CN207095339U - A kind of high temperature modification powder heat exchanger - Google Patents
A kind of high temperature modification powder heat exchanger Download PDFInfo
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- CN207095339U CN207095339U CN201720936354.6U CN201720936354U CN207095339U CN 207095339 U CN207095339 U CN 207095339U CN 201720936354 U CN201720936354 U CN 201720936354U CN 207095339 U CN207095339 U CN 207095339U
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- heat exchanger
- high temperature
- water cooling
- cooling
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Abstract
The utility model discloses a kind of high temperature modification powder heat exchanger, including is corresponding in turn to the bulk flow feeding warehouse, full water cooling high temperature modification heat exchange module and bulk flow hopper of connection.The utility model heat transfer effect is superior, and heat utilization ratio is high, and resistance is small, is not likely to produce dirt, energy-conservation is high, and compact-sized, floor space is small;Modularization making, convenient disassembly;Equipment operation is easy, and corollary equipment is few, and the later stage, operating maintenance was convenient, and maintenance cost is extremely low.
Description
Technical field
It the utility model is related to a kind of high temperature modification powder heat exchanger suitable for powder drying.
Background technology
In the industry such as metallurgy, miner, chemical industry and machinery, manufacture, generally need in equipment such as blast furnace, calcining furnace and hot-blast stoves
It is interior that material is heated to high temperature;But the post-processing such as the conveying of high-temperature material, accumulating and packaging is under middle low temperature environment
Carry out, therefore, the cooling heat transferring of high-temperature powder is just particularly important.
For high-temperature powdery materials heat transmission equipment, widely used the methods of being fluid bed and rotary furnace both at home and abroad.Tradition
Powder heat exchanger be as heat transferring medium by means of air, the biography for completing energy is directly contacted with powder heat exchanger by air
Pass, investment cost height be present, energy expenditure is high, and operating cost is high, and floor space is big, and heat transferring medium is affected by environment serious etc. all
More weak points.
Utility model content
The purpose of this utility model is to provide a kind of heat transfer effect superior, and heat utilization ratio is high, and resistance is small, is not likely to produce
Dirt, energy-conservation is high, and compact-sized, floor space is small;Modularization making, convenient disassembly;Equipment operation is easy, and corollary equipment is few,
Later stage, operating maintenance was convenient, the extremely low high temperature modification powder heat exchanger of maintenance cost.
The technical solution of the utility model is a kind of high temperature modification powder heat exchanger, including is corresponding in turn to the bulk flow of connection
Feeding warehouse, full water cooling high temperature modification heat exchange module and bulk flow hopper, the bulk flow feeding warehouse, the heat exchange of full water cooling high temperature modification
Multiple wall condensing ring pipes are correspondingly arranged in module and bulk flow hopper respectively, are in hollow knot inside the bulk flow feeding warehouse
Structure is set, and the bulk flow feeding warehouse includes flowing into bin wall and being arranged to flow into above bin wall flowing into feed bin top, institute
State and flow into feed bin top in convex arc-shaped structure setting, described flow on feed bin top is provided with material inlet, described to flow into material
The top and bottom of silo roof are correspondingly arranged on the first wall condensing ring pipe and the second wall condensing ring pipe, the first wall condensing ring Guan Shangshe respectively
Enterprising feed bin coolant outlet is equipped with, enterprising feed bin cooling water inlet is provided with the second wall condensing ring pipe, it is described to flow into material
The top and bottom of bulkhead are correspondingly arranged on the 3rd wall condensing ring pipe and the 4th wall condensing ring pipe, the 3rd wall condensing ring Guan Shangshe respectively
Lower feeding warehouse coolant outlet is equipped with, lower feeding warehouse cooling water inlet is provided with the 4th wall condensing ring pipe, it is described to flow into material
It is correspondingly arranged on flange cooling water inlet on bulkhead, the bin wall bottom that flows into is provided with the first mounting flange, and described first
Mounting flange inner ring is provided with first flange water cooling tube, and the full water cooling high temperature modification heat exchange module includes full water cooling heat exchanger plates housing
