CN109020088A - A kind of sewage-treatment plant of new-type multilayer cleaning - Google Patents

Abstract

The invention relates to the field of sewage treatment, more specifically a novel multi-layer cleaning sewage treatment device, including a water pump and a sewage treatment mechanism. The device can perform multi-layer filtration and deep cleaning of sewage, and the device is easy to replace Cleaning up the relevant parts of the sewage can prolong the service life of the device, and the device has a simple structure and is easy to operate. The water pump is connected with the sewage treatment mechanism.

Description

A new type of multi-layer cleaning sewage treatment device

technical field

The invention relates to the field of sewage treatment, in particular to a novel multi-layer cleaning sewage treatment device.

Background technique

With the continuous progress and development of society, although people's lives are getting better and better, the environmental pollution problems are becoming more and more serious, especially the pollution of water quality. The treatment of sewage has become the main policy for improving the environment, so the design of a A novel multi-layer cleaning sewage treatment device is used to solve this problem.

Contents of the invention

The technical problem mainly solved by the present invention is to provide a new type of multi-layer cleaning sewage treatment device. This device can filter multi-layers to carry out deep cleaning of sewage. The device has a simple structure and is easy to operate.

In order to solve the above technical problems, the present invention relates to the field of sewage treatment, more specifically a novel multi-layer cleaning sewage treatment device, including a water pump and a sewage treatment mechanism. Deep cleaning, the device is easy to replace the relevant parts for cleaning sewage, which can prolong the service life of the device, the device structure is simple, and it is easy to operate.

The sewage treatment mechanism includes a first-level treatment mechanism, a second-level treatment mechanism, a cleaning port, a third-level treatment mechanism, and a device shell. The first-level treatment mechanism is connected to the device shell, and the second-level treatment mechanism is connected to the device shell. connected with each other, the cleaning port is connected with the device shell, and the third processing mechanism is connected with the device shell;

The first layer of processing mechanism includes fixed rod 1, linkage shaft 1, gear set 1, fixed short rod, fastening bolt 1, linkage rod 1, debris brush, helical gear set 1, helical gear set 2, Y-shaped fixed rod, Engine mount, engine, trident mount, gear, helical gear set 3, helical gear set 4, linkage shaft 2, linkage rod 2, fastening bolt 2, gear set 2, linkage shaft 2, fixed rod 2, fixed rod 1 and fixed rod two are respectively fixed on both sides of the device shell by fastening screws, and the positions are symmetrical. Connection, the fixed short rod is meshed with the first linkage shaft, the first gear set is connected with the second helical gear set through the gear chain, the second helical gear set is connected with the Y-shaped fixed rod, and the Y-shaped fixed rod is connected with the first helical gear set. Helical gear set 1 is meshed with helical gear set 2, linkage shaft 1 is connected with linkage rod 1 through fastening bolt 1, linkage rod 1 is connected with debris brush, helical gear set 1 is connected with engine through gear chain, and engine It is connected with the engine fixing part, the engine fixing part is connected with the device casing through fastening screws, the three-pronged fixing part is connected with the device casing through fastening screws, the three-pronged fixing part is connected with the gear, and the gear is connected with the engine through a gear chain. The gears are meshed with the four-phase helical gear set, the four-phase helical gear set is meshed with the three-phase helical gear set, the third helical gear set is connected with the three-pronged fixed piece, the three-pronged fixed piece is connected with the four-phase helical gear set, and the three-pronged gear set is connected with the three-pronged set The two are connected through a gear chain, the gear set two is connected with the linkage shaft two, the gear set two is connected with the device shell through welding, and the linkage shaft two is connected with the fixed rod two;

The second layer processing mechanism includes filter plate 1, filter plate 2, filter plate 3, sealing cover, positioning pillar, T-shaped handle, movable shell, supporting spring, similar T-shaped support, internal sealing cover, longitudinal servo machine, filter Plate 1 is adapted to the device shell through the groove, filter plate 2 is located under the filter plate 1, filter plate 2 is adapted to the device shell through the groove, filter plate 3 is located under the filter plate 2, and filter plate 3 passes through the device shell The groove is adapted to the groove, and there are three sealing covers, which are respectively connected with filter plate 1, filter plate 2 and filter plate 3. The internal sealing cover is connected with the movable shell by fastening screws, and the T-shaped support part is connected with the internal filter plate. The sealing cover is adapted through the through hole, the T-like support is connected with the support spring, the support spring is adapted to the movable shell through the groove, the support spring is connected with the movable shell by welding, and the support spring is set outside the T-shaped handle , the movable shell is compatible with the T-shaped handle through the through hole. There are two positioning pillars, which are respectively located on the upper and lower sides of the right end of the movable shell, and the positions are symmetrical. The positioning pillars are connected with the movable shell, and the positioning pillars are connected with the The T-shaped handle is adapted through the groove, the T-shaped handle is engaged with the T-like support through the thread, the T-like support is adapted to the movable shell through the groove, and there are two longitudinal servos, which are fixed separately On the left and right sides of the inner sealing cover, the longitudinal servo is adapted to the housing of the device through grooves;

