CN2937997Y

CN2937997Y - High temp, heat exchanger

Info

Publication number: CN2937997Y
Application number: CN 200620074662
Authority: CN
Inventors: 顾安生
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-07-04
Filing date: 2006-07-04
Publication date: 2007-08-22
Anticipated expiration: 2016-07-04

Abstract

The utility model discloses a high temperature heat exchanger used for recovering heat from the high temperature smoke. The high temperature heat exchanger comprises a heat exchanger body, wherein, the heat exchanger body is composed of a housing, a front end tube plate that is arranged at the front end of the housing and is connected with the housing, a back end tube plate that is arranged at the back of the front end tube plate and parallel to the front end tube plate and is connected with the housing, and a heat exchanger tube that is arranged in the housing and is communicated between the two tube plates. Pipe mouths are arranged at two ends of the heat exchanger tube; pipe holes that are corresponded to the pipe mouths on the heat exchanger tube are arranged on the two tube plates to weld with the pipe mouths on the heat exchanger tube; at least one tube plate between the front end tube plate and the back end tube plate is connected with the housing by the way of piston sliding. The piston sliding connection between the tube plate and the housing is good for absorbing thermal expansion and making the high temperature heat exchanger work stably and run reliably.

Description

High-temperature heat-exchanging

[technical field]

The utility model relates to a kind of high-temperature heat-exchanging, refers in particular to a kind of high-temperature heat-exchanging that is used for high-temperature flue gas is carried out heat recovery.

[background technology]

High-temperature heat-exchanging be used for to the big flow high-temperature flue gas that in incinerator, produces cool off, the equipment of heat recovery.

Usually, in the color painted steel strip production line, via being mixed with environmentally harmful inflammable substance in the gas that the spraying coating process process produces in the spraying curing room, therefore before atmosphere, need to carry out harmless processing row, after normally pernicious gas being drawn, add a certain proportion of coal gas, enter in the incinerator after the mixing and burn, the high-temperature flue gas (about 800 ℃) that produces enters the high-temperature heat-exchanging tube side and carries out heat recovery, successively through the high-temperature region heat exchanger, the low-temperature space heat exchanger, carry out thermal energy exchange with fresh air from air blast, fresh air passes through between the heat exchange tube of low-temperature space heat exchanger successively and between the heat exchange tube of high-temperature region heat exchanger, the fresh air temperature is heated to about 650 ℃ step by step to meet the curing demand of spraying coating process.

The high temperature fresh air enters spray booth and is used for spraying steel plate technology, enters in the incinerator behind the pernicious gas adding coal gas of generation again and burns, and moves in circles.

The major function of this equipment is: the environmentally harmful high temperature combustible waste gases (for example containing materials such as benzene, phenol) that utilizes spray booth to produce, mixed gas enters in the incinerator and burns, to eliminate environmentally harmful material, meet environmental emission standard, thus the environment-friendly function of the project of realization; The high-temperature flue gas that produces is used for heating the fresh air that enters in the spraying curing room, satisfying the spraying coating process requirement, thus the power saving function of the project of realization.

One, industry high-temperature heat-exchanging manufacturing technology commonly used is at present:

1. high-temperature region heat exchanger, low-temperature space heat exchanger are respectively equipped with housing, and the two ends of housing are welded with tube sheet respectively, are connected with heat exchanger tube between the tube sheet, and the mouth of pipe of corresponding heat exchanger tube is provided with pore on the tube sheet.

2. fresh air flows between Tube Sheet of Heat Exchanger, guarantees that by four tube bundle support plates fresh air flows, and carries out exchange heat on perpendicular to the direction of tube bank;

3. an expansion joint is set, to absorb the thermal expansion that heat exchanger Yin Gaowen causes in the high-temperature flue gas exit;

4. establish fixing point at high-temperature flue gas import bearing place, entire equipment is at high temperature expanded to Way out;

5. a corrugated-type expansion joint is set, to absorb the thermal expansion that heat exchanger Yin Gaowen causes on the high-temperature flue gas inlet pipeline.