With high temperature resistant free wxpansion heat exchanger plates, the high temperature resistant free wxpansion heat exchanger plates include pillow plate type heat exchange piece, cooling water inlet connects
Adapter and coolant outlet connecting tube, cooling water inlet connecting tube and coolant outlet the connecting tube difference are longitudinally disposed
In the both sides of pillow plate type heat exchange piece, the upper end of the cooling water inlet connecting tube and the lower end of coolant outlet connecting tube are set respectively
Adaptive expansion joint plumb joint is equipped with, the lower end of the cooling water inlet connecting tube is provided with heat exchanger fin cooling water inlet, described
The upper end of coolant outlet connecting tube is provided with heat exchanger fin coolant outlet, and the high temperature resistant free wxpansion heat exchanger plates are provided with more
Individual and be corresponding in turn to connection from top to bottom and formed, the heat exchanger fin cooling water set at the top of the high temperature resistant free wxpansion heat exchanger plates goes out
Mouth is corresponding to be connected in plate package arc water outlet collector, and the adaptive expansion of adjacent two high temperature resistants free wxpansion heat exchanger plates
Section plumb joint is mutually correspondingly arranged, and heat exchanger fin cooling water inlet and heat exchanger fin coolant outlet are correspondingly arranged by U-shaped connecting tube,
The heat exchanger fin cooling water inlet of the high temperature resistant free wxpansion heat exchanger plates bottom is correspondingly connected to plate package arc water inlet collector
On, multigroup high temperature resistant free wxpansion heat exchanger plates, plate package arc water outlet collector and plate package arc set from top to bottom
Water inlet collector forms high temperature resistant free wxpansion plate package, and the high temperature resistant free wxpansion plate package is arranged at full water cooling heat exchange
In plate housing, the full water cooling heat exchanger plates case top and bottom are correspondingly arranged on the second mounting flange and the 3rd fixation respectively
Orchid, the high temperature resistant free wxpansion plate package bottom are arranged on the 3rd mounting flange by heat exchanger supporting plate, described complete
The top and bottom of water cooling heat exchanger plates housing are correspondingly arranged on the 5th wall condensing ring pipe and the 6th wall condensing ring pipe, the 5th wall respectively
Housing coolant outlet is provided with condensing ring pipe, housing cooling water inlet, the full water are provided with the 6th wall condensing ring pipe
It is corresponding with the upper end of high temperature resistant free wxpansion plate package that cold heat exchanger plates housing upper end is additionally provided with plate package coolant outlet
Set, the full water cooling heat exchanger plates housing lower end is additionally provided with plate package cooling water inlet and high temperature resistant free wxpansion heat exchanger plates
The lower end of group is correspondingly arranged, and the inner ring of second mounting flange and the 3rd mounting flange is correspondingly arranged on second flange water respectively
Cold pipe and the 3rd flange water cooling tube, the bulk flow hopper include full water cooling hopper housing, the full water cooling hopper shell
Body is in inverted truncated cone-shaped structure setting, and the full water cooling hopper case top is provided with the 4th mounting flange, and the described 4th
Mounting flange inner ring is provided with the 4th flange water cooling tube, and the bottom of the full water cooling hopper housing is provided with material outlet, institute
The top and bottom for stating full water cooling hopper housing are also respectively provided with the 7th wall condensing ring pipe and the 8th wall condensing ring pipe, and the described 7th
Hopper coolant outlet is provided with wall condensing ring pipe, hopper cooling water inlet is provided with the 8th wall condensing ring pipe.
In one preferred embodiment of the utility model, the full water cooling high temperature modification heat exchange module is at least provided with 1 section.
In one preferred embodiment of the utility model, first mounting flange, the second mounting flange, the 3rd fixation
Blue and the 4th mounting flange the equally spaced protrusion setting in edge forms corner mounting flange.
In one preferred embodiment of the utility model, the first flange water cooling tube, second flange water cooling tube, the 3rd method
Blue water cooling tube and the 4th flange water cooling tube are provided with flange cooling water inlet and flange coolant outlet.
In one preferred embodiment of the utility model, longitudinally adjacent two in the high temperature resistant free wxpansion plate package
Pillow plate type heat exchange piece is staggered.
In one preferred embodiment of the utility model, the high temperature resistant free wxpansion heat exchanger plates outer ring is set from top to bottom
There are multiple flow-stopping plates.
