CN202599164U - Heat exchanger - Google Patents

Abstract

The utility model discloses a heat exchanger. The heat exchanger comprises a base and a heat exchange component, wherein the base serves as a bearing device of the whole heat exchanger; the heat exchange component comprises a shell, two heat exchange cores, a medium inlet and a medium outlet; the shell is fixedly welded on the base and provided with two cavities; the two heat exchange cores are mounted in the cavities of the shell; the medium inlet and the medium outlet are in circular connection with the heat exchange cores; the inner cavities of the shell are separated into a first cavity and a second cavity by a partition plate; a gap flow channel is formed between the partition plate and the bottom of the shell; the first cavity and the second cavity of the shell are communicated through the gap flow channel; and the two heat exchange cores are fixed in the first cavity and the second cavity of the shell respectively. The heat exchanger disclosed by the utility model has a compact and sealed structure, can switch between a single heat exchange core and two heat exchange cores, realizes an obvious heat exchange effect and is convenient to maintain; and moreover, the heat exchanger has the advantages of low manufacturing cost, pressure and corrosion resistance, long service life and the like.

Description

A kind of heat exchanger

Technical field:

The utility model relates to technical field of heat exchangers, refers in particular to a kind of compact conformation, sealing, and changeable list pair heat exchange cores and heat exchange effect are remarkable, the heat exchanger of easy maintenance.

Background technology:

Heat exchanger is a kind of equipment of the part heat transferred cold fluid with hot fluid, claims heat exchanger again.The heat exchanger kind is a lot, but can divide three major types promptly basically according to the principle and the mode of cold and hot fluid exchange heat: dividing wall type, hybrid and heat accumulating type.In three types of heat exchangers, dividing wall type heat exchanger is used at most.

Common dividing wall type heat exchanger comprises following several kinds:

One, jacketed type exchanger.This heat exchanger is at container outer wall chuck to be installed to process, and is simple in structure; But the restriction of its heating surface receptor wall, heat transfer coefficient is not high yet, for improving heat transfer coefficient and making in the still heated liquid even, agitator can be installed in still.When feeding cooling water in the chuck or not having the heating agent of phase transformation, the measure of helical baffle or other increase turbulence also can be set, in chuck to improve the heat transfer coefficient of chuck one side.For replenishing the deficiency of heat-transfer area, also can be at the inner coiled pipe of installing of still, jacketed type exchanger is widely used in the heating and cooling of course of reaction.

Two, submerged coil heat exchanger.This heat exchanger is with the various shapes that adapt with container of the curved coiled of metal tube, and is immersed in the liquid in the container.The advantage of coil heat exchanger is simple in structure, can bear high pressure, available resistant material manufacturing; Its shortcoming is that the liquid in container less turbulence is low, and it is little to manage outer heat transfer coefficient.For improving heat transfer coefficient, in the container agitator can be installed.

Three, spray-type heat exchanger.This heat exchanger is that heat exchanger tube in a row is fixed on the steelframe, and hot fluid flows in pipe, and spray equipment evenly drenches down cooling water from the top, so also claim the fountain cooling.The pipe of spray-type heat exchanger is outward the higher liquid film of one deck less turbulence, manages outer heat transfer coefficient and increases a lot than immersion.In addition, this heat exchanger is placed on the circulation of air part mostly, and the cooling evaporation of water is also taken away a part of heat, can play the reduction cooling water temperature, increases the effect of driving force of heat transfer. and therefore, compare with immersion, the heat-transfer effect of spray-type heat exchanger has much improvement.

Four, double pipe heat exchanger is the concentric tubes of being processed by the different straight tube of diameter, and is formed by connecting return bend.In this heat exchanger, a kind of fluid is walked in the pipe, and one other fluid is walked annular space, and both all can obtain higher flow velocity, so heat transfer coefficient is bigger.In addition, in double-tube heat exchanger, two kinds of fluids can be pure adverse current, and the logarithmic mean motive force is bigger.Double-tube heat exchanger is simple in structure, can bear high pressure, uses also convenient (can increase and decrease the pipeline section number as required).Particularly since double-tube heat exchanger to possess heat transfer coefficient simultaneously big; Big and the advantage that can bear High Voltage of driving force of heat transfer, used heat exchanger almost all is a bushing type in super-pressure production process (for example operating pressure is 3000 atmospheric High-pressure Polyethylene Production processes).

