阅读说明：本技术 一种污水处理反应器 (Sewage treatment reactor ) 是由 储晨晨 于 2021-07-15 设计创作，主要内容包括：本发明提供了一种污水处理反应器,包括：主体、排水管、升降槽、好氧器、浮力板和收集辊,主体一侧固定连接有排水管,主体中部两侧通过升降槽开槽嵌合连接有浮力板,主体内部底端嵌合连接有好氧器,所述浮力板之间嵌合设置有收集辊,通过该装置设置的收集辊能够在主体中的污水被注入氧气的时候因为水流的翻滚活动而发生旋转位移,来对因为污水的翻滚活动导致底部沉淀漂浮到水位表面的杂质进行收集,防止污水中移动杂质因为无法分解导致一直停留在水中继续进行污染。(The invention provides a sewage treatment reactor, comprising: main part, drain pipe, lift groove, good oxygen ware, buoyancy board and collection roller, main part one side fixedly connected with drain pipe, main part middle part both sides are connected with the buoyancy board through lift groove fluting gomphosis, and the inside bottom gomphosis of main part is connected with good oxygen ware, the gomphosis is provided with the collection roller between the buoyancy board, and the collection roller that sets up through the device can take place rotary displacement because the activity of rolling of rivers when the sewage in the main part is poured into oxygen into, comes to lead to the bottom to deposit the impurity of floating to water level surface because the activity of rolling of sewage to collect, prevents to remove impurity in the sewage and lead to stopping always in the aquatic and continue to pollute because unable decomposition.)

1. A wastewater treatment reactor comprising: main part (1), main part (1) one side is connected with drain pipe (101), its characterized in that: the main body (1) is connected with buoyancy plates (2) in the middle of the main body (1) through lifting grooves (102) in the two sides of the middle of the main body, an oxygen supplier (103) is connected to the bottom end inside the main body (1), and collecting rollers (3) are connected between the buoyancy plates (2).

2. The wastewater treatment reactor according to claim 1, wherein: buoyancy board (2) are including lift piece (201) and displacement groove (202), lift piece (201) are the lug that buoyancy board (2) one side and lift groove (102) looks gomphosis are connected, and two bulge gomphosis of lift piece (201) lug are provided with the circle axle, displacement groove (202) are the recess that buoyancy board (2) one side surface is rectangular form.

3. The wastewater treatment reactor according to claim 1, wherein: collect roller (3) including assaulting and collect piece (301), skew groove (302) and displacement axis (303), assault and collect piece (301) and set up in the trapezoidal form lug around collecting roller (3) for the gomphosis, skew groove (302) are the recess of the semicircle axle form of collecting piece (301) is collected in the surface connection around collecting roller (3), displacement axis (303) are the round axle that collects roller (3) inside middle part and run through the gomphosis setting, and displacement axis (303) round axle both ends bulge is connected together with displacement groove (202) threaded connection.

4. The sewage treatment reactor according to claim 2, wherein the impact collection block (301) further comprises an offset shaft (3011), an offset block (3012), a limiting groove (3013) and a collection groove (3014), the offset shaft (3011) is a circular shaft connecting the bottom end of the impact collection block (301) and the offset groove (302) in an embedded manner, the offset block (3012) is a square block combining a plurality of trapezoidal rectangular shapes with each other to form the impact collection block (301), the limiting groove (3013) is a groove connecting the top end of each offset block (3012) and a convex block at the bottom end of another offset block (3012) in an embedded manner, the collection groove (3014) is a groove connecting the two sides of each offset block (3012) in a rectangular shape, and a filter screen is arranged at the bottom end of the collection groove (3014) in an embedded manner.

5. The wastewater treatment reactor according to claim 4, wherein: the offset groove (3021) comprises a resisting block (3021), and the resisting block (3021) is a convex block which is obliquely and curvedly arranged on two sides of the opening of the groove of the offset groove (3021).

Technical Field

The invention relates to the technical field of sewage treatment, in particular to the technical field of a sewage treatment reactor.

Background

The sewage treatment refers to that polluted water flows with impurities or chemicals and the like generated in life uniformly flow into a specified area, then purification of physical or chemical reactions is carried out on the polluted water flows to clean the impurities and harmful substances in the sewage to enable the polluted water flows to reach the recycling degree, the sewage treatment reaction is to carry out reaction decomposition and purification on organic matters in the sewage by injecting medicaments or oxygen into the sewage in a reaction tank, the sewage is violently rolled due to impact of air flow when the oxygen is injected to decompose the organic matters, or the impurities precipitated at the bottom end of the sewage float on the surface of a water level to emit peculiar smell, and the impurities are secondarily dissolved into the sewage along with the rolling of the water flows to form pollution.

