first tube sheet and the second tube sheet is fixed with heat exchanger tube；The first deflection plate and the second deflection plate it has been arranged side by side vertically on described heat exchanger tube；Two the first pass partitions are fixed the most side by side in first bobbin carriage；In described second bobbin carriage, center is fixed with second pass partition vertically.This utility model is by using three Cheng Guancheng media flow, two end bobbin carriages set different pass partitions, use three journey cooling endless form, fully carry out heat exchange, make tube side cycle heat exchange efficiency improve, reduce water consumption, make full use of cooling water heat load, realize flow velocity faster, there is structure light, the feature of low cost of manufacture.

Description

Multichannel many journeys shell-and-tube gas-liquid heat-exchange

Technical field

This utility model belongs to technical field of heat exchangers, particularly relates to a kind of many journeys of the multichannel for ammonia Yu water heat exchange Shell-and-tube gas-liquid heat-exchange.

Background technology

The parts compositions such as pipe for shell-and-tube exchanger shell, heating surface bank, tube sheet, deflection plate (baffle plate) and bobbin carriage, according to structure Feature can be divided into following two classes:

1, the shell-and-tube heat exchanger of rigid structure: this heat exchanger is also called fixed tube sheet type, is commonly divided into single tube journey With multitube distance two kinds.The pipe end of heat exchanger is fixed on two pieces of tube sheets with welding, expanded joint, the method for expanded and welded tube joint, and tube sheet is then It is connected with shell with the method for welding.Compared with the shell-and-tube heat exchanger of other pattern, simple in construction, when shell diameter is identical Time, more pipe can be arranged, also allow for a point journey.Manufacturing cost is relatively low.Owing to there is not bent tube section, in pipe, it is difficult to accumulation dirt Dirt, also allows for cleaning even if producing dirt.If pipe occurs leakage or damages, also allow for carrying out plugging or changing pipe.

2, there is the shell-and-tube heat exchanger of temperature difference compensation devices: it can make heated portion free wxpansion.

The problem that above-mentioned conventional one-channel media flow exists several aspect.

Tradition tubular heat exchanger is single channel media flow mode, and its shortcoming is that valid circulation area is little, and circulation cuts On face, dead angle is many, and effective heat exchange area is only 60%；

In the process of circulation, pressure is uneven, causes heat transfer effect uneven, and subregion heat transfer effect is relatively low.

Media flow resistance is big, and energy consumption is high.Producing backflow in flow process, laminar flow phenomenon is more, reduces heat exchange efficiency；

Service life of equipment is low, and the heat exchange element of local forms physics, the corrosion of chemistry, quickly shape prior to other parts Become seepage.Existence is often being located in region and the region of formation eddy current that flow velocity is higher.

During carrying out heat exchange for ammonia and water, using traditional heat exchanger, heat exchange efficiency is the highest, there is heat exchange blind District, relatively costly, therefore, design one uses three journey cooling endless form, fully carries out heat exchange, makes tube side circulating picture-changing thermal effect Rate improves, and reduces water consumption.Make full use of cooling water heat load, it is achieved flow velocity faster.

Utility model content

The purpose of this utility model is to provide a kind of multichannel many journeys shell-and-tube gas-liquid heat-exchange, by using three Cheng Guancheng Media flow, two end bobbin carriages set different pass partitions, use three journey cooling endless form, fully carry out heat exchange, solve Traditional heat exchanger, heat exchange efficiency is the highest, there is heat exchange blind area, the problem such as relatively costly.

For solving above-mentioned technical problem, this utility model is achieved through the following technical solutions:

This utility model is multichannel many journeys shell-and-tube gas-liquid heat-exchange, including shell, the first bobbin carriage and the second bobbin carriage, its In:

One end of shell described in A is fixed with the first tube sheet, and the other end is fixed with the second tube sheet, described first tube sheet and second Uniform between tube sheet it is fixed with heat exchanger tube；The first deflection plate and the second deflection plate it has been arranged side by side vertically on described heat exchanger tube；

Wherein, described first deflection plate and the second deflection plate are semicircular plate, all along level in the radial direction of bottom surface The part of excision 0-1/2 diameter length forms a notched plate；Described first deflection plate is fixed on shell side dividing plate one surface side by side, On adjacent two first deflection plate lateral attitudes, projection is combined into a semicircle；Described second deflection plate is fixed on shell side dividing plate side by side Another surface, on adjacent two second deflection plate lateral attitudes, projection is combined into a semicircle；

