CN107930330B

CN107930330B - Combined water separator

Info

Publication number: CN107930330B
Application number: CN201711470433.3A
Authority: CN
Inventors: 刘晔
Original assignee: Wuxi Haiyue Biochemical Equipment Co ltd
Current assignee: Wuxi Haiyue Biochemical Equipment Co ltd
Priority date: 2017-12-29
Filing date: 2017-12-29
Publication date: 2023-05-02
Anticipated expiration: 2037-12-29
Also published as: CN107930330A

Abstract

The invention provides a compound water separator, which can solve the problems that garbage and rust are easy to deposit on a silk screen collecting screen plate of the traditional compound water separator, so that the silk screen collecting screen plate is blocked, and the normal use of equipment is affected. The water separator comprises a shell, wherein a collecting water separator, a silk screen water collector and a collecting water separator are sequentially arranged in the shell along the air inlet direction, and the silk screen water collector comprises a wallboard frame; the overturning frames are vertically arranged and are arranged in the wallboard frames side by side, and the surfaces of the overturning frames are covered with the installation silk screen; the turnover driving mechanism is used for driving the turnover frames to rotate around the respective rotating shafts, so that the turnover frames are parallel to the air inlet direction when the turnover frames are in a non-working state; when the screen is in a working state, two adjacent overturning frames are intersected and mutually perpendicular, and the front face of the screen faces the air inlet direction and an acute angle between the front face of the screen and the air inlet direction is 45 degrees; when the screen is in a cleaning state, two adjacent overturning frames are intersected and mutually perpendicular, and the reverse side of the screen faces the air inlet direction and an acute angle between the reverse side of the screen and the air inlet direction is 45 degrees.

Description

Combined water separator

Technical Field

The invention relates to the field of air pretreatment equipment, in particular to a composite water separator.

Background

The invention patent with the patent number ZL201210389183.1 discloses a composite water separator which has been widely applied to the air pretreatment process of the fermentation industry in recent years, and various performances and technical indexes are obviously superior to those of the conventional old products.

But after a period of use, there is an individual user reflecting that it has some drawback, because: the main function of the silk screen collecting type water separator is to collect drivability water droplets, the water screen collecting type water separator comprises a plurality of groups of silk screen collecting net plates, and the silk screen collecting net plates are cylindrical, so that no matter how the silk screen collecting net plates rotate, the water screen collecting type water separator always has one surface facing the air inlet. Because the specification of the screen collecting net plate is 100-200 meshes, if the amount of garbage and rust in the air pipe of a user is particularly large, when the air compressor is in trial run (trial production), the garbage and the rust enter the composite water separator along with compressed air and are deposited on the screen collecting net plate, although the screen collecting net plate rotates 180 degrees in the later mass production, the screen collecting net plate is subjected to recoil cleaning by using the compressed air, but cannot be flushed, so that the rust is accumulated on the screen collecting net plate more and more, the pressure drop of an air system is increased, the load of the air compressor is increased, the normal fermentation process is seriously influenced, the production stopping cleaning is necessary, and various economic losses are caused to the user.

Disclosure of Invention

Aiming at the problems, the invention provides a compound water separator, which can solve the problems that garbage and rust are easy to deposit on a silk screen collecting screen plate of the traditional compound water separator, so that the silk screen collecting screen plate is blocked, and the normal use of equipment is affected.

The technical scheme is as follows: the utility model provides a combined type water knockout drum, its includes the casing, install two collection water knockout drums along the inlet direction interval in the casing, be located two install intermediate water knockout drum on the casing between the collection water knockout drum, its characterized in that: the middle water separator is a silk screen water collector, and the silk screen water collector comprises a wallboard frame;

the turnover frame is vertically arranged and is arranged in the wallboard frame side by side, the turnover frame is rectangular, a silk screen is arranged on the surface of the turnover frame in a covering mode, a rotating shaft which is vertically arranged is fixedly arranged in the middle of the turnover frame, and the turnover frame is rotatably arranged in the wallboard frame through the rotating shaft;

the turnover driving mechanism is used for driving the turnover frames to rotate around the respective rotating shafts, so that the turnover frames are parallel to the air inlet direction when the turnover frames are in a non-working state; when the screen is in a working state, two adjacent overturning frames are intersected and mutually perpendicular, and the front face of the screen faces the air inlet direction and an acute angle between the front face of the screen and the air inlet direction is 45 degrees; when the screen is in a cleaning state, two adjacent overturning frames are intersected and mutually perpendicular, and the reverse side of the screen faces the air inlet direction and an acute angle between the reverse side of the screen and the air inlet direction is 45 degrees.

