CN114288716B

CN114288716B - Foam treatment device for water outlet of nuclear power station

Info

Publication number: CN114288716B
Application number: CN202111475812.8A
Authority: CN
Inventors: 陈其添
Original assignee: Hebei Yuhe Technology Co ltd
Current assignee: Hebei Yuhe Technology Co ltd
Priority date: 2021-12-06
Filing date: 2021-12-06
Publication date: 2023-07-07
Anticipated expiration: 2041-12-06
Also published as: CN114288716A

Abstract

The invention relates to a treatment device, in particular to a foam treatment device for a water outlet of a nuclear power station. The invention provides a foam treatment device for a water outlet of a nuclear power station, which can ensure the safety of a user during operation and save manpower. The invention provides a foam treatment device for a water outlet of a nuclear power station, which comprises: the first connecting plate and the first fixing plate are connected to one side of the top of the underframe; the fixed pipe is connected between the first fixed plate and the first connecting plate and is used for discharging water in a water outlet of the nuclear power station; the lower part of one side of the fixed pipe is connected with the first guide plate. The foam removing mechanism is used for removing foam in water discharged from the water outlet of the nuclear power station, so that the foam removing mechanism has the effect of removing foam in water discharged from the water outlet of the nuclear power station.

Description

Foam treatment device for water outlet of nuclear power station

Technical Field

The invention relates to a treatment device, in particular to a foam treatment device for a water outlet of a nuclear power station.

Background

Electric energy is an important energy source in the modern society, most of electric energy in the modern society is generated by using a nuclear power station, water is usually needed in the process of generating electricity by the nuclear power station, the water is discharged after the nuclear power station runs out of water, and the discharged water usually contains a large amount of foam, so that the foam in the water needs to be cleaned.

At present, a mode of treating foam in water discharged from a water outlet of a nuclear power station is usually to spray a foam remover manually, so that foam on water discharged from the water outlet is cleaned.

Therefore, there is a need to design a foam treatment apparatus for a nuclear power plant drain that ensures safety of a user during operation and saves labor.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the mode usually needs to be manually stood near a water outlet for cleaning, the operation is improper, the water outlet is easy to fall into the water, the danger is high, and the labor is consumed during the operation.

(2) Technical proposal

In order to solve the technical problems, the invention provides a foam treatment device for a water outlet of a nuclear power station, which comprises a bottom frame, wherein one side of the top of the bottom frame is connected with a first connecting plate and a first fixing plate; the fixed pipe is connected between the first fixed plate and the first connecting plate and is used for discharging water in a water outlet of the nuclear power station; the lower part of one side of the fixed pipe is connected with the first guide plate; the first connecting plate is provided with a bubble removing mechanism which is used for removing bubbles from water discharged from a water outlet of the nuclear power station; the material screening mechanism is arranged on the underframe and used for screening out impurity garbage in water.

Preferably, the bubble removing mechanism comprises a material guiding frame, the top of the fixed pipe is connected with the material guiding frame, and the material guiding frame is used for passing through the bubble removing agent; the pressing plate is connected with the material guiding frame in a sliding manner and is used for extruding the foam removing agent; the top of the pressing plate is connected with the first connecting rod; the middle of the bottom of the pressing plate is connected with a pressing block; the lower part in the material guiding frame is connected with a second connecting plate; the middle of the bottom of the second connecting plate is connected with a fixing rod, a first baffle is connected to the fixing rod in a sliding mode, a first spring is connected between the first baffle and the fixing rod, and a pressing block is matched with the first baffle; the bottom of the material guiding frame is connected with a material discharging frame, the material discharging frame is used for discharging the foam removing agent, and the material guiding frame is communicated with the material discharging frame; the lower part of the first connecting rod is connected with a third connecting plate; one side of the third connecting plate is connected with a connecting pipe, and the tail end of the connecting pipe is communicated with the material guiding frame; the top of the connecting pipe is connected with a fixing frame, the fixing frame is connected with the top of the first fixing plate, and the fixing frame is used for containing the defoaming agent; the cover plate is arranged at the top of the fixed frame and is detachably arranged.