Wherein, side by side fixing first deflection plate week side connected by the first demarcation strip of a bar shaped；Side by side fixing the One deflection plate is fixed with second gear pipe along the medium position being parallel to shell side dividing plate；

Wherein, side by side fixing second deflection plate week side connected by the second demarcation strip of a bar shaped；Side by side fixing the Two deflection plates are fixed with third gear pipe along the medium position being parallel to shell side dividing plate；

Wherein, described shell side dividing plate one surface is vertically and fixedly provided with the first gripper shoe, and another surface is vertically and fixedly provided with second Fagging；

Two the first pass partitions are fixed the most side by side in first bobbin carriage described in B；

In second bobbin carriage described in C, center is fixed with second pass partition vertically；

Described in D, the first bobbin carriage is fixed on first tube sheet of shell one end, and, two the first pass partitions lay respectively at The both sides of shell side dividing plate；Described second bobbin carriage is fixed on the second tube sheet of the shell other end, and, the second pass partition and shell Journey dividing plate is coplanar.

Further, all sides of described shell are fixed with an air inlet, and the shell opposite side of relative air inlet is fixed with out QI KOU.

Further, the fixed position of described air inlet is positioned at the surface of the first gripper shoe；Described air inlet and first First gear pipe it is provided with between gripper shoe；The fixed position of described gas outlet is positioned at the surface of the second demarcation strip.

Further, described first gripper shoe and the second gripper shoe are a semicircular plate, and described first gripper shoe is along hanging down The part of the straight radial direction excision 0-1/2 radius length in bottom surface forms a notched plate, and the surface of indentation, there has and first The first notch that demarcation strip coordinates；

The surface of described first gripper shoe and the surface of the second demarcation strip are equipped with the position, hole coordinated with heat exchanger tube；

Described first gripper shoe has, along the medium position being parallel to bottom surface, the first circular hole coordinated with second gear pipe side by side；

Described second gripper shoe has, along the medium position being parallel to bottom surface, the second circular hole coordinated with third gear pipe side by side； Described second gripper shoe week side have second notch coordinated with the second demarcation strip.

Further, described first deflection plate surface and the second deflection plate surface all have the position, hole coordinated with heat exchanger tube, Described first deflection plate circumference side has the 3rd notch coordinated with the first demarcation strip, and described second deflection plate circumference side is opened There is the 4th notch coordinated with the second demarcation strip.

Further, described first deflection plate and the second deflection plate are all positioned by pull bar；Described first deflection plate All adjacent two the first deflection plates or the spacing of adjacent two the second deflection plates are limited by distance rod with the second deflection plate.

Further, described first bobbin carriage week side be fixed with a water inlet, relative to the side of the first bobbin carriage of water inlet It is fixed with outlet.

Further, the first pad, the structure of described first pad it are provided with between described first bobbin carriage and the first tube sheet Match with the port organization of the first bobbin carriage.

Further, it is provided with the second pad between described two bobbin carriages and the second tube sheet；The structure of described second pad with The port organization of the second bobbin carriage matches, sealing when keeping fixing.

This utility model has the advantages that

1, heat exchanger of the present utility model is by using three Cheng Guancheng media flow, two end bobbin carriages set different point journeys every Plate, uses three journey cooling endless form, fully carries out heat exchange, make tube side cycle heat exchange efficiency improve, reduce water consumption, fully Utilize cooling water heat load, it is achieved flow velocity faster.

2, heat exchanger cavity pressure of the present utility model equilibrium, non-blind area, without dead angle, be greatly improved heat exchange efficiency, through with Family uses and measures heat exchange efficiency raising 66.7%；Device fabrication low cost, lightweight；Phenomenon without short-circuit flow, heat exchange cooling ratio Relatively abundant, liquid can be formed continuously.

Certainly, implement arbitrary product of the present utility model to it is not absolutely required to reach all the above advantage simultaneously.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme of this utility model embodiment, embodiment will be described below required for make Accompanying drawing be briefly described, it should be apparent that, below describe in accompanying drawing be only embodiments more of the present utility model, For those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to obtain according to these accompanying drawings Other accompanying drawing.