The sealing cover includes a semicircular pull ring, a rectangular cover plate, and a sealing rubber plug. There are two semicircular pull rings, which are evenly distributed on the rectangular cover plate. The rectangular cover plate is connected with the semicircular pull ring. plug connection;

The cleaning port includes hydraulic air struts, air strut doors, and U-shaped rubber pads. The hydraulic air struts are adapted to the device shell through grooves. The U-shaped rubber pad is adapted to the device shell through the groove, and the U-shaped rubber pad is connected with the device shell;

The third processing mechanism includes adsorption sponge, lower pressure plate, pressure plate support column, H-shaped linkage rod, central axis pillar, lifting fixed column, servo machine, the adsorption sponge is located under the lower pressure plate, the lower pressure plate is connected with the adsorption sponge, and the lower pressure plate It is connected with the support column of the pressure plate, and the support column of the pressure plate is adapted to the device shell through the through hole. The support column of the pressure plate is connected with the H-shaped linkage rod through the fastening bolt, and the central axis pillar is connected with the H-shaped linkage rod through the fastening bolt. There are two servos, which are respectively located on the left and right sides of the H-shaped linkage. The servo and the lifting and fixing column are adapted to each other through grooves, and the lifting and fixing column is connected to the device shell through welding. Connection, the central axis pillar and the device shell are connected by welding;

The device casing includes a casing body, a top cover, a drain, a supporting leg, a large-pore filter plate, and a valve pumping plate. The casing body is connected to the large-pore filter plate, the supporting legs are connected to the casing body, and the casing body is connected to the top cover. There is a drain port on the main body of the shell, and the drain port is connected with the valve pumping plate;

The water pump is connected with the sewage treatment mechanism.

As a further optimization of the technical solution, the number of supporting legs described in a novel multi-layer cleaning sewage treatment device of the present invention is four, which are evenly distributed on the bottom of the shell main body.

As a further optimization of the technical solution, the material of the supporting spring described in a novel multi-layer cleaning sewage treatment device of the present invention is carbon steel.

As a further optimization of the technical solution, the material of the sealing rubber plug and the U-shaped rubber pad in a novel multi-layer cleaning sewage treatment device of the present invention are all natural rubber.

As a further optimization of the technical solution, the position of the platen supporting column, the central axis column and the lifting and fixing column described in a novel multi-layer cleaning sewage treatment device of the present invention are parallel.

As a further optimization of the technical solution, the movable shell of a novel multi-layer cleaning sewage treatment device of the present invention is vertical to the support column of the pressing plate.

As a further optimization of the technical solution, the first filter plate, the second filter plate and the third filter plate described in a novel multi-layer cleaning sewage treatment device of the present invention are located in parallel.

As a further optimization of the technical solution, the material of the top cover of the novel multi-layer cleaning sewage treatment device of the present invention is hard plastic.

The beneficial effects of a novel multi-layer cleaning sewage treatment device of the present invention are:

The invention is a novel multi-layer cleaning sewage treatment device. The device can perform multi-layer filtration to carry out deep cleaning of sewage. The device is convenient for replacing related parts for cleaning sewage, and can prolong the service life of the device. The device has a simple structure and is easy to operate.

Description of drawings

The present invention will be described in further detail below in conjunction with the accompanying drawings and specific implementation methods.

Fig. 1 is a structural schematic diagram of a novel multi-layer cleaning sewage treatment device of the present invention.

Fig. 2 is a structural schematic diagram of the left view of the sewage treatment mechanism 2 of a novel multi-layer cleaning sewage treatment device of the present invention.

FIG. 3 is a schematic diagram of a partially enlarged structure of A in FIG. 1 .

FIG. 4 is a schematic diagram of a partial cross-sectional structure of E in FIG. 2 .

FIG. 5 is a schematic diagram of a partially enlarged structure of B in FIG. 1 .

FIG. 6 is a schematic diagram of the cross-sectional structure of F-F in FIG. 5 .

FIG. 7 is a schematic diagram of a partially enlarged structure of C in FIG. 1 .

Fig. 8 is a structural schematic diagram of a sealing cover 2-2-4 of a novel multi-layer cleaning sewage treatment device of the present invention.

FIG. 9 is a schematic diagram of a partially enlarged structure of D in FIG. 1 .

FIG. 10 is a schematic diagram of the cross-sectional structure of G-G in FIG. 9 .

Fig. 11 is a structural schematic diagram of a device housing 2-5 of a novel multi-layer cleaning sewage treatment device of the present invention.

Fig. 12 is a structural schematic diagram of a linkage shaft 1-2-1-2 of a novel multi-layer cleaning sewage treatment device of the present invention.