In one preferred embodiment of the utility model, first mounting flange and the second mounting flange are correspondingly arranged,
3rd mounting flange and the 4th mounting flange are correspondingly arranged.
In one preferred embodiment of the utility model, the full water cooling hopper housing exterior walls are additionally provided with dither
Motor.
In one preferred embodiment of the utility model, the full water cooling hopper enclosure interior is additionally provided with harmonious material device.
In one preferred embodiment of the utility model, the harmonious material device is fixedly installed by harmonious material device fix bar.
Described in the utility model is a kind of high temperature modification powder heat exchanger, and the utility model heat transfer effect is superior, Btu utilization
Rate is high, and resistance is small, is not likely to produce dirt, energy-conservation is high, and compact-sized, floor space is small;Modularization making, convenient disassembly;Equipment
Easy to operate, corollary equipment is few, and the later stage, operating maintenance was convenient, and maintenance cost is extremely low.
Brief description of the drawings
Fig. 1 is the structural representation in the preferred embodiment of the utility model high temperature modification powder heat exchanger one;
Fig. 2 is the bulk flow feeding warehouse structural representation in the preferred embodiment of the utility model high temperature modification powder heat exchanger one
Figure;
Fig. 3 is the full water cooling high temperature modification heat exchange module in the preferred embodiment of the utility model high temperature modification powder heat exchanger one
Structural representation;
Fig. 4 is Fig. 3 front view;
Fig. 5 is the high temperature resistant free wxpansion plate package in the preferred embodiment of the utility model high temperature modification powder heat exchanger one
The flow schematic diagram of structure and high-temperature material;
Fig. 6 is the high temperature resistant free wxpansion heat exchanger plates in the preferred embodiment of the utility model high temperature modification powder heat exchanger one
Structural representation;
Fig. 7 is the structural representation of the bulk flow hopper in the preferred embodiment of the utility model high temperature modification powder heat exchanger one
Figure.
Embodiment
Preferred embodiment of the present utility model is described in detail below, so that advantages and features energy of the present utility model
It is easier to be readily appreciated by one skilled in the art, apparent is clearly defined so as to be made to the scope of protection of the utility model.
Described in the utility model is a kind of high temperature modification powder heat exchanger, as shown in figure 1, the entirety including being corresponding in turn to connection
Flow into feed bin 1, full water cooling high temperature modification heat exchange module 2 and bulk flow hopper 3, the full water cooling high temperature modification heat exchange module 2 to
It is provided with 1 section less, it is right respectively on the bulk flow feeding warehouse 1, full water cooling high temperature modification heat exchange module 2 and bulk flow hopper 3
Multiple wall condensing ring pipes should be provided with.
Operation principle:High-temperature material enters bulk flow feeding warehouse, the solid accumulation in bulk flow feeding warehouse from material inlet
After preliminary distribution, flow into inside multistage full water cooling high temperature modification heat exchange module(The quantity root of full water cooling high temperature modification heat exchange module
According to the difference of applying working condition condition, the contour structure size and quantity of whole module will be redesigned, calculated, type selecting,
Accompanying drawing 1 only illustrates the situation of 2 full water cooling high temperature modification heat exchange modules), by the pure adverse current of high-temperature material and heat exchange module
Forced-convection heat transfer, reach the high-temperature material of design temperature, finally flow into bulk flow hopper, discharged from material outlet.