Preferably, a discharge hole is formed in the middle of the second connecting plate, the discharge hole is used for discharging the defoaming agent, and the first baffle can block the discharge hole.

Preferably, the screening mechanism comprises a guide plate, and one side of the top of the underframe is connected with the guide plate; the guide plate is connected with the first sliding block in a sliding manner; the first sliding block is connected with a sieve plate which is used for sieving out impurity garbage in water; and a second fixing plate is connected between the lower part of one side of the guide plate and the top of the underframe, and the second fixing plate supports the sieve plate.

Preferably, the bubble removing device also comprises a power mechanism, wherein the power mechanism is used for providing power for the bubble removing mechanism, and comprises: the fixing blocks are connected to two sides of one side face of the first connecting plate; the rotating shaft is rotatably connected between the fixed blocks at the two sides; the rotating shaft is connected with a water wheel which is used for providing power for the bubble removing mechanism; a fourth connecting plate, one side of the first connecting plate is connected with the fourth connecting plate; bevel gears are connected to one sides of the rotating shaft and the first connecting plate, the bevel gears on the first connecting plate are rotatably connected with the first connecting plate, and the two bevel gears are meshed with each other; the upper part of the fourth connecting plate is rotatably connected with a gear lack; the belt pulley is connected with the transmission shaft of the gear-lack and the transmission shaft of the bevel gear on the first connecting plate; a first flat belt is wound between the two belt pulleys; the upper part of one side of the first fixed plate is connected with a supporting plate; the second guide plate is connected with the support plate in a sliding manner, and the second guide plate is connected with one side of the top of the first connecting rod; the second guide plate is connected with a rack which is meshed with the gear lack; and a second spring is connected between the second guide plate and the support plate.

Preferably, the screen plate also comprises a lifting mechanism, wherein the lifting mechanism is used for vibrating the screen plate, and the lifting mechanism comprises: the upper part of one side surface of the fourth connecting plate is rotationally connected with the connecting shaft; the rubber wheel is connected with the connecting shaft, and driving wheels are connected with one side of the rotating shaft and the rubber wheel; a second flat belt is wound between the two driving wheels; the second connecting rod is connected to one side of the screen plate, and the rubber wheel is matched with the second connecting rod; and two third springs are connected between the first sliding block and the guide plate, and the second connecting rod, the third springs and the rubber wheel are matched for vibrating the screen plate.

Preferably, the device further comprises a scraping mechanism, the scraping mechanism is used for scraping impurity garbage on the sieve plate, and the scraping mechanism comprises: the scraping plate is connected to the sieve plate in a sliding manner and is used for scraping off impurity garbage on the sieve plate; the bottom of one side of the scraping plate is connected with the connecting block; the connecting block is connected with a third connecting rod; a fourth spring is connected between the connecting block and the sieve plate; the second sliding block is connected to one side of the third connecting rod; the guide plate is connected with the second baffle; the first inclined plate is connected with the top of the second baffle, and the second sliding block is matched with the second baffle and the first inclined plate respectively.

Preferably, the garbage collection device further comprises a collection mechanism, the collection mechanism is used for collecting scraped impurity garbage, and the collection mechanism comprises: the fifth connecting plate is connected between one side surface of the guide plate and one side of the top of the underframe; the top of the fifth connecting plate is connected with a second sloping plate; receive the material frame, receive the material frame has been placed on chassis top right side, and the discharge end of second swash plate aims at receiving the material frame inside, and receive the material frame and be used for collecting the impurity rubbish of scraping.

(3) The beneficial effects are that:

1. the foam removing mechanism is used for removing foam in water discharged from the water outlet of the nuclear power station, so that the foam removing mechanism has the effect of removing foam in water discharged from the water outlet of the nuclear power station.

2. According to the invention, impurities and garbage in water can be screened through the operation of the screening mechanism, so that the effect of screening the impurity garbage in water is realized.

3. The invention drives the operation of the bubble removing mechanism through the power mechanism, does not need manual operation to operate the operation of the bubble removing mechanism, and effectively saves manpower.

4. According to the invention, impurities and garbage screened in the screening mechanism are collected through the operation of the scraping mechanism and the collecting mechanism, and then are treated, so that the impurities and garbage screened in the screening mechanism are not required to be treated manually and frequently, and the labor is effectively saved.