Fig. 1 is the structural representation of a kind of multichannel many journeys shell-and-tube gas-liquid heat-exchange of the present utility model；

Fig. 2 is shell inner mounting structure figure；

Fig. 3 is the structure sectional view in Fig. 2 at A-A；

Fig. 4 is the structural side view of the first tube sheet in Fig. 2；

Fig. 5 is the structural side view of the second tube sheet in Fig. 2；

Fig. 6 is the structural front view of the first gripper shoe；

Fig. 7 is the structural front view of the second gripper shoe；

Fig. 8 is the structural front view of the first deflection plate；

Fig. 9 is the structural front view of the second deflection plate；

Figure 10 is the structural front view of the first bobbin carriage；

Figure 11 is the structural side view of Figure 10；

Figure 12 is the structural front view of the second bobbin carriage；

Figure 13 is the structural side view of Figure 12；

Figure 14 is the structural front view of the first pad；

Figure 15 is the structural front view of the second pad；

Figure 16 is the combinative structure schematic diagram of the first deflection plate；

Figure 17 is the structural front view of Figure 16；

In accompanying drawing, the list of parts representated by each label is as follows:

1-shell, 2-the first bobbin carriage, 3-the second bobbin carriage, 4a-the first tube sheet, 4a01-the first shallow slot mouth, 4b-the second tube sheet, 4b01-the second shallow slot mouth, 5a-the first gripper shoe, 5a01-the first notch, 5a02-the 6th circular hole, 5a03-the first circular hole, 5b- Two gripper shoes, 5b01-the 7th circular hole, 5b02-the second circular hole, 5b03-the second notch, 6-shell side dividing plate, 7a-the first deflection plate, 7a01-the 3rd notch, 7a02-the 3rd circular hole, 7a03-the 5th circular hole, 7b-the second deflection plate, 7b01-the 4th notch, 7b02- Four circular holes, 7b03-the 8th circular hole, 8a-third gear pipe, 8b-second gear pipe, 9-the first pad, 10-the second pad, 11-first gear Pipe, 12-heat exchanger tube, 13-pull bar, 14-distance rod, 15a-the first demarcation strip, 15b-the second demarcation strip, 101-air inlet, 102- Gas outlet, 201-the first pass partition, 202-water inlet, 203-outlet, 301-the second pass partition.

Detailed description of the invention

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of this utility model rather than whole Embodiment.Based on the embodiment in this utility model, those of ordinary skill in the art are not under making creative work premise The all other embodiments obtained, broadly fall into the scope of this utility model protection.

In description of the present utility model, it is to be understood that term " perforate ", " on ", D score, " thickness ", " top ", In " ", " length ", " interior ", indicating position or the position relationship such as " surrounding ", be for only for ease of description this utility model and simplification Describe rather than indicate or imply that the assembly of indication or element must have specific orientation, with specific azimuth configuration and behaviour Make, therefore it is not intended that to restriction of the present utility model.

Referring to shown in Fig. 1-15, this utility model is a kind of multichannel many journeys shell-and-tube gas-liquid heat-exchange, including shell 1, First bobbin carriage the 2, second bobbin carriage 3, heat exchanger tube 12, distance rod 14 and pull bar 13.

As in figure 2 it is shown, one end of shell 1 is fixed with the first tube sheet 4a (as shown in Figure 4), the other end is fixed with the second tube sheet 4b (as shown in Figure 5), uniform between the first tube sheet 4a and the second tube sheet 4b is fixed with heat exchanger tube 12；On heat exchanger tube 12 the most also Row is provided with the first deflection plate 7a and the second deflection plate 7b；

The most as shown in Figure 8 and Figure 9, the first deflection plate 7a and the second deflection plate 7b is semicircular plate, all along level in The part of radial direction excision 1/2nd diameters of bottom surface forms a notched plate；Wherein, as shown in Figure 16 and Figure 17, the first folding Stream plate 7a is fixed on shell side dividing plate 6 one surface side by side, and on adjacent two first deflection plate 7a lateral attitudes, projection is combined into one Semicircle；Second deflection plate 7b is fixed on another surface of shell side dividing plate 6 side by side, and adjacent two second deflection plate 7b lateral attitudes project It is combined into a semicircle；

Wherein, the first fixing side by side deflection plate 7a week side is connected by the first demarcation strip 15a of a bar shaped；Fix side by side The first deflection plate 7a be fixed with second gear pipe 8b along the medium position being parallel to shell side dividing plate 6, the first deflection plate 7a opens There is the 5th circular hole 7a03 of fixing second gear pipe 8b；

Wherein, the second fixing side by side deflection plate 7b week side is connected by the second demarcation strip 15b of a bar shaped；Fix side by side The second deflection plate 7b be fixed with third gear pipe 8a along the medium position being parallel to shell side dividing plate 6, the second deflection plate 7b opens There is the 4th circular hole 7b02 of fixing third gear pipe 8a；