As shown in Fig. 2 the inside of bulk flow feeding warehouse 1 is set in hollow structure, the bulk flow feeding warehouse 1 includes stream
Feed bulkhead 101 and be arranged to flow into above bin wall 101 and flow into feed bin top 102, the feed bin top 102 that flows into is in convex
Arc-shaped structure set, described flow on feed bin top 102 be provided with material inlet 103, the upper end for flowing into feed bin top 102
It is correspondingly arranged on the first wall condensing ring pipe 104 and the second wall condensing ring pipe 105 respectively with lower end, is set on the first wall condensing ring pipe 104
Enterprising feed bin coolant outlet 106 is equipped with, enterprising feed bin cooling water inlet 107, institute are provided with the second wall condensing ring pipe 105
State and flow into the top and bottom of bin wall 101 and be correspondingly arranged on the 3rd wall condensing ring pipe 108 and the 4th wall condensing ring pipe 109, institute respectively
State and lower feeding warehouse coolant outlet 110 is provided with the 3rd wall condensing ring pipe 108, be provided with down on the 4th wall condensing ring pipe 109
Feeding warehouse cooling water inlet 111, described flow on bin wall 101 is correspondingly arranged on flange cooling water inlet 112, described to flow into material
The bottom of bulkhead 101 is provided with the first mounting flange 113, and the inner ring of the first mounting flange 113 is provided with first flange water cooling tube
114。
Operation principle:High-temperature material is entered by material inlet in the bulk flow feeding warehouse of high temperature modification powder heat exchanger, whole
Body, which is flowed into feed bin, to be accumulated, and partial material and is flowed into after bin wall contact, is transferred heat to by exchanging heat exchange and is flowed into material
Bulkhead, flow into cooling water in bin wall and enter the 4th wall condensing ring pipe from lower feeding warehouse cooling water inlet, the 4th wall condensing ring pipe will be cold
But moisture is fitted on the circular each water stream channel flowed into bin wall, is finally pooled to after the 3rd wall condensing ring pipe, from lower charging
Storehouse coolant outlet outflow(Enterprising feed bin is also same).Because cooling water carries out forced-convection heat transfer, and high temperature substrate in runner
The flow direction of material and cooling water is on the contrary, therefore, bulk flow feeding warehouse maintains relatively low temperature.
Bulk flow feeding warehouse lower end is attached by corner mounting flange and full water cooling high temperature modification heat exchange module, and section is
Semicircular first flange water cooling tube and flow into the cooling water flow conduits that bin wall surrounds and cooled down exclusively for corner mounting flange and drop
Temperature, flange cooling water inlet and warehouse coolant outlet are distributed in the outside wall surface both sides upper and lower side of warehouse.
As shown in Fig. 3 combinations Fig. 4, Fig. 5 and Fig. 6, the full water cooling high temperature modification heat exchange module 2 includes full water cooling heat exchanger plates shell
Body 201 and high temperature resistant free wxpansion heat exchanger plates, the high temperature resistant free wxpansion heat exchanger plates include pillow plate type heat exchange piece 202, cooling
Water inlet connecting tube 203 and coolant outlet connecting tube 204, the cooling water inlet connecting tube 203 and coolant outlet
Connecting tube 204 be longitudinally disposed at respectively pillow plate type heat exchange piece 202 both sides, the upper end of the cooling water inlet connecting tube 203 and
The lower end of coolant outlet connecting tube 204 is respectively arranged with adaptive expansion joint plumb joint 205, the cooling water inlet connecting tube
203 lower end is provided with heat exchanger fin cooling water inlet 206, and the upper end of the coolant outlet connecting tube 204 is provided with heat exchanger fin
Coolant outlet 207, the high temperature resistant free wxpansion heat exchanger plates be provided with it is multiple and be corresponding in turn to from top to bottom connection formed, institute
State the heat exchanger fin coolant outlet 207 set at the top of high temperature resistant free wxpansion heat exchanger plates and be correspondingly connected to plate package arc water outlet
On collector 208, and the adaptive expansion joint plumb joint 205 of adjacent two high temperature resistants free wxpansion heat exchanger plates is mutually correspondingly arranged,
Heat exchanger fin cooling water inlet 206 and heat exchanger fin coolant outlet 207 are correspondingly arranged by U-shaped connecting tube 209, and the high temperature resistant is certainly
It is connected to by the heat exchanger fin cooling water inlet 206 of expansion heat exchanger plates bottom is corresponding in plate package arc water inlet collector 210, it is multigroup
High temperature resistant free wxpansion heat exchanger plates, plate package arc water outlet collector 208 and the water inlet of plate package arc set from top to bottom
Collector 210 forms high temperature resistant free wxpansion plate package, and the high temperature resistant free wxpansion plate package is arranged at full water cooling heat exchange
In plate housing 201, the top and bottom of full water cooling heat exchanger plates housing 201 are correspondingly arranged on the He of the second mounting flange 211 respectively
3rd mounting flange 212, the high temperature resistant free wxpansion plate package bottom are arranged at the 3rd by heat exchanger supporting plate 213 and consolidated
Determine on flange 212, the top and bottom of the full water cooling heat exchanger plates housing 201 are correspondingly arranged on the 5th wall condensing ring pipe 214 respectively
With the 6th wall condensing ring pipe 215, housing coolant outlet 216, the 6th wall condensing ring are provided with the 5th wall condensing ring pipe 214
Housing cooling water inlet 217 is provided with pipe 215, it is cold that the upper end of full water cooling heat exchanger plates housing 201 is additionally provided with plate package
But water out 218 and the upper end of high temperature resistant free wxpansion plate package are correspondingly arranged, the lower end of full water cooling heat exchanger plates housing 201
It is additionally provided with plate package cooling water inlet 219 and the lower end of high temperature resistant free wxpansion plate package is correspondingly arranged, described second
The inner ring of the mounting flange 212 of mounting flange 211 and the 3rd is correspondingly arranged on the flange water of second flange water cooling tube 220 and the 3rd respectively
Cold pipe 221, two longitudinally adjacent pillow plate type heat exchange pieces 202 are staggered in the high temperature resistant free wxpansion plate package, described
High temperature resistant free wxpansion heat exchanger plates outer ring is provided with multiple flow-stopping plates 222 from top to bottom.