It is further characterized by:

the number of the turnover frames is two, the turnover driving mechanism comprises a transmission device, a push plate, a boosting frame, a guide plate and a pin shaft, and the boosting frame, the push plate and the guide plate are sequentially arranged from top to bottom; the guide plates are arranged between the two overturning frames along the air inlet direction and fixedly arranged on the top plate of the wallboard frame, and waist-shaped counter bores are formed in the guide plates along the length direction of the guide plates; the boosting frame comprises two boosting rods which are arranged up and down, one end of a pin shaft sequentially passes through the kidney-shaped counter bores, the front ends of the pushing plates and the rear ends of the two boosting rods from bottom to top, limiting nuts are sleeved on the pin shaft and are in clearance fit with the kidney-shaped counter bores, and the pin shaft is in running fit with the pushing plates and the two boosting rods; the front ends of the top surfaces of the two turnover frames are respectively and vertically fixedly connected with connecting pins, and the front ends of the two push-assisting rods are respectively and rotatably connected with the two connecting pins one by one; the transmission device is connected with the rear end of the push plate and used for driving the pin shaft to slide back and forth along the kidney-shaped counter bore; the silk screens on the two turnover frames are arranged opposite to each other.

The number of the turnover frames is three, the turnover driving mechanism comprises a transmission device, a push plate, a boosting frame, a guide plate, a traction plate and a pin shaft, and the boosting frame, the push plate and the guide plate are sequentially arranged from top to bottom; the guide plates are arranged between two adjacent overturning frames along the air inlet direction and fixedly arranged on the top plate of the wallboard frame, and waist-shaped counter bores are formed in the guide plates along the length direction of the guide plates; the boosting frame comprises two boosting rods which are arranged up and down, one end of a pin shaft sequentially passes through the kidney-shaped counter bores, the front ends of the pushing plates and the rear ends of the two boosting rods from bottom to top, limiting nuts are sleeved on the pin shaft and are in clearance fit with the kidney-shaped counter bores, and the pin shaft is in running fit with the pushing plates and the two boosting rods; connecting pins are vertically and fixedly connected to the front ends of the top surfaces of the two turnover frames adjacent to the guide plates respectively, and the front ends of the two push-assisting rods are rotationally connected with the two connecting pins one by one respectively; the rear ends of the top surfaces of the turnover frames positioned at the two sides are respectively and vertically fixedly connected with a connecting pin, the traction plates are horizontally arranged, the two ends of the traction plates are respectively and rotatably connected with the two connecting pins positioned at the rear ends one by one, and the heights of the traction plates are lower than that of the guide plates; the transmission device is connected with the rear end of the push plate and used for driving the pin shaft to slide back and forth along the kidney-shaped counter bore; the silk screens on the two turnover frames connected with the boosting frame are arranged in opposite directions, and the silk screens on the two turnover frames connected with the traction plate are arranged in the same direction.