6. the end socket of a hemispherical dome shape respectively is set, to guarantee the requirement of distribution of gas at the high-temperature flue gas import and export.

Two, above-mentioned manufacturing technology has the following disadvantages:

High-temperature flue gas is from about 800 ℃ about 300 ℃ of dropping to the exit of import department, the high-temperature heat-exchanging expanded by heating, because of the thermal expansion uptake of the corrugated-type expansion joint of high-temperature heat-exchanging is not enough to offset the elongation that high-temperature heat-exchanging occurs because of thermal expansion, cause occurring the phenomenon that pipe pulls, crack deformation appears in tube sheet, pipeline is out of shape because of thermal expansion, serious developing into can't guarantee the heat exchange effect.

Since the restriction of above-mentioned factor, when high-temperature heat-exchanging commonly used at present is applied to color coating line, the less stable of continuous operation, service life is undesirable.That have even the equipment production time is not long, crackle occurs with regard to pipe drawing crack, tube sheet occurring, problems such as distortion appear in pipeline, and maintenance time is longer, influence greatly color coating line normally, stable operation.

The phenomenon that above-mentioned pipe pulls, crack deformation appears in tube sheet, pipeline is out of shape because of thermal expansion mainly occurs in the front portion of high-temperature region heat exchanger, high more tube sheet of the temperature of promptly bearing and the easy more generation problem of heat exchanger tube, service life is poor more, and often need to change whole high-temperature region heat exchanger in the maintenance process, cause the maintenance difficult complexity, cost is very high.

Therefore, necessaryly provide a kind of high-temperature heat-exchanging that can overcome above-mentioned defective.

[utility model content]

Technical problem to be solved in the utility model is to provide a kind of working stability, reliable high-temperature heat-exchanging.

For addressing the above problem, the utility model adopts following technical scheme: a kind of high-temperature heat-exchanging, it comprises heat exchanger body, described heat exchanger body comprises housing, be positioned at the front end tube sheet that the housing front end is connected with housing, at front end tube sheet rear and be parallel to the rear end tube sheet that the front end tube sheet is connected with housing and in housing, be communicated in heat exchanger tube between two tube sheets, the heat exchanger tube two ends are provided with the mouth of pipe, the mouth of pipe of corresponding heat exchanger tube is provided with pore and welds mutually with the mouth of pipe of heat exchanger tube on described two tube sheets, has at least the mode of sliding with piston between a tube sheet and the housing to be connected in described front end tube sheet and the rear end tube sheet.

Compared with prior art, the utility model high-temperature heat-exchanging has following beneficial effect: this high-temperature heat-exchanging is connected by the mode of will slide with piston between at least one tube sheet in front end tube sheet and the rear end tube sheet and the housing, thereby well absorb thermal expansion, make the high-temperature heat-exchanging working stability, reliable.

[description of drawings]

Fig. 1 is the overall structure schematic side view of the specific embodiment of the utility model high-temperature heat-exchanging.

Fig. 2 is the overall structure schematic top plan view of high-temperature heat-exchanging shown in Figure 1.

Fig. 3 is that the partial cutaway of high-temperature heat-exchanging shown in Figure 1 is shown schematic diagram, and it embodies the position relation between the casing of the front end tube sheet of housing, first high temperature section of first high temperature section and tube side imported equipments and parts.

Fig. 4 is the floor map of the past of position relation between the casing of the front end tube sheet of housing, first high temperature section of first high temperature section of high-temperature heat-exchanging shown in Figure 3 and tube side imported equipments and parts to back angle.

Fig. 5 is that the heat exchanger tube and the cuing open of tube sheet welding of high-temperature heat-exchanging shown in Figure 1 shown schematic diagram.

[specific embodiment]

See also Fig. 1 to shown in Figure 5, a kind of high-temperature heat-exchanging, can be used in the color painted steel strip production line high-temperature flue gas being carried out heat recovery, it comprises heat exchanger body 1 and is connected to heat exchanger body 1 forward-and-rearward tube side imported equipments and parts 2 and tube side spout member 8.