Wherein, shell side dividing plate 6 one surface is vertically and fixedly provided with the first gripper shoe 5a, and another surface is vertically and fixedly provided with the second support Plate 5b；

As shown in Figure 10 and Figure 11, two the first pass partitions 201 are fixed in the first bobbin carriage 2 the most side by side；Such as Figure 12 Shown in Figure 13, in the second bobbin carriage 3, center is fixed with second pass partition 301 vertically；

First bobbin carriage 2 is fixed on the first tube sheet 4a of shell 1 one end, and, two the first pass partition 201 positions respectively Both sides in shell side dividing plate 6；Second bobbin carriage 3 is fixed on the second tube sheet 4b of shell 1 other end, and, the second pass partition 301 is coplanar with shell side dividing plate 6.

Wherein as it is shown in figure 1, all sides of shell 1 are fixed with an air inlet 101 and shell side drain, relative air inlet 101 Shell 1 opposite side be fixed with gas outlet 102 and saddle.

Wherein, the fixed position of air inlet 101 is positioned at the surface of the first gripper shoe 5a；Air inlet 101 and first supports First gear pipe 11 it is provided with between plate 5a；The fixed position of gas outlet 102 is positioned at the surface of the second demarcation strip 15b.

The most as shown in Figure 6 and Figure 7, the first gripper shoe 5a and the second gripper shoe 5b are a semicircular plate, and first supports Plate 5a forms a notched plate along the part of the radial direction excision three/Radius length being perpendicular to bottom surface, the surface of indentation, there Have the first notch 5a01 coordinated with the first demarcation strip 15a；(structure uses such as the arrangement mode of the first deflection plate 7a).

The surface of the first gripper shoe 5a and the surface of the second gripper shoe 5b are equipped with the position, hole coordinated with heat exchanger tube 12；

First gripper shoe 5a has, along the medium position being parallel to bottom surface, the first circular hole coordinated with second gear pipe 8b side by side 5a03；The surface of the first gripper shoe 5a has the 6th circular hole 5a02 coordinated with pull bar 13；

Second gripper shoe 5b has, along the medium position being parallel to bottom surface, the second circular hole coordinated with third gear pipe 8a side by side 5b02；Second gripper shoe 5b week side have a second notch 5b03 coordinated with the second demarcation strip 15b；Second gripper shoe 5b Surface has the 7th circular hole 5b01 coordinated with pull bar 13.

Wherein, the first deflection plate 7a surface and the second deflection plate 7b surface all have the position, hole coordinated with heat exchanger tube 12, the One deflection plate 7a circumference side has the 3rd notch 7a01 coordinated with the first demarcation strip 15a, and the surface of the first deflection plate 7a is opened There is the 3rd circular hole 7a02 coordinated with pull bar 13；Second deflection plate 7b circumference side has coordinated with the second demarcation strip 15b Four notch 7b01, the surface of the second deflection plate 7b has the 8th circular hole 7b03 coordinated with pull bar 13.

Wherein, the first deflection plate 7a and the second deflection plate 7b is all positioned by pull bar 13；First deflection plate 7a and Two deflection plate 7b all limit the spacing of two the second deflection plate 7b of adjacent two the first deflection plate 7a or adjacent by distance rod 14.

Wherein, the first bobbin carriage 2 weeks side is fixed with a water inlet 202, relative to the side of the first bobbin carriage 2 of water inlet 202 It is fixed with outlet 203.

The most as shown in figure 14, it is provided with the first pad 9, at the first tube sheet 4a between the first bobbin carriage 2 and the first tube sheet 4a A surface have the first shallow slot mouth 4a01 coordinated with the first pad 9, the first shallow slot mouth 4a01 is a circular groove, and middle part sets There are two wire casings coordinated with the first pass partition 201.

The most as shown in figure 15, it is provided with the second pad 10, at the second tube sheet 4b between the second bobbin carriage 3 and the second tube sheet 4b A surface have the second shallow slot mouth 4b01 coordinated with the second pad 10, the second shallow slot mouth 4b01 is a circular groove, middle part It is provided with a wire casing coordinated with the second pass partition 301.

Wherein, the structure of the first pad 9 matches with the port organization of the first bobbin carriage 2；The structure of described second pad 10 Match with the port organization of the second bobbin carriage 3, for keeping the first bobbin carriage 2 and the first tube sheet 4a, the second bobbin carriage 3 and the second tube sheet The sealing property that 4b is fixing.