The number of the turnover frames is more than three, the turnover driving mechanism comprises a transmission device, a push plate, a boosting frame, a guide plate, a traction plate and a pin shaft, the traction plate comprises a traction plate I and a traction plate II, and the boosting frame, the push plate and the guide plate are sequentially arranged from top to bottom; the guide plates are arranged between two adjacent turnover frames positioned at one side along the air inlet direction and fixedly arranged on the top plate of the wallboard frame, and waist-shaped counter bores are formed in the guide plates along the length direction of the guide plates; the boosting frame comprises two boosting rods which are arranged up and down, one end of a pin shaft sequentially passes through the kidney-shaped counter bores, the front ends of the pushing plates and the rear ends of the two boosting rods from bottom to top, limiting nuts are sleeved on the pin shaft and are in clearance fit with the kidney-shaped counter bores, and the pin shaft is in running fit with the pushing plates and the two boosting rods; connecting pins are vertically and fixedly connected to the front ends of the top surfaces of the two turnover frames adjacent to the guide plates respectively, and the front ends of the two push-assisting rods are rotationally connected with the two connecting pins one by one respectively; the rear ends of the top surfaces of the turnover frames positioned at the odd numbers are respectively and vertically fixedly connected with connecting pins, and the first traction plates are horizontally arranged at the rear side of the top plate and are in one-to-one rotary connection with the connecting pins positioned at the odd numbers; the front ends of the top surfaces of the turnover frames positioned at even numbers are respectively and vertically fixedly connected with connecting pins, and the second traction plates are horizontally arranged on the front side of the top plate and are in one-to-one rotary connection with the connecting pins positioned at even numbers; the height of the traction plate is lower than that of the guide plate; the transmission device is connected with the rear end of the push plate and used for driving the pin shaft to slide back and forth along the kidney-shaped counter bore; the silk screens on the two turnover frames connected with the boosting frame are arranged in opposite directions, and the silk screens on the turnover frames connected with the same traction plate are arranged in the same direction.

The transmission device comprises a turbine speed reducer and a transmission plate, wherein the transmission plate is horizontally arranged, one end of the transmission plate is hinged with the rear end of the push plate, the other end of the transmission plate is fixedly connected with an output shaft of the turbine speed reducer through a key, a supporting plate is arranged on the top plate, and a shell of the turbine speed reducer is fixed on the supporting plate.

The turnover frame comprises a bottom frame and a top frame, a guard plate is integrally formed on the outer side of the bottom frame along the circumferential direction of the bottom frame, the silk screen is arranged between the bottom frame and the top frame and fixedly connected with the bottom frame and the top frame through screws, and the rotating shaft penetrates through the guard plate and is fixedly connected with the guard plate.

The specification of the silk screen is 100-200 meshes.

The collecting water separator comprises folded plates which are arranged in parallel up and down, the folded plates are fixed through connecting ribs, and the width direction of the folded plates is parallel to the air inlet direction; every department of bending of folded plate and end of giving vent to anger are provided with the right-angle plate respectively, the right-angle plate is followed the length direction of folded plate sets up, one of them board of right-angle plate with folded plate fixed connection, another board is parallel to the direction of admitting air, the right-angle plate with enclose between the folded plate and close and form the collecting vat, the notch orientation of collecting vat is admitted air the direction.

The acute angle between each inclined surface of the folded plate and the air inlet direction is equal and 15-30 degrees, preferably 30 degrees.

The beneficial effects of the invention are as follows:

1. according to the composite water separator, the traditional silk screen collecting water separator is replaced by the silk screen water collector, the silk screen of the silk screen water collector is arranged on the surface of the rectangular turnover frame in a covering mode, the turnover frame is driven by the turnover driving mechanism to realize turnover, three different states can be realized by controlling the turnover frame to turn to different angles, when equipment is tested, the turnover frame can be turned to a non-working state, and at the moment, the silk screen is parallel to the air inlet direction, and garbage and rust in an air pipe can be prevented from blocking the silk screen; when in later mass production, the turnover frames can be turned to a working state, at the moment, two adjacent turnover frames are intersected and mutually perpendicular, the front face of the silk screen faces the air inlet direction, an acute angle between the silk screen and the air inlet direction is 45 degrees, the turnover frames are spliced to form an integral water collecting surface, and small water drops entrained in the air are collected; when the silk screen is required to be cleaned during mass production, the turnover frames can be turned to a cleaning state, at the moment, two adjacent turnover frames are intersected and mutually perpendicular, the reverse side of the silk screen faces the air inlet direction and an acute angle between the reverse side of the silk screen and the air inlet direction is 45 degrees, and therefore the silk screen can be subjected to backflushing cleaning by air. Compared with the traditional silk screen collecting type water separator, the silk screen collecting type water separator can effectively prevent garbage and rust in an air pipe from blocking the silk screen, ensures that the composite water separator is always in a high-efficiency water separation, safe and stable working state, can not break down even if being used for a long time, and avoids various losses caused by cleaning due to production stopping;