Heat exchanger body 1 comprises base 3, high-temperature region heat exchanger 4, low-temperature space heat exchanger 5 and connects the intermediate connector 6 and the expansion joint of high-temperature region heat exchanger 4 and low-temperature space heat exchanger 5, and the supporting mechanism 10 that is installed on base 3 upper support high-temperature region heat exchangers 4, low-temperature space heat exchanger 5 and intermediate connector 6.

High-temperature region heat exchanger 4 is positioned at the front portion of heat exchanger body 1, it comprises first high temperature section 41 that is positioned at the place ahead and is positioned at second high temperature section 42 that first high temperature section, 41 rears communicate with first high temperature section 41, the rear portion that described low-temperature space heat exchanger 5 is positioned at heat exchanger body 1 communicates with second high temperature section 42 of high-temperature region heat exchanger 4, described first, two

high temperature section

41,42 and low-temperature space heat exchanger 5 be equipped with housing, the rear and front end of housing all is connected with tube sheet, be communicated with heat exchanger tube 13 between the tube sheet, the two ends of heat exchanger tube 13 are provided with the mouth of pipe, the mouth of pipe of corresponding heat exchanger tube 13 is provided with pore and welds (joining shown in Figure 5) with the mouth of pipe of heat exchanger tube 13 mutually on the tube sheet, and wherein the heat exchanger tube 13 employed materials of high-temperature region heat exchanger 4 are more high temperature resistant than the heat exchanger tube 13 employed materials of low-temperature space heat exchanger 5.Zone between the described heat exchanger tube 13 is called between pipe.Be connected with expansion joint 14 by the intermediate connector 6 of hollow respectively between described first and second

high temperature section

41,42 and between second high temperature section 42 and the low-temperature space heat exchanger 5.Described intermediate connector 6 is connected with the heat exchanger tube of high-temperature region heat exchanger 4 and the heat exchanger tube of low-temperature space heat exchanger 5, but all do not communicate between the pipe of described intermediate connector 6 and high-temperature region heat exchanger 4 and low-temperature space heat exchanger 5, offer the manhole of being convenient to keep in repair 15 on the sidewall of intermediate connector 6.

The front end of heat exchanger body 1 (i.e. the front end of first high temperature section 41) has gas approach, and the rear end of described heat exchanger body 1 (being the rear end of low-temperature space heat exchanger 5) has exhanst gas outlet.

The rear and front end of the housing of first high temperature section 41 is connected with front end tube sheet 12 respectively and is positioned at front end tube sheet 12 rears and is parallel to the rear end tube sheet 14 of front end tube sheet.The housing rear portion of first high temperature section 41 is provided with the expansion joint 16 that links to each other with rear end tube sheet 14, and corresponding heat exchanger tube has the expansion tube 17 that links to each other with described rear end tube sheet 14.The front portion of the housing of first high temperature section 41 is provided with sleeve 410, the mode of sliding with piston between described front end tube sheet 12 and the sleeve 410 is connected, promptly when being subjected to the thrust of heat exchanger tube 13 or pulling force, this front end tube sheet 12 can slide forward or backward with respect to housing, thereby realize absorbing the function of thermal expansion, specifically see also Fig. 3 and shown in Figure 4.Weld a circle sealing slide block 120 around the front end tube sheet 12, described sealing slide block 120 be resisted against on the inwall of sleeve 410 and with sleeve 410 between form piston mechanism and can relative slippage.Described sealing slide block 120 comprises the transverse slat 121 that is welded in front end tube sheet 12 four vertical front end tube sheets 12 all around, the rear and front end opposing parallel of each transverse slat 121 is provided with riser 122,123, riser 122, be provided with encapsulant 124 between 123, described riser 122,123 parallel with front end tube sheet 12, and the riser 123 that is positioned at the rear end welds mutually with transverse slat 121, the riser 122 that is positioned at front end does not weld mutually with transverse slat 121, but pass through bolt and nut 126 with front and back riser 122,123 lock together and clamping encapsulant 124 between the two, thereby form the sealing ring structure, described encapsulant leans with the inwall of sleeve 410 and can relative the slip and form and be slidingly connected.Described sealing slide block 120 is provided with in the below of front end tube sheet 12 and supports the bracing or strutting arrangement 128 of front end tube sheet 12 on sleeve 410, described bracing or strutting arrangement 128 is provided with roller or the slide block that is welded on the transverse slat 121, thereby and can relatively move between the sleeve 410, please join shown in Figure 4.The steel plate thickness of present embodiment middle sleeve 410 is bigger than the thickness of the steel plate of the housing of the encirclement heat exchanger tube 13 that links to each other with sleeve 410, to improve its rigidity, prevent its with the sliding process of front end tube sheet 12 in be out of shape.The housing of second high temperature section 42 is provided with the expansion joint that links to each other with its rear end tube sheet, and corresponding heat exchanger tube has the expansion tube that links to each other with the rear end tube sheet.Be provided with the intermediate connector 6 of hollow between first and second