In the figure: water pump 1; sewage treatment mechanism 2; first layer treatment mechanism 2-1; fixed rod one 2-1-1; linkage shaft one 2-1-2; gear set one 2-1-3; fixed short Rod 2-1-4; fastening bolt one 2-1-5; linkage rod one 2-1-6; debris brush 2-1-7; helical gear set one 2-1-8; helical gear set two 2 -1-9; Y-shaped fixing rod 2-1-10; engine fixing part 2-1-11; engine 2-1-12; trident fixing part 2-1-13; gear 2-1-14; helical gear set Three 2-1-15; Helical gear set four 2-1-16; Linkage shaft two 2-1-17; Linkage lever two 2-1-18; Fastening bolt two 2-1-19; Gear set two 2- 1-20; linkage shaft two 2-1-21; fixed rod two 2-1-22; second layer processing mechanism 2-2; filter plate one 2-2-1; filter plate two 2-2-2; filter Plate 3 2-2-3; sealing cover 2-2-4; semicircular pull ring 2-2-4-1; rectangular cover plate 2-2-4-2; sealing rubber plug 2-2-4-3; positioning Pillar 2-2-5; T-shaped handle 2-2-6; movable shell 2-2-7; support spring 2-2-8; similar T-shaped support 2-2-9; inner sealing cover 2-2 -10; longitudinal servo machine 2-2-11; cleaning port 2-3; hydraulic air support 2-3-1; air support door 2-3-2; U-shaped rubber pad 2-3-3; third treatment Mechanism 2-4; adsorption sponge 2-4-1; lower platen 2-4-2; platen support column 2-4-3; H-shaped linkage rod 2-4-4; central axis pillar 2-4-5; lifting Fixed column 2-4-6; Servo machine 2-4-7; Device shell 2-5; Shell main body 2-5-1; Top cover 2-5-2; Drain outlet 2-5-3; Support leg 2- 5-4; large hole filter plate 2-5-5; valve pumping plate 2-5-6.

Detailed ways

Specific implementation mode one:

1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 to illustrate this embodiment, the present invention relates to the field of sewage treatment, more specifically a new multi- A sewage treatment device with multi-layer cleaning, including a water pump 1 and a sewage treatment mechanism 2. This device can filter in multiple layers to perform deep cleaning of sewage. The device is easy to replace the relevant parts for cleaning sewage, which can prolong the service life of the device. The structure of the device is simple. Easy to operate.

The sewage treatment mechanism 2 includes a first-level treatment mechanism 2-1, a second-level treatment mechanism 2-2, a cleaning port 2-3, a third treatment mechanism 2-4, and a device shell 2-5. The processing mechanism 2-1 is connected with the device casing 2-5, the second layer processing mechanism 2-2 is connected with the device casing 2-5, the cleaning port 2-3 is connected with the device casing 2-5, and the third processing mechanism 2-4 is connected with device shell 2-5;

