CN113213609A - Sewage treatment device for phosphate chemical industry by utilizing sewage pool - Google Patents

Abstract

The invention relates to a sewage treatment device, in particular to a phosphorus chemical sewage treatment device for a sewage pool. The invention aims to provide a sewage treatment device for phosphate chemical industry, which has short time consumption and can improve the sewage treatment efficiency. In order to solve the technical problem, the invention provides a phosphorus chemical wastewater treatment device for a wastewater tank, which comprises a first support frame, a first bottom plate, a second support frame, a screening mechanism and a blanking mechanism. Compared with the prior art, the invention has the beneficial effects that the acid wastewater and phosphorus chemical wastewater mixed treatment mode in the sulfuric acid method titanium dioxide industry is adopted, the treatment process is simple, the water-solid separation of the treated reaction system is easy, the PH value of the treated wastewater is not required to be adjusted back, the contents of phosphorus, fluorine and arsenic in the treated discharged water body meet the national discharge standard, the further combination of phosphorus chemical industry and titanium chemical industry is realized, and the invention has good social benefit and economic benefit.

Description

Sewage treatment device for phosphate chemical industry by utilizing sewage pool

Technical Field

The invention relates to a sewage treatment device, in particular to a phosphorus chemical sewage treatment device for a sewage pool.

Background

The life or industry can all have sewage every day, sewage treatment makes sewage reach the water quality requirement of discharging into a certain water or reuse and purifies its process, sewage treatment is by wide application in industry, food and beverage, each field such as building, also more and more the daily life of going into common people, prior art, sewage treatment plant mainly handles sewage through filtering, current sewage treatment plant has certain drawback when using, for example, the mixing time of flocculating agent is longer, in addition, flocculation after the flocculation precipitation is consuming time longer, influence sewage treatment work efficiency.

Therefore, a sewage treatment device of phosphorus chemical industry, which is short in time consumption and capable of improving sewage treatment efficiency, is developed.

Disclosure of Invention

In order to overcome the defects that the sewage treatment efficiency is influenced by long time consumption of a flocculating agent in sewage treatment, the invention aims to provide the sewage treatment device for the sewage pool utilization phosphorus chemical industry, which has short time consumption and can improve the sewage treatment efficiency.

Technical scheme, a effluent water sump utilizes phosphorus chemical industry sewage treatment plant, including:

the first support frame and the first bottom plate are arranged on two sides of the first bottom plate;

two second supporting frames are arranged on two sides of the first bottom plate;

the screening mechanism is arranged on one side of the first bottom plate;

and a blanking mechanism is arranged between one sides of the second support frames, and parts of the blanking mechanism are in contact with parts of the screening mechanism.

Furthermore, it is particularly preferred that the screening means comprises:

the two sides of the first bottom plate are provided with first sliding rails;

one side of the first sliding rail is connected with a first sliding block in a sliding way;

the first springs are connected between one sides of the first sliding blocks and one sides of the first sliding rails and sleeved on one sides of the first sliding rails;

one side of the first sliding block is rotatably connected with a first gear;

the first torsion spring is connected between one side of the first gear and one side of the first sliding block, and the first torsion spring is sleeved on one side of the first sliding block on one side and one side of the first sliding block on one side respectively;

the screening frame is connected with between the first gear.

Further, it is particularly preferable that the blanking mechanism includes:

a first baffle is arranged between one sides of the second supporting frames, and a water outlet is formed in one side of the first baffle;

the blanking frame is arranged on one side of the first baffle;

two third support frames are arranged on one side of the first baffle;

a second baffle is connected between the third supporting frames in a sliding manner, and one side of the second baffle is positioned at the bottom of the water outlet;

and the second springs are connected between the two sides of the second baffle and one side of the third support frames on the two sides, and are sleeved on one side of the second baffle.

Further, it is particularly preferable that the apparatus further comprises a stirring mechanism including:

a fourth support frame is arranged on one side of the blanking frame;

one side of the fourth support frame is rotatably connected with the first rotating shaft;

the stirring blade is arranged on one side of the first rotating shaft.