high temperature section

41,42, the front end of described intermediate connector 6 is connected by the rear end tube sheet 14 of expansion joint with first high temperature section 41, and the rear end is connected with the front end tube sheet of second high temperature section 42.The housing of described first high temperature section 41 be provided with upward opening and with the pipe of first high temperature section 41 between the shell side spout member 11 that communicates, the lower housing portion of described first and second

high temperature section

41,42 is provided with the shell side under casing 18 that is communicated with between first and second

high temperature section

41,42 pipes, and described shell side under casing 18 also is provided with expansion joint corresponding to the position of the intermediate connector 6 between first and second high temperature section 41,42.The housing top of described second high temperature section 42 is provided with the shell side top case 7 that communicates between heat exchange tube with second high temperature section 42.

The front end tube sheet of above-mentioned low-temperature space heat exchanger 5 is connected with the rear end of intermediate connector 6, and the front end of intermediate connector 6 links to each other with the rear end tube sheet of second high temperature section 42 by expansion joint and forms path.The rear of low-temperature space heat exchanger 5 is provided with tube side spout member 8, the front end of tube side spout member 8 links to each other with the rear end tube sheet of low-temperature space heat exchanger 5, the rear end of tube side spout member 8 is provided with flue gas discharge opening, the top of described low-temperature space heat exchanger 5 near tube side spout member 8 sides be provided with upward opening and with the pipe of low-temperature space heat exchanger 5 between the shell side imported equipments and parts 9 that communicate, the top of described low-temperature space heat exchanger 5 is provided with the shell side top case 7 that communicates between pipe with low-temperature space heat exchanger 5 near intermediate connector 6 sides, the shell side top case 7 of described low-temperature space heat exchanger 5 is connected with the shell side top case 7 of second high temperature section 42, also is provided with expansion joint on the described shell side top case 7.

Also be provided with the gripper shoe of the support heat exchanger tube 13 parallel in the housing of above-mentioned first high temperature section 41, second high temperature section 42, low-temperature space heat exchanger 5 with tube sheet, described gripper shoe is provided with holds the through hole that heat exchanger tube 13 passes and diameter is bigger than heat exchanger tube overall diameter, leaves the function that the support heat exchanger tube is played in the gap between heat exchanger tube and the through hole thereby make.The lower housing portion of described low-temperature space heat exchanger 5 is provided with the shell side under casing 50 between the heat exchange tube that is communicated with low-temperature space heat exchanger 5.The below of described gripper shoe and tube sheet is provided with the supporting mechanism 10 that supports heat exchanger body 1, and described supporting mechanism 10 includes several bearings, and described bearing can be arranged to roller support or hold-down support according to the demand of expansion direction.