Five, plate type heat exchanger, this is a kind of typical dividing wall type heat exchanger, its use is very general, but traditional plate type heat exchanger exists sealing relatively poor, is prone to sew; Need the normal packing ring of changing, trouble; Working pressure receives certain limitation; Serviceability temperature receives the restriction of gasket materials heat resistance; Clean inconveniently, and be not easy to safeguard and be eliminated gradually.

The solder technology of above-mentioned heat exchanger all adopts the scolder welding, it is existed weld bad phenomenon such as insufficient, makes heat exchanger inside not tight, exists to produce the risk of leaking, and has reduced the quality quality of heat exchanger.

The utility model content:

The purpose of the utility model is to overcome the deficiency of prior art, and a kind of compact conformation, sealing are provided, and changeable list pair heat exchange cores and heat exchange effect are remarkable, the heat exchanger of easy maintenance.

In order to solve the problems of the technologies described above, the utility model has adopted following technical proposals: a kind of heat exchanger comprises: a pedestal, and this pedestal is as the bogey of whole heat exchanger; One heat-exchanging component, this heat-exchanging component comprise the housing with two cavitys that fixedly is welded on the pedestal, be installed on two heat exchange cores in the housing cavity and form the media inlet and the media outlet of circulation conducting with the heat exchange core; Described housing inner chamber is divided into first cavity and second cavity through a dividing plate; This dividing plate and housing bottom are formed with a gap runner; First cavity of housing and second cavity are communicated with through this gap runner, and described two heat exchange cores are fixedly installed in respectively in first cavity and second cavity of housing.

Furthermore; In the technique scheme, described housing is provided with first pipeline and second pipeline that is communicated with said heat exchange in-core ripple gap, also is provided with a blow-off line on the housing; Wherein, first cavity and second cavity that are communicated with housing in first pipeline and second pipeline respectively.

Furthermore; In the technique scheme, the media outlet of outlet of the media of heat exchange core and the interior heat exchange core of second cavity is communicated with through an external ring pipe in said first cavity, wherein; The port of ring pipe and media outlet is closely fixing through bolt, forms the changeable type assembling.

Furthermore, in the technique scheme, described heat exchange core comprises plate bundle that is formed by a plurality of plate groups welding and a plate and the tailgate that is fixed in plate bundle two ends; Described heat exchange in-core is formed with a plurality of ripples gap; Described plate groups comprises two plates; Described plate is rounded, is formed with on it and media inlet and two corresponding circular holes of media outlet; It is protruding that described plate surface forms corrugated, and this protruding corrugated bending angle is: 60 °-180 °.

Furthermore, in the technique scheme, described per two plates form described plate groups through the corresponding welding of its surperficial corrugated convexity and circular hole edge, and wherein this plate groups inside is formed with a plurality of ripples gap; Through the corresponding welding in its outer, form described plate bundle between described per two plate groups.

Furthermore, in the technique scheme, the outside semi-surrounding of described heat exchange core is provided with described spoiler, and two spoilers are symmetricly set in the both sides of heat exchange core circumference; Described spoiler comprises: with said plate outer rim arc plate of fitting and the flap that is positioned at arc plate both sides.

Furthermore, in the technique scheme, plate one side is formed with curved flanges in the said heat exchange core; Form deflection plate, this deflection plate is staggered to be installed, and its curved flanges is embedded between the flap of two spoiler homonymies; And fit with inner walls, change flow direction, form baffling.

Furthermore, in the technique scheme, described plate bundle is through being welded between described plate and the tailgate; Constitute monoblock type heat exchange core; This heat exchange core inserts in the housing, and through bolt a plate is fixedly connected with the outer rim of housing, forms the changeable type assembling.

Furthermore, in the technique scheme, described plate bundle is through being welded between described plate and the tailgate; Constitute monoblock type heat exchange core; This heat exchange core inserts in the housing, and through welding a plate is fixedly connected with the outer rim of housing, and formation can be welded non-exchange formula assembling entirely.

Furthermore, in the technique scheme, described pedestal comprises the base plate of a horizontal direction and fixedly is welded in the gripper shoe on the base plate; Described gripper shoe top is provided with the arc notch that is complementary with said housing profile, and described housing falls on this arc notch and is fixed on the described gripper shoe.