The first layer of processing mechanism 2-1 includes a fixed rod one 2-1-1, a linkage shaft one 2-1-2, a gear set one 2-1-3, a fixed short rod 2-1-4, and a fastening bolt one 2 -1-5, linkage rod one 2-1-6, debris brush 2-1-7, helical gear set one 2-1-8, helical gear set two 2-1-9, Y-shaped fixed rod 2-1 -10, engine fixing part 2-1-11, engine 2-1-12, trident fixing part 2-1-13, gear 2-1-14, helical gear set three 2-1-15, helical gear set four 2 -1-16, linkage shaft two 2-1-17, linkage rod two 2-1-18, fastening bolt two 2-1-19, gear set two 2-1-20, linkage shaft two 2-1-21 1. Fixed rod two 2-1-22, fixed rod one 2-1-1 and fixed rod two 2-1-22 are respectively fixed on both sides of the device shell 2-5 by fastening screws, and the positions are symmetrical, and the linkage shaft one 2-1-2 is connected with the fixed rod 2-1-1, the fixed short rod 2-1-4 is connected with the device shell 2-5 by welding, the gear set 1 2-1-3 is connected with the fixed short rod 2- 1-4 are connected, the fixed short rod 2-1-4 is engaged with the linkage shaft 1 2-1-2, the gear set 1 2-1-3 is connected with the helical gear set 2 2-1-9 through the gear chain, Helical gear set two 2-1-9 is connected with Y-shaped fixed rod 2-1-10, Y-shaped fixed rod 2-1-10 is connected with helical gear set one 2-1-8, helical gear set one 2- 1-8 is meshed with helical gear set 2 2-1-9, linkage shaft 1 2-1-2 is connected with linkage rod 1 2-1-6 through fastening bolt 1 2-1-5, linkage rod 1 2 -1-6 is connected with sundry brush 2-1-7, helical gear set one 2-1-8 is connected with engine 2-1-12 through gear chain, and engine 2-1-12 is connected with engine fixing part 2- 1-11 are connected, the engine fixing part 2-1-11 is connected with the device casing 2-5 through fastening screws, the trident fixing part 2-1-13 is connected with the device casing 2-5 through fastening screws, and the trident is fixed Part 2-1-13 is connected with gear 2-1-14, and gear 2-1-14 is connected with engine 2-1-12 through a gear chain, and gear 2-1-14 is connected with helical gear set four 2-1- 16-phase meshing, helical gear set four 2-1-16 is meshed with helical gear set three 2-1-15, helical gear set three 2-1-15 is connected with three-fork fixing part 2-1-13, three-fork fixing part 2-1-13 is connected with helical gear set four 2-1-16, helical gear set three 2-1-15 is connected with gear set two 2-1-20 through a gear chain, and gear set two 2-1-20 Connected with linkage shaft 2 2-1-21, gear set 2 2-1-20 is connected with device shell 2-5 by welding, linkage shaft 2 2-1-21 is connected with fixed rod 2 2-1-22 After the sewage is extracted by the water pump 1, it is discharged to the first layer of treatment mechanism 2-1, and the larger impurities are intercepted through the large-pore filter plate 2-5-5, and the engine 2-1-12 simultaneously drives helical gear Group one 2-1-8 and gear 2-1-14, helical gear group one 2-1-8 drives helical gear group two 2-1-9, helical gear group two 2-1-9 drives gear group one 2- 1-3, gear set one 2-1-3 drives linkage shaft one 2-1-2, linkage shaft one 2-1-2 drives linkage lever one 2-1-6, linkage lever one 2-1-6 drives miscellaneous Object brush 2-1-7, gear 2-1-14 drives helical gear group four 2-1-16, helical gear group four 2-1-16 drives helical gear group three 2-1-15, helical gear group three 2 -1-15 drives gear set two 2-1-20, and gear set two 2-1-20 drives linkage shaft two 2-1-21, and linkage shaft two 2-1-21 drives linkage lever two 2-1-18, The linkage rod 2 2-1-18 drives the debris brush 2-1-7, and the debris brush 2-1-7 regularly cleans on the large-pore filter plate 2-5-5 to ensure that the large-pore filter plate 2-5-5 liquidity;

The second layer of processing mechanism 2-2 includes filter plate one 2-2-1, filter plate two 2-2-2, filter plate three 2-2-3, sealing cover 2-2-4, positioning pillar 2-2- 5. T-shaped handle 2-2-6, movable shell 2-2-7, support spring 2-2-8, T-like support 2-2-9, internal sealing cover 2-2-10, longitudinal servo Machine 2-2-11, filter plate one 2-2-1 adapts to the device shell 2-5 through the groove, filter plate two 2-2-2 is positioned at the bottom of filter plate one 2-2-1, filter plate two 2-2-2 is adapted to the device shell 2-5 through the groove, the filter plate three 2-2-3 is located under the filter plate two 2-2-2, the filter plate three 2-2-3 is connected to the device shell 2- 5 Adapt to the groove, there are three sealing covers 2-2-4, which are respectively connected with the first filter plate 2-2-1, the second filter plate 2-2-2 and the third filter plate 2-2-3 , the internal sealing cover 2-2-10 is connected with the movable housing 2-2-7 through fastening screws, the T-like support 2-2-9 is adapted to the internal sealing cover 2-2-10 through the through hole, The T-type support member 2-2-9 is in contact with the support spring 2-2-8, and the support spring 2-2-8 is compatible with the movable shell 2-2-7 through the groove, and the support spring 2-2-8 It is connected with the movable shell 2-2-7 by welding, the supporting spring 2-2-8 is set on the outside of the T-shaped handle 2-2-6, and the movable shell 2-2-7 is connected with the T-shaped handle 2-2-6 Compatible with the through holes, there are two positioning pillars 2-2-5, which are respectively located on the upper and lower sides of the right end of the movable housing 2-2-7, and the positions are symmetrical, and the positioning pillars 2-2-5 and the movable The shell 2-2-7 is connected, the positioning pillar 2-2-5 is adapted to the T-shaped handle 2-2-6 through the groove, and the T-shaped handle 2-2-6 is connected to the T-like support 2-2-9 Engage with the thread, the T-like support 2-2-9 is adapted to the movable shell 2-2-7 through the groove, and there are two longitudinal servos 2-2-11, which are respectively fixed in the inner seal On the left and right sides of the cover 2-2-10, the vertical servo machine 2-2-11 is compatible with the device shell 2-5 through the groove, and the sewage enters the second layer of processing mechanism 2 after passing through the first layer of processing mechanism 2-1 -2, the sewage passes through filter plate one 2-2-1, filter plate two 2-2-2 and filter plate three 2-2-3. The sealing cover 2-2-4, the longitudinal servo machine 2-2-11 drives the movable shell 2-2-7 to move, so that the T-like support 2-2-9 corresponds to the opened sealing cover 2-2-4 filter plate, pull the lifting and fixing column 2-4-6, and let go after a slight rotation, under the action of the support spring 2-2-8, the similar T-shaped support 2-2-9 will pass the sewage through the filter plate-2- 2-1 or filter plate two 2-2-2 or filter plate three 2-2-3 are pushed out, which is convenient for replacing the filter plate;

