CN114508765A - Combined high-efficiency air preheater and preheating method thereof - Google Patents

Abstract

The invention discloses a combined high-efficiency air preheater and a preheating method thereof, belonging to the technical field of air preheaters.

Description

Combined high-efficiency air preheater and preheating method thereof

Technical Field

The invention relates to an air preheater, in particular to a combined high-efficiency air preheater, and also relates to a preheating method of the air preheater, in particular to a preheating method of the combined high-efficiency air preheater, belonging to the technical field of air preheaters.

Background

The air preheater is a heat exchanger that preheats exhaust heat of a boiler or the like.

The device has the functions of reducing the exhaust gas temperature of equipment such as a boiler and the like, improving the heat efficiency, enabling the fuel to be easy to catch fire, stabilizing the combustion and improving the combustion efficiency.

The prior art has the following problems when using an air preheater:

1. the shell structure design of the air preheater is not reasonable and cannot achieve the function of automatic circulating preheating, and the shell structure is often a one-way cylinder structure;

2. the filtering structure of the air preheater in the prior art has no good cleaning structure capable of saving energy, so that energy is wasted;

3. in the prior art, when the air preheater is cleaned, the cleaning solution cannot efficiently clean the inner wall of the air preheater;

therefore, the combined high-efficiency air preheater and the preheating method thereof are designed to optimize the problems.

Disclosure of Invention

The invention mainly aims to provide a combined high-efficiency air preheater and a preheating method thereof, wherein gas or liquid needing preheating treatment is introduced into a spiral preheating inlet pipe and is sealed by a valve, high-temperature smoke discharged from a boiler is connected by a connecting disc, the high-temperature smoke enters a hollow oval heat exchange bin through an extension pipe and an air guide pipe, the high-temperature smoke flows in the hollow oval heat exchange bin after entering the hollow oval heat exchange bin and reaches a first trapezoidal plate, then the first valve and a second valve are opened and the valve leading to a filter bin is closed if the temperature detected by a first temperature sensor arranged on the first trapezoidal plate is higher than that detected by a second temperature sensor arranged at the tail part of the spiral preheating inlet pipe, the smoke circulates through the second valve for one turn, and the first valve is opened when the temperature detected by the first temperature sensor is not much different from that detected by the second temperature sensor Opening the first valve and closing the second valve and opening the valve to enable smoke to be filtered through a filter screen on the filter bin, synchronously driving the gas-driven fan blades to rotate when high-temperature smoke passes through the gas guide pipe, adjusting the first linkage rotating rod to drive the driving I-shaped wheel to rotate through the gas-driven fan blades, driving the conveying belt to move through the driving I-shaped wheel so as to drive the driven I-shaped wheel to rotate, adjusting the second linkage rotating rod to rotate through the driven I-shaped wheel, further adjusting the hinge rod to move, driving the cleaning head to move back and forth on one side of the filter screen to clean through the hinge rod, filling cleaning liquid through the gas guide pipe when the interior of the hollow oval heat exchange bin needs to be cleaned, then starting the vibration motor to drive the special-shaped wheel to adjust the hollow oval heat exchange bin to vibrate so as to improve the cleaning strength, and then discharging the cleaning liquid through the liquid outlet valve.

The purpose of the invention can be achieved by adopting the following technical scheme:

a combined high-efficiency air preheater comprises a hollow oval heat exchange bin, wherein support frames are arranged in the hollow oval heat exchange bin at equal intervals, an air leading-in spiral frame assembly penetrates through the support frames, the input end and the output end of the air leading-in spiral frame assembly penetrate through the hollow oval heat exchange bin, a high-temperature steam leading-in connecting pipe assembly is arranged on one side of the top of the hollow oval heat exchange bin, a wind power driving fan blade assembly is arranged on the inner side of the high-temperature steam leading-in connecting pipe assembly, a first ladder type plate assembly and a second ladder type plate assembly are arranged on the inner side of the hollow oval heat exchange bin, an air buffer bin structure is formed between the first ladder type plate assembly and the second ladder type plate assembly and is connected with a filter screen assembly in a passing mode, a linkage cleaning rod assembly is arranged at the top of the filter screen assembly, and a transmission type wheel disc assembly is arranged between the wind power driving fan blade assembly and the linkage cleaning rod assembly, the lateral part in cavity oval heat transfer storehouse is equipped with vibrations frame subassembly, installs the oval heat transfer storehouse of cavity on this vibrations frame subassembly, just the middle part in cavity oval heat transfer storehouse be equipped with the oval heat transfer storehouse of cavity is mutually supported's shock dynamo subassembly.