Between the pipe of above-mentioned shell side imported equipments and parts 9, low-temperature space heat exchanger 5, between the pipe of shell side under casing 50, shell side top case 7, second high temperature section 42, between the pipe of shell side under casing 18, first high temperature section 41 and shell side spout member 11 be communicated with and form the shell side passages.The heat exchanger tube of the heat exchanger tube of above-mentioned first and second

high temperature section

41,42, two intermediate connectors 6 and low-temperature space heat exchanger 5 is communicated with and forms the tube side passage.

The place ahead that above-mentioned tube side imported equipments and parts 2 are positioned at heat exchanger body 1 communicates with the gas approach of heat exchanger body 1, promptly communicates with the heat exchanger tube 13 of heat exchanger body 1.The side that these tube side imported equipments and parts 2 include casing 20 and are connected in casing 20 1 sides connects circle 23, and described casing 20 comprises front end-plate 24,

biside plate

21,22, base plate 27 and top board 28, and described side connects circle 23 and is connected on the side plate 22 of casing 20.The opening that described side connects circle 23 is the high-temperature flue gas entry of tube side imported equipments and parts 2, i.e. the high-temperature flue gas entry of high-temperature heat-exchanging.The mode of sliding with piston between the sleeve 410 of the rear end of described casing 20 and first high temperature section 41 is connected, slippage before and after promptly can be relative between the housing of first high temperature section 41 and the tube side imported equipments and parts 2, thereby realize absorbing the function of thermal expansion and equipment stress, specifically see also shown in Figure 3, the rear inside wall of the

biside plate

21,22 of described casing 20 and base plate 27, top board 28 is provided with a circle sealing slide block 200, described sealing slide block 200 be resisted against on sleeve 410 outer walls and with sleeve 410 between form piston mechanism and can relative slippage.Described slide block has following structure to constitute: two risers 201,202 that are parallel to front end tube sheet 12 before and after the rear inside wall of

biside plate

21,22 and base plate 27, top board 28 is respectively equipped with, be provided with encapsulant 204 between two risers, the riser 201 that is positioned at front end and the

biside plate

21,22 of casing 20 and base plate 27, top board 28 weld together, the riser 202 that is positioned at the rear end does not weld mutually with casing 20, but front and back two risers 201,202 are locked together and clamping encapsulant 204 between the two, thereby form the annular seal structure by bolt and nut 206.The encapsulant 204 of described sealing slide block 200 leans with the outer wall of case follower 410 and can relative the slip and form piston mechanism.The interior outside of the front end-plate 24 of described casing 20,

biside plate

21,22, base plate 27 and top board 28 is welded with inner reinforced plate and outer gusset 210 respectively, and described inner reinforced plate and outer gusset 210 can improve the structural strength of casing 20.Described side plate 21 is provided with the manhole of being convenient to keep in repair 211.Described side connects circle 23 openend and is provided with the flange 24 that is connected with the high-temperature flue gas outlet of the incinerator (not shown) of system.The lower front of described tube side imported equipments and parts 2 is equipped with passive hold-down support 25, and integral body moves forward after being heated with restriction tube side imported equipments and parts 2.The lower rear of tube side imported equipments and parts 2 has been equipped with the roller support 26 that supports tube side imported equipments and parts 2, so that tube side imported equipments and parts 2 can expand to heat exchanger body 1 direction when being heated.The installed inside of described casing 20 has the insulation material fixed by inner reinforced plate or heat proof material etc.The material of described casing 20 can be carbon steel, stainless steel, titanium material and other metal material.The outer surface of described heat exchanger body 1 and tube side imported equipments and parts 2, tube side spout member 8 can coat insulation material, and with better saving heat energy, described insulation material can be a heat-preservation cotton etc.