One of the present embodiment has particular application as: the air inlet 101 of this heat exchanger is connected to hot ammonia source, passes through heat exchanger The ammonia entered from air inlet 101 is divided into four by the cross junction that the first interior demarcation strip 15a and the first gripper shoe 5a are formed Road, is scattered uniform for ammonia by the first gear pipe 11 between air inlet 101 and the first gripper shoe 5a, then ammonia continues to sink After, through second gear pipe 8b, after touching shell side dividing plate 6 (shell side dividing plate 6 is horizontally disposed with), in the of the first gripper shoe 5a both sides Along the snakelike flowing of level between one deflection plate 7a, connect with the second deflection plate 7b after flowing to outermost first deflection plate 7a Logical, make ammonia through cooling heat release for the first time, the horizontal serpentine flow influencing meridian along the second deflection plate 7b crosses third gear pipe 8a to going out QI KOU 102 and complete the circulation of ammonia.

Before being passed through ammonia, first enter the from the water inlet 202 (water inlet 202 position is the most down) of the first bobbin carriage 2 In the lower bin that one pass partition 201 and one first bobbin carriage 2 are formed, enter into the second bobbin carriage 3 and the by heat exchanger tube 12 afterwards In the lower bin that two pass partitions 301 are formed, then entered into two the first pass partitions of the first bobbin carriage 2 by heat exchanger tube 12 In the 201 middle bins formed, then experiencing heat exchanger tube 12, to enter into the second bobbin carriage 3 upper with what the second pass partition 301 was formed In bin, then entered in the upper bin of the first pass partition 201 and the formation of one first bobbin carriage 2 by heat exchanger tube 12, through liquid outlet 203 discharge.

The deflection plate space of two sides, left and right forms heat exchanger channels and the cooling water coke slurry heat in heat exchanger tube of flowing.Gas ammonia Constantly cooling liquid, to lower flow.Heat exchanger tube is uniform state, and after gas ammonia condenses continuously, new gas ammonia i.e. flows into, it is ensured that change The temperature difference that tube surface is lasting and flow.Any one heat exchanger tube 12 both participates in heat exchange.Condensed fluid is in pressure and action of gravity Lower discharge continuously.Owing to air-flow is snakelike flowing, also ensure that gas is in turbulent condition flowing.Because of processing and assembly error, There is some difference for the pressure drop of each passage, and pressure eminence air-flow can locally be diverted to the side that pressure is low naturally, thus protects Hold the pressure equilibrium of adjacent two passages.The flow of the most each passage can slightly difference, equally, condensation rate local faster, Also can strengthen gas flow, thus keep often place's contact area to give full play to heat transfer effect.

In the description of this specification, the description of reference term " embodiment ", " example ", " concrete example " etc. means The specific features that describes in conjunction with this embodiment or example, structure, material live feature be contained in of the present utility model at least one In embodiment or example.In this manual, the schematic representation to above-mentioned term be not necessarily referring to identical embodiment or Example.And, the specific features of description, structure, material or feature can be in any one or more embodiments or examples In combine in an appropriate manner.

This utility model preferred embodiment disclosed above is only intended to help to illustrate this utility model.Preferred embodiment is also There is no all of details of detailed descriptionthe, be not intended to the detailed description of the invention that this utility model is only described yet.Obviously, according to this theory The content of bright book, can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to preferably Explain principle of the present utility model and actual application, so that skilled artisan can be best understood by and utilize this Utility model.This utility model is only limited by claims and four corner thereof and equivalent.

Claims (9)

1. multichannel many journeys shell-and-tube gas-liquid heat-exchange, including shell (1), the first bobbin carriage (2) and the second bobbin carriage (3), its feature exists In:

One end of shell described in A (1) is fixed with the first tube sheet (4a), and the other end is fixed with the second tube sheet (4b), described first pipe Uniform between plate (4a) and the second tube sheet (4b) it is fixed with heat exchanger tube (12)；Described heat exchanger tube has been arranged side by side on (12) vertically First deflection plate (7a) and the second deflection plate (7b)；