Preferably, the leading-in spiral frame subassembly of air includes that the spiral preheats induction pipe and U type frame, the spiral preheats the inside that the induction pipe is located the oval heat transfer storehouse of cavity and follows with helical structure the oval heat transfer storehouse axis of cavity distributes, just the both ends that the induction pipe was preheated to the spiral run through the oval heat transfer storehouse of cavity, the induction pipe is preheated to the spiral runs through the oval heat transfer storehouse of cavity position department outside cover is equipped with U type frame, and the tip intercommunication has the valve.

Preferably, the high-temperature steam leading-in connecting pipe assembly comprises a telescopic pipe, a connecting disc and an air guide pipe, the air guide pipe is communicated with one side of the top of the hollow oval heat exchange bin, the telescopic pipe is communicated with the top of the air guide pipe, the connecting disc is communicated with the top of the telescopic pipe, and a wind power driving fan blade assembly is arranged in the air guide pipe.

Preferably, the wind-driven fan blade assembly comprises a gas-driven fan blade, a first linkage rotating rod and a first rotating rod supporting frame, the first rotating rod supporting frame is installed on one side of the top of the hollow oval heat exchange bin, the first linkage rotating rod penetrates through the first rotating rod supporting frame, one end of the first linkage rotating rod is inserted into the air guide tube and is provided with the gas-driven fan blade, and the other end of the first linkage rotating rod is provided with a transmission I-shaped wheel disc assembly.

Preferably, the transmission i-shaped wheel disc assembly comprises an active i-shaped wheel, a conveying belt and a driven i-shaped wheel, the active i-shaped wheel is installed at one end, away from the gas driving fan blades, of the first linkage rotating rod, the conveying belt is sleeved on the outer side of the active i-shaped wheel, the driven i-shaped wheel is arranged at the inner bottom of the conveying belt, and the linkage cleaning rod assembly is installed in the middle of one side of the driven i-shaped wheel.

Preferably, the inside one end department in cavity oval heat transfer storehouse installs first trapezoidal board and second trapezoidal board respectively, the pyramis intercommunication of first trapezoidal board has first valve, the pyramis intercommunication of second trapezoidal board has the second valve, is located on the cavity oval heat transfer storehouse and is in the intercommunication has the filter screen subassembly between second trapezoidal board and the first trapezoidal board.

Preferably, the filter screen subassembly is including filtering storehouse and filter screen, filter the storehouse with the oval heat transfer storehouse of cavity intercommunication is located between second trapezoidal board and the first trapezoidal board, the inside equidistant filter screen that is equipped with in filtration storehouse, one side of filter screen is equipped with linkage clearance pole subassembly.

Preferably, linkage clearance pole subassembly includes second bull stick support frame, second linkage bull stick and U type frame, the second bull stick support frame is installed filter bin's top one side department, just run through on the second bull stick support frame and be equipped with the second linkage bull stick, just the second linkage bull stick protrusion has U type frame, and it has the hinge bar to articulate on this U type frame, the hinge bar runs through filter bin articulates there is the clearance head, the first one side of clearance with the filter screen contact.

Preferably, the vibration frame assembly comprises a base, a support base plate, an L-shaped side frame, a vibration spring and a limiting cylinder, wherein support legs are arranged on two sides of the top of the base, the support base plate is arranged on the tops of the support legs, the L-shaped side frame is arranged on one side of the top of the support base plate, the limiting cylinder is arranged on the inner top of the L-shaped side frame, the vibration spring is sleeved on the outer side of the limiting cylinder, a hollow oval heat exchange bin is arranged at the bottom of the limiting cylinder, and the vibration motor assembly matched with the hollow oval heat exchange bin is arranged on the top of the support base plate;

the vibrating motor component comprises a vibrating motor and a special-shaped wheel, the vibrating motor is installed at the top of the supporting base plate, the special-shaped wheel is installed at the output end of the vibrating motor, and the special-shaped wheel is in contact with the hollow oval heat exchange bin.