When high-temperature heat-exchanging is worked, high-temperature flue gas in the incinerator enters high-temperature heat-exchanging from the high-temperature flue gas entry of tube side imported equipments and parts 2, flow through successively tube side imported equipments and parts 2, tube side passage, tube side spout member 8 are discharged from the flue gas discharge opening of tube side spout member 8; Extraneous fresh air is entered by the opening of air blast through the shell side imported equipments and parts 9 of low-temperature space heat exchanger 5, and the spray booth (not shown) of discharging the system that enters from the opening of the shell side spout member 11 of first high temperature section 41 behind the shell side passage of flowing through is used for spraying and solidifies needs.Fresh air and high-temperature flue gas are respectively after low-temperature space heat exchanger 5,4 heat exchange of high-temperature region heat exchanger in said process, (in fact fresh air and high-temperature flue gas are to carry out heat exchange by heat exchanger tube), the fresh air temperature rises to about 650 ℃, to meet the requirement of spraying coating process, high-temperature flue gas is from about 800 ℃ about 300 ℃ of dropping to the flue gas discharge opening place of high-temperature flue gas entry, to reach the purpose that reclaims heat energy.

In the process of high-temperature heat-exchanging work, the heat exchanger tube 13 of first high temperature section 41 bears very high temperature, therefore bigger swell increment may appear, because the mode with the piston slip between the housing of the front end-plate pipe 12 of first high temperature section 41 and first high temperature section 41 is connected, thereby can make both along the relative slippage of fore-and-aft direction, realize absorption heat exchanger tube 13 thermal expansions of first high temperature section 41.In addition,, thereby can make both, realize the absorption of heat exchanging device body 1 and the expansion of tube side imported equipments and parts 2 overall thermal along the relative slippage of fore-and-aft direction because the mode of sliding with piston between the housing of first high temperature section 41 and the tube side imported equipments and parts 2 is connected.And because high-temperature region heat exchanger 4 has comprised first and second

high temperature section

41,42 that links to each other with expansion joint by intermediate connector 6, thereby make the absorption of thermal expansion more reasonable, whole stressed tending to balance after high-temperature heat-exchanging is heated, the overall swell increment of high-temperature heat-exchanging is reduced greatly, thereby the improvement system causes occurring phenomenons such as tube plate deformation, heat exchanger tube and tube sheet pull, pipeline distortion because of thermal expansion, make heat exchanger that the job stability and the reliability of longer-term be arranged.

What more than introduce is preferred implementation of the present utility model, and in other embodiments, above-mentioned heat exchanger body 1 also can be made up of the multistage heat exchanger.The high-temperature region heat exchanger also can have more than one section or two sections.Above-mentioned heat exchanger body 1 also can be the existing one-part form structure of industry, be two tube sheets before and after heat exchanger body 1 only has, be connected with heat exchanger tube 13 between the tube sheet, the front end of heat exchanger body 1 is a gas approach, the rear end is an exhanst gas outlet, the rear portion of the housing of heat exchanger body 1 be provided with heat exchanger tube 13 pipes between the shell side imported equipments and parts 9 that communicate, the front portion of the housing of heat exchanger body 1 be provided with heat exchanger tube 13 pipes between the shell side spout member 11 that communicates.Between the rear end tube sheet 14 of described first high temperature section 41 and the housing be connected or the tube sheet of second high temperature section 42 connects with the mode that also can adopt piston to slide that is connected between the housing.Above-mentioned tube side imported equipments and parts 2 can not have casing 20 yet and directly connect circle 23 in the front end connection side of heat exchanger body 1, and the openend that the side connects circle 23 is provided with the flange 24 that is connected with the high-temperature flue gas outlet of the incinerator (not shown) of system.

Certainly the utility model is not limited in above-mentioned several embodiment, gives unnecessary details no longer one by one herein.

Because low-temperature space heat exchanger 5 is lower than the temperature that high-temperature region heat exchanger 4 stands, so that the material of low-temperature space heat exchanger 5 can be than high-temperature region heat exchanger 4 is poor, and cost also just can reduce.Because the temperature that the front end tube sheet 12 of the high-temperature region heat exchanger 4 in the heat exchanger body 1 and anterior heat exchanger tube 13 stand is the highest, the influence that is subjected to thermal expansion is also big more, therefore the front and back end tube sheet of high-temperature region heat exchanger all is welded on the housing in the prior art, occurs heat exchanger tube drawing crack, tube sheet easily and the phenomenon that crack deformation, pipeline are out of shape because of thermal expansion occurs.The utility model is connected the mode of sliding with piston between the front end tube sheet 12 of first high temperature section 41 of high-temperature region heat exchanger 4 and the housing, thereby well absorbed thermal expansion, phenomenons such as heat exchanger tube distortion drawing crack, tube sheet cracking distortion are well improved, thereby made high-temperature heat-exchanging working stability, reliable.