Accompanying drawing 3 and Fig. 4 illustrate the full water cooling high temperature modification heat exchange module for eliminating a piece of full water cooling heat exchanger plates housing.It is high
Warm material, into full water cooling high temperature modification heat exchange module, diminishing for flow area, promotes high temperature substrate after the outflow of bulk flow feeding warehouse
Flow velocity increases in the equidistant fat pipe for expecting to be formed in high temperature resistant free wxpansion plate package, and heat transfer intensity increases.Every grade of horizontal stroke
Installing flow-stopping plate between high temperature resistant free wxpansion heat exchanger plates and full water cooling heat exchanger plates housing to setting additional ensure that high-temperature material only
It can be flowed through inside fat pipe, the falling speed and treating capacity of high-temperature material can be controlled accurately, high temperature resistant free wxpansion heat exchange
Cooling water in plate group is converged by plate package arc water inlet collector, cold through full water cooling heat exchanger plates housing from lower end heat exchanger fin
But water inlet flows into, and the heat exchanger fin coolant outlet outflow of upper end, there is heat exchanger branch high temperature resistant free wxpansion plate package lower end
Fagging is reinforced.The full water cooling heat exchanger plates housing of whole high temperature resistant free wxpansion plate package is exchanged heat by the semicircular full water cooling of two panels
Plate weld forms, and upper and lower ends respectively have one piece of corner mounting flange;The cooling of full water cooling heat exchanger plates housing and corner mounting flange
Mode is identical with bulk flow feeding warehouse.
High temperature resistant free wxpansion plate package as shown in Figure 5, has taken into full account the heat of metal material under hot conditions
Expansion.On Flow of Goods and Materials direction, cooling water channel can be drawn by U-shaped connecting tube UNICOM, adaptive expansion joint with absorbing thermal expansion
The material deformation risen, to the strong adaptability of temperature;Meanwhile the cloth that interlocks between adjacent longitudinal high temperature resistant free wxpansion heat exchanger plates
Put, high-temperature material can pass through high temperature resistant free wxpansion heat exchanger plates in flow process, and Surface Renewal speed is accelerated, flow turbulence
Degree enhancing, heat-exchange system increase, the appearance direction of arrow for the phenomenon that also prevented to get stuck is Flow of Goods and Materials direction.
Accompanying drawing 6 is the structural representation of high temperature resistant free wxpansion heat exchanger plates, and cooling water is from high temperature resistant free wxpansion heat exchanger plates
Left lower side cooling water inlet enters cooling water inlet connecting tube, and cooling water collects in cooling water inlet connecting tube, passes through cooling
Passage between water inlet connecting tube and pillow plate type heat exchange piece, after current obtain uniformly, into pillow plate type heat exchange piece(From cooling water
Flow problem from the point of view of, the pillow plate type heat exchange piece belongs to full flow pattern heat exchanger plates), wavy pillow plate type heat exchange piece increase cooling water
The Reynolds number of flowing, the coefficient of heat transfer are strengthened;Finally collect again in coolant outlet connecting tube, flow out coolant outlet,
Into next stage runner.There is the adaptive of the adaptive expansion joint of installation in cooling water inlet connecting tube and coolant outlet connecting tube
Expansion joint plumb joint is answered, to tackle high-temperature heat expansion.