A preheating method of a combined high-efficiency air preheater comprises the following steps:

step 1: introducing gas or liquid to be preheated into the spiral preheating introduction pipe, and sealing the gas or liquid through a valve;

step 2: high-temperature smoke discharged from the boiler is connected through the connecting disc, so that the high-temperature smoke enters the hollow oval heat exchange bin through the telescopic pipe and the air guide pipe;

and step 3: after entering the hollow oval heat exchange bin, high-temperature smoke flows in the hollow oval heat exchange bin and reaches the first trapezoidal plate, then the first valve and the second valve are opened and the valve leading to the filter bin is closed if the temperature detected by the first temperature sensor arranged on the first trapezoidal plate is higher than that detected by the second temperature sensor arranged at the tail part of the spiral preheating lead-in pipe, and then the smoke circulates through the second valve and goes round again;

and 4, step 4: when the difference between the temperature detected by the first temperature sensor and the temperature detected by the second temperature sensor is not large, the first valve is opened to close the second valve, and the valve is opened to enable smoke to pass through a filter screen on the filter bin for filtering;

and 5: when high-temperature smoke passes through the air guide pipe, the gas is synchronously driven to drive the fan blades to rotate, the first linkage rotating rod is adjusted through the gas driven fan blades to drive the driving I-shaped wheel to rotate, and the driving I-shaped wheel drives the conveying belt to move so as to drive the driven I-shaped wheel to rotate;

step 6: the second linkage rotating rod is adjusted to rotate through the driven I-shaped wheel, so that the hinge rod is adjusted to move, and the cleaning head is driven by the hinge rod to move back and forth on one side of the filter screen for cleaning;

and 7: when the interior of the hollow oval heat exchange bin needs to be cleaned, cleaning liquid is poured in through the air guide pipe, then the vibration motor is started to drive the special-shaped wheel to adjust the hollow oval heat exchange bin to vibrate, so that the cleaning strength is improved, and then the cleaning liquid is discharged through the liquid outlet valve.

The invention has the beneficial technical effects that:

the invention provides a combined high-efficiency air preheater and a preheating method thereof.A gas or liquid to be preheated is introduced into a spiral preheating inlet pipe and is sealed by a valve, high-temperature smoke exhausted by a boiler is connected by a connecting disc, the high-temperature smoke enters a hollow elliptic heat exchange bin through an extension pipe and an air guide pipe, the high-temperature smoke flows in the hollow elliptic heat exchange bin after entering the hollow elliptic heat exchange bin and reaches a first trapezoidal plate, then the first valve and a second valve are opened and the valve leading to a filter bin is closed if the temperature detected by a first temperature sensor arranged on the first trapezoidal plate is higher than the temperature detected by a second temperature sensor arranged at the tail part of the spiral preheating inlet pipe, the smoke circulates through the second valve for a circle, and the first valve is opened and closed when the temperature detected by the first temperature sensor is not higher than the temperature detected by the second temperature sensor The second valve is opened to enable smoke to be filtered through a filter screen on the filter bin, the gas driving fan blades are synchronously driven to rotate when high-temperature smoke passes through the gas guide pipe, the first linkage rotating rod is adjusted through the gas driving fan blades to drive the driving I-shaped wheel to rotate, the driving I-shaped wheel drives the conveying belt to move, so that the driven I-shaped wheel is driven to rotate, the second linkage rotating rod is adjusted through the driven I-shaped wheel to rotate, the hinge rod is adjusted to move, the cleaning head is driven through the hinge rod to move back and forth on one side of the filter screen to clean, when the interior of the hollow oval heat exchange bin needs to be cleaned, cleaning liquid is filled through the gas guide pipe, then the vibrating motor is started to drive the special-shaped wheel to adjust the hollow oval heat exchange bin to vibrate, the cleaning strength is improved, and then the cleaning liquid is discharged through the liquid discharge valve.