5. When the invention is used for removing bubbles, the operation of standing at the water outlet of the nuclear power station for a long time is not needed, the safety of a user is effectively ensured, and only the bubble removing agent is needed to be added during manual operation, thereby effectively saving the manpower.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of a first part of the bubble removing mechanism according to the present invention.

Fig. 3 is a schematic perspective view of a second part of the bubble removing mechanism of the present invention.

Fig. 4 is a schematic perspective view of part of the bubble removing mechanism of the present invention.

Fig. 5 is a schematic perspective view of a first part of the screening mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a second part of the screening mechanism of the present invention.

Fig. 7 is a schematic perspective view of the power mechanism of the present invention.

Fig. 8 is a first perspective view of a portion of the components of the power mechanism of the present invention.

Fig. 9 is a second perspective view of a portion of the components of the power mechanism of the present invention.

Fig. 10 is a schematic perspective view of a lifting mechanism according to the present invention.

Fig. 11 is an enlarged view at a of the present invention.

Fig. 12 is a schematic perspective view of part of the elevating mechanism of the present invention.

Fig. 13 is a schematic perspective view of a scraping mechanism according to the present invention.

Fig. 14 is a schematic perspective view of part of the scraping mechanism of the present invention.

Fig. 15 is a schematic perspective view of a first portion of the collection mechanism of the present invention.

Fig. 16 is a schematic view of a second partial perspective of the collection mechanism of the present invention.

The marks in the drawings are: 1-a bottom frame, 2-a first connecting plate, 3-a first fixing plate, 4-a fixing tube, 5-a first guide plate, 6-a defoaming mechanism, 61-a material guiding frame, 62-a pressing plate, 63-a first connecting rod, 64-a pressing block, 65-a second connecting plate, 66-a first baffle plate, 67-a first spring, 68-a fixing rod, 69-a discharging frame, 610-a third connecting plate, 611-a connecting tube, 612-a fixing frame, 613-a cover plate, 7-a screening mechanism, 71-a guide plate, 72-a second fixing plate, 73-a screen plate, 74-a first sliding block, 8-a power mechanism, 81-a fixing block, 82-a rotating shaft, 83-a water wheel, 84-bevel gear, 85-fourth connecting plates, 86-first flat belts, 87-belt pulleys, 88-gear-missing, 89-supporting plates, 810-second guide plates, 811-racks, 812-second springs, 9-lifting mechanisms, 91-connecting shafts, 92-second flat belts, 93-rubber wheels, 94-second connecting rods, 95-third springs, 10-scraping mechanisms, 101-scraping plates, 102-connecting blocks, 103-third connecting rods, 104-fourth springs, 105-second sliding blocks, 106-second baffle plates, 107-first inclined plates, 11-collecting mechanisms, 111-fifth connecting plates, 112-second inclined plates and 113-collecting frames.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

1-6, including chassis 1, first connecting plate 2, first fixed plate 3, fixed pipe 4, first baffle 5, remove bubble mechanism 6 and sieve material mechanism 7, chassis 1 top rear side is connected with first connecting plate 2 and first fixed plate 3, and first fixed plate 3 is located first connecting plate 2 rear side, is connected with fixed pipe 4 between first fixed plate 3 and the first connecting plate 2, and fixed pipe 4 front side lower part is connected with first baffle 5, is equipped with on the first connecting plate 2 and removes bubble mechanism 6, is equipped with sieve material mechanism 7 on the chassis 1.