After adopting technique scheme, the utility model has following beneficial effect compared with prior art:

1, forms first cavity and second cavity that is connected in the housing in the utility model; One heat exchange core independently all is installed in two cavitys; These two heat exchange cores can flow to the media of dissimilar or temperature, so that the material that needs heat exchange is carried out heat exchange, reach fabulous heat exchange effect; Also can satisfy some and need the manufacturing process through special heat exchange, for example beer manufacturing process.In addition; The utility model also removably is communicated with two independently heat exchange cores through ring pipe; Two independently the heat exchange core form one and have the multisection type heat-exchanger rig that single media inlet and media export; Such knot enough makes between the media fully cooling heat transferring, has improved its operating efficiency greatly, has strengthened the heat exchange efficiency of heat exchanger simultaneously greatly.

2, heat exchange core welding need not scolder in the utility model; Except the adapter; Between the plate and and head, tailgate between accomplish welding procedure through the direct melting welding plate of special fixture argonaut welding (or plasma welding), make the heat exchange cored structure compact, firm, sealing is fabulous; Basically stopped to have the risk of leaking, improved the quality quality of heat exchanger.

3, the outlet of the media in the utility model inlet and media and first and second pipeline be through no adhesive tape sealing, can avoid problem such as changing or cleaning is also difficult because sealing joint strip is met oil is prone to aging crackedly.

4, plate in the heat-exchanging component and housing all adopt stainless steel 304 or 316 moulding in the utility model, and be corrosion-resistant, has long service life, and in addition, price is cheap with respect to copper, greatly reduces manufacturing cost.

5, the utility model adopts full welded plate shell-type heat-exchanging component, and it adopts fish-bone card sheet as heat transfer element, and corrugated cardboard sheet has " quiet stirring " effect; Can under very low Reynolds number, form turbulent flow, its sealing factor is low, greatly reduces the fouling rate; Heat transfer efficiency is high, and the heat exchange effect is remarkable.

6, the utility model is a lamella heat exchanger, and itself and pipe heat exchanger relatively have following advantage: other enhanced tubes such as the light pipe that fish-bone card sheet heat transfer efficiency adopts far above pipe heat exchanger, thread groove tube; Fish-bone line in the utility model on the plate can absorb thermal expansion stress, and heat transfer efficiency is high; For the pipe heat exchanger consumptive material, the utility model consumptive material is less, and its cost is lower.In addition, the utility model is stronger than the flexibility of plate type heat exchanger, and effect is remarkable.

Description of drawings:

Fig. 1 is the cutaway view of the utility model;

Fig. 2 is the vertical view of the utility model;

Cutaway view when Fig. 3 is equipped with ring pipe for the utility model;

Vertical view when Fig. 4 is equipped with ring pipe for the utility model;

Fig. 5 is the partial enlarged drawing of A part among Fig. 1;

Fig. 6 is the sketch map of plate in the utility model;

Fig. 7 is the sketch map of another kind of plate in the utility model;

Fig. 8 is the stereogram of heat exchange core in the utility model;

Fig. 9 is the sketch map of plate in the utility model, plate bond pads state;

Figure 10 is the sketch map of plate bond pads state in the utility model;

Figure 11 is another sketch map of plate bond pads state in the utility model;

Figure 12 is the sketch map of working in the utility model;

Figure 13 is the cutaway view of the utility model along the dividing plate directional profile;

Figure 14 is the work sketch map of plate in the utility model;

Figure 15 is the stereogram of heat exchange core among the utility model embodiment two;

Figure 16 is the sketch map of spoiler among the utility model embodiment two;

Figure 17 is the sketch map of deflection plate among the utility model embodiment two;

Figure 18 A is the sketch map of second type of deflection plate among the utility model embodiment two;

Figure 18 B is the sketch map of the third type deflection plate among the utility model embodiment two;

Figure 19 is the cutaway view of the utility model embodiment three;

Figure 20 is the stereogram of heat exchange core among the utility model embodiment three;

The specific embodiment:

Below in conjunction with specific embodiment and accompanying drawing the utility model is further specified.

See that shown in Fig. 1-14, a kind of heat exchanger comprises: a pedestal 1, this pedestal 1 is as the bogey of whole heat exchanger; One heat-exchanging component 2, this heat-exchanging component 2 comprise the housing with two cavitys 21 that fixedly is welded on the pedestal 1, be installed on two heat exchange cores 20 in housing 21 cavitys and form the media inlet 22 and the media outlet 23 of circulation conductings with heat exchange core 20.

