Waste heat recovery plant is used in industrial waste gas processing
Technical field
The present invention relates to a kind of waste heat recovery plants, more particularly to a kind of industrial waste gas processing waste heat recovery plant.
Background technique
Traditional industrial waste gas processing waste heat recovery plant there is heat recovery efficiencies when in use low, recovering effect
The problem of difference;Such as number of patent application is a kind of waste heat recovery plant of Homogeneouslly-radiating of CN201520278479.5, it is described
Waste heat recovery plant is the groove body of rectangle, and the heat-exchange tube that section is circular ring shape is equipped in the middle part of groove body, the heat-exchange tube
Tube wall is hollow type tube wall, and the two sides of heat-exchange tube are respectively equipped with three inclined shunt connection pipes, are equipped with transmission inside groove body
The inside of axis, transmission shaft is equipped with waste heat transfer tube, and heat-exchange tube is connected on transmission shaft by the shunt connection pipe of two sides, and heat is handed over
The middle part for changing pipe is equipped with water conservancy diversion paddle.The waste heat recovery plant structure of the patent is more single, can not be maximumlly in exhaust gas
Thermal energy is recycled;The problem of it is low that there is heat recovery efficiencies, poor recovery effect.
Summary of the invention
The object of the present invention is to provide a kind of industrial waste gas processing waste heat recovery plants, can effectively solve the prior art
In the problem of heat recovery efficiency is low and poor recovery effect;Inside of the invention is equipped with compression heat-exchanging component, can pass through
Compression processing is carried out to exhaust gas while cold water exchanges heat to heat-containing waste gas, the compression of exhaust gas is produced by compression heat-exchanging component
Raw new thermal energy improves the effect to exchange heat to cold water, and inside of the invention is equipped with circulation intake-discharge pipe component, can make
The cold water that must be exchanged heat is circulated in inside of the invention, until cold water will exchange heat to better temperature after exchanging heat again
Water source discharge, can effectively improve heat exchange efficiency;In addition, compression heat-exchanging component and circulation intake-discharge pipe component are using driving control
Component processed synchronizes control and drives, energy conservation and environmental protection, and working efficiency is higher.
The purpose of the present invention is achieved through the following technical solutions:
Industrial waste gas processing use waste heat recovery plant, including air inlet tube assembly, processing cartridge module, compression heat-exchanging component, follow
Ring intake-discharge pipe component, drive control component, the exhaust pipe with check valve and support holder assembly, the air inlet tube assembly it is upper
End is fixedly connected on the lower end of the inside of processing cartridge module, and the lower end of air inlet tube assembly is pierced by the lower end of processing cartridge module;It is described
The bottom end of processing cartridge module is fixedly connected on support holder assembly;The inside of processing cartridge module is arranged in the compression heat-exchanging component
Middle-end, the middle-end of compression heat-exchanging component bottom surface is fixedly connected on the upper end of air inlet tube assembly;It is described to compress the upper of heat-exchanging component
End connection drive control component;The drive control component is fixedly connected on the top of processing cartridge module;The processing cartridge module
Top be connected to and in communication with the exhaust pipe with check valve;The upper end of the compression heat-exchanging component, which is connected to and in communication with, to be recycled into draining
Tube assembly;The circulation intake-discharge pipe component connects drive control component, and the setting of circulation intake-discharge pipe component is in processing cartridge module
Outside.
The processing cartridge module includes cylindrical process cartridge, back taper dust-collecting cylinder, demarcation plate and lamina tecti without cone;Institute
The lower end for stating cylindrical process cartridge is connected through a screw thread back taper dust-collecting cylinder;The lower end of the inside of the cylinder process cartridge is fixed
Connect demarcation plate;The top of the cylinder process cartridge is fixedly connected with lamina tecti;The lamina tecti is equipped with gas vent, gas vent
Inside be fixedly connected with exhaust pipe.