2. the collecting type water separator adopted by the device consists of the folded plate with the collecting groove, the folded plate can be manufactured in a stamping mode, welding is not needed, and a weld scar is not formed; after the air enters the first collecting type water separator, big water drops carried by the air enter the collecting groove along the inclined plane of the folded plate, so that the big water drops are effectively separated; then air enters the silk screen water collector, small water drops in the air are collected by the silk screen water collector, and under the capillary action, the small water drops in the air are easily stuck by the silk screen when passing through the silk screen, so that a layer of water film is formed on the surface of the silk screen, the water can break through meshes of the silk screen and escape under the action of wind pressure, the escaped water drops become larger water drops at the moment and can be intercepted by the second collecting water separator, and a remarkable water diversion effect is achieved; because the acute angle between each inclined plane of the folded plate and the air inlet direction is equal and 15-30 degrees, the generated pressure drop is small, and the ventilation rate is higher.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a left side view of the screen water collector of FIG. 1 (the number of flip frames is four and in operation);

FIG. 3 is an enlarged view of area A of FIG. 2;

FIG. 4 is a top view of FIG. 2;

FIG. 5 is a left side view of FIG. 2;

FIG. 6 is a top view of the screen collector with four of the roll-over frames in a non-operational state;

FIG. 7 is a schematic diagram of the connection of the roll-over frame, screen and spindle;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 7;

FIG. 9 is a top view of the screen collector with the number of flip frames two and in a non-operational state;

FIG. 10 is a top view of the screen collector with three of the flip frames in a non-operational state;

FIG. 11 is a front view of the collection dispenser of FIG. 1;

FIG. 12 is a schematic view of the connection between a folded plate and a rectangular plate;

fig. 13 is a left side view of fig. 12.

Reference numerals: 1-silk screen; 2-wallboard frame; 2-1-top plate; 2-2-base plate; 3. 31, 32, 33, 34-flip frames; 3-1-a bottom frame; 3-2-top frame; 3-1-1-guard board; 4-rotating shaft; 5-pushing plate; 6-pushing-assisting rod; 7-a guide plate; 71-waist-shaped counter bore; 8-a traction plate; 81-pulling plate I; 82-a second traction plate; 9-a pin shaft; 10-limiting nuts; 11-connecting pins; 12-a turbine speed reducer; 121-an output shaft of a turbine speed reducer; 13-a drive plate; 14-supporting plates; 15-screws; 16-a housing; 161-air outlet; 17-collecting water separator; 171-flap; 172-connecting ribs; 173-right angle plate; 174-collecting tank; 175-mounting plate; 18-wire mesh water collector.

Detailed Description

Referring to fig. 1 to 13, the composite water separator of the present invention includes a housing 16, an air inlet is provided at the left side of the housing 16, an air outlet 161 is provided at the right side of the housing 16, two collecting water separators 17 are installed in the housing 16 at intervals along the air inlet direction, a middle water separator is installed on the housing between the two collecting water separators 17, the middle water separator is a wire mesh water collector 18, and the wire mesh water collector 18 includes a wire mesh 1, a wallboard frame 2, a turnover frame 3 and a turnover driving mechanism; the wall plate frame 2 of the silk screen water collector 18 is fixedly arranged on the inner wall of the shell 16; the turnover frame 3 is vertically arranged and is arranged in the wallboard frame 2 side by side, the turnover frame 3 is rectangular, the silk screen 1 is arranged on the surface of the turnover frame 3 in a covering mode, the middle part of the turnover frame 3 is fixedly provided with a rotating shaft 4 which is vertically arranged, and two ends of the rotating shaft 4 respectively penetrate through the top plate 2-1 and the bottom plate 2-2 of the wallboard frame 2 and are in rotating connection with the top plate 2-1 and the bottom plate 2-2 through bearings; the turnover driving mechanism is used for driving the turnover frames 3 to rotate around the respective rotating shafts 4, so that the turnover frames 3 are parallel to the air inlet direction (the air inlet direction is shown as the hollow arrow direction in fig. 1 and 4) when the turnover frames are in a non-working state; when in working state, two adjacent turnover frames 3 are intersected and mutually perpendicular, and the front surface of the silk screen 1 faces the air inlet direction and an acute angle alpha between the front surface and the air inlet direction is 45 degrees; in the cleaning state (view in the cleaning state is not shown), the adjacent two turnover frames 3 intersect and are perpendicular to each other, and the reverse surface of the screen 1 faces the air intake direction and has an acute angle of 45 ° with the air intake direction. Because the acute angle between the silk screen and the air inlet direction is 45 degrees when the silk screen works, namely the silk screen is in an inclined state, when air passes through the inclined silk screen, the resistance is small, the pressure drop of the system is small, and the energy consumption is low.