Wherein, described first deflection plate (7a) and the second deflection plate (7b) are semicircular plate, all along level in the radius of bottom surface The part of direction excision 0-1/2 diameter length, forms a notched plate；Described first deflection plate (7a) be fixed on side by side a shell side every Plate (6) one surface, on adjacent two first deflection plate (7a) lateral attitudes, projection is combined into a semicircle；Described second deflection plate (7b) being fixed on shell side dividing plate (6) another surface side by side, on adjacent two second deflection plate (7b) lateral attitudes, projection is combined into one Individual semicircle；

Wherein, fixing side by side the first deflection plate (7a) week side is connected by first demarcation strip (15a) of a bar shaped；Fix side by side The first deflection plate (7a) be fixed with second gear pipe (8b) along the medium position being parallel to shell side dividing plate (6)；

Wherein, fixing side by side the second deflection plate (7b) week side is connected by second demarcation strip (15b) of a bar shaped；Fix side by side The second deflection plate (7b) be fixed with third gear pipe (8a) along the medium position being parallel to shell side dividing plate (6)；

Wherein, described shell side dividing plate (6) surface is vertically and fixedly provided with the first gripper shoe (5a), and another surface is vertically and fixedly provided with second Gripper shoe (5b)；

Two the first pass partitions (201) are fixed the most side by side in first bobbin carriage (2) described in B；

In second bobbin carriage (3) described in C, center is fixed with second pass partition (301) vertically；

Described in D, the first bobbin carriage (2) is fixed on first tube sheet (4a) of shell (1) one end, and, two the first pass partitions (201) both sides of shell side dividing plate (6) are laid respectively at；Described second bobbin carriage (3) is fixed on the second tube sheet of shell (1) other end (4b) on, and, the second pass partition (301) is coplanar with shell side dividing plate (6).

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 1, it is characterised in that the week of described shell (1) Side is fixed with an air inlet (101), and shell (1) opposite side of relative air inlet (101) is fixed with gas outlet (102).

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 2, it is characterised in that described air inlet (101) Fixed position be positioned at the surface of the first gripper shoe (5a)；Arrange between described air inlet (101) and the first gripper shoe (5a) There is first gear pipe (11)；The fixed position of described gas outlet (102) is positioned at the surface of the second demarcation strip (15b).

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 1, it is characterised in that described first gripper shoe (5a) He the second gripper shoe (5b) is a semicircular plate, and described first gripper shoe (5a) is cut along the radial direction being perpendicular to bottom surface Except the part of 0-1/2 radius length forms a notched plate, the surface of indentation, there has first coordinated with the first demarcation strip (15a) Notch (5a01)；

The surface of described first gripper shoe (5a) and the surface of the second demarcation strip (15b) are equipped with the hole coordinated with heat exchanger tube (12) Position；

Described first gripper shoe (5a) has, along the medium position being parallel to bottom surface, first coordinated with second gear pipe (8b) side by side Circular hole (5a03)；

Described second gripper shoe (5b) has, along the medium position being parallel to bottom surface, second coordinated with third gear pipe (8a) side by side Circular hole (5b02)；The all sides of described second gripper shoe (5b) have second notch coordinated with the second demarcation strip (15b) (5b03)。

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 1, it is characterised in that described first deflection plate (7a) surface and the second deflection plate (7b) surface all have the position, hole coordinated with heat exchanger tube (12), described first deflection plate (7a) circle Week, side had the 3rd notch (7a01) coordinated with the first demarcation strip (15a), and described second deflection plate (7b) circumference side is opened There is the 4th notch (7b01) coordinated with the second demarcation strip (15b).

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 1 or 5, it is characterised in that described first baffling Plate (7a) and the second deflection plate (7b) are all positioned by pull bar (13)；Described first deflection plate (7a) and the second deflection plate (7b) all adjacent two the first deflection plates (7a) or the spacing of adjacent two the second deflection plates (7b) are limited by distance rod (14).

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 1, it is characterised in that described first bobbin carriage (2) All sides are fixed with a water inlet (202), are fixed with outlet relative to the side of first bobbin carriage (2) of water inlet (202) (203)。

8. according to the multichannel many journeys shell-and-tube gas-liquid heat-exchange described in claim 1 or 7, it is characterised in that described first bobbin carriage And between the first tube sheet (4a), be provided with the first pad (9) (2)；The structure of described first pad (9) and the end of the first bobbin carriage (2) Mouth structure matches.

Multichannel many journeys shell-and-tube gas-liquid heat-exchange the most according to claim 1, it is characterised in that described second bobbin carriage (3) And it is provided with the second pad (10) between the second tube sheet (4b)；The structure of described second pad (10) and the end of the second bobbin carriage (3) Mouth structure matches.