The air inlet tube assembly include with the intake elbow of suction fan, the air inlet straight tube with check valve, divide gas tank,
It is eradicate dirt screen pipe and Duo Gen dust fall pipe more;The upper end of the intake elbow is fixedly connected with air inlet straight tube;The air inlet straight tube
Middle-end is sealedly and fixedly connected in the lower end of back taper dust-collecting cylinder;The upper end of the air inlet straight tube is connected to and in communication with a point gas tank, divides gas
The inside of cylindrical process cartridge is arranged in case, divides on the bottom surface of gas tank and is fixedly connected with and is connected to more elimination dirt screen pipes, eradicate more
The lower end of dirt screen pipe is respectively connected through a screw thread a dust fall pipe, and the lower end of more dust fall pipes passes through demarcation plate and is inserted into back taper
The inside of dust-collecting cylinder.
The compression heat-exchanging component includes water inlet connecting tube, water outlet connecting tube, the fixed heat exchange box of circular ring type, circular ring type activity
Heat exchange box, external screw thread rotary shaft, lifting linkage rack, guiding fixed frame, water delivery connecting tube and sliding stop collar;The water outlet connection
The lower end of pipe is connected to and in communication with circular ring type activity heat exchange box, and the sliding connection of circular ring type activity heat exchange box is changed in circular ring type fixation
In hot tank;The fixed heat exchange box of the circular ring type connects circular ring type activity heat exchange box by water delivery connecting tube;The circular ring type activity
Heat exchange box is fixedly connected on the lower end of lifting linkage rack, and the upper end for going up and down linkage rack is threadedly attached in external screw thread rotary shaft
On;The lower end of the fixed heat exchange box of the circular ring type is fixedly connected on the top surface of point gas tank;The lower end of the external screw thread rotary shaft
The center of the top surface of point gas tank is connected to by the bearing block with bearing;The upper end of external screw thread rotary shaft is connected by shaft coupling
Drive control component;The water inlet connecting tube, water outlet connecting tube and water delivery connecting tube are all rubber hose;The water outlet connecting tube
Upper end connection circulation intake-discharge pipe component;The lower end of the water inlet connecting tube is connected to and in communication with the fixed heat exchange box of circular ring type, circle
The other end sliding connection of the fixed heat exchange box of ring type is oriented to the lower end sliding connection of fixed frame on guiding fixed frame
Circular ring type activity heat exchange box;The bottom end of the guiding fixed frame is fixedly connected on demarcation plate;The upper end of the water inlet connecting tube
Connection circulation intake-discharge pipe component;;The sliding stop collar is fixedly connected on the upper end of the lateral surface of the fixed heat exchange box of circular ring type.
The drive control component includes driving motor, transmission gear, driven gear, gear shaft, drive sprocket, passive chain
Wheel, sprocket shaft and drive bevel gear;The driving motor is fixedly connected on lamina tecti, fixed on the output shaft of driving motor to connect
Transmission gear, transmission gear engagement connection driven gear are connect, driven gear is fixedly connected on gear shaft, and the lower end of gear shaft is logical
Cross shaft coupling connection external screw thread rotary shaft;The upper end of the gear shaft is fixedly connected with drive sprocket;The drive sprocket passes through chain
Item is connected by movable sprocket, by the upper end of movable sprocket fixing connection chain wheel shaft;The lower end of the sprocket shaft is fixedly connected with transmission cone tooth
Wheel, drive bevel gear connection circulation intake-discharge pipe component;The bottom end of the sprocket shaft is connected to by the bearing block with bearing
On lamina tecti.
The circulation intake-discharge pipe component includes the water inlet pipe for having control valve, cyclic water tank, with control valve
Drainpipe, first circulation water pipe, water circulating pump, second circulation water pipe and dynamic bevel gear;The water inlet pipe is connected to recirculated water
The top of case, drainpipe are connected to the bottom end of cyclic water tank;The upper end of the left side of the cyclic water tank passes through first circulation water
Pipe connects one end of water circulating pump, and the other end of water circulating pump is fixedly connected with second circulation water pipe, and second circulation water pipe connects out
Water connecting tube;The upper end of the water inlet connecting tube is connected to the lower end of the left side of cyclic water tank;The active of the water circulating pump
Dynamic bevel gear, dynamic bevel gear engagement connection drive bevel gear are fixedly connected on axis.