Further, it is particularly preferable that the apparatus further comprises a rotating mechanism including:

a fifth support frame is arranged on one side of the blanking frame;

a sixth supporting frame is arranged on one side of the fifth supporting frame;

a motor is arranged on one side of the fifth support frame;

one side of the sixth supporting frame is rotatably connected with the second rotating shaft;

the first bevel gear component is connected between one side of the second rotating shaft and the output shaft of the motor;

and a first transmission component is connected between one side of the second rotating shaft and one side of the first rotating shaft.

Further, it is particularly preferable that the measurement device further includes a measurement unit including:

the measuring frame is arranged on one side of the blanking frame;

the feeding pipe is arranged on one side of the measuring frame and is connected and communicated with one side of the blanking frame;

a seventh supporting frame is arranged on one side of the measuring frame;

one side of the seventh supporting frame is connected with a piston in a sliding manner;

and a third spring is connected between one side of the piston and one side of the seventh support frame, and the third spring is sleeved on one side of the piston.

Further, it is particularly preferable that the apparatus further comprises an assist mechanism including:

the first rack is arranged on one side of the first transmission component;

the eighth support frame is arranged on one side of the blanking frame;

one side of the eighth support frame is rotatably connected with a third rotating shaft;

one side of the third rotating shaft is connected with a second gear;

a ninth support frame is arranged on one side of the blanking frame;

one side of the ninth support frame is rotatably connected with a fourth rotating shaft;

a second bevel gear assembly is connected between one side of the fourth rotating shaft and one side of the third rotating shaft;

one side of the fourth rotating shaft is connected with a third gear which is positioned on one side of the second bevel gear assembly;

and one side of the piston is connected with a second rack, and one side of the second rack is meshed with the third gear.

In addition, it is particularly preferable that the device further comprises a feeding mechanism, and the feeding mechanism comprises:

one side of the fourth supporting frame is connected with the feeding frame;

the switch is connected to one side of the feeding frame in a rotating mode;

one side of the feeding frame is connected with a tenth supporting frame;

one side of the tenth supporting frame is rotatably connected with a fifth rotating shaft;

a second transmission component is connected between one side of the fifth rotating shaft and one side of the switch;

a second torsion spring is connected between one side of the switch and one side of the feeding frame;

one side of the tenth supporting frame is rotatably connected with a fourth gear;

and a third bevel gear assembly is connected between one side of the fourth gear and one side of the fifth rotating shaft.

Further, it is particularly preferable that the apparatus further comprises a collecting means including:

the two sides of the first bottom plate are provided with third racks;

the second sliding blocks are symmetrically arranged on one side of the first bottom plate;

the detachable collecting frame is slidably arranged between the second sliding blocks;

the handle is arranged on one side of the collecting frame.

Compared with the prior art, the invention has the beneficial effects that the acid wastewater and phosphorus chemical wastewater mixed treatment mode of the sulfuric acid method titanium dioxide industry is adopted, the treatment process is simple, the water-solid separation of the treated reaction system is easy, the PH value of the treated wastewater is not required to be adjusted back, the contents of phosphorus, fluorine and arsenic in the treated water body meet the national discharge standard, the further combination of phosphorus chemical industry and titanium chemical industry is realized, and the invention has good social benefit and economic benefit; through being equipped with collection mechanism for lime residue after filtering sewage can be concentrated and cleared up, saves a large amount of time of people.

Drawings

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

Fig. 2 is a schematic perspective view of the screening mechanism of the present invention.

Fig. 3 is a schematic perspective view of the blanking mechanism of the present invention.

Fig. 4 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 5 is a schematic perspective view of the rotating mechanism of the present invention.

Fig. 6 is a schematic perspective view of the measuring mechanism of the present invention.

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

Fig. 8 is a schematic perspective view of the feeding mechanism of the present invention.

Fig. 9 is a schematic perspective view of the collecting mechanism of the present invention.