When the number of the turnover frames 3 is greater than three, as shown in fig. 2 to 6, four

turnover frames

31, 32, 33 and 34 are arranged in fig. 2, the turnover driving mechanism comprises a transmission device, a push plate 5, a boosting frame, a guide plate 7, a traction plate 8 and a pin shaft 9, the traction plate 8 comprises a traction plate one 81 and a traction plate two 82, and the boosting frame, the push plate 5 and the guide plate 7 are sequentially arranged from top to bottom; the guide plate 7 is arranged between two

adjacent turnover frames

31 and 32 positioned at one side along the air inlet direction and fixedly arranged on the top plate 2-1 of the wallboard frame 2, a waist-shaped counter bore 71 is formed on the guide plate 7 along the length direction, as shown in fig. 5, the small end of the waist-shaped counter bore 71 faces upwards, and the large end faces downwards; the boosting frame comprises two boosting rods 6 which are arranged up and down, the two boosting rods 6 form a V shape, one end of a pin shaft 9 sequentially passes through a kidney-shaped counter bore 71, the front end of a push plate 5 and the rear ends of the two boosting rods 6 from bottom to top, a limit nut 10 is sleeved behind the rear ends of the two boosting rods 6, the pin shaft 9 is in clearance fit with the small end of the kidney-shaped counter bore 71, and the pin shaft 9 is in rotary fit with the push plate 5 and the two boosting rods 6; the front ends of the top surfaces of the two

turnover frames

31 and 32 adjacent to the guide plate 7 are respectively and vertically fixedly connected with a connecting pin 11, and the front ends of the two boosting rods 6 are respectively and rotatably connected with the two connecting pins 11 one by one; the rear ends of the top surfaces of the

turnover frames

31 and 33 positioned at the odd numbers are respectively and vertically fixedly connected with a connecting pin 11, and a first traction plate 81 is horizontally arranged at the rear side of the top plate 2-1 and is in one-to-one rotary connection with the connecting pins 11 positioned at the odd numbers; the front ends of the top surfaces of the

turnover frames

32 and 34 positioned at even numbers are respectively and vertically fixedly connected with a connecting pin 11, and a second traction plate 82 is horizontally arranged on the front side of the top plate 2-1 and is in one-to-one rotary connection with the connecting pins 11 positioned at even numbers; the height of the traction plate 8 is lower than that of the guide plate 7; the transmission device is connected with the rear end of the push plate 5 and is used for driving the pin shaft 9 to slide back and forth along the kidney-shaped counter bore 71; the transmission device comprises a turbine speed reducer 12 and a transmission plate 13, wherein the transmission plate 13 is horizontally arranged, one end of the transmission plate 13 is hinged with the rear end of the push plate 5, the other end of the transmission plate 13 is fixedly connected with an output shaft 121 of the turbine speed reducer through a key, a supporting plate 14 is arranged on the top plate 2-1, and a shell of the turbine speed reducer 12 is fixed on the supporting plate 14; the silk screens 1 on the two

turnover frames

31 and 32 connected with the boosting frame are oppositely arranged, the silk screens 1 on the turnover frames 3 connected with the same traction plate 8 are arranged in the same direction, namely the silk screens 1 on the

turnover frames

31 and 33 connected with the first traction plate 81 are arranged in the same direction, and the silk screens 1 on the

turnover frames

32 and 34 connected with the second traction plate 82 are arranged in the same direction.