The support holder assembly includes three L shape support rods and disc base, the upper end uniform rings of three L shape support rods around
It is connected on the bottom surface of back taper dust-collecting cylinder, the lower end of three L shape support rods is all connected by screw on disc base.
All pass through the rubber seal of all-purpose adhesive bonding connection on the medial surface of the circular ring type activity heat exchange box and on lateral surface
Circle, a rubber seal are fitted on the lateral surface of the fixed heat exchange box of circular ring type, another rubber seal is fitted in cylinder
On the medial surface of shape process cartridge.
The dust removal and filtration pipe uses ceramic capillary screen pipe.
Beneficial effects of the present invention: a kind of industrial waste gas processing waste heat recovery plant can effectively solve the prior art
In the problem of heat recovery efficiency is low and poor recovery effect;Inside of the invention is equipped with compression heat-exchanging component, can pass through
Compression processing is carried out to exhaust gas while cold water exchanges heat to heat-containing waste gas, the compression of exhaust gas is produced by compression heat-exchanging component
Raw new thermal energy improves the effect to exchange heat to cold water, and inside of the invention is equipped with circulation intake-discharge pipe component, can make
The cold water that must be exchanged heat is circulated in inside of the invention, until cold water will exchange heat to better temperature after exchanging heat again
Water source discharge, can effectively improve heat exchange efficiency;In addition, compression heat-exchanging component and circulation intake-discharge pipe component are using driving control
Component processed synchronizes control and drives, energy conservation and environmental protection, and working efficiency is higher.
Detailed description of the invention
Fig. 1 is overall structure diagram of the invention;
Fig. 2 is the structural schematic diagram that the present invention does not install cylindrical process cartridge;
Fig. 3 is the structural schematic diagram of the air inlet tube assembly inside the present invention;
Fig. 4 is the structural schematic diagram of the processing cartridge module inside the present invention;
Fig. 5 is the schematic cross-sectional view of the processing cartridge module inside the present invention;
Fig. 6 is the structural schematic diagram one of the compression heat-exchanging component inside the present invention;
Fig. 7 is the structural schematic diagram two of the compression heat-exchanging component inside the present invention;
Fig. 8 is the structural schematic diagram one of the circulation intake-discharge pipe component inside the present invention;
Fig. 9 is the structural schematic diagram two of the circulation intake-discharge pipe component inside the present invention;
Figure 10 is the structural schematic diagram of the drive control component inside the present invention;
Figure 11 is the structural schematic diagram of the support holder assembly inside the present invention;
Figure 12 is the structural schematic diagram of the lifting linkage rack inside the present invention.
In figure: air inlet tube assembly 1;Intake elbow 1-1;Air inlet straight tube 1-2;Divide gas tank 1-3;Dust removal and filtration pipe 1-4;Dust fall
Pipe 1-5;Handle cartridge module 2;Cylindrical process cartridge 2-1;Back taper dust-collecting cylinder 2-2;Demarcation plate 2-3;Lamina tecti 2-4;Compression is changed
Hot component 3;Water inlet connecting tube 3-1;It is discharged connecting tube 3-2;Circular ring type fixes heat exchange box 3-3;Circular ring type activity heat exchange box 3-4;
External screw thread rotary shaft 3-5;Go up and down linkage rack 3-6;It is oriented to fixed frame 3-7;Water delivery connecting tube 3-8;Slide stop collar 3-9;Circulation
Intake-discharge pipe component 4;Water inlet pipe 4-1;Cyclic water tank 4-2;Drainpipe 4-3;First circulation water pipe 4-4;Water circulating pump 4-5;The
Two-cycle pipe 4-6;Dynamic bevel gear 4-7;Drive control component 5;Driving motor 5-1;Transmission gear 5-2;Driven gear 5-
3;Gear shaft 5-4;Drive sprocket 5-5;By movable sprocket 5-6;Sprocket shaft 5-7;Drive bevel gear 5-8;Exhaust pipe 6;Support base group
Part 7.
Specific embodiment
Invention is further described in detail by 1-12 with reference to the accompanying drawing.
