CN112393268A - Comprehensive recycling device for waste heat of power plant - Google Patents

Abstract

The invention discloses a comprehensive waste heat recycling device for a power plant, which comprises a water inlet pipeline, a first motor, a second motor, a rotating shaft, a second water storage bin and a second water valve, wherein the water inlet pipeline is provided with the first water valve, the lower part of the water inlet pipeline is connected with a heat exchange main body, the right side of the water inlet pipeline is fixedly provided with an exhaust pipeline, the lower part of the exhaust pipeline is provided with a first bin door, the tooth surface of a gear is meshed with sector teeth, a second filter screen is arranged inside a water tank, the rear end of a suction pump is fixedly provided with a first water drainage pipeline, the lower part of the second water storage bin is provided with a second water drainage pipeline, and the second water drainage pipeline is provided with. This waste heat comprehensive recovery utilizes device of power plant is provided with second filter screen, first filter core and second filter core, and the impurity of accessible second filter screen in with the condensate water filters to harmful substance of rethread first filter core and second filter core in with aquatic carries out chemical decomposition and absorption, and this kind of mode can more effectually prevent the discharge of sewage.

Description

Comprehensive recycling device for waste heat of power plant

Technical Field

The invention relates to the technical field of waste heat recovery and utilization, in particular to a comprehensive waste heat recovery and utilization device for a power plant.

Background

In the working process of a power plant, a large amount of exhaust waste heat generated by a boiler of the power plant is basically not recycled, but is wasted through a circulating cooling water system, in fact, the heat is a good low-temperature heat source, the temperature and the flow are stable, the water quality is relatively clean, and if the heat source is reasonable, the primary energy consumption is greatly reduced, the heat supply capacity of the power plant is improved, the heat supply investment is reduced, and the environmental pollution is reduced.

At present, equipment for recycling waste heat is generally a surface heat exchanger, but because the existing technology for removing harmful substances and impurities in condensed water condensed on heat exchange fins is imperfect, a condensed water drainage system can cause the problems of blockage and corrosion, and serious consequences can be generated for a long time. Therefore, a comprehensive recycling device for waste heat of a power plant is provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide a comprehensive recycling device for waste heat of a power plant, which aims to solve the problems that a condensed water drainage system can cause blockage and corrosion and serious consequences can be caused for a long time due to the imperfect technology for removing harmful substances and impurities in condensed water condensed on heat exchange fins in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a comprehensive recycling device for waste heat of a power plant comprises a water inlet pipeline, a first motor, a second motor, a rotating shaft, a second water storage bin and a second water valve, wherein the water inlet pipeline is provided with the first water valve, the lower part of the water inlet pipeline is connected with a heat exchange main body, the interior of the heat exchange main body is provided with the first water storage bin, the right side of the first water storage bin is fixedly provided with a baffle, the right side of the baffle is provided with a heat exchange bin, the baffle is penetrated with a heat exchange pipeline, fins are uniformly distributed on the heat exchange pipeline, an air inlet pipeline is connected above the heat exchange bin, the right side of the air inlet pipeline is fixedly provided with an exhaust pipeline, the lower part of the exhaust pipeline is provided with a first bin door, the first bin door is provided with a twister, a dehumidifying agent is installed in the first bin door, the right side of the dehumidifying agent is fixedly provided with a first filter screen, the right side of the first filter screen, a second bin door is arranged on the top surface inside the purifier, a hinge is arranged on the second bin door, sector-shaped teeth are fixed on the second bin door, a transmission belt is connected onto the first motor, a gear is arranged at the other end of the transmission belt, the tooth surface of the gear is meshed with the sector-shaped teeth, an auger is arranged inside the purifier, a first bevel gear is fixed at the front end of the second motor, a second bevel gear is arranged on the rotating shaft, a first bevel gear is meshed with the tooth surface of the second bevel gear, a water tank is arranged inside the purifier, a second filter screen is arranged inside the water tank, limit blocks are distributed at four corners of the second filter screen, a first filter core is arranged on the right side of the second filter screen, a second filter core is arranged on the right side of the first filter core, a suction pump is connected to the right end of the water tank, a first drainage pipeline is fixed at the rear end of the, and a second water valve is arranged on the second water drainage pipeline.

Preferably, the heat exchange pipelines are connected on the baffle in a penetrating manner, the baffle is arranged in two groups in bilateral symmetry by taking the middle point of the top surface of the heat exchange main body as a reference, and the first water storage bin is communicated with the second water storage bin through the heat exchange pipelines.