As shown in fig. 7, the bulk flow hopper 3 includes full water cooling hopper housing 301, the full water cooling hopper shell
Body 301 is in inverted truncated cone-shaped structure setting, and the top of full water cooling hopper housing 301 is provided with the 4th mounting flange 302,
The inner ring of 4th mounting flange 302 is provided with the 4th flange water cooling tube 303, the bottom of the full water cooling hopper housing 301
Material outlet 304 is provided with, the top and bottom of the full water cooling hopper housing 301 are also respectively provided with the 7th wall condensing ring pipe
305 and the 8th wall condensing ring pipe 306, it is provided with hopper coolant outlet 307 on the 7th wall condensing ring pipe 305, the described 8th
Hopper cooling water inlet 308 is provided with wall condensing ring pipe 306, the outer wall of full water cooling hopper housing 301 is additionally provided with height
Frequency vibration motor 309, harmonious material device 310 is additionally provided with inside the full water cooling hopper housing 301, the harmonious material device 310 passes through
Harmonious material device fix bar 311 is fixedly installed.
High-temperature material is after full water cooling high temperature modification heat exchange module, from bulk flow hopper(Accompanying drawing 7)Material outlet stream
Go out, the full water cooling hopper housing of caused truncated cone-shaped structure is advantageous to the material collection after cooling and processing, full water cooling blanking
Housing, the 4th mounting flange and the cooling pattern of wall condensing ring pipe of struggling against with bulk flow feeding warehouse as;Harmonious material device is consolidated by harmonious material device
Fixed pole is fixed on the center of full water cooling hopper housing, and being provided with for it is uniformly fallen beneficial to material, prevents intermediate
Expect the drawbacks of falling speed is fast, and blanking is slow at circumference, reduce the unevenness of the final chilling temperature of material;In full water cooling blanking
Dither motor is housed on the outer wall of bucket housing, by adjusting the frequency of dither motor, the falling speed of material obtains
It is accurately controlled.
First mounting flange 113, the second mounting flange 211, the 3rd mounting flange 212 and the 4th mounting flange
The 302 equally spaced protrusion setting in edge forms corner mounting flange, the first flange water cooling tube 114, second flange water cooling
Pipe 220, the 3rd flange water cooling tube 221 and the 4th flange water cooling tube 303 are provided with flange cooling water inlet 112 and flange cooling
Water out 4, the mounting flange 211 of the first mounting flange 113 and second are correspondingly arranged, the 3rd mounting flange 212 and
Four mounting flanges 302 are correspondingly arranged.
Compared with traditional high temperature modification powder heat exchanger, advantage of the present utility model is:
No matter in housing, or in plate, high-temperature powder and the completely pure adverse current heat convection of cooling medium, heat transfer effect
Superior, the heat of high-temperature material is all absorbed by cooling medium, and heat utilization ratio is high.
Full water cooling high temperature modification heat exchange module is made up of a number of pillow plate type heat exchange piece, and the pillow plate type heat exchange piece is by two
Open metal sheet to be superimposed, welded together by laser penetration, then pass through high-pressure spray between plate type heat exchange piece is rested the head on
Body is expanded and forms internal heat passage.It is in wavy, unusual light to rest the head on plate type heat exchange piece surface, both meets heat transfer enhancing
It is required that plate external resistance is small, it is not easy to produce dirt again.
High-temperature material flows through full water cooling high temperature modification heat exchange module by the gravity of itself and cooled down, and complete equipment only has one
Individual low power dither motor accurately controls blanking velocity, compared to other heat transmission equipments, energy-conservation more than 90%.
High temperature modification powder heat exchanger is compact-sized, and floor space is small;Modularization making, convenient disassembly;Equipment operation is easy,
Corollary equipment is few, and the later stage, operating maintenance was convenient, and maintenance cost is extremely low.