Described pedestal 1 comprises the base plate 11 of a horizontal direction and fixedly is welded in the gripper shoe 12 on the base plate 11; Described gripper shoe 12 tops are provided with the arc notch that is complementary with said housing 1 profile, and described housing 21 falls on this arc notch and is fixed on the described gripper shoe 12.Base plate 11 in the pedestal 1 and gripper shoe 12 materials that fixedly are welded on the base plate 11 adopt stainless steel 304 or 316, and durable in use, the life-span is more than 15 years.

Described housing 21 inner chambers are divided into first cavity 211 and second cavity 212 through a dividing plate 4; These dividing plate 4 bottoms offer an opening; And be formed with a gap runner 213 through this opening and housing 21 bottoms; First cavity 211 of housing 21 and second cavity 212 are communicated with through this gap runner 213, and described two heat exchange cores 20 are fixedly installed in respectively in first cavity 211 and second cavity 212 of housing 21.

Described housing 21 is provided with first pipeline 24 and second pipeline 25 that is communicated with said heat exchange core 20 interior ripple gaps; Also be provided with a blow-off line 26 on the housing 21; Wherein, first cavity 211 and second cavity 212 that are communicated with housing 21 in first pipeline 24 and second pipeline 25 respectively.The media outlet 23 of media the outlet 23 and second cavity 212 interior heat exchange cores 20 of heat exchange core 20 is communicated with through an external ring pipe 28 in said first cavity 211; Wherein, Ring pipe 28 is closely fixing through bolt with the port of media outlet 23, forms the changeable type assembling.

Described heat exchange core 20 comprises plate bundle that is formed by a plurality of plate groups 201 welding and a plate 202 and tailgate 203 that is fixed in plate bundle two ends; Be formed with a plurality of ripples gap in the described heat exchange core 20; Described plate groups 201 comprises two plates 204; Described plate 204 is rounded, is formed with two circular holes 205 corresponding with media inlet 22 and media outlet 23 on it; Described plate 204 surfaces form corrugated convexity 200, and the corrugated bending angle of this convexity 200 is: 60 °-180 °.

In addition, the utility model heat exchanger adopts full welded plate shell-type heat-exchanging component, and it adopts fish-bone card sheet 204 as heat transfer element; Corrugated cardboard sheet 204 has " quiet stirring " effect; Can under very low Reynolds number, form turbulent flow, its sealing factor is low, greatly reduces the fouling rate; Heat transfer efficiency is high, and cooling effect is remarkable.

In addition, see shown in Figure 7ly, be other one type plate 201, the corrugated bending angle of the convexity 200 on the plate 204 of this employing is 180 °, forms the slanted bar line.

Ripple on the described plate 204 is a fish-bone ripple shape wave, and its quantity what and distribution density can be decided according to plate 201 design lengths.Specifically see shown in Figure 9 in the welding process of plate groups 201; Per two plates, 204 stacks; The ripple of plate 204 protruding 200 should be corresponding; Be that crest welds crest entirely, and corresponding circular hole 205 edges 209 are combined to form a plate groups 201 through full welding, wherein these plate groups 201 inside are formed with a plurality of ripples gap; Then, the outer 208 with two groups of plate groups 201 welds together respectively, and the partition of this pattern piece 204 forms the ripple gap, forms the plate bundle.The rear and front end of plate bundle is welded between a plate 202 and the tailgate 203, constitutes monoblock type heat exchange core 20, this heat exchange core 20 inserts in the housing 21, and through bolt the outer rim of a plate 202 with housing 21 is fixedly connected, and forms the changeable type assembling.

In addition; See Figure 10, shown in 11, first kind of welding manner between above-mentioned plate 204, also can adopt following welding manner: see shown in Figure 10; Be second kind of welding manner: circular hole 205 edges are not welded; But weld through plasma at the side at circular hole 205 edges, formation one is positioned at the seal weld access slot of circular hole 205 edge sides, and the welding manner of the outer 208 of plate 204 is consistent with first kind of welding manner.See shown in Figure 11; Be the third welding manner: not only circular hole 205 edges are welded; And be at the side at circular hole 205 edges through the plasma welding, form one be positioned at circular hole 205 edge sides the seal weld access slot, can form the twice defence line like this; In addition, the welding manner of the outer 208 of plate 204 is consistent with first kind of welding manner.

The solder technology of above-mentioned heat exchange core 20 need not scolder; Between the plate 204 and and head, tailgate 202, accomplish welding procedure through the direct melting welding plate of special fixture argonaut welding (or plasma welding) between 203; Make heat exchange core 20 compact conformations, firm, sealing is fabulous.