Disclosure of Invention

Problem (A)

In summary, the present invention provides a sewage treatment reactor, which is used to solve the problem that impurities precipitated in sewage are likely to float to the surface of water level again due to airflow when the existing sewage treatment reactor is injected to perform reaction decomposition on organic matters.

(II) technical scheme

The invention provides a sewage treatment reactor, comprising: the automatic aerator comprises a main body, a drain pipe, a lifting groove, an oxygen feeder, a buoyancy plate and a collecting roller, wherein the drain pipe is fixedly connected to one side of the main body, the buoyancy plate is connected to the two sides of the middle of the main body through the grooving and embedding of the lifting groove, the oxygen feeder is connected to the bottom end of the inside of the main body, and the collecting roller is arranged between the buoyancy plates in an embedded mode.

Furthermore, the buoyancy plate comprises a lifting block and a displacement groove, the lifting block is a convex block which is connected with the groove of the lifting groove in an embedded mode on one side of the buoyancy plate, a circular shaft is arranged on the convex portions of the surfaces on the two sides of the lifting block in an embedded mode, and the displacement groove is a groove which is rectangular in shape in the middle of the surface of one side of the buoyancy plate.

Furthermore, the collecting roller also comprises an impact collecting block, an offset groove and a displacement shaft, wherein the impact collecting block is a triangular lug which is embedded and arranged around the collecting roller, the offset groove is a circular shaft-shaped groove which is connected with the impact collecting block around the collecting roller, and the displacement shaft is a circular shaft which is arranged in the middle of the collecting roller in a protruding mode and is embedded with the tooth marks of the displacement groove at the two protruding end portions.

Further, strike and collect the piece still including the offset shaft, the skew piece, restricted slot and collecting vat, the offset shaft is for strikeing to collect a piece bottom gomphosis and set up in the round axle in the skew groove, the skew piece is a plurality of rectangular form squares that are trapezoidal form and overlaps each other and make up into the square that strikes and collect the piece, the recess that the restricted slot is that every skew piece and another skew piece lug looks gomphosis are connected, the collecting vat is the fluting that rectangular form for every skew piece both sides, and collecting vat fluting bottom gomphosis is provided with the filter screen.

Furthermore, the offset groove also comprises a resisting block which is a rectangular convex block bent and obliquely extended at two sides of the opening of the offset groove.

(III) advantageous effects

(1) The collection roller that sets up through the device can take place rotary displacement because the activity of rolling of rivers when the sewage in the main part is poured into oxygen, comes to lead to the bottom to deposit because the activity of rolling of sewage and float to the impurity of water level surface and collect, prevents to remove impurity in the sewage and lead to staying in the aquatic continuously to pollute because unable decomposition.

(2) The device still is provided with the buoyancy board, can go up and down along the inner wall of main part through its self buoyancy through the buoyancy board when sewage enters into the main part inside, also can drive simultaneously and collect the roller and together go up and down, lets it can let the water level surface who collects the roller and sewage always contact through buoyancy.

(3) The device still is provided with the skew piece, and the impact that the combination was taken together through the mutual gomphosis of a plurality of skew pieces is connected and is collected the piece and can let its skew piece carry out dislocation motion through its power of supporting after collecting the roller and removing the certain distance at water level surface, lets impact and collect the piece and can change its direction and take place the circular arc slope for thereby it can carry out the rotation of direction and carry out the collection removal that relapses along sewage water level surface after removing the certain distance to collect the roller.

Drawings

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

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

FIG. 3 is an enlarged view of the structure of FIG. 2 at A according to the present invention;

FIG. 4 is a schematic view of a partial structure of a collector roll according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4 at B according to the present invention;

FIG. 6 is a schematic diagram of the movable structure of the offset block of the impact collection block of the present invention;

in fig. 1 to 6, the corresponding relationship between the part names or lines and the reference numbers is:

the device comprises a main body 1, a water drainage pipe 101, a lifting groove 102, an aerobic device 103, a buoyancy plate 2, a lifting block 201, a displacement groove 202, a collection roller 3, an impact collection block 301, an offset shaft 3011, an offset block 3012, a limiting groove 3013, a collection groove 3014, an offset groove 302, a resisting block 3021 and a displacement shaft 303.