Specific embodiment 1:
As shown in figs. 1-12, industrial waste gas processing use waste heat recovery plant, including air inlet tube assembly 1, processing cartridge module 2,
Compress heat-exchanging component 3, circulation intake-discharge pipe component 4, drive control component 5, the exhaust pipe 6 with check valve and support holder assembly
7, the upper end of the air inlet tube assembly 1 is fixedly connected on the lower end of the inside of processing cartridge module 2, and the lower end of air inlet tube assembly 1 is worn
The lower end of cartridge module 2 is handled out;The bottom end of the processing cartridge module 2 is fixedly connected on support holder assembly 7;The compression heat exchange
The middle-end of the inside of processing cartridge module 2 is arranged in component 3, and the middle-end of compression 3 bottom surface of heat-exchanging component is fixedly connected on air inlet pipe group
The upper end of part 1;The upper end of the compression heat-exchanging component 3 connects drive control component 5;The drive control component 5 is fixedly connected
On the top of processing cartridge module 2;The top of the processing cartridge module 2 is connected to and in communication with the exhaust pipe 6 with check valve;The pressure
The upper end of contracting heat-exchanging component 3 is connected to and in communication with circulation intake-discharge pipe component 4;The connection of the circulation intake-discharge pipe component 4 driving control
The outside of processing cartridge module 2 is arranged in component 5 processed, circulation intake-discharge pipe component 4.Industrial waste gas processing of the invention is returned with waste heat
Air inlet tube assembly 1 is connected to exhaust emission pipe by pipeline first when in use by receiving apparatus, will recycle intake-discharge pipe component 4
It is connected to running water pipe, then air inlet tube assembly 1 is connected to power supply with drive control component 5 and is opened by control switch;Water source
The inside of compression heat-exchanging component 3 is entered to by recycling intake-discharge pipe component 4, exhaust gas carries out tentatively mistake by air inlet tube assembly 1
The inside of processing cartridge module 2 is entered to after filter, the compression heat-exchanging component 3 is gone up and down under the drive of drive control component 5
Compression work, the exhaust gas positioned at processing 2 interior lower end of cartridge module generate new thermal energy under the compression of compression heat-exchanging component 3, newly
Thermal energy mixed with thermal energy original in exhaust gas to compression heat-exchanging component 3 inside cold water exchange heat, compression heat-exchanging component 3 in
When being exchanged heat, circulation intake-discharge pipe component 4 works the cold water in portion under the drive of drive control component 5, and cold water exists
Recycle intake-discharge pipe component 4 drive under carry out circulating movement, by water source circulate so that the effect to exchange heat more
It is good, effectively improve heat exchange efficiency;The exhaust gas for being located at 2 interior lower end of process cartridge component is compressed in compression heat-exchanging component 3
Afterwards, the upper end inside processing cartridge module 2 is entered to, is then compressed again by the compression rising of heat-exchanging component 3, is exchanged heat again
Afterwards, it is discharged by the exhaust pipe 6 with check valve, the exhaust pipe 6 with check valve can also be connected to other heat-exchanger rigs, accomplish
Thermal energy makes full use of.
Specific embodiment 2:
As shown in figs. 1-12, the processing cartridge module 2 includes cylindrical process cartridge 2-1, the back taper dust-collecting cylinder without cone
2-2, demarcation plate 2-3 and lamina tecti 2-4;The lower end of the cylinder process cartridge 2-1 is connected through a screw thread back taper dust-collecting cylinder 2-
2;The lower end of the inside of the cylinder process cartridge 2-1 is fixedly connected with demarcation plate 2-3;The top of the cylinder process cartridge 2-1
It is fixedly connected with lamina tecti 2-4;The lamina tecti 2-4 is equipped with gas vent, is fixedly connected with exhaust pipe 6 on the inside of gas vent.