The bubble removing mechanism 6 comprises a guide frame 61, a pressing plate 62, a first connecting rod 63, a pressing block 64, a second connecting plate 65, a first baffle 66, a first spring 67, a fixed rod 68, a discharge frame 69, a third connecting plate 610, a connecting pipe 611, a fixed frame 612 and a cover plate 613, wherein the top of the fixed pipe 4 is connected with the guide frame 61, the pressing plate 62 is connected with the pressing plate 62 in a sliding manner, the top of the pressing plate 62 is connected with the first connecting rod 63, the pressing block 64 is connected in the middle of the bottom of the pressing plate 62, the lower part of the guide frame 61 is connected with the second connecting plate 65, the middle of the bottom of the second connecting plate 65 is connected with the fixed rod 68, the fixed rod 68 is connected with the first baffle 66 in a sliding manner, the first spring 67 is connected between the bottom of the first baffle 66 and the top of the fixed rod 68, the pressing block 64 is matched with the first baffle 66, the bottom of the guide frame 61 is connected with the discharge frame 69, the connecting pipe 611 is connected with the third connecting plate 610 in the right side, the connecting pipe 611 is connected with the connecting plate 611, the tail end of the guide frame 61 is connected with the guide frame 61, the fixed frame 611 is connected with the fixed frame 612, the top of the connecting plate 612 is connected with the fixed frame 612, the fixed plate 612 is connected with the top of the fixed plate 612 and the top plate 613 is detachably arranged.

The middle part of the second connecting plate 65 is provided with a discharge hole for discharging the defoaming agent, and the first baffle 66 can block the discharge hole.

The screening mechanism 7 comprises a guide plate 71, a second fixing plate 72, a screen plate 73 and a first sliding block 74, wherein the right side of the top of the underframe 1 is connected with the guide plate 71, the guide plate 71 is connected with the first sliding block 74 in a sliding manner, the screen plate 73 is connected to the first sliding block 74, the second fixing plate 72 is connected between the lower portion of the left side of the guide plate 71 and the top of the underframe 1, and the screen plate 73 is supported by the second fixing plate 72.

When the foam in the water discharged from the water outlet of the nuclear power plant needs to be treated, the device can be used, firstly, a user can install the device at the water outlet of the nuclear power plant, the water discharged from the water outlet of the nuclear power plant can be discharged through the fixed pipe 4, initially, the user can open the cover plate 613 to add the foam remover into the fixed frame 612, after the foam remover is added, the cover plate 613 is closed, the foam remover in the fixed frame 612 is added into the guide frame 61 through the connecting pipe 611, then the user can squeeze the first connecting rod 63 to move downwards, the guide frame 61 moves downwards to drive the pressing plate 62 to move downwards, the pressing plate 62 moves downwards to drive the pressing block 64 to move downwards, after the pressing block 64 moves downwards to be in contact with the first baffle 66, the pressing block 64 continues to move downwards to push the first baffle 66 to move downwards, the first spring 67 is compressed, when the first baffle 66 moves downwards to no longer block the discharge port, the foam remover in the guide frame 61 falls into the discharge frame 69 through the discharge port, the foam remover in the discharge frame 69 falls into the discharged water, then the first baffle 62 moves downwards to drive the pressing block 64 to move downwards, the pressing block 64 moves downwards, the first baffle 64 to move the first baffle 66, the foam-removing agent in the discharged water, the water in the water, and the water can be filtered, and the garbage in the water can be filtered, and discharged from the water.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 7, 8 and 9, the power mechanism 8 is further comprised of a power mechanism 8, the power mechanism 8 includes a fixed block 81, a rotating shaft 82, a water wheel 83, a bevel gear 84, a fourth connecting plate 85, a first flat belt 86, a belt pulley 87, a gear-missing 88, a supporting plate 89, a second guide plate 810, a rack 811 and a second spring 812, the left and right sides of the front side of the first connecting plate 2 are all connected with the fixed block 81, the rotating shaft 82 is rotatably connected with the rotating shaft 82 between the fixed blocks 81 on both sides, the water wheel 83 is connected with the rotating shaft 82 on the left side of the front side of the first connecting plate 2, the bevel gear 84 on the left side of the rotating shaft 82 is connected with the bevel gear 84 on the front side of the first connecting plate 2, the bevel gear 84 on the upper portion of the first connecting plate 2 is rotatably connected with the gear-missing 88, the transmission shaft of the gear-missing 88 and the bevel gear 84 on the first connecting plate 2 are all connected with the belt pulley 87, the first flat belt 86 is wound between the two belt pulleys 87, the upper portion on the left side of the first fixed plate 3 is connected with the supporting plate 89, the left side of the supporting plate 89 is slidably connected with the second guide plate 810, the rack 810 is connected with the second guide plate 810 on the left side of the second guide plate 810, and the top is connected with the rack 810 on the second side of the rack 810.