The user can change different heat exchange core 20 according to demand, for example selects the heat exchange core 20 of different-diameter, No. of plates, to cooperate different demands.Adopt this changeable type structure, keep in repair simplyr, even if heat exchange core 20 goes wrong, the heat exchange core 20 that only need more renew gets final product, and need not entire equipment is scrapped.Traditional heat exchanger if heat exchange core 20 goes wrong, then need be scrapped whole heat exchanger owing to be that heat exchange core 20 and housing 21 are directly welded.And after the utility model adopts this structure, just can overcome this situation, the cost of reduce maintenance, safeguarding.

Whether the utility model can install ring pipe 28 as required.This ring pipe 28 is installed generally speaking; See shown in Figure 8ly, be connected with a ring pipe 28, to be communicated with in the housing 21 two independently heat exchange cores 20 in two media outlet 23; Two independently heat exchange core 20 form one have single media inlet 22 and a media outlet 23 the multisection type heat-exchanger rig; Oil flows into from the media inlet 22 on the left side, the heat exchange core 20 on the right of heat exchange core 20 backs on the left side of flowing through flow to through ring pipe 28, and flow out from the media inlet 22 on the right heat exchange core 20 backs on the right of flowing through.Meanwhile, water is flowed through from first pipeline 24, and runner 213 flows to the heat exchange core 20 on the right from the gap for heat exchange core 20 back on the left side, and flows out from second pipeline 25.Can realize the multisection type heat exchange like this, such knot enough makes fully heat exchange between the media, has improved its operating efficiency greatly, has strengthened the heat exchange efficiency of heat exchanger simultaneously greatly.Need the manufacturing process through special heat exchange, for example beer manufacturing process for some; It needs the heat exchange of different temperatures, and two heat exchange cores 20 flow to the media of dissimilar or temperature, so that the material that needs heat exchange is carried out heat exchange, reaches fabulous heat exchange effect, needs the manufacturing process through special heat exchange to satisfy some.

See shown in Figure 15-18 that be the embodiment two of the utility model, it is on the basis of the foregoing description one, to improve.The heat exchange core 20 outside semi-surroundings of present embodiment are provided with the both sides that 3, two spoilers 3 of spoiler are symmetricly set in heat exchange core 20 circumference; Two spoilers 3 are symmetricly set in the both sides of heat exchange core 20 circumference, and described spoiler 3 comprises: with plate 204 outer rims arc plate 31 of fitting and the flap 32 that is positioned at arc plate 31 both sides.Wherein the width of flap 32 is corresponding with the gap between the housing 21 with heat exchange core 20 outer rims.After adopting this structure, the gap between heat exchange core 20 outer rims and the housing 21 is stopped through spoiler 3, force the media must be, and carry out sufficient heat exchange, thereby improve heat exchange efficiency with heat exchange core 20 from top to bottom by the gap process between the plate 204.

Plate 204 1 sides are formed with curved flanges 206 in the said heat exchange core 20; This flange 206 is fitted with housing 21 inwalls, forms deflection plate 207, these deflection plate 207 staggered installations; And its curved flanges 206 is embedded between the flap 32 of two spoiler 3 homonymies; And fit with inner walls, change flow direction, form baffling.Particularly, the length of flange 206 just in time with two spoilers 3 between distance corresponding, through cooperating of spoiler 3 and flange 206, with housing 21 formation intervals, flange 206 will play the baffling effect.

In addition, also can adopt the deflection plate 207 of another type, specifically see shown in Figure 18 A, the 18B, this deflection plate 207 adopts single round hole 205, and other structure is consistent with above-mentioned deflection plate 207, can realize the baffling effect equally.

See Figure 19, shown in 20; Embodiment three for the utility model; The difference of this embodiment three and embodiment one is: described plate bundle constitutes monoblock type heat exchange core 20 through being welded between described plate 202 and the tailgate 203, and this heat exchange core 20 inserts in the housing 21; And through welding the outer rim of a plate 202 with housing 21 is fixedly connected, formation can be welded non-exchange formula entirely and assembled.The heat exchanger better tightness of this welding manner, high temperature resistant, high pressure.

The operation principle of present embodiment is consistent with the operation principle substrate of last embodiment, gives unnecessary details no longer one by one at this.

Certainly; The above is merely the specific embodiment of the utility model; Be not to limit the utility model practical range, all equivalences of doing according to the said structure of the utility model claim, characteristic and principle change or modify, and all should be included in the utility model claim.