Detailed Description

Please refer to fig. 1 to 6

The invention provides a sewage treatment reactor, comprising: main part 1, 1 one side of main part is connected with drain pipe 101, main part 1 connects buoyancy board 2 at 1 middle part of main part through middle part both sides lift groove 102, 1 inside bottom of main part is connected with good oxygen ware 103, be connected with between the buoyancy board 2 and collect roller 3, buoyancy board 2 is including elevator 201 and displacement tank 202, elevator 201 is the lug that 2 one sides of buoyancy board and lift groove 102 looks gomphosis are connected, and the gomphosis of two bulge parts of elevator 201 lug is provided with the circle axle, displacement tank 202 is the recess of rectangular form for 2 side surfaces of buoyancy board. The sewage is contacted with the buoyancy plate 2 through the continuous water inflow water level increase when the sewage flows into the main body 1, the buoyancy plate 2 ascends and descends according to the rising and falling of the water level through the buoyancy of the buoyancy plate 2, the buoyancy plate 2 ascends and descends through the embedding of the lifting block 201 on one side of the buoyancy plate in the lifting grooves 102 on the two sides of the inner wall of the main body 1, the collecting roller 3 comprises an impact collecting block 301, an offset groove 302 and a displacement shaft 303, the impact collecting block 301 is a ladder-shaped bump arranged around the collecting roller 3 in an embedding manner, the offset groove 302 is a semicircular shaft-shaped groove formed by connecting the peripheral surface of the collecting roller 3 with the impact collecting block 301, the displacement shaft 303 is a circular shaft arranged in the middle of the collecting roller 3 in a penetrating and embedding manner, and the protruding parts at the two ends of the circular shaft of the displacement shaft 303 are connected with the displacement grooves 202 in a threaded embedding manner. The buoyancy plate 2 can drive the middle collecting roller 3 to be attached to a water level to lift while lifting, when oxygen is injected into sewage in the main body 1 through the oxygen purifier 103, the water level surface of the sewage can be rolled and stirred due to impact force of air flow impact, when the water surface of the sewage rolls and flows, the sewage can impact the impact collecting block 301 with the convex surface around the collecting roller 3, and when the impact collecting block 301 is in a curved arc shape, the impact collecting block 301 can be forced to move to one side when impacting into the arc groove, so that the collecting roller 3 starts to rotate, because the middle part in the collecting roller 3 is embedded with the thread of the displacement groove 202 through the displacement shaft 303, the impact collecting block 301 can move to one side along the groove mark of the displacement groove 202 when the collecting roller 3 rotates and drives the displacement shaft 303 to rotate together, and the impact collecting block 301 further comprises an offset shaft 3011, The offset block 3012, the limiting slot 3013 and the collecting slot 3014, the offset axis 3011 is a circular axis connecting the bottom end of the impact collection block 301 and the offset slot 302 in an embedded manner, the offset block 3012 is a square block combining a plurality of trapezoidal rectangular shapes overlapped with each other to form the impact collection block 301, the limiting slot 3013 is a groove connecting the top end of each offset block 3012 and a convex block at the bottom end of another offset block 3012 in an embedded manner, the collecting slot 3014 is a slot at two sides of each offset block 3012 in a rectangular shape, and a filter screen is arranged at the bottom end of the slot of the collecting slot 3014 in an embedded manner. The collecting roller 3 can be attached to the surface of the water to move when rotating through the movement of the displacement shaft 303 along the displacement groove 202, when the impact collecting block 301 is impacted by water flow to drive the water flow to rotate, part of the water flow can flow into the opening of the collecting groove 3014 in each offset block 3012 combined into the impact collecting block 301, then impurities in the sewage rolled by the water flow to the surface are filtered and collected into the collecting groove 3014 through the filter screen in the collecting groove 3014, so that a large amount of impurities float on the surface of the water due to the rolling movement of the water flow when the oxygen is injected into the sewage by the aerobic device 103, the offset groove 3021 comprises a resisting block 3021, and the resisting block 3021 is a convex block obliquely and curved on two sides of the opening of the groove of the offset groove 3021. When the collecting roller 3 moves to one end along the displacement groove 202 through the displacement shaft 303, the displacement shaft 303 cannot move continuously and therefore cannot be driven by the collecting roller 3 to rotate, so that the offset shaft 3011 of the impact collection block 301 connected to the periphery of the collecting roller 3 can be attached to the surface of the displacement shaft 303 to move when the collecting roller 3 rotates continuously, the offset shaft 3011 can rotate to a certain extent, when the offset shaft 3011 rotates, the impact collection block 301 is driven to incline to the other side, the offset block 3012 combined into the impact collection block 301 can abut against the abutting block 3021 on the other side of the displacement groove 302, one of the offset blocks 3012 can contract to the other side through the rotational force of the offset shaft 3011, and after the impact collection block contracts and moves for a certain distance, the offset blocks 3012 on the upper side and the lower side can be driven to contract together to move to a certain extent, so that the whole impact collection block 301 can form a groove on the other side to receive the impact of water flow, so that the collection roller 3 rotates in the reverse direction to cause the displacement shaft 303 to continue rotating and to move in the reverse direction along the displacement groove 202, thereby allowing the collection roller 3 to repeatedly move between the buoyancy plates 2.