The water can strike the water wheel 83 and rotate when passing through the fixed pipe 4, the water wheel 83 rotates to drive the rotating shaft 82 to rotate, the rotating shaft 82 rotates to drive the gear lack 88 to rotate through the bevel gear 84, the first flat belt 86 and the belt pulley 87, after the gear lack 88 rotates to be meshed with the rack 811, the gear lack 88 continuously rotates to push the rack 811 to move downwards, the rack 811 moves downwards to drive the second guide plate 810 to move downwards, the second spring 812 is compressed, the second guide plate 810 drives the first connecting rod 63 to move downwards when moving downwards, after the gear lack 88 moves to be meshed with the rack 811 no longer, the second guide plate 810 resets to drive the first connecting rod 63 to reset under the action of the second spring 812, and thus the operation is repeated, the first connecting rod 63 does not need to be pulled to move downwards manually, and the labor is effectively saved.

As shown in fig. 1, 10, 11 and 12, the lifting mechanism 9 is further included, the lifting mechanism 9 includes a connecting shaft 91, a second flat belt 92, a rubber wheel 93, a second connecting rod 94 and a third spring 95, the upper portion of the front side of the fourth connecting plate 85 is rotatably connected with the connecting shaft 91, the rubber wheel 93 is connected with the connecting shaft 91, driving wheels are connected with the left side of the rotating shaft 82 and the rubber wheel 93, a second flat belt 92 is wound between the two driving wheels, two third springs 95 are connected between the top of the first sliding block 74 and the guide plate 71, the left side of the sieve plate 73 is connected with a second connecting rod 94, and the rubber wheel 93 is matched with the second connecting rod 94.

At first, third spring 95 is tensile state, pivot 82 drives connecting axle 91 through drive wheel and second flat belt 92 and rotates when rotating, connecting axle 91 rotates and drives rubber wheel 93 rotation, rubber wheel 93 constantly extrudees second connecting rod 94 and moves down when rotating, thereby drive sieve 73 and move down, and then third spring 95 also pulls sieve 73 and reciprocates, the effect of continuous drive sieve 73 vibrations about under the effect of third spring 95 and second connecting rod 94, make the filtration aquatic impurity rubbish better, when the nuclear power station no longer drains, rubber wheel 93 no longer rotates, at this moment also moves upwards under the effect of third spring 95, when sieve 73 upwards moves to the limit, can clear up the rubbish on the sieve 73, so, just make the effect of filtering impurity rubbish in the water better, and it is more convenient when clearing up impurity rubbish in the sieve 73.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 13 and 14, the scraper mechanism 10 is further included, the scraper mechanism 10 comprises a scraper 101, a connecting block 102, a third connecting rod 103, a fourth spring 104, a second sliding block 105, a second baffle 106 and a first inclined plate 107, the scraper 101 is connected to the sieve plate 73 in a sliding mode, the bottom of the front side of the scraper 101 is connected with the connecting block 102, the third connecting rod 103 is connected to the connecting block 102, the fourth spring 104 is connected between the connecting block 102 and the sieve plate 73, the second sliding block 105 is connected to the right side of the third connecting rod 103, the second baffle 106 is connected to the front side of the guide plate 71, the first inclined plate 107 is connected to the top of the second baffle 106, and the second sliding block 105 is matched with the second baffle 106 and the first inclined plate 107 respectively.

Initially, the second slider 105 is propped against the second baffle 106, the fourth spring 104 is in a tensile state, all the components on the sieve plate 73 are driven to move upwards together when the sieve plate 73 moves upwards, when the second slider 105 is propped against the top of the first inclined plate 107, as the top of the first inclined plate 107 is inclined, the second slider 105 continuously moves rightwards under the action of the fourth spring 104 along with the continuous upward movement of the sieve plate 73, the second slider 105 drives the scraper 101 to move rightwards through the third connecting rod 103 and the connecting block 102 when moving rightwards, and the impurity garbage on the sieve plate 73 can be scraped when the scraper 101 moves rightwards, so that the impurity garbage on the sieve plate 73 can be scraped.