Preferably, the first bin gate forms a twisting mechanism below the exhaust pipeline through a twister, and the dehumidifying agent is detachably connected with the exhaust pipeline.

Preferably, the second bin door forms a turnover structure on the top surface of the water tank through a hinge, the second bin door is fixedly connected with the fan-shaped teeth, and the fan-shaped teeth form a rotating mechanism through the first motor, the transmission belt and the gear.

Preferably, the auger forms a rotating mechanism in the water tank through the second motor, the first bevel gear, the rotating shaft and the second bevel gear, and the central axis of the auger and the central axis of the rotating shaft are on the same vertical line.

Preferably, all be provided with the stopper on second filter screen, first filter core and the second filter core, and the connected mode between second filter screen, first filter core and second filter core and the stopper is the block and is connected.

Compared with the prior art, the invention has the beneficial effects that: this waste heat of power plant recycles device comprehensively:

(1) the packing auger is arranged, the first bevel gear can be rotated by the second motor to drive the second bevel gear on the rotating shaft, and water in the heat exchange bin is stirred and sucked, so that the situation that the bottom surface of the heat exchange bin is blocked to cause that a water channel is not circulated and the purification treatment cannot be carried out can be prevented;

(2) be provided with second filter screen, first filter core and second filter core, the impurity of accessible second filter screen in with the condensate water filters to harmful substance of rethread first filter core and second filter core in with aquatic carries out chemical decomposition and absorption, and this kind of mode can more effectually prevent the discharge of sewage, causes environmental pollution.

Drawings

FIG. 1 is a schematic view of the main structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the main body of the present invention;

FIG. 3 is a schematic view of the exhaust duct structure of the present invention;

FIG. 4 is a schematic view of a heat exchange tube configuration of the present invention;

FIG. 5 is a schematic view of an automatic start structure of a second door according to the present invention;

FIG. 6 is a schematic view of the auger transmission structure of the present invention;

FIG. 7 is a schematic view showing a partial structure of the interior of the purifier according to the present invention.

In the figure: 1. a water inlet pipe; 2. a first water valve; 3. a heat exchange body; 4. a first water storage bin; 5. a baffle plate; 6. a heat exchange bin; 7. a heat exchange conduit; 8. a fin; 9. an air intake duct; 10. an exhaust duct; 11. a first bin gate; 12. a twister; 13. a desiccant; 14. a first filter screen; 15. an exhaust fan; 16. a purifier; 1601. a second bin gate; 1602. a hinge; 1603. sector-shaped teeth; 1604. a first motor; 1605. a drive belt; 1606. a gear; 1607. a packing auger; 1608. a second motor; 1609. a first bevel gear; 1610. a rotating shaft; 1611. a second bevel gear; 1612. a water tank; 1613. a second filter screen; 1614. a limiting block; 1615. a first filter element; 1616. a second filter element; 1617. a suction pump; 17. a first drain conduit; 18. a second water storage bin; 19. a second water discharge pipeline; 20. a second water valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides a technical solution: a comprehensive recycling device for waste heat of a power plant comprises a water inlet pipeline 1, a first water valve 2, a heat exchange main body 3, a first water storage bin 4, a baffle 5, a heat exchange bin 6, a heat exchange pipeline 7, fins 8, an air inlet pipeline 9, an exhaust pipeline 10, a first bin door 11, a twister 12, a dehumidifying agent 13, a first filter screen 14, an exhaust fan 15, a purifier 16, a second bin door 1601, hinges 1602, sector teeth 1603, a first motor 1604, a transmission belt 1605, a gear 1606, an auger 1607, a second motor 1608, a first bevel gear 1609, a rotating shaft 1610, a second bevel gear 1611, a water tank 1612, a second filter screen 1613, a limiting block 1614, a first filter element 1615, a second filter element 1616, a suction pump 1617, a first water drainage pipeline 17, a second water storage bin 18, a second drainage pipeline 19 and a second water valve 20, wherein the first water valve 2 is installed on the water inlet pipeline 1, and the heat exchange main body 3 is connected below the water inlet pipeline 1, a first water storage bin 4 is arranged inside the heat exchange main body 3, a baffle 5 is fixed on the right side of the first water storage bin 4, a heat exchange bin 6 is arranged on the right side of the baffle 5, a heat exchange pipeline 7 penetrates through the baffle 5, fins 8 are uniformly distributed on the heat exchange pipeline 7, an air inlet pipeline 9 is connected above the heat exchange bin 6, an exhaust pipeline 10 is fixed on the right side of the air inlet pipeline 9, a first bin door 11 is arranged below the exhaust pipeline 10, a twister 12 is arranged on the first bin door 11, a dehumidifying agent 13 is arranged in the first bin door 11, a first filter screen 14 is fixed on the right side of the dehumidifying agent 13, an exhaust fan 15 is arranged on the right side of the first filter screen 14, a purifier 16 is fixed below the heat exchange bin 6, a second bin door 1601 is arranged on the top surface inside the purifier 16, a hinge 1602 is arranged on the second bin door 1601, a fan-shaped tooth 1603 is fixed on the second bin door 1601, a transmission belt 1605 is connected on the first motor, and the other end of the driving belt 1605 is provided with a gear 1606, the tooth surface of the gear 1606 is engaged with sector-shaped teeth 1603, an auger 1607 is arranged inside the purifier 16, the front end of a second motor 1608 is fixed with a first bevel gear 1609, a second bevel gear 1611 is arranged on the rotating shaft 1610, the tooth surface of the second bevel gear 1611 is engaged with the first bevel gear 1609, a water tank 1612 is arranged inside the purifier 16, a second filter screen 1613 is arranged inside the water tank 1612, limit blocks 1614 are distributed at four corners of the second filter screen 1613, a first filter element 1615 is arranged on the right side of the second filter screen 1613, a second filter element 1616 is arranged on the right side of the first filter element 1615, the right end of the water tank 1612 is connected with a suction pump 1617, the rear end of the suction pump 1617 is fixed with a first drainage pipeline 17, a second drainage pipeline 19 is arranged below the.