Sealing cover 2-2-4 includes semicircle pull ring 2-2-4-1, rectangular cover plate 2-2-4-2, sealing rubber plug 2-2-4-3, semicircle pull ring 2-2-4- There are two numbers of 1, evenly distributed on the rectangular cover plate 2-2-4-2, the rectangular cover plate 2-2-4-2 is connected with the semicircular pull ring 2-2-4-1, the rectangular cover plate The plate 2-2-4-2 is connected with the sealing rubber plug 2-2-4-3;

Cleaning port 2-3 includes hydraulic air support 2-3-1, air support door 2-3-2, U-shaped rubber pad 2-3-3, hydraulic air support 2-3-1 and device shell 2-5 pass through the concave The groove is compatible, the gas strut door 2-3-2 is connected with the hydraulic gas strut 2-3-1, the gas strut door 2-3-2 is connected with the U-shaped rubber pad 2-3-3, and the U-shaped rubber pad 2 -3-3 is compatible with the device shell 2-5 through the groove, the U-shaped rubber pad 2-3-3 is connected with the device shell 2-5, and the hydraulic air support 2-3-1 controls the air support door 2-3- 2. Open the air strut door 2-3-2 to clean the precipitated impurities in the device shell 2-5;

The third processing mechanism 2-4 includes adsorption sponge 2-4-1, lower platen 2-4-2, platen support column 2-4-3, H-shaped linkage rod 2-4-4, central axis pillar 2-4 -5. Lifting and fixing column 2-4-6, servo machine 2-4-7, adsorption sponge 2-4-1 is located under the lower pressing plate 2-4-2, lower pressing plate 2-4-2 and adsorption sponge 2- 4-1 are connected, the lower platen 2-4-2 is connected with the platen support column 2-4-3, the platen support column 2-4-3 is adapted to the device shell 2-5 through the through hole, the platen support column 2- 4-3 is connected with the H-shaped linkage rod 2-4-4 through fastening bolts, the central axis pillar 2-4-5 is connected with the H-shaped linkage rod 2-4-4 through fastening bolts, and the H-shaped linkage rod 2 -4-4 is connected with servo machine 2-4-7, and the quantity of servo machine 2-4-7 has two, is respectively positioned at the left and right sides of H shape linkage bar 2-4-4, and servo machine 2-4 -7 is compatible with the lifting and fixing column 2-4-6 through the groove, and the lifting and fixing column 2-4-6 is connected with the device shell 2-5 by welding, and the central axis pillar 2-4-5 is connected with the device shell 2-5 Connected by welding, the filtered sewage passes through the adsorption sponge 2-4-1, and the servo machine 2-4-7 drives one end of the H-shaped linkage rod 2-4-4 to move, so that the H-shaped linkage rod 2-4-4 drives The pressure plate support column 2-4-3 moves downward, so that the lower pressure plate 2-4-2 squeezes the adsorption sponge 2-4-1, and the adsorption sponge 2-4-1 absorbs the suspended solids in the sewage, and the water flows into it after extrusion the right side of the device housing 2-5;

The device shell 2-5 includes a shell main body 2-5-1, a top cover 2-5-2, a drain port 2-5-3, a support leg 2-5-4, a large-pore filter plate 2-5-5, and a valve pump Plate 2-5-6, shell main body 2-5-1 is connected with large hole filter plate 2-5-5, support leg 2-5-4 is connected with shell main body 2-5-1, shell main body 2-5 -1 is connected with the top cover 2-5-2, the shell main body 2-5-1 is provided with a drain port 2-5-3, and the drain port 2-5-3 is connected with the valve pumping plate 2-5-6, By opening the top cover 2-5-2, put microbial particles into the device shell 2-5 to purify water resources, and then open the valve pumping plate 2-5-6 to discharge the water;

The water pump 1 is connected with the sewage treatment mechanism 2 .

Specific implementation mode two:

Below in conjunction with Figures 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, this embodiment will be described. This embodiment will further describe Embodiment 1. The supporting legs 2-5- There are four numbers of 4, which are evenly distributed on the bottom of the shell main body 2-5-1.

Specific implementation mode three:

Below in conjunction with Fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, this embodiment will be described. This embodiment will further describe Embodiment 1, and the support spring 2-2- The material of 8 is carbon steel.