As shown in fig. 1, 15 and 16, the device further comprises a collecting mechanism 11, the collecting mechanism 11 comprises a fifth connecting plate 111, a second inclined plate 112 and a material receiving frame 113, the fifth connecting plate 111 is connected between the right side surface of the guide plate 71 and the right side of the top of the chassis 1, the second inclined plate 112 is connected to the top of the fifth connecting plate 111, the material receiving frame 113 is arranged on the right side of the top of the chassis 1, and the discharge end of the second inclined plate 112 is aligned to the inside of the material receiving frame 113.

When the scraper blade 101 scrapes the impurity rubbish on the sieve plate 73, the impurity rubbish on the sieve plate 73 is scraped in the material receiving frame 113, the impurity rubbish in water is collected through the material receiving frame 113, when the impurity rubbish on the material receiving frame 113 is too much, the material receiving frame 113 can be taken down, and the rubbish in the material receiving frame 113 is dumped, so that the scraped impurity rubbish can be collected and cleaned again, frequent cleaning is not needed, and manpower is effectively saved.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. A foam treatment apparatus for a nuclear power plant drain, comprising: the device comprises a bottom frame (1), wherein one side of the top of the bottom frame (1) is connected with a first connecting plate (2) and a first fixing plate (3); the fixed pipe (4) is connected between the first fixed plate (3) and the first connecting plate (2), and the fixed pipe (4) is used for discharging water in a water outlet of the nuclear power station; the lower part of one side of the fixed pipe (4) is connected with the first guide plate (5); the bubble removing mechanism (6) is arranged on the first connecting plate (2), and the bubble removing mechanism (6) is used for removing bubbles from water discharged from a water outlet of the nuclear power station; the material screening mechanism (7) is arranged on the underframe (1), and the material screening mechanism (7) is used for screening out impurity garbage in water;

the bubble removing mechanism (6) comprises: the top of the fixed pipe (4) is connected with a material guiding frame (61), and the material guiding frame (61) is used for passing through the defoaming agent; the pressing plate (62) is connected with the pressing plate (62) in the material guiding frame (61) in a sliding manner, and the pressing plate (62) is used for extruding the foam removing agent; the top of the pressing plate (62) is connected with the first connecting rod (63); the pressing block (64) is connected with the middle of the bottom of the pressing plate (62); the second connecting plate (65) is connected with the lower part in the material guiding frame (61); the fixing device comprises a fixing rod (68), wherein the middle of the bottom of the second connecting plate (65) is connected with the fixing rod (68), a first baffle (66) is connected to the fixing rod (68) in a sliding mode, a first spring (67) is connected between the first baffle (66) and the fixing rod (68), and a pressing block (64) is matched with the first baffle (66); the discharging frame (69), the bottom of the material guiding frame (61) is connected with the discharging frame (69), the discharging frame (69) is used for discharging the defoaming agent, and the material guiding frame (61) is communicated with the discharging frame (69); the lower part of the first connecting rod (63) is connected with a third connecting plate (610); a connecting pipe (611), one side of the third connecting plate (610) is connected with the connecting pipe (611), and the tail end of the connecting pipe (611) is communicated with the material guiding frame (61); the top of the connecting pipe (611) is connected with a fixed frame (612), the fixed frame (612) is connected with the top of the first fixed plate (3), and the fixed frame (612) is used for containing the defoaming agent; the cover plate (613), the top of the fixed frame (612) is provided with the cover plate (613), and the cover plate (613) is detachably arranged;

a discharge hole is formed in the middle of the second connecting plate (65), the discharge hole is used for discharging the foam remover, and the first baffle (66) can block the discharge hole;

the screening mechanism (7) comprises: the guide plate (71), one side of the top of the chassis (1) is connected with the guide plate (71); the guide plate (71) is connected with the first sliding block (74) in a sliding manner; the first sliding block (74) is connected with the sieve plate (73), and the sieve plate (73) is used for sieving out impurity garbage in water; and a second fixing plate (72), wherein the second fixing plate (72) is connected between the lower part of one side of the guide plate (71) and the top of the underframe (1), and the second fixing plate (72) supports the sieve plate (73).