Besides adopting the structure, the transmission device can be driven in a straight line by using an air cylinder or an electric cylinder.

When the number of the turnover frames 3 is only two, the turnover driving mechanism does not need to be provided with a traction plate 8, and as shown in fig. 9, the two turnover frames 3 can be pushed or pulled to rotate only through the boosting frame; when the number of the turnover frames 3 is three, only one traction plate 81 is required to be arranged on the turnover driving mechanism, and as shown in fig. 10, the three turnover frames 3 can be pushed or pulled to rotate through the boosting frame and the traction plate 81.

Referring to fig. 7 and 8, the turnover frame 3 includes a bottom frame 3-1 and a top frame 3-2, a guard plate 3-1-1 is integrally formed on the outer side of the bottom frame 3-1 along the circumferential direction thereof, the wire mesh 1 is arranged between the bottom frame 3-1 and the top frame 3-2 and fixedly connected with the three through screws 15, and the rotating shaft 4 passes through the guard plate 3-1-1 and is fixedly connected with the guard plate 3-1-1. So designed, the silk screen is installed stably and is convenient to disassemble and assemble.

Preferably, the specification of the silk screen 1 is 100-200 meshes. Under the capillary action, water molecular groups in the air are easily stuck by the silk screen when passing through the meshes of the silk screen, so that the effect of collecting smaller water drops (water drops with the diameter of more than 0.3 mm) in the air is achieved, and the smaller water drops in the air are mostly intercepted. The higher the mesh number of the silk screen is, the better the effect of separating small water drops is, but the air pressure drop is large; otherwise, the pressure drop is small, and the effect of separating small water drops is slightly poor. In actual production, the customer can select proper silk screen specifications according to different needs.

Referring to fig. 11 to 13, the collecting type water separator 17 includes flaps 171 arranged in parallel up and down, the flaps 171 are fixed by connecting ribs 172, and the width direction of the flaps 171 is parallel to the air intake direction; a rectangular plate 173 is respectively arranged at each bending position and the air outlet end of the folded plate 171, the rectangular plate 173 is arranged along the length direction of the folded plate 171, one plate of the rectangular plate 173 is fixedly connected with the folded plate 171, the other plate is parallel to the air inlet direction, a collecting groove 174 is formed by enclosing the rectangular plate 173 and the folded plate 171, and the notch of the collecting groove 174 faces the air inlet direction; the acute angle θ between each inclined surface of the flap 171 and the intake air direction is equal and 15 ° to 30 °, preferably 30 °. In the mounting, the mounting plates 175 may be fixed to both ends of the connecting rib 172, and the side plates may be fixed to both sides of the flap 171 in the longitudinal direction, and then the mounting plates 175 and the side plates may be fixed to the inner wall of the case 16.

The working principle of the lower wire collector 18 will be specifically described below, taking the number of the turnover frames 3 as four as an example:

1) When the air compressor is tested, the turbine speed reducer 12 is started to drive the transmission plate 13 to rotate to the position shown in fig. 6, so that the boosting frame pushes the

turnover frames

31 and 32 to be parallel to the air inlet direction, and the

rest turnover frames

32 and 34 are also rotated to be parallel to the air inlet direction under the linkage of the traction rod 8, and the silk screen 1 is parallel to the air inlet direction at the moment, so that garbage and rust in the air can not block the silk screen;

2) When the subsequent mass production is carried out, the turbine speed reducer 12 is started to drive the transmission plate 13 to rotate backwards to the position shown in fig. 4, under the pulling of the push plate 5, the two boosting rods 6 of the boosting frame are retracted, so that the

turnover frames

31 and 32 are driven to rotate and the front parts of the turnover frames are intersected, the front surfaces of the silk screens 1 face the air inlet direction and the acute angle between the front surfaces and the air inlet direction is 45 degrees, under the linkage of the traction rods 8, the

other turnover frames

33 and 34 also rotate along with the front surfaces of all silk screens 1, and finally, the front surfaces of all the silk screens 1 are spliced into an integral water collecting surface, so that small water drops in the air can be collected;