Specific implementation mode four:

Below in conjunction with Fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 illustrate this embodiment mode, this embodiment mode will further explain embodiment one, described sealing rubber plug 2-2 The material of -4-3 and U-shaped rubber pad 2-3-3 is natural rubber.

Specific implementation mode five:

Below in conjunction with Fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, this embodiment will be described. -3. The central axis pillar 2-4-5 is parallel to the lifting and fixing column 2-4-6.

Specific implementation method six:

Below in conjunction with Fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, this embodiment will be described. -7 is perpendicular to the 2-4-3 position of the pressure plate support column.

Specific implementation mode seven:

Below in conjunction with Fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 illustrate this embodiment mode, this embodiment mode will further explain embodiment one, described filter plate one 2-2 -1. The second filter plate 2-2-2 and the third filter plate 2-2-3 are located in parallel.

Specific implementation mode eight:

Below in conjunction with Figures 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, this embodiment will be described. This embodiment will further describe Embodiment 1. The top cover 2-5- The material of 2 is hard plastic.

How to use the device: After the sewage is pumped by the pump 1, it is discharged to the first layer of treatment mechanism 2-1, and the larger impurities are intercepted through the large-pore filter plate 2-5-5. At this time, the engine 2-1 -12 drives helical gear set one 2-1-8 and gear 2-1-14 at the same time, helical gear set one 2-1-8 drives helical gear set two 2-1-9, helical gear set two 2-1-9 Drive gear group one 2-1-3, gear group one 2-1-3 drives linkage shaft one 2-1-2, linkage shaft one 2-1-2 drives linkage rod one 2-1-6, linkage rod one 2 -1-6 drives debris brush 2-1-7, gear 2-1-14 drives helical gear set four 2-1-16, helical gear set four 2-1-16 drives helical gear set three 2-1-15 , Helical gear set three 2-1-15 drives gear set two 2-1-20, gear set two 2-1-20 drives linkage shaft two 2-1-21, linkage shaft two 2-1-21 drives linkage lever two 2-1-18, linkage rod 2 2-1-18 drives sundry brush 2-1-7, and sundry brush 2-1-7 regularly cleans on the large-pore filter plate 2-5-5 to ensure that the large-pore filter Plate 2-5-5 for circulation.

After the sewage passes through the first layer of treatment mechanism 2-1, it enters the second layer of treatment mechanism 2-2, and the sewage passes through filter plate one 2-2-1, filter plate two 2-2-2 and filter plate three 2-2-3 , after filtering, enter the left side of the interior of the device housing 2-5, wherein the sealing cover 2-2-4 is opened, and the longitudinal servo 2-2-11 drives the movable housing 2-2-7 to move, making a T-like The support member 2-2-9 corresponds to the filter plate corresponding to the opened sealing cover 2-2-4, pull the lifting and fixing column 2-4-6, and let go after slightly rotating, under the action of the support spring 2-2-8 , The similar T-shaped support member 2-2-9 pushes the sewage through filter plate one 2-2-1 or filter plate two 2-2-2 or filter plate three 2-2-3, which is convenient for replacing the filter plate.

The filtered sewage passes through the adsorption sponge 2-4-1, and the servo machine 2-4-7 drives one end of the H-shaped linkage rod 2-4-4 to move, so that the H-shaped linkage rod 2-4-4 drives the pressure plate support column 2- 4-3 moves downward, so that the lower pressure plate 2-4-2 squeezes the adsorption sponge 2-4-1, and the adsorption sponge 2-4-1 absorbs the suspended matter in the sewage, and the water flows into the device shell 2-5 after extrusion On the right side, by opening the top cover 2-5-2, microbe particles are dropped into the device shell 2-5 to purify water resources, and the valve is opened to draw plate 2-5-6 to discharge the water.

The hydraulic air strut 2-3-1 controls the air strut door 2-3-2, opens the air strut door 2-3-2, and can clean up the precipitated impurities in the device shell 2-5.

The device can filter in multiple layers, and can deeply clean the sewage. The device is convenient for replacing the relevant parts for cleaning the sewage, and can prolong the service life of the device. The device has a simple structure and is easy to operate.

Of course, the above description is not a limitation of the present invention, and the present invention is not limited to the above examples. Changes, modifications, additions or replacements made by those skilled in the art within the scope of the present invention also belong to the scope of the present invention. protected range.