2. A foam treatment unit for a nuclear power plant drain according to claim 1, further comprising a power mechanism (8), the power mechanism (8) being adapted to provide power to the de-bubbling mechanism (6), the power mechanism (8) comprising: the fixed blocks (81) are connected to two sides of one side surface of the first connecting plate (2); a rotating shaft (82), wherein the rotating shaft (82) is rotatably connected between the two side fixing blocks (81); the rotating shaft (82) is connected with a water wheel (83), and the water wheel (83) is used for providing power for the bubble removing mechanism (6); a fourth connecting plate (85), wherein one side of the first connecting plate (2) is connected with the fourth connecting plate (85); the bevel gears (84) are connected to one side of the rotating shaft (82) and one side of the first connecting plate (2), the bevel gears (84) on the first connecting plate (2) are rotatably connected with the first connecting plate (2), and the two bevel gears (84) are meshed with each other; a gear-missing (88), wherein the gear-missing (88) is rotatably connected to the upper part of the fourth connecting plate (85); the belt pulley (87) is connected with the transmission shaft of the gear-lack (88) and the transmission shaft of the bevel gear (84) on the first connecting plate (2); a first flat belt (86), a first flat belt (86) being wound between the two pulleys (87); a supporting plate (89), wherein the supporting plate (89) is connected to the upper part of one side of the first fixed plate (3); the second guide plate (810) is connected to the support plate (89) in a sliding mode, and the second guide plate (810) is connected with one side of the top of the first connecting rod (63); a rack (811), a rack (811) is connected to the second guide plate (810), and the rack (811) is meshed with the pinion (88); and a second spring (812), and the second spring (812) is connected between the second guide plate (810) and the supporting plate (89).

3. A foam treatment unit for a nuclear power plant drain according to claim 2, further comprising a lifting mechanism (9), the lifting mechanism (9) being arranged to vibrate the screen plate (73), the lifting mechanism (9) comprising: a connecting shaft (91), wherein the upper part of one side surface of the fourth connecting plate (85) is rotatably connected with the connecting shaft (91); the rubber wheel (93) is connected with the connecting shaft (91), and the driving wheels are connected with one side of the rotating shaft (82) and the rubber wheel (93); a second flat belt (92), a second flat belt (92) is wound between the two driving wheels; a second connecting rod (94), one side of the sieve plate (73) is connected with the second connecting rod (94), and the rubber wheel (93) is matched with the second connecting rod (94); and two third springs (95) are connected between the first sliding block (74) and the guide plate (71), and the second connecting rod (94), the third springs (95) and the rubber wheel (93) are matched to vibrate the sieve plate (73).

4. A foam treatment unit for a nuclear power plant drain as claimed in claim 3, further comprising a scraping mechanism (10), the scraping mechanism (10) being adapted to scrape off the impurity waste on the screen plate (73), the scraping mechanism (10) comprising: the scraper (101) is connected to the sieve plate (73) in a sliding manner, and the scraper (101) is used for scraping off impurity garbage on the sieve plate (73); the bottom of one side of the scraping plate (101) is connected with the connecting block (102); the connecting block (102) is connected with a third connecting rod (103); a fourth spring (104), wherein the fourth spring (104) is connected between the connecting block (102) and the sieve plate (73); a second slider (105), wherein one side of the third connecting rod (103) is connected with the second slider (105); the guide plate (71) is connected with a second baffle (106); the first sloping plate (107), second baffle (106) top is connected with first sloping plate (107), and second slider (105) are cooperated with second baffle (106) and first sloping plate (107) respectively.

5. A foam treatment plant for a nuclear power plant drain according to claim 4, further comprising a collecting means (11), the collecting means (11) being adapted to collect scraped-off impurity waste, the collecting means (11) comprising: a fifth connecting plate (111), wherein the fifth connecting plate (111) is connected between one side surface of the guide plate (71) and one side of the top of the underframe (1); the top of the fifth connecting plate (111) is connected with a second sloping plate (112); the material collecting frame (113), material collecting frame (113) has been placed on chassis (1) top right side, and the discharge end of second swash plate (112) aims at material collecting frame (113) inside, and material collecting frame (113) are used for collecting the impurity rubbish of scraping.