Described in the utility model is a kind of high temperature modification powder heat exchanger, and the utility model heat transfer effect is superior, Btu utilization
Rate is high, and resistance is small, is not likely to produce dirt, energy-conservation is high, and compact-sized, floor space is small;Modularization making, convenient disassembly;Equipment
Easy to operate, corollary equipment is few, and the later stage, operating maintenance was convenient, and maintenance cost is extremely low.
Specific embodiment of the present utility model is the foregoing is only, but the scope of protection of the utility model is not limited to
This, any those skilled in the art, can be without creative work in the technical scope disclosed by the utility model
The change or replacement expected, it should all cover within the scope of protection of the utility model.Therefore, the scope of protection of the utility model
It should be determined by the scope of protection defined in the claims.
Claims (10)
1. a kind of high temperature modification powder heat exchanger, including it is corresponding in turn to the bulk flow feeding warehouse of connection, full water cooling high temperature modification heat exchange mould
Block and bulk flow hopper, it is characterised in that:The bulk flow feeding warehouse, full water cooling high temperature modification heat exchange module and bulk flow
Multiple wall condensing ring pipes are correspondingly arranged on hopper respectively, are set inside the bulk flow feeding warehouse in hollow structure, it is described whole
Body, which flows into feed bin, to be included flowing into bin wall and being arranged to flow into above bin wall flowing into feed bin top, and the feed bin top that flows into is in
Convex arc-shaped structure is set, and described flow on feed bin top is provided with material inlet, and the upper end for flowing into feed bin top is with
End is correspondingly arranged on the first wall condensing ring pipe and the second wall condensing ring pipe respectively, and it is cold to be provided with enterprising feed bin on the first wall condensing ring pipe
But water out, is provided with enterprising feed bin cooling water inlet on the second wall condensing ring pipe, the upper end for flowing into bin wall and under
End is correspondingly arranged on the 3rd wall condensing ring pipe and the 4th wall condensing ring pipe respectively, and it is cold to be provided with lower feeding warehouse on the 3rd wall condensing ring pipe
But water out, lower feeding warehouse cooling water inlet is provided with the 4th wall condensing ring pipe, described flow on bin wall is correspondingly arranged
There is flange cooling water inlet, the bin wall bottom that flows into is provided with the first mounting flange, and the first mounting flange inner ring is set
First flange water cooling tube is equipped with, the full water cooling high temperature modification heat exchange module includes full water cooling heat exchanger plates housing and high temperature resistant is freely swollen
Swollen heat exchanger plates, the high temperature resistant free wxpansion heat exchanger plates include pillow plate type heat exchange piece, cooling water inlet connecting tube and cooling water
Outlet connecting pipe, the cooling water inlet connecting tube and coolant outlet connecting tube are longitudinally disposed at pillow plate type heat exchange piece respectively
Both sides, the upper end of the cooling water inlet connecting tube and the lower end of coolant outlet connecting tube are respectively arranged with adaptive expansion
Plumb joint is saved, the lower end of the cooling water inlet connecting tube is provided with heat exchanger fin cooling water inlet, the coolant outlet connection
The upper end of pipe is provided with heat exchanger fin coolant outlet, the high temperature resistant free wxpansion heat exchanger plates be provided with it is multiple and from top to bottom according to
Secondary corresponding connection is formed, and the heat exchanger fin coolant outlet set at the top of the high temperature resistant free wxpansion heat exchanger plates, which is correspondingly connected to, to be changed
In hot plate group arc water outlet collector, and the adaptive expansion joint plumb joint of adjacent two high temperature resistants free wxpansion heat exchanger plates is mutually right
It should set, heat exchanger fin cooling water inlet and heat exchanger fin coolant outlet are correspondingly arranged by U-shaped connecting tube, and the high temperature resistant is free
The heat exchanger fin cooling water inlet of expansion heat exchanger plates bottom is correspondingly connected in plate package arc water inlet collector, it is multigroup from top to bottom
High temperature resistant free wxpansion heat exchanger plates, plate package arc water outlet collector and the plate package arc water inlet collector of setting form resistance to height
Warm free wxpansion plate package, the high temperature resistant free wxpansion plate package are arranged in full water cooling heat exchanger plates housing, described complete
Water cooling heat exchanger plates case top and bottom are correspondingly arranged on the second mounting flange and the 3rd mounting flange respectively, and the high temperature resistant is certainly