Claims (8)

1. A novel sewage treatment device for multi-layer cleaning, comprising a water pump (1), a sewage treatment mechanism (2), characterized in that: the sewage treatment mechanism (2) comprises a first floor treatment mechanism (2- 1), the second layer of processing mechanism (2-2), the cleaning port (2-3), the third processing mechanism (2-4), the device shell (2-5), the first layer of processing mechanism (2-1 ) is connected with the device shell (2-5), the second layer processing mechanism (2-2) is connected with the device shell (2-5), and the cleaning port (2-3) is connected with the device shell (2-5) , the third processing mechanism (2-4) is connected with the device shell (2-5); The first layer of processing mechanism (2-1) comprises fixed rod one (2-1-1), linkage shaft one (2-1-2), gear set one (2-1-3), fixed short rod (2- 1-4), fastening bolt one (2-1-5), linkage rod one (2-1-6), debris brush (2-1-7), helical gear set one (2-1-8) , helical gear set two (2-1-9), Y-shaped fixed rod (2-1-10), engine mount (2-1-11), engine (2-1-12), trident mount (2 -1-13), gear (2-1-14), helical gear group three (2-1-15), helical gear group four (2-1-16), linkage shaft two (2-1-17), Two linkage rods (2-1-18), two fastening bolts (2-1-19), two gear sets (2-1-20), two linkage shafts (2-1-21), two fixed rods (2 -1-22), fixed rod one (2-1-1) and fixed rod two (2-1-22) are respectively fixed on both sides of the device shell (2-5) by fastening screws, and the positions are symmetrical, linkage Axle one (2-1-2) is connected with fixed rod one (2-1-1), fixed short rod (2-1-4) is connected with device shell (2-5) by welding, gear set one ( 2-1-3) is connected with the fixed short rod (2-1-4), the fixed short rod (2-1-4) is meshed with the linkage shaft one (2-1-2), and the gear set one (2- 1-3) It is connected with the second helical gear set (2-1-9) through a gear chain, and the second helical gear set (2-1-9) is connected with the Y-shaped fixed rod (2-1-10), and the Y-shaped The fixed rod (2-1-10) is connected with the first helical gear set (2-1-8), and the first helical gear set (2-1-8) is meshed with the second helical gear set (2-1-9), The linkage shaft one (2-1-2) is connected with the linkage rod one (2-1-6) through the fastening bolt one (2-1-5), and the linkage rod one (2-1-6) is connected with the debris brush (2-1-7) is connected, and helical gear set one (2-1-8) is connected with motor (2-1-12) by gear chain, and motor (2-1-12) is connected with motor mount (2 -1-11) are connected, the engine fixing part (2-1-11) is connected with the device casing (2-5) by fastening screws, and the trident fixing part (2-1-13) is connected with the device casing (2-5) ) are connected by fastening screws, the trident fixing piece (2-1-13) is connected with the gear (2-1-14), and the gear (2-1-14) is connected with the engine (2-1-12) through the gear chain connected, the gear (2-1-14) meshes with the helical gear set four (2-1-16), and the helical gear set four (2-1-16) is in phase with the helical gear set three (2-1-15) Alignment, the helical gear set three (2-1-15) is connected with the three-fork fixing piece (2-1-13), and the three-prong fixing piece (2-1-13) is connected with the helical gear set four (2-1-16) Connection, helical gear set three (2-1-15) and gear set two (2-1-20) are connected through a gear chain, gear set two (2-1-20) is connected with linkage shaft two (2-1-21), gear set two (2-1-20) is connected with device shell (2-5) by welding, linkage shaft two (2- 1-21) is connected with fixed rod two (2-1-22); The second layer of processing mechanism (2-2) comprises filter plate one (2-2-1), filter plate two (2-2-2), filter plate three (2-2-3), sealing cover (2-2 -4), positioning pillar (2-2-5), T-shaped handle (2-2-6), movable shell (2-2-7), support spring (2-2-8), similar T-shaped support piece (2-2-9), internal sealing cover (2-2-10), longitudinal servo machine (2-2-11), filter plate one (2-2-1) and device shell (2-5) through The groove is compatible, the second filter plate (2-2-2) is located under the first filter plate (2-2-1), and the second filter plate (2-2-2) and the device shell (2-5) pass through the groove Correspondingly, the filter plate three (2-2-3) is located under the filter plate two (2-2-2), and the filter plate three (2-2-3) is adapted to the device shell (2-5) through the groove , there are three sealing covers (2-2-4), which are respectively connected with filter plate one (2-2-1), filter plate two (2-2-2) and filter plate three (2-2-3) Contact connection, the internal sealing cover (2-2-10) is connected with the movable shell (2-2-7) through fastening screws, and the T-like support (2-2-9) is connected with the internal sealing cover (2-2-7). 