The air inlet tube assembly 1 include with the intake elbow 1-1 of suction fan, the air inlet straight tube 1-2 with check valve,
Divide gas tank 1-3, more elimination dirt screen pipe 1-4 and Duo Gen dust fall pipe 1-5;The upper end of the intake elbow 1-1 is fixedly connected with air inlet
Straight tube 1-2;The middle-end of the air inlet straight tube 1-2 is sealedly and fixedly connected in the lower end of back taper dust-collecting cylinder 2-2;The air inlet straight tube
The upper end of 1-2 is connected to and in communication with a point gas tank 1-3, and gas tank 1-3's divided in the inside for dividing gas tank 1-3 that cylindrical process cartridge 2-1 is arranged in
It is fixedly connected on bottom surface and is connected to more elimination dirt screen pipe 1-4, the lower ends for eradicating dirt screen pipe 1-4 are respectively connected through a screw thread one more
The lower end of root dust fall pipe 1-5, more dust fall pipe 1-5 pass through the inside that demarcation plate 2-3 is inserted into back taper dust-collecting cylinder 2-2.
When in use, exhaust gas is in the intake elbow 1-1 for having suction fan for the air inlet tube assembly 1 and processing cartridge module 2
Drive under enter to the inside of air inlet straight tube 1-2, and a point inside of gas tank 1-3 is entered to by air inlet straight tube 1-2, then led to
Dust in the dust removal and filtration pipe 1-4 filtering exhaust gas of the excessive lower end gas tank 1-3, the dust filtered out pass through more dust fall pipe 1-5
It falls into the inside of the back taper dust-collecting cylinder 2-2 of no cone and is collected, and the exhaust gas containing heat enters to cylindrical process cartridge 2-1
Inside carry out heat exchange and compression processing.Connected between cylinder process cartridge 2-1 and the back taper dust-collecting cylinder 2-2 by screw thread
It connects, convenient for toppling over the dust of back taper dust-collecting cylinder 2-2 internal gathering.
Specific embodiment 3:
As shown in figs. 1-12, the compression heat-exchanging component 3 includes water inlet connecting tube 3-1, water outlet connecting tube 3-2, circular ring type
Fixed heat exchange box 3-3, circular ring type activity heat exchange box 3-4, external screw thread rotary shaft 3-5, lifting linkage rack 3-6, guiding fixed frame 3-
7, water delivery connecting tube 3-8 and sliding stop collar 3-9;The lower end of the water outlet connecting tube 3-2 is connected to and in communication with circular ring type activity and changes
Hot tank 3-4, circular ring type activity heat exchange box 3-4 sliding connection are on the fixed heat exchange box 3-3 of circular ring type;The circular ring type is fixed
Heat exchange box 3-3 passes through water delivery connecting tube 3-8 connection circular ring type activity heat exchange box 3-4;The circular ring type activity heat exchange box 3-4 is fixed
It is connected to the lower end of lifting linkage rack 3-6, the upper end of lifting linkage rack 3-6 is threadedly attached on external screw thread rotary shaft 3-5;
The lower end of the fixed heat exchange box 3-3 of the circular ring type is fixedly connected on point top surface of gas tank 1-3;The external screw thread rotary shaft 3-5
Lower end by being connected to a point center for the top surface of gas tank 1-3 with the bearing block of bearing;The upper end of external screw thread rotary shaft 3-5 is logical
Cross shaft coupling connection drive control component 5;The water inlet connecting tube 3-1, water outlet connecting tube 3-2 and water delivery connecting tube 3-8 are all
Rubber hose;The upper end connection circulation intake-discharge pipe component 4 of the water outlet connecting tube 3-2;The lower end of the water inlet connecting tube 3-1
It is connected to and in communication with the fixed heat exchange box 3-3 of circular ring type, the other end of the fixed heat exchange box 3-3 of circular ring type is slidably connected in fixed guide
Determine on frame 3-7, the lower end of guiding fixed frame 3-7 is slidably connected circular ring type activity heat exchange box 3-4;The guiding fixed frame 3-
7 bottom end is fixedly connected on demarcation plate 2-3;The upper end connection circulation intake-discharge pipe component 4 of the water inlet connecting tube 3-1;Institute