Claims (10)

1. heat exchanger is characterized in that: comprising:

One pedestal (1), this pedestal (1) is as the bogey of whole heat exchanger;

One heat-exchanging component (2), this heat-exchanging component (2) comprise the housing with two cavitys (21) that fixedly is welded on the pedestal (1), be installed on two the heat exchange cores (20) in housing (21) cavity and export (23) with media inlet (22) that heat exchange core (20) forms the circulation conducting with media;

Described housing (21) inner chamber is divided into first cavity (211) and second cavity (212) through a dividing plate (4); This dividing plate (4) is formed with a gap runner (213) with housing (21) bottom; First cavity (211) of housing (21) and second cavity (212) are communicated with through this gap runner (213), and described two heat exchange cores (20) are fixedly installed in respectively in first cavity (211) and second cavity (212) of housing (21).

2. a kind of heat exchanger according to claim 1; It is characterized in that: described housing (21) is provided with first pipeline (24) and second pipeline (25) that is communicated with the interior ripple of said heat exchange core (20) gap; Also be provided with a blow-off line (26) on the housing (21); Wherein, first cavity (211) and second cavity (212) that are communicated with housing (21) in first pipeline (24) and second pipeline (25) respectively.

3. a kind of heat exchanger according to claim 2; It is characterized in that: the media outlet (23) of the interior heat exchange core of said first cavity (211) (20) and the media outlet (23) of the interior heat exchange core of second cavity (212) (20) are communicated with through an external ring pipe (28); Wherein, Ring pipe (28) is closely fixing through bolt with the port of media outlet (23), forms the changeable type assembling.

4. a kind of heat exchanger according to claim 3 is characterized in that: described heat exchange core (20) comprises plate bundle and a plate (202) that is fixed in plate bundle two ends and the tailgate (203) that is formed by a plurality of plate groups (201) welding; Be formed with a plurality of ripples gap in the described heat exchange core (20); Described plate groups (201) comprises two plates (204); Described plate (204) is rounded, is formed with on it and media inlet (22) and media outlet (23) corresponding two circular holes (205); Described plate (204) surface forms corrugated protruding (200), and the corrugated bending angle of this convexity (200) is: 60 °-180 °.

5. a kind of heat exchanger according to claim 4; It is characterized in that: described per two plates (204) are through its surperficial corrugated protruding (200) and the corresponding welding in circular hole (205) edge; Form described plate groups (201), wherein this plate groups (201) inside is formed with a plurality of ripples gap; Through the corresponding welding in its outer, form described plate bundle between described per two plate groups (201).

6. a kind of heat exchanger according to claim 5 is characterized in that: the outside semi-surrounding of described heat exchange core (20) is provided with described spoiler (3), and two spoilers (3) are symmetricly set in the both sides of heat exchange core (20) circumference; Described spoiler (3) comprising: arc plate (31) of fitting with said plate (204) outer rim and the flap (32) that is positioned at arc plate (31) both sides.

7. a kind of heat exchanger according to claim 6; It is characterized in that: plate (204) one sides are formed with curved flanges (206) in the said heat exchange core (20), form deflection plate (207), and this deflection plate (207) is staggered to be installed; And its curved flanges (206) is embedded between the flap (32) of two spoilers (3) homonymy; And fit with inner walls, change flow direction, form baffling.

8. a kind of heat exchanger according to claim 7; It is characterized in that: described plate bundle is through being welded between described plate (202) and the tailgate (203); Constitute monoblock type heat exchange core (20); This heat exchange core (20) inserts in the housing (21), and through bolt the outer rim of a plate (202) with housing (21) is fixedly connected, and forms the changeable type assembling.

9. a kind of heat exchanger according to claim 7; It is characterized in that: described plate bundle is through being welded between described plate (202) and the tailgate (203); Constitute monoblock type heat exchange core (20); This heat exchange core (20) inserts in the housing (21), and through welding the outer rim of a plate (202) with housing (21) is fixedly connected, and formation can be welded non-exchange formula assembling entirely.

10. according to any described a kind of heat exchanger of claim 1-9, it is characterized in that: described pedestal (1) comprises the base plate (11) of a horizontal direction and fixedly is welded in the gripper shoe (12) on the base plate (11); Described gripper shoe (12) top is provided with the arc notch that is complementary with said housing (1) profile, and described housing (21) falls on this arc notch and is fixed on the described gripper shoe (12).

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