Wherein the figures include the following reference numerals: 1. a first support frame, 2, a first bottom plate, 3, a second support frame, 4, a screening mechanism, 41, a first slide rail, 42, a first slide block, 43, a screening frame, 44, a first gear, 45, a first torsion spring, 46, a first spring, 5, a blanking mechanism, 51, a first baffle, 52, a blanking frame, 53, a third support frame, 54, a second baffle, 55, a second spring, 6, a stirring mechanism, 61, a fourth support frame, 62, a first rotating shaft, 63, a stirring blade, 7, a rotating mechanism, 71, a fifth support frame, 72, a sixth support frame, 73, a motor, 74, a second rotating shaft, 75, a first bevel gear component, 76, a first transmission component, 8, a measuring mechanism, 81, a measuring frame, 82, a feeding pipe, 83, a seventh support frame, 84, a piston, 85, a third spring, 9, an auxiliary mechanism, 91, a first rack, 92, an eighth support frame, 921. the device comprises a third rotating shaft 93, a second gear 94, a ninth supporting frame 95, a fourth rotating shaft 96, a second bevel gear assembly 97, a third gear 98, a second rack 10, a feeding mechanism 101, a feeding frame 102, a switch 103, a tenth supporting frame 104, a fifth rotating shaft 105, a second transmission assembly 106, a second torsion spring 107, a fourth gear 108, a third bevel gear assembly 11, a collecting mechanism 111, a second sliding block 112, a collecting frame 113, a handle 114 and a third rack.

Detailed Description

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

Example 1

The utility model provides a effluent water sump utilizes phosphorus chemical industry sewage treatment plant, as shown in figure 1, including first support frame 1, first bottom plate 2, second support frame 3, screening mechanism 4 and unloading mechanism 5, the 2 bottom left and right sides of first bottom plate all are equipped with first support frame 1, the left and right sides of 2 front sides of first bottom plate all is equipped with two second support frames 3, 2 tops of first bottom plate are equipped with screening mechanism 4, be equipped with unloading mechanism 5 between 3 tops of second support frame, 5 parts of unloading mechanism and the contact of 4 parts of screening mechanism.

When people treat sewage, the sewage is firstly put into the blanking mechanism 5 part, then the inorganic phosphorus chemical wastewater and the acid wastewater are put into the blanking mechanism 5 part according to a certain volume ratio to be mixed, lime milk is added into the mixed wastewater to be neutralized, the lime milk put into the wastewater falls onto the screening mechanism 4 part, then people manually stir the wastewater to fully mix the wastewater and the lime milk, and after the treatment, people manually press the blanking mechanism 5 part to enable the neutralized water to flow into a water bucket prepared by people.

Example 2

On the basis of embodiment 1, as shown in fig. 2 to 9, the screening mechanism 4 includes a first slide rail 41, a first slider 42, a screening frame 43, a first gear 44, a first torsion spring 45 and a first spring 46, the first slide rail 41 is disposed on each of the left and right sides of the top of the first base plate 2, the first slider 42 is slidably connected to the front side of the first slide rail 41, the first spring 46 is connected between the front side of the first slider 42 and the front side of the upper portion of the first slide rail 41, the first spring 46 is sleeved on the front side of the upper portion of the first slide rail 41, the first gear 44 is rotatably connected to the inner side of the first slider 42, the first torsion spring 45 is connected between the outer side of the first gear 44 and the inner side of the first slider 42, the first torsion spring 45 is respectively sleeved on the right side of the left first slider 42 and the left side of the right first slider 42, and the screening frame 43 is connected between the first gears 44.

People put into 5 parts of unloading mechanism lime breast, and the lime breast falls on screening frame 43, and first slider 42 is stirred manually to people, and first slider 42 slightly flexible this moment drives screening frame 43 and rocks, screens the lime breast for the abundant neutralization waste water of lime breast.

Unloading mechanism 5 is including first baffle 51, unloading frame 52, third support frame 53, second baffle 54 and second spring 55, be equipped with first baffle 51 between 3 tops of second support frame, first baffle 51 bottom is equipped with the delivery port, first baffle 51 upper portion rear side is equipped with unloading frame 52, first baffle 51 bottom front side is equipped with two third support frames 53, sliding connection has second baffle 54 between the third support frame 53, second baffle 54 rear side is located the delivery port bottom, all be connected with second spring 55 between the left and right sides of second baffle 54 front side and the third support frame 53 front side of the left and right sides, second spring 55 all overlaps in second baffle 54 front side.