(IV) working principle

The invention provides a sewage treatment reactor, firstly processing sewage to be treated to flow into a main body 1, then injecting oxygen into the sewage through an aerobic device 103 at the bottom end of the sewage to decompose and decontaminate the sludge in the sewage, then discharging the treated sewage through a drain pipe 101, contacting a buoyancy plate 2 through continuous water flow inflow water level increase when the sewage flows into the main body 1, ascending and descending according to the rising and falling of the water level through the buoyancy of the buoyancy plate 2, wherein the buoyancy plate 2 ascends and descends through a lifting block 201 at one side embedded in lifting grooves 102 at two sides of the inner wall of the main body 1, simultaneously driving a collecting roller 3 at the middle part to be attached to the water level to ascend and descend when the buoyancy plate 2 ascends and descends, and leading the surface of the sewage to roll due to the impact force of air flow impact when the sewage in the main body 1 is injected with oxygen through the aerobic device 103 Stirring, when the sewage surface rolls and flows, the sewage surface impacts the impact collection block 301 with a convex surface around the collection roller 3, because the impact collection block 301 is arranged in a curved arc, the impact collection block 301 is forced to move to one side when impacting into an arc groove, so that the collection roller 3 starts to rotate, because the middle part inside the collection roller 3 is embedded with the thread of the displacement groove 202 through the displacement shaft 303, the collection roller 3 moves to one side along the groove mark of the displacement groove 202 when the collection roller 3 rotates and drives the displacement shaft 303 to rotate together, the collection roller 3 moves to be attached to the water surface when rotating through the displacement of the displacement shaft 303 along the displacement groove 202, and when the impact collection block 301 is impacted by water flow and drives the water flow to rotate, part of the water flow flows into the collection groove 3014 opening of each offset block 3012 combined with the impact collection block 301, then impurities in the sewage, which are rolled and driven to the surface by water flow, are filtered and collected in the collection groove 3014 through the filter screen in the collection groove 3014, so that a large amount of impurities float on the surface of the water surface due to the rolling movement of the water flow when the oxygen is injected into the sewage by the aerobic device 103, finally, when the collection roller 3 moves to one end along the displacement groove 202 through the displacement shaft 303, the collection roller 3 cannot be driven to rotate due to the fact that the displacement shaft 303 cannot continuously move, the offset shaft 3011 connected with the impact collection block 301 around the collection roller 3 during continuous rotation can be attached to the surface of the displacement shaft 303 to move, so that the offset shaft 3011 can rotate to a certain extent, when the offset shaft 3011 rotates, the impact collection block 301 can be driven to incline to the other side, and the offset block 3012 combined to impact collection block 301 can be attached to the abutting block 3021 on the other side of the offset groove 302, one of the offset blocks 3012 is contracted towards the other side by the rotary force applied by the offset shaft 3011, and the contracted movement drives the offset blocks 3012 on the upper and lower sides to contract together for a certain distance, so that the whole impact collection block 301 forms a groove on the other side to receive the impact of water flow, the collection roller 3 rotates in the opposite direction to drive the displacement shaft 303, and can rotate continuously to move in the opposite direction along the displacement groove 202, and the collection roller 3 can move repeatedly between the buoyancy plates 2.