Drawings

FIG. 1 is a side cross-sectional view of the apparatus of a preferred embodiment of a combined high efficiency air preheater and method of preheating the same according to the present invention;

FIG. 2 is a schematic view of the combined cleaning rod assembly, filter cartridge assembly and drum transfer assembly of a preferred embodiment of a combined high efficiency air preheater and method of preheating the same in accordance with the present invention;

FIG. 3 is a schematic view of the combined shock frame assembly, circulation heat exchange bin assembly, air coil assembly, shock assembly, air distributor valve assembly and fan blade conveyor assembly of a preferred embodiment of a combined high efficiency air preheater and method of preheating thereof according to the present invention;

FIG. 4 is an enlarged view of a preferred embodiment of a combined high efficiency air preheater and method of preheating thereof according to the present invention at structure a;

FIG. 5 is a schematic view of the vibration frame assembly and vibration assembly combination of a preferred embodiment of a combined high efficiency air preheater and method of preheating the same according to the present invention;

FIG. 6 is a schematic view of the combined structure of the circulation heat exchange bin assembly, the air coil assembly and the air distribution valve assembly of a preferred embodiment of the combined high-efficiency air preheater and the preheating method thereof according to the present invention.

In the figure: 1-hollow oval heat exchange bin, 2-L-shaped side frame, 3-vibration spring, 4-limiting cylinder, 5-telescopic pipe, 6-connecting disc, 7-first linkage rotating rod, 8-first rotating rod supporting frame, 9-air guide pipe, 10-air driving fan blade, 11-driving I-shaped wheel, 12-conveying belt, 13-driven I-shaped wheel, 14-filtering bin, 15-filtering screen, 16-second rotating rod supporting frame, 17-second linkage rotating rod, 18-hinging rod, 19-spiral preheating leading-in pipe, 20-supporting frame, 21-U-shaped frame, 22-liquid outlet valve, 23-first trapezoidal plate, 24-first valve, 25-second trapezoidal plate, 26-second valve, 27-base and 28-cleaning head, 29-supporting bottom plate, 30-vibration motor, 31-special-shaped wheel and 32-supporting leg.

Detailed Description

In order to make the technical solutions of the present invention more clear and definite for those skilled in the art, the present invention is further described in detail below with reference to the examples and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-6, the combined high efficiency air preheater provided in this embodiment includes a hollow oval heat exchange chamber 1, support frames 20 are installed inside the hollow oval heat exchange chamber 1 at equal intervals, an air introduction spiral frame assembly is installed on the support frames 20 in a penetrating manner, the input and output ends of the air introduction spiral frame assembly both penetrate through the hollow oval heat exchange chamber 1, a high temperature steam introduction connection pipe assembly is installed at one side of the top of the hollow oval heat exchange chamber 1, a wind power driving fan assembly is installed at the inner side of the high temperature steam introduction connection pipe assembly, a first ladder type plate assembly and a second ladder type plate assembly are installed at the inner side of the hollow oval heat exchange chamber 1, an air buffer chamber structure is formed between the first ladder type plate assembly and the second ladder type plate assembly and is connected to pass through a filter screen assembly, and a linkage cleaning rod assembly is installed at the top of the filter screen assembly, a transmission I-shaped wheel disc assembly is arranged between the wind power driving fan blade assembly and the linkage cleaning rod assembly, a vibration frame assembly is arranged on the side portion of the hollow oval heat exchange bin 1, the hollow oval heat exchange bin 1 is mounted on the vibration frame assembly, and a vibration motor assembly matched with the hollow oval heat exchange bin 1 is arranged in the middle of the hollow oval heat exchange bin 1.