2-10) Through the through hole, the T-shaped support (2-2-9) is connected with the support spring (2-2-8), and the support spring (2-2-8) is connected with the movable shell (2-2-8). -2-7) Adapt to the groove, the supporting spring (2-2-8) is connected with the movable shell (2-2-7) by welding, and the supporting spring (2-2-8) is set on the T-shaped handle (2-2-6) outside, movable shell (2-2-7) and T-shaped handle (2-2-6) adapt to through hole, and the number of positioning pillar (2-2-5) has two one, respectively located on the upper and lower sides of the right end of the movable casing (2-2-7), and the positions are symmetrical, the positioning pillar (2-2-5) is connected with the movable casing (2-2-7), and the positioning pillar ( 2-2-5) Adapt to the T-shaped handle (2-2-6) through the groove, and the T-shaped handle (2-2-6) is engaged with the T-like support (2-2-9) through the thread , the T-like support (2-2-9) is adapted to the movable shell (2-2-7) through the groove, and there are two longitudinal servos (2-2-11), which are respectively fixed on On the left and right sides of the internal sealing cover (2-2-10), the longitudinal servo (2-2-11) is compatible with the device shell (2-5) through grooves; Sealing cover (2-2-4) includes semicircular pull ring (2-2-4-1), rectangular cover plate (2-2-4-2), sealing rubber plug (2-2-4-3), semicircular There are two pull rings (2-2-4-1), which are evenly distributed on the rectangular cover plate (2-2-4-2), and the rectangular cover plate (2-2-4-2) and the semicircle The pull ring (2-2-4-1) is connected, and the rectangular cover plate (2-2-4-2) is connected with the sealing rubber plug (2-2-4-3); Cleaning port (2-3) comprises hydraulic air support (2-3-1), air support door (2-3-2), U-shaped rubber pad (2-3-3), hydraulic air support (2-3- 1) Compatible with the device shell (2-5) through the groove, the gas strut door (2-3-2) is connected with the hydraulic gas strut (2-3-1), and the gas strut door (2-3-2) Connect with the U-shaped rubber pad (2-3-3), the U-shaped rubber pad (2-3-3) is adapted to the device shell (2-5) through the groove, and the U-shaped rubber pad (2-3-3 ) is connected with the device shell (2-5); The third processing mechanism (2-4) comprises adsorption sponge (2-4-1), lower pressing plate (2-4-2), pressing plate supporting post (2-4-3), H-shaped linkage rod (2-4 -4), the central shaft pillar (2-4-5), the lifting and fixing column (2-4-6), the servo machine (2-4-7), the adsorption sponge (2-4-1) is located on the lower platen (2 -4-2), the lower pressure plate (2-4-2) is connected with the adsorption sponge (2-4-1), and the lower pressure plate (2-4-2) is connected with the pressure plate support column (2-4-3) Connected, the pressure plate support column (2-4-3) is compatible with the device shell (2-5) through the through hole, and the pressure plate support column (2-4-3) and the H-shaped linkage rod (2-4-4) pass through The fastening bolts are connected, the central axis pillar (2-4-5) is connected with the H-shaped linkage rod (2-4-4) through the fastening bolts, and the H-shaped linkage rod (2-4-4) is connected with the servo machine ( 2-4-7), there are two servo machines (2-4-7), which are respectively located on the left and right sides of the H-shaped linkage rod (2-4-4), and the servo machines (2-4- 7) Adapt to the lifting and fixing column (2-4-6) through the groove, the lifting and fixing column (2-4-6) is connected with the device shell (2-5) by welding, and the central axis pillar (2-4- 5) It is connected with the device shell (2-5) by welding; The device casing (2-5) includes a casing body (2-5-1), a top cover (2-5-2), a drain port (2-5-3), a support leg (2-5-4), a large hole Filter plate (2-5-5), valve pumping plate (2-5-6), shell main body (2-5-1) is connected with large hole filter plate (2-5-5), support leg (2- 5-4) It is connected with the shell body (2-5-1), the shell body (2-5-1) is connected with the top cover (2-5-2), and the shell body (2-5-1) is set There is a drain port (2-5-3), and the drain port (2-5-3) is connected with the valve pumping plate (2-5-6); The water pump (1) is connected with the sewage treatment mechanism (2). 2. A novel multi-layer cleaning sewage treatment device according to claim 1, characterized in that: there are four supporting legs (2-5-4), which are evenly distributed on the shell body (2-5-1) bottom. 3. A novel multi-layer cleaning sewage treatment device according to claim 1, characterized in that: said support spring (2-2-8) is made of carbon steel. 4. A new type of multi-layer cleaning sewage treatment device according to claim 1, characterized in that: said sealing rubber plug (2-2-4-3) and U-shaped rubber pad (2-3- 3) The materials are all natural rubber. 5. A new type of multi-layer cleaning sewage treatment device according to claim 1, characterized in that: said pressure plate support column (2-4-3), central axis support column (2-4-5) and Lifting and fixing column (2-4-6) position is parallel. 6. A new type of multi-layer cleaning sewage treatment device according to claim 1, characterized in that: the position of the movable shell (2-2-7) and the pressure plate support column (2-4-3) vertical. 7. a kind of novel multi-layer cleaning sewage treatment device according to claim 1, is characterized in that: described filter plate one (2-2-1), filter plate two (2-2-2) and The filter plate three (2-2-3) positions are parallel. 8. A novel multi-layer cleaning sewage treatment device according to claim 1, characterized in that: the material of the top cover (2-5-2) is hard plastic.