The heat exchange pipelines 7 are connected on the baffle 5 in a penetrating way, the baffle 5 is arranged in a bilateral symmetry mode by taking the middle point of the top surface of the heat exchange main body 3 as a reference, and the first water storage bin 4 is communicated with the second water storage bin 18 through the heat exchange pipelines 7, so that the heat and cold alternation of water in the pipelines is realized.

The first bin door 11 forms a twisting mechanism below the exhaust pipeline 10 through the twister 12, and the dehumidifying agent 13 is detachably connected with the exhaust pipeline 10, so that the dehumidifying agent 13 can be replaced.

The second door 1601 forms a turning structure on the top surface of the water tank 1612 by a hinge 1602, the second door 1601 is fixedly connected with the sector teeth 1603, and the sector teeth 1603 form a rotating mechanism through the first motor 1604, the transmission belt 1605 and the gear 1606, so that the condensed water is guided into the purifier 16 by the automatic switch of the device.

The auger 1607 forms a rotating mechanism in the water tank 1612 through the second motor 1608, the first bevel gear 1609, the rotating shaft 1610 and the second bevel gear 1611, and the central axis of the auger 1607 and the central axis of the rotating shaft 1610 are on the same vertical line, so that blockage is prevented, and the device is more stable.

All be provided with stopper 1614 on second filter screen 1613, first filter core 1615 and the second filter core 1616, and the connected mode between second filter screen 1613, first filter core 1615 and the second filter core 1616 and the stopper 1614 is the block connection to realize the purification of condensate water, prevent that the emission of pollution from influencing the environment.

The working principle is as follows: when using this waste heat comprehensive recovery of power plant utilizes device, at first, start first water valve 2 and make cold water pass through inlet channel 1 and get into first water storage storehouse 4, later keep apart water and heat transfer storehouse 6 through baffle 5, and cold water passes through heat transfer pipeline 7 and gets into second water storage storehouse 18, fin 8 that heat transfer pipeline 7 passes through during absorbs the heat of inlet channel 9 exhaust steam, then exhaust duct 10 is discharged with gas through exhaust duct 10, at the internally mounted of exhaust duct 10 desiccant 13, prevent that the too big ageing of leading to the pipeline of gas moisture in the exhaust duct 10 from influencing its life-span, the hot water through the heat transfer then discharges to user's one end through second drainage pipe 19, this is exactly whole heat transfer process.