Gas or liquid needing preheating treatment is led into the spiral preheating lead-in pipe 19 and sealed through a valve, high-temperature smoke discharged from a boiler is connected through a connecting disc 6, the high-temperature smoke enters the hollow oval heat exchange bin 1 through the extension pipe 5 and the air guide pipe 9, the high-temperature smoke flows in the hollow oval heat exchange bin 1 after entering the hollow oval heat exchange bin 1 and reaches the first trapezoidal plate 23, then the first valve 24 and the second valve 26 are opened and the valve leading to the filter bin 14 is closed if the temperature detected by a first temperature sensor arranged on the first trapezoidal plate 23 is higher than the temperature detected by a second temperature sensor arranged at the tail part of the spiral preheating lead-in pipe 19, the smoke circulates through the second valve 26 for a circle, and when the temperature detected by the first temperature sensor is not higher than the temperature detected by the second temperature sensor, the first valve 24 is opened, the second valve 26 is closed and the valve is opened so that the temperature detected by the second temperature sensor is not higher than the temperature detected by the first temperature sensor The smoke is filtered through a filter screen 15 on a filter bin 14, when high-temperature smoke passes through an air guide pipe 9, the air driving fan blades 10 are synchronously driven to rotate, the first linkage rotating rod 7 is adjusted through the air driving fan blades 10 to drive the driving I-shaped wheel 11 to rotate, the driving I-shaped wheel 11 drives the conveying belt 12 to move, so that the driven I-shaped wheel 13 is driven to rotate, the second linkage rotating rod 17 is adjusted through the driven I-shaped wheel 13 to rotate, the hinge rod 18 is adjusted to move, the cleaning head 28 is driven to move back and forth on one side of the filter screen 15 through the hinge rod 18 to clean, when the interior of the hollow oval heat exchange bin 1 needs to be cleaned, cleaning liquid is filled through the air guide pipe 9, then the vibration motor 30 is started to drive the special-shaped wheel 31 to adjust the vibration of the hollow oval heat exchange bin 1 to improve the cleaning strength, and then the smoke is discharged through the liquid outlet valve 22.

In this embodiment, the leading-in spiral frame subassembly of air includes that the spiral preheats inlet tube 19 and U type frame 21, and the spiral preheats the inlet tube 19 and is located the inside of cavity oval heat transfer storehouse 1 and distributes along cavity oval heat transfer storehouse 1 axis with helical structure, and the both ends that the spiral preheats inlet tube 19 run through cavity oval heat transfer storehouse 1, and the spiral preheats inlet tube 19 and runs through cavity oval heat transfer storehouse 1 position department outside cover and be equipped with U type frame 21, and the tip intercommunication has the valve.

In this embodiment, the high-temperature steam leading-in connecting pipe assembly comprises a telescopic pipe 5, a connecting disc 6 and an air duct 9, the air duct 9 is communicated with one side of the top of the hollow oval heat exchange bin 1, the telescopic pipe 5 is communicated with the top of the air duct 9, the connecting disc 6 is communicated with the top of the telescopic pipe 5, and a wind power driving fan blade assembly is arranged in the air duct 9.

In this embodiment, the wind-driven fan blade assembly includes a gas-driven fan blade 10, a first linkage rotating rod 7 and a first rotating rod support frame 8, the first rotating rod support frame 8 is installed on one side of the top of the hollow oval heat exchange bin 1, the first linkage rotating rod 7 is arranged on the first rotating rod support frame 8 in a penetrating mode, one end of the first linkage rotating rod 7 is inserted into the air duct 9 and is provided with the gas-driven fan blade 10, and the other end of the first linkage rotating rod 7 is provided with a transmission I-shaped wheel disc assembly.

In this embodiment, the driving drum assembly includes a driving drum 11, a transmission belt 12 and a driven drum 13, the driving drum 11 is installed at one end of the first linking rotating rod 7 away from the gas driving fan blade 10, the transmission belt 12 is sleeved outside the driving drum 11, the driven drum 13 is installed at the inner bottom of the transmission belt 12, and the linking cleaning rod assembly is installed at the middle of one side of the driven drum 13.

In this embodiment, a first step plate 23 and a second step plate 25 are respectively installed at one end of the inside of the hollow oval heat exchange bin 1, a first valve 24 is communicated with a cone portion of the first step plate 23, a second valve 26 is communicated with a cone portion of the second step plate 25, and a filter screen assembly is communicated between the second step plate 25 and the first step plate 23 and positioned on the hollow oval heat exchange bin 1.

In this embodiment, the filter screen subassembly includes filter bin 14 and filter screen 15, filter bin 14 and the intercommunication of hollow oval heat transfer bin 1 and lie in between second trapezoidal board 25 and the first trapezoidal board 23, and the inside equidistant filter screen 15 that is equipped with of filter bin 14, one side of filter screen 15 are equipped with linkage clearance pole subassembly.