3) When the silk screen is required to be cleaned in the subsequent mass production period, the turbine speed reducer 12 is started to drive the transmission plate 13 to rotate forwards, and under the pushing of the push plate 5, the two boosting rods 6 of the boosting frame are opened, so that the

turnover frames

31 and 32 are driven to rotate and intersect with each other, the reverse side of the silk screen 1 faces the air inlet direction and has an acute angle of 45 degrees with the air inlet direction, the

rest turnover frames

33 and 34 also rotate along with the linkage of the traction rod 8, and finally, the reverse sides of all the silk screens 1 face forwards, so that the silk screen 1 can be backflushed and cleaned by using air, and the cleaning of the silk screen is ensured. The device can be washed every shift during production, so that the surface of the silk screen can be kept clean to the greatest extent, the pressure drop of an air system is small, and the energy consumption of the whole system is greatly reduced.

Claims

1. The utility model provides a combined type water knockout drum, its includes the casing, install two collection water knockout drums along the inlet direction interval in the casing, be located two install intermediate water knockout drum on the casing between the collection water knockout drum, its characterized in that: the middle water separator is a silk screen water collector, and the silk screen water collector comprises a wallboard frame;

the turnover driving mechanism is used for driving the turnover frames to rotate around the respective rotating shafts, so that the turnover frames are parallel to the air inlet direction when the turnover frames are in a non-working state; when the screen is in a working state, two adjacent overturning frames are intersected and mutually perpendicular, and the front face of the screen faces the air inlet direction and an acute angle between the front face of the screen and the air inlet direction is 45 degrees; when the screen is in a cleaning state, two adjacent overturning frames are intersected and mutually perpendicular, and the reverse side of the screen faces the air inlet direction and an acute angle between the reverse side of the screen and the air inlet direction is 45 degrees;

2. A composite water separator according to claim 1, wherein: the number of the turnover frames is two, the turnover driving mechanism comprises a transmission device, a push plate, a boosting frame, a guide plate and a pin shaft, and the boosting frame, the push plate and the guide plate are sequentially arranged from top to bottom; the guide plates are arranged between the two overturning frames along the air inlet direction and fixedly arranged on the top plate of the wallboard frame, and waist-shaped counter bores are formed in the guide plates along the length direction of the guide plates; the boosting frame comprises two boosting rods which are arranged up and down, one end of a pin shaft sequentially passes through the kidney-shaped counter bores, the front ends of the pushing plates and the rear ends of the two boosting rods from bottom to top, limiting nuts are sleeved on the pin shaft and are in clearance fit with the kidney-shaped counter bores, and the pin shaft is in running fit with the pushing plates and the two boosting rods; the front ends of the top surfaces of the two turnover frames are respectively and vertically fixedly connected with connecting pins, and the front ends of the two push-assisting rods are respectively and rotatably connected with the two connecting pins one by one; the transmission device is connected with the rear end of the push plate and used for driving the pin shaft to slide back and forth along the kidney-shaped counter bore; the silk screens on the two turnover frames are arranged opposite to each other.

3. A composite water separator according to claim 1, wherein: the number of the turnover frames is three, the turnover driving mechanism comprises a transmission device, a push plate, a boosting frame, a guide plate, a traction plate and a pin shaft, and the boosting frame, the push plate and the guide plate are sequentially arranged from top to bottom; the guide plates are arranged between two adjacent overturning frames along the air inlet direction and fixedly arranged on the top plate of the wallboard frame, and waist-shaped counter bores are formed in the guide plates along the length direction of the guide plates; the boosting frame comprises two boosting rods which are arranged up and down, one end of a pin shaft sequentially passes through the kidney-shaped counter bores, the front ends of the pushing plates and the rear ends of the two boosting rods from bottom to top, limiting nuts are sleeved on the pin shaft and are in clearance fit with the kidney-shaped counter bores, and the pin shaft is in running fit with the pushing plates and the two boosting rods; connecting pins are vertically and fixedly connected to the front ends of the top surfaces of the two turnover frames adjacent to the guide plates respectively, and the front ends of the two push-assisting rods are rotationally connected with the two connecting pins one by one respectively; the rear ends of the top surfaces of the turnover frames positioned at the two sides are respectively and vertically fixedly connected with a connecting pin, the traction plates are horizontally arranged, the two ends of the traction plates are respectively and rotatably connected with the two connecting pins positioned at the rear ends one by one, and the heights of the traction plates are lower than that of the guide plates; the transmission device is connected with the rear end of the push plate and used for driving the pin shaft to slide back and forth along the kidney-shaped counter bore; the silk screens on the two turnover frames connected with the boosting frame are arranged in opposite directions, and the silk screens on the two turnover frames connected with the traction plate are arranged in the same direction.