Claims

1. high-temperature heat-exchanging, it comprises heat exchanger body, described heat exchanger body comprises housing, at front end tube sheet that the housing front end is connected with housing, at front end tube sheet rear and be parallel to the rear end tube sheet that the front end tube sheet is connected with housing and in housing, be communicated in heat exchanger tube between two tube sheets, the heat exchanger tube two ends are provided with the mouth of pipe, the mouth of pipe of corresponding heat exchanger tube is provided with pore and welds mutually with the mouth of pipe of heat exchanger tube on described two tube sheets, it is characterized in that: have at least the mode of sliding with piston between a tube sheet and the housing to be connected in described front end tube sheet and the rear end tube sheet.

2. high-temperature heat-exchanging as claimed in claim 1 is characterized in that: the mode of sliding with piston between described front end tube sheet and the housing is connected, and described rear end tube sheet is welded on the housing.

3. high-temperature heat-exchanging as claimed in claim 2, it is characterized in that: weld a circle sealing slide block around the described front end tube sheet, the front portion of described housing is provided with sleeve, described sealing slide block is resisted against on the inwall of sleeve and slippage and form piston mechanism between sealing slide block and sleeve relatively, thereby realizes that the mode of sliding with piston between front end tube sheet and the housing is connected.

4. high-temperature heat-exchanging as claimed in claim 3 is characterized in that: described sealing slide block is provided with in the below of tube sheet and supports the bracing or strutting arrangement of tube sheet on sleeve.

5. high-temperature heat-exchanging as claimed in claim 3, it is characterized in that: described sealing slide block comprises the transverse slat perpendicular to tube sheet that is welded in respectively around the tube sheet, at the riser of the rear and front end of each transverse slat and the encapsulant between the riser of front and back, and the encapsulant of described sealing slide block leans with the inwall of housing and can relative the slip and form and be slidingly connected.

6. high-temperature heat-exchanging as claimed in claim 5, it is characterized in that: described riser roughly parallels with the front end tube sheet, and the riser that is positioned at the rear end welds mutually with transverse slat, the riser that is positioned at front end does not weld mutually with transverse slat, but by bolt and nut the front and back riser is locked together the also encapsulant between the riser of clamping front and back.

7. as each described high-temperature heat-exchanging in the claim 1-6 item, it is characterized in that: the forward and backward side of described heat exchanger body is respectively equipped with tube side imported equipments and parts and the tube side spout member that communicates with heat exchanger tube, described tube side imported equipments and parts are provided with high-temperature flue gas entry, described tube side spout member is provided with flue gas discharge opening, zone between the described heat exchanger tube is called between pipe, the front and rear portions of described heat exchanger body be respectively equipped with manage between the shell side spout member and the shell side imported equipments and parts that communicate, described shell side imported equipments and parts, shell side spout member are respectively equipped with opening.

8. high-temperature heat-exchanging as claimed in claim 7 is characterized in that: the mode of sliding with piston between the rear end of described tube side imported equipments and parts and the housing of heat exchanger body is connected.

9. high-temperature heat-exchanging as claimed in claim 8, it is characterized in that: the rear end welding one circle sealing slide block of described tube side imported equipments and parts, described sealing slide block is resisted against on the outer wall of sleeve of housing and slippage and form piston mechanism between sealing slide block and sleeve relatively, thereby realizes that the mode of sliding with piston between tube side imported equipments and parts and the housing is connected.

10. high-temperature heat-exchanging as claimed in claim 3 is characterized in that: the steel plate thickness of the sleeve of described housing is bigger than the thickness of the steel plate of the housing of the encirclement heat exchanger tube that links to each other with sleeve.