In this embodiment, linkage clearance pole subassembly includes second bull stick support frame 16, second linkage bull stick 17 and U type frame, and second bull stick support frame 16 installs in the top one side department of filter bin 14, and runs through on the second bull stick support frame 16 and be equipped with second linkage bull stick 17, and the protrusion of second linkage bull stick 17 has U type frame, and it has articulated hinge bar 18 to go up articulated on this U type frame, and articulated hinge bar 18 has clearance head 28 through filter bin 14, and one side and the filter screen 15 contact of clearance head 28.

In the embodiment, the vibration frame assembly comprises a base 27, a support base plate 29, an L-shaped side frame 2, a vibration spring 3 and a limiting cylinder 4, wherein support legs 32 are arranged at two sides of the top of the base 27, the support base plate 29 is arranged at the top of each support leg 32, the L-shaped side frame 2 is arranged at one side of the top of each support base plate 29, the limiting cylinder 4 is arranged at the inner top of each L-shaped side frame 2, the vibration spring 3 is sleeved outside the limiting cylinder 4, a hollow oval heat exchange bin 1 is arranged at the bottom of each limiting cylinder 4, and a vibration motor assembly matched with the hollow oval heat exchange bin 1 is arranged at the top of each support base plate 29;

the vibration motor assembly comprises a vibration motor 30 and a special-shaped wheel 31, the vibration motor 30 is installed at the top of the supporting bottom plate 29, the special-shaped wheel 31 is installed at the output end of the vibration motor 30, and the special-shaped wheel 31 is in contact with the hollow oval heat exchange bin 1.

A preheating method of a combined high-efficiency air preheater comprises the following steps:

step 1: introducing gas or liquid to be preheated into the spiral preheating introducing pipe 19, and sealing the gas or liquid through a valve;

step 2: high-temperature smoke discharged from the boiler is connected through the connecting disc 6, and the high-temperature smoke enters the hollow oval heat exchange bin 1 through the telescopic pipe 5 and the air duct 9;

and step 3: after entering the hollow oval heat exchange bin 1, the high-temperature smoke flows in the hollow oval heat exchange bin 1 and reaches the first trapezoidal plate 23, then the first valve 24 and the second valve 26 are opened and the valve leading to the filter bin 14 is closed if the temperature detected by the first temperature sensor arranged on the first trapezoidal plate 23 is higher than that detected by the second temperature sensor arranged at the tail part of the spiral preheating inlet pipe 19, and then the smoke circulates through the second valve 26 and turns again;

and 4, step 4: when the difference between the temperature detected by the first temperature sensor and the temperature detected by the second temperature sensor is not large, the first valve 24 is opened, the second valve 26 is closed, and the valve is opened, so that the smoke passes through the filter screen 15 on the filter bin 14 for filtering;

and 5: synchronously driving gas to drive the fan blades 10 to rotate when high-temperature smoke passes through the gas guide pipe 9, adjusting the first linkage rotating rod 7 through the gas driving fan blades 10 to drive the driving die wheel 11 to rotate, and driving the conveying belt 12 to move through the driving die wheel 11 so as to drive the driven die wheel 13 to rotate;

step 6: the rotation of the second linkage rotating rod 17 is adjusted through the driven I-shaped wheel 13, the movement of the hinge rod 18 is further adjusted, and the cleaning head 28 is driven by the hinge rod 18 to move back and forth on one side of the filter screen 15 for cleaning;

and 7: when the interior of the hollow oval heat exchange bin 1 needs to be cleaned, cleaning liquid is filled in through the air guide pipe 9, then the vibration motor 30 is started to drive the special-shaped wheel 31 to adjust the vibration of the hollow oval heat exchange bin 1 so as to improve the cleaning strength, and then the cleaning liquid is discharged through the liquid outlet valve 22.

The above are only further embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and its concept within the scope of the present invention.