Then, during the heat exchange process, condensed water is generated in the heat exchange chamber 6, at this time, the first motor 1604 rotates the gear 1606 on the transmission belt 1605 to rotate the sector-shaped teeth 1603, so that the second chamber door 1601 is turned over and is snapped, the condensed water enters the water tank 1612, the auger 1607 is further installed below the second chamber door 1601 and is meshed with the second bevel gear 1611 on the rotating shaft 1610 through the first bevel gear 1609 on the second motor 1608 to rotate the auger 1607, so that the water tank 1612 can be prevented from being blocked by impurities in the condensed water, finally, the condensed water entering the water tank 1612 is filtered and purified through the second filter screen 1613, the first filter element 1615 and the second filter element 1616, the environment and the pipeline equipment are prevented from being polluted by harmful substances in the condensed water, and finally the condensed water is discharged into the first water discharge pipeline 17 through the suction pump 1617, which is the whole working process. And those not described in detail in this specification are well within the skill of those in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a waste heat comprehensive recycling device of power plant, includes inlet channel (1) first motor (1604), second motor (1608), pivot (1610), second reservoir storehouse (18) and second water valve (20), its characterized in that: the water inlet pipe (1) is provided with a first water valve (2), the lower part of the water inlet pipe (1) is connected with a heat exchange main body (3), the inside of the heat exchange main body (3) is provided with a first water storage bin (4), the right side of the first water storage bin (4) is fixed with a baffle (5), the right side of the baffle (5) is provided with a heat exchange bin (6), the baffle (5) is penetrated with a heat exchange pipeline (7), fins (8) are uniformly distributed on the heat exchange pipeline (7), the upper part of the heat exchange bin (6) is connected with an air inlet pipeline (9), the right side of the air inlet pipeline (9) is fixed with an exhaust pipeline (10), the lower part of the exhaust pipeline (10) is provided with a first bin door (11), the first bin door (11) is provided with a twister (12), the first bin door (11) is internally provided with a dehumidifying agent (13), the right side of the dehumidifying agent (13) is fixed with a first filter screen, and first filter screen (14) right side is provided with air discharge fan (15), it is fixed with clarifier (16) to change heat storehouse (6) below, and clarifier (16) inside top surface installs second door (1601), be provided with hinge (1602) on second door (1601), and be fixed with fan-shaped tooth (1603) on second door (1601), be connected with driving belt (1605) on first motor (1604), and driving belt (1605) other end installs gear (1606), gear (1606) flank of tooth meshing has fan-shaped tooth (1603), clarifier (16) internally mounted has auger (1607), and second motor (1608) front end is fixed with first bevel gear (1609), install second bevel gear (1611) on pivot (1610), and second bevel gear (1611) meshing has first bevel gear (1609), basin (1612) have been seted up to clarifier (16) inside, and basin (1612) internally mounted has second filter screen (1613), second filter screen (1613) four corners distribution has stopper (1614), and second filter screen (1613) right side installs first filter core (1615), first filter core (1615) right side is provided with second filter core (1616), and basin (1612) right-hand member is connected with suction pump (1617), suction pump (1617) rear end is fixed with first drainage pipe (17), second drainage pipe (19) have been seted up to second reservoir (18) below, and are provided with second water valve (20) on second drainage pipe (19).

2. The comprehensive recycling device for the waste heat of the power plant as claimed in claim 1, characterized in that: the heat exchange pipelines (7) are connected on the baffle (5) in a penetrating mode, the baffle (5) is arranged in a bilateral symmetry mode by taking the middle point of the top surface of the heat exchange main body (3) as a reference, and the first water storage bin (4) is communicated with the second water storage bin (18) through the heat exchange pipelines (7).

3. The comprehensive recycling device for the waste heat of the power plant as claimed in claim 1, characterized in that: the first bin door (11) forms a twisting mechanism below the exhaust pipeline (10) through a twister (12), and the dehumidifying agent (13) is detachably connected with the exhaust pipeline (10).

4. The comprehensive recycling device for the waste heat of the power plant as claimed in claim 1, characterized in that: the second cabin door (1601) forms a turnover structure on the top surface of the water tank (1612) through a hinge (1602), the second cabin door (1601) is fixedly connected with the sector gear (1603), and the sector gear (1603) forms a rotating mechanism through a first motor (1604), a transmission belt (1605) and a gear (1606).

5. The comprehensive recycling device for the waste heat of the power plant as claimed in claim 1, characterized in that: the auger (1607) constitutes rotary mechanism in basin (1612) through second motor (1608), first bevel gear (1609), pivot (1610) and second bevel gear (1611), and the axis of auger (1607) is on same vertical line with the axis of pivot (1610).

6. The comprehensive recycling device for the waste heat of the power plant as claimed in claim 1, characterized in that: all be provided with stopper (1614) on second filter screen (1613), first filter core (1615) and second filter core (1616), and the connected mode between second filter screen (1613), first filter core (1615) and second filter core (1616) and stopper (1614) is the block connection.

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