State the upper end that sliding stop collar 3-9 is fixedly connected on the lateral surface of the fixed heat exchange box 3-3 of circular ring type.The compression heat-exchanging component 3
When in use, cold water passes through circulation intake-discharge pipe component 4 full of water inlet connecting tube 3-1, water outlet connecting tube 3-2, circular ring type first
Fixed heat exchange box 3-3, circular ring type activity heat exchange box 3-4 and circulation intake-discharge pipe component 4, external screw thread rotary shaft 3-5 are driving
Shuttle rotation is carried out under the drive of control assembly 5, and lifting linkage rack 3-6 is driven to carry out when external screw thread rotary shaft 3-5 is rotated
Oscilaltion campaign, lifting linkage rack 3-6 drive circular ring type activity heat exchange box 3-4 in the outside of the fixed heat exchange box 3-3 of circular ring type
It is slided up and down on the medial surface of face and cylindrical process cartridge 2-1, by the up and down motion of circular ring type activity heat exchange box 3-4,
It realizes and compression processing appropriate is carried out to the exhaust gas of the interior lower end of cylindrical process cartridge 2-1, so that exhaust gas generates newly
Thermal energy, original thermal energy simultaneously exchanges heat to the cold water inside compression heat-exchanging component 3 in new thermal energy and exhaust gas, can be effective
Improve heat transfer effect and heat exchange efficiency;When circular ring type activity heat exchange box 3-4 moves to the lower end of the fixed heat exchange box 3-3 of circular ring type
And when being detached from the fixed heat exchange box 3-3 of circular ring type, exhaust gas moves to the fixed heat exchange of circular ring type by circular ring type activity heat exchange box 3-4
Gap between case 3-3 enters to the inner upper end of cylindrical process cartridge 2-1, as circular ring type activity heat exchange box 3-4 is transported upwards
It is dynamic that compression processing appropriate is carried out to the exhaust gas for the inner upper end for entering to cylindrical process cartridge 2-1 again, and generate thermal energy pair
The cold water for compressing the inside of heat-exchanging component 3 exchanges heat, while in compression process, the inner upper end of cylindrical process cartridge 2-1
Pressure become larger, exhaust gas presses the check valve on exhaust pipe 6 so that exhaust gas be discharged, thus be further processed or benefit
With.
Specific embodiment 4:
As shown in figs. 1-12, the drive control component 5 includes driving motor 5-1, transmission gear 5-2, driven gear 5-
3, gear shaft 5-4, drive sprocket 5-5, by movable sprocket 5-6, sprocket shaft 5-7 and drive bevel gear 5-8;The driving motor 5-1
It is fixedly connected on lamina tecti 2-4, transmission gear 5-2 is fixedly connected on the output shaft of driving motor 5-1, transmission gear 5-2 is nibbled
Connection driven gear 5-3 is closed, driven gear 5-3 is fixedly connected on gear shaft 5-4, and the lower end of gear shaft 5-4 passes through shaft coupling
Connect external screw thread rotary shaft 3-5;The upper end of the gear shaft 5-4 is fixedly connected with drive sprocket 5-5;The drive sprocket 5-5 is logical
Chain connection is crossed by movable sprocket 5-6, the upper end of sprocket shaft 5-7 is fixedly connected with by movable sprocket 5-6;The lower end of the sprocket shaft 5-7
It is fixedly connected with drive bevel gear 5-8, drive bevel gear 5-8 connection recycles intake-discharge pipe component 4;The bottom end of the sprocket shaft 5-7
It is connected on lamina tecti 2-4 by the bearing block with bearing.When in use, driving motor 5-1 is logical for the drive control component 5
It crosses output shaft band nutating gear 5-2 and carries out shuttle rotation work, transmission gear 5-2 drives driven gear 5-3 to be turned
Dynamic, driven gear 5-3 band movable gear shaft 5-4 is rotated, gear shaft 5-4 by shaft coupling drive external screw thread rotary shaft 3-5 into
Row rotation, to realize compression heat exchange work of the compression heat-exchanging component 3 to exhaust gas;The gear shaft 5-4 can band in rotation
Dynamic drive sprocket 5-5 is rotated, and drive sprocket 5-5 is rotated by chain-driving by movable sprocket 5-6, by movable sprocket 5-6
Drive bevel gear 5-8 is driven to be rotated by sprocket shaft 5-7, drive bevel gear 5-8 drives circulation intake-discharge pipe component 4 to carry out
Work.