Claims (10)

1. The utility model provides a modular high efficiency air heater which characterized in that: the air-conditioning heat exchanger comprises a hollow oval heat exchange bin (1), wherein support frames (20) are arranged in the hollow oval heat exchange bin (1) at equal intervals, an air leading-in spiral rack assembly penetrates through the support frames (20), the input end and the output end of the air leading-in spiral rack assembly penetrate through the hollow oval heat exchange bin (1), a high-temperature steam leading-in connecting pipe assembly is arranged on one side of the top of the hollow oval heat exchange bin (1), a wind power driving fan blade assembly is arranged on the inner side of the high-temperature steam leading-in connecting pipe assembly, a first ladder-shaped plate assembly and a second ladder-shaped plate assembly are arranged on the inner side of the hollow oval heat exchange bin (1), a gas buffer bin structure is formed between the first ladder-shaped plate assembly and the second ladder-shaped plate assembly and is connected with a filter screen assembly in a parallel mode, a wind power linkage cleaning rod assembly is arranged on the top of the filter screen assembly, and a transmission type wheel disc assembly is arranged between the driving fan blade assembly and the linkage cleaning rod assembly, the lateral part of cavity oval heat transfer storehouse (1) is equipped with vibrations frame subassembly, installs cavity oval heat transfer storehouse (1) on this vibrations frame subassembly, just the middle part of cavity oval heat transfer storehouse (1) be equipped with the vibrations motor element of cavity oval heat transfer storehouse (1) mutually supporting.

2. A combined high efficiency air preheater according to claim 1, wherein: leading-in spiral frame subassembly of air includes that the spiral preheats induction pipe (19) and U type frame (21), the spiral preheats the inside that induction pipe (19) are located cavity oval heat transfer storehouse (1) and follows with helical structure cavity oval heat transfer storehouse (1) axis distributes, just the both ends that the spiral preheats induction pipe (19) are run through cavity oval heat transfer storehouse (1), the spiral preheats induction pipe (19) and runs through cavity oval heat transfer storehouse (1) position department outside cover is equipped with U type frame (21), and the tip intercommunication has the valve.

3. A combined high efficiency air preheater according to claim 2, wherein: the high-temperature steam leading-in connecting pipe assembly comprises a telescopic pipe (5), a connecting disc (6) and an air duct (9), wherein the air duct (9) is communicated with one side of the top of the hollow oval heat exchange bin (1), the telescopic pipe (5) is communicated with the top of the air duct (9), the connecting disc (6) is communicated with the top of the telescopic pipe (5), and a wind power driving fan blade assembly is arranged in the air duct (9).

4. A combined high efficiency air preheater according to claim 3, wherein: wind-force drive flabellum subassembly includes gaseous drive flabellum (10), first linkage bull stick (7) and first bull stick support frame (8), first bull stick support frame (8) are installed to one side at cavity oval heat transfer storehouse (1) top, run through on first bull stick support frame (8) and be equipped with first linkage bull stick (7), the one end of first linkage bull stick (7) insert to the inside of air duct (9) is installed gaseous drive flabellum (10), the other end of first linkage bull stick (7) is equipped with transmission i-shaped wheel dish subassembly.

5. A combined high efficiency air preheater according to claim 4, wherein: the transmission I-shaped wheel disc assembly comprises an active I-shaped wheel (11), a conveying belt (12) and a driven I-shaped wheel (13), the active I-shaped wheel (11) is installed at one end, away from the gas driving fan blades (10), of the first linkage rotating rod (7), the conveying belt (12) is sleeved on the outer side of the active I-shaped wheel (11), the driven I-shaped wheel (13) is arranged at the inner bottom of the conveying belt (12), and the linkage cleaning rod assembly is installed in the middle of one side of the driven I-shaped wheel (13).

6. A combined high efficiency air preheater according to claim 5, wherein: first trapezoidal plate (23) and second trapezoidal plate (25) are installed respectively to the inside one end department in cavity oval heat transfer storehouse (1), the pyramis intercommunication of first trapezoidal plate (23) has first valve (24), the pyramis intercommunication of second trapezoidal plate (25) has second valve (26), is located on cavity oval heat transfer storehouse (1) and is in the intercommunication has the filter screen subassembly between second trapezoidal plate (25) and first trapezoidal plate (23).