It is arranged at by expansion plate package bottom by heat exchanger supporting plate on the 3rd mounting flange, the full water cooling heat exchanger plates housing
Top and bottom are correspondingly arranged on the 5th wall condensing ring pipe and the 6th wall condensing ring pipe respectively, and shell is provided with the 5th wall condensing ring pipe
Body coolant outlet, housing cooling water inlet, the full water cooling heat exchanger plates housing upper end are provided with the 6th wall condensing ring pipe
It is additionally provided with plate package coolant outlet and the upper end of high temperature resistant free wxpansion plate package is correspondingly arranged, the full water cooling is changed
Hot plate housing lower end is additionally provided with plate package cooling water inlet and the lower end of high temperature resistant free wxpansion plate package is correspondingly arranged,
The inner ring of second mounting flange and the 3rd mounting flange is correspondingly arranged on second flange water cooling tube and the 3rd flange water respectively
Cold pipe, the bulk flow hopper include full water cooling hopper housing, and the full water cooling hopper housing is in inverted truncated cone-shaped
Structure setting, the full water cooling hopper case top are provided with the 4th mounting flange, and the 4th mounting flange inner ring is set
There is the 4th flange water cooling tube, the bottom of the full water cooling hopper housing is provided with material outlet, the full water cooling hopper shell
The top and bottom of body are also respectively provided with the 7th wall condensing ring pipe and the 8th wall condensing ring pipe, are provided with the 7th wall condensing ring pipe
Hopper coolant outlet, hopper cooling water inlet is provided with the 8th wall condensing ring pipe.
2. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:The full water cooling high temperature modification heat exchange module
At least provided with 1 section.
3. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:First mounting flange, second are consolidated
The equally spaced protrusion setting in edge for determining flange, the 3rd mounting flange and the 4th mounting flange forms corner mounting flange.
4. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:The first flange water cooling tube, second
Flange water cooling tube, the 3rd flange water cooling tube and the 4th flange water cooling tube is provided with flange cooling water inlet and flange cooling water goes out
Mouthful.
5. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:The high temperature resistant free wxpansion heat exchanger plates
Two longitudinally adjacent pillow plate type heat exchange pieces are staggered in group.
6. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:The high temperature resistant free wxpansion heat exchanger plates
Outer ring is provided with multiple flow-stopping plates from top to bottom.
7. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:First mounting flange and second is consolidated
Determine flange to be correspondingly arranged, the 3rd mounting flange and the 4th mounting flange are correspondingly arranged.
8. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:The full water cooling hopper housing exterior walls
It is additionally provided with dither motor.
9. high temperature modification powder heat exchanger according to claim 1, it is characterised in that:The full water cooling hopper enclosure interior
It is additionally provided with harmonious material device.
10. high temperature modification powder heat exchanger according to claim 9, it is characterised in that:The harmonious material device is consolidated by harmonious material device
Fixed pole is fixedly installed.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720936354.6U CN207095339U (en) | 2017-07-31 | 2017-07-31 | A kind of high temperature modification powder heat exchanger |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720936354.6U CN207095339U (en) | 2017-07-31 | 2017-07-31 | A kind of high temperature modification powder heat exchanger |
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Publication Number | Publication Date |
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CN207095339U true CN207095339U (en) | 2018-03-13 |
Family
ID=61542839
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201720936354.6U Withdrawn - After Issue CN207095339U (en) | 2017-07-31 | 2017-07-31 | A kind of high temperature modification powder heat exchanger |
Country Status (1)
Country | Link |
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CN (1) | CN207095339U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107255421A (en) * | 2017-07-31 | 2017-10-17 | 苏州协宏泰节能科技有限公司 | A kind of high temperature modification powder heat exchanger |
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2017
- 2017-07-31 CN CN201720936354.6U patent/CN207095339U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107255421A (en) * | 2017-07-31 | 2017-10-17 | 苏州协宏泰节能科技有限公司 | A kind of high temperature modification powder heat exchanger |
CN107255421B (en) * | 2017-07-31 | 2023-04-28 | 苏州协宏泰节能科技有限公司 | High-temperature powder heat exchanger |
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