Specific embodiment 5:
As shown in figs. 1-12, the circulation intake-discharge pipe component 4 includes water inlet pipe 4-1, recirculated water with control valve
Case 4-2, the drainpipe 4-3 with control valve, first circulation water pipe 4-4, water circulating pump 4-5, second circulation water pipe 4-6 and by
Dynamic bevel gear 4-7;The water inlet pipe 4-1 is connected to the top of cyclic water tank 4-2, and drainpipe 4-3 is connected to cyclic water tank 4-2's
Bottom end;The upper end of the left side of the cyclic water tank 4-2 passes through one end of first circulation water pipe 4-4 connection water circulating pump 4-5, follows
The other end of ring water pump 4-5 is fixedly connected with second circulation water pipe 4-6, and the 4-6 connection of second circulation water pipe is discharged connecting tube 3-2;Institute
State the lower end that the left side of cyclic water tank 4-2 is connected into the upper end of water connecting tube 3-1;The driving shaft of the water circulating pump 4-5
On be fixedly connected with dynamic bevel gear 4-7, dynamic bevel gear 4-7 engagement connection drive bevel gear 5-8.The circulation intake-discharge pipe group
When in use, dynamic bevel gear 4-7 is rotated part 4 under the drive of drive bevel gear 5-8, and dynamic bevel gear 4-7 drive follows
Ring water pump 4-5 works, to realize the shuttling movement of water flow, improves the heat transfer effect of cold water.
The support holder assembly 7 includes three L shape support rods and disc base, the upper end uniform ring of three L shape support rods
On the bottom surface for being connected to back taper dust-collecting cylinder 2-2, the lower end of three L shape support rods is all connected by screw in disc base
On.
It is close all to pass through all-purpose adhesive bonding connection rubber on the medial surface of the circular ring type activity heat exchange box 3-4 and on lateral surface
Seal, a rubber seal are fitted on the lateral surface of the fixed heat exchange box 3-3 of circular ring type, another rubber seal is fitted in
On the medial surface of cylindrical process cartridge 2-1.
The dust removal and filtration pipe 1-4 uses ceramic capillary screen pipe.
Air inlet tube assembly 1 is passed through pipeline first when in use by industrial waste gas processing waste heat recovery plant of the invention
It is connected to exhaust emission pipe, circulation intake-discharge pipe component 4 is connected to running water pipe, then by air inlet tube assembly 1 and drive control
Component 5 is connected to power supply and is opened by control switch;Water source enters to compression heat-exchanging component 3 by recycling intake-discharge pipe component 4
Inside, exhaust gas carries out the inside that processing cartridge module 2 is entered to after primary filtration by air inlet tube assembly 1, and the compression exchanges heat
Component 3 carries out lifting compression work under the drive of drive control component 5, and the exhaust gas positioned at processing 2 interior lower end of cartridge module exists
It compresses and generates new thermal energy under the compression of heat-exchanging component 3, new thermal energy is mixed with thermal energy original in exhaust gas to compression heat exchange group
Cold water inside part 3 exchanges heat, and compresses the cold water inside heat-exchanging component 3 when being exchanged heat, and circulation intake-discharge pipe component 4 exists
It works under the drive of drive control component 5, cold water carries out circulating fortune under the drive of circulation intake-discharge pipe component 4
It is dynamic, by circulating so that the effect to exchange heat is more preferable for water source, effectively improve heat exchange efficiency;It is right in compression heat-exchanging component 3
Positioned at processing 2 interior lower end of cartridge module exhaust gas compressed after, enter to processing cartridge module 2 inside upper end, then again
It is compressed, after exchanging heat again, is discharged by the exhaust pipe 6 with check valve, with unidirectional by the compression rising of heat-exchanging component 3
The exhaust pipe 6 of valve can also be connected to other heat-exchanger rigs, accomplish making full use of for thermal energy.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made within the essential scope of the present invention also belong to guarantor of the invention
Protect range.