4. A composite water separator according to claim 1, wherein: the number of the turnover frames is more than three, the turnover driving mechanism comprises a transmission device, a push plate, a boosting frame, a guide plate, a traction plate and a pin shaft, the traction plate comprises a traction plate I and a traction plate II, and the boosting frame, the push plate and the guide plate are sequentially arranged from top to bottom; the guide plates are arranged between two adjacent turnover frames positioned at one side along the air inlet direction and fixedly arranged on the top plate of the wallboard frame, and waist-shaped counter bores are formed in the guide plates along the length direction of the guide plates; the boosting frame comprises two boosting rods which are arranged up and down, one end of a pin shaft sequentially passes through the kidney-shaped counter bores, the front ends of the pushing plates and the rear ends of the two boosting rods from bottom to top, limiting nuts are sleeved on the pin shaft and are in clearance fit with the kidney-shaped counter bores, and the pin shaft is in running fit with the pushing plates and the two boosting rods; connecting pins are vertically and fixedly connected to the front ends of the top surfaces of the two turnover frames adjacent to the guide plates respectively, and the front ends of the two push-assisting rods are rotationally connected with the two connecting pins one by one respectively; the rear ends of the top surfaces of the turnover frames positioned at the odd numbers are respectively and vertically fixedly connected with connecting pins, and the first traction plates are horizontally arranged at the rear side of the top plate and are in one-to-one rotary connection with the connecting pins positioned at the odd numbers; the front ends of the top surfaces of the turnover frames positioned at even numbers are respectively and vertically fixedly connected with connecting pins, and the second traction plates are horizontally arranged on the front side of the top plate and are in one-to-one rotary connection with the connecting pins positioned at even numbers; the height of the traction plate is lower than that of the guide plate; the transmission device is connected with the rear end of the push plate and used for driving the pin shaft to slide back and forth along the kidney-shaped counter bore; the silk screens on the two turnover frames connected with the boosting frame are arranged in opposite directions, and the silk screens on the turnover frames connected with the same traction plate are arranged in the same direction.

5. A composite water separator according to claim 2 or 3 or 4, wherein: the transmission device comprises a turbine speed reducer and a transmission plate, wherein the transmission plate is horizontally arranged, one end of the transmission plate is hinged with the rear end of the push plate, the other end of the transmission plate is fixedly connected with an output shaft of the turbine speed reducer through a key, a supporting plate is arranged on the top plate, and a shell of the turbine speed reducer is fixed on the supporting plate.

6. A composite water separator according to claim 1, wherein: the turnover frame comprises a bottom frame and a top frame, a guard plate is integrally formed on the outer side of the bottom frame along the circumferential direction of the bottom frame, the silk screen is arranged between the bottom frame and the top frame and fixedly connected with the bottom frame and the top frame through screws, and the rotating shaft penetrates through the guard plate and is fixedly connected with the guard plate.

7. A composite water separator according to claim 1, wherein: the specification of the silk screen is 100-200 meshes.

8. A composite water separator according to claim 1, wherein: the acute angles between each inclined plane of the folded plate and the air inlet direction are equal and are 15-30 degrees.

9. A composite water separator according to claim 1, wherein: the acute angle between each inclined surface of the folded plate and the air inlet direction is equal and 30 degrees.