7. A combined high efficiency air preheater according to claim 6, wherein: the filter screen subassembly is including filtering storehouse (14) and filter screen (15), filter storehouse (14) with the oval heat transfer storehouse of cavity (1) intercommunication is located between second trapezoidal board (25) and first trapezoidal board (23), the inside equidistant filter screen (15) that are equipped with of filter storehouse (14), one side of filter screen (15) is equipped with linkage clearance pole subassembly.

8. A combined high efficiency air preheater according to claim 7, wherein: linkage clearance pole subassembly includes second bull stick support frame (16), second couple bull stick (17) and U type frame, second bull stick support frame (16) are installed filter bin (14) top one side department, just run through on second bull stick support frame (16) and be equipped with second couple bull stick (17), just second couple bull stick (17) protrusion has U type frame, and it has articulated hinge bar (18) to go up in this U type frame, hinge bar (18) run through filter bin (14) are articulated to have clearance head (28), one side of clearance head (28) with filter screen (15) contact.

9. A combined high efficiency air preheater according to claim 8, wherein: the shock frame assembly comprises a base (27), a supporting base plate (29), L-shaped side frames (2), shock springs (3) and a limiting barrel (4), supporting legs (32) are installed at two sides of the top of the base (27), the supporting base plate (29) is installed at the top of the supporting legs (32), the L-shaped side frames (2) are installed at one side of the top of the supporting base plate (29), the limiting barrel (4) is installed at the inner top of the L-shaped side frames (2), the shock springs (3) are sleeved on the outer side of the limiting barrel (4), a hollow oval heat exchange bin (1) is installed at the bottom of the limiting barrel (4), and shock motor assemblies matched with the hollow oval heat exchange bin (1) are installed at the top of the supporting base plate (29);

the vibrating motor assembly comprises a vibrating motor (30) and a special-shaped wheel (31), the vibrating motor (30) is installed at the top of the supporting base plate (29), the special-shaped wheel (31) is installed at the output end of the vibrating motor (30), and the special-shaped wheel (31) is in contact with the hollow oval heat exchange bin (1).

10. A method of preheating a combined high efficiency air preheater as set forth in claim 9, wherein: the method comprises the following steps:

step 1: introducing gas or liquid to be preheated into the spiral preheating introduction pipe (19), and sealing the gas or liquid through a valve;

step 2: high-temperature smoke discharged from the boiler is connected through a connecting disc (6) and enters the hollow oval heat exchange bin (1) through the telescopic pipe (5) and the air duct (9);

and step 3: high-temperature smoke flows in the hollow oval heat exchange bin (1) after entering the hollow oval heat exchange bin (1) and reaches the position of a first trapezoidal plate (23), then a first valve (24) and a second valve (26) are opened and the valve leading to the filter bin (14) is closed if the temperature detected by a first temperature sensor arranged on the first trapezoidal plate (23) is higher than that detected by a second temperature sensor arranged at the tail part of the spiral preheating lead-in pipe (19), and then the smoke circulates through the second valve (26) and then turns;

and 4, step 4: when the difference between the temperature detected by the first temperature sensor and the temperature detected by the second temperature sensor is not large, the first valve (24) is opened to close the second valve (26) and the valve is opened to enable the smoke to pass through a filter screen (15) on the filter bin (14) for filtering;

and 5: when high-temperature smoke passes through the air guide pipe (9), the gas is synchronously driven to drive the fan blades (10) to rotate, the first linkage rotating rod (7) is adjusted through the gas drive fan blades (10) to drive the driving die wheel (11) to rotate, and the driving die wheel (11) drives the conveying belt (12) to move so as to drive the driven die wheel (13) to rotate;

step 6: the second linkage rotating rod (17) is adjusted to rotate through the driven die wheel (13), the hinge rod (18) is adjusted to move, and the cleaning head (28) is driven to move back and forth on one side of the filter screen (15) through the hinge rod (18) to clean;

and 7: when the interior of the hollow oval heat exchange bin (1) needs to be cleaned, cleaning liquid is poured into the hollow oval heat exchange bin (1) through the air guide pipe (9), then the vibration motor (30) is started to drive the special-shaped wheel (31) to adjust the hollow oval heat exchange bin (1) to vibrate, so that the cleaning strength is improved, and then the cleaning liquid is discharged through the liquid outlet valve (22).

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