People put inorganic phosphorus chemical industry waste water and acid waste water into the blanking frame 52, again manual stirring inorganic phosphorus chemical industry waste water and acid waste water make its intensive mixing, add lime milk to the waste water after mixing and carry out neutralization, after the neutralization, people manually press second baffle 54, second spring 55 compresses this moment, second baffle 54 moves backward for second baffle 54 leaves the delivery port, the water after the neutralization flows into the cask that people prepared from the delivery port, people loosen second baffle 54 again, second spring 55 is tensile this moment, drive second baffle 54 and move forward and reset, second baffle 54 rear side blocks the delivery port again.

Still including rabbling mechanism 6, rabbling mechanism 6 is equipped with fourth support frame 61 including fourth support frame 61, first pivot 62 and stirring leaf 63 on the blanking frame 52 upper portion, and fourth support frame 61 middle part rotary type is connected with first pivot 62, and first pivot 62 bottom is equipped with stirring leaf 63.

After inorganic phosphorus chemical industry waste water and acid wastewater are loaded into the blanking frame 52, people manually rotate the first rotating shaft 62, the first rotating shaft 62 rotates to drive the stirring blade 63 to rotate, so that the stirring blade 63 stirs the inorganic phosphorus chemical industry waste water and the acid wastewater to fully mix, and after mixing, people stop rotating the first rotating shaft 62.

Still including rotary mechanism 7, rotary mechanism 7 is including fifth support frame 71, sixth support frame 72, motor 73, second pivot 74, first bevel gear subassembly 75 and first drive assembly 76, the right front side of unloading frame 52 is equipped with fifth support frame 71, fifth support frame 71 top is equipped with motor 73, fifth support frame 71 left side is equipped with sixth support frame 72, sixth support frame 72 right side rotary type is connected with second pivot 74, be connected with first bevel gear subassembly 75 between second pivot 74 downside and the motor 73 output shaft, be connected with first drive assembly 76 between second pivot 74 upside and the first pivot 62 upside.

Starting the motor 73, the motor 73 drives the first bevel gear component 75 to further drive the second rotating shaft 74, the second rotating shaft 74 rotates to drive the first transmission component 76 to further drive the first rotating shaft 62 to rotate, so that the first rotating shaft 62 stirs the inorganic phosphorus chemical wastewater and the acidic wastewater to fully mix, and after the stirring is finished, the motor 73 is turned off.

The automatic feeding device is characterized by further comprising a measuring mechanism 8, wherein the measuring mechanism 8 comprises a measuring frame 81, a feeding pipe 82, a seventh supporting frame 83, a piston 84 and a third spring 85, the measuring frame 81 is arranged on the front side of the lower portion of the blanking frame 52, the feeding pipe 82 is arranged at the bottom of the measuring frame 81, the feeding pipe 82 is connected and communicated with the front side of the lower portion of the blanking frame 52, the seventh supporting frame 83 is arranged on the upper side of the inner portion of the measuring frame 81, the piston 84 is connected to the inner portion of the seventh supporting frame 83 in a sliding mode, the third spring 85 is connected between the upper portion of the piston 84 and the top of the seventh supporting frame 83, and the third spring 85 is sleeved on the upper portion of the piston 84.

After neutralization, people manually pull up the piston 84, the third spring 85 is stretched at the moment, water after neutralization is sucked into the measuring frame 81 due to suction, the measuring frame 81 detects the pH value of the wastewater, people loosen the piston 84 again, the third spring 85 is compressed to drive the piston 84 to move downwards to reset, and the piston 84 extrudes the water back into the blanking frame 52.

The device also comprises an auxiliary mechanism 9, the auxiliary mechanism 9 comprises a first rack 91, an eighth support frame 92, a third rotating shaft 921, a second gear 93, a ninth support frame 94, a fourth rotating shaft 95, a second bevel gear assembly 96, a third gear 97 and a second rack 98, the first rack 91 is arranged on the left front side of the first transmission assembly 76, the eighth support frame 92 is arranged on the left front side of the upper part of the blanking frame 52, the third rotating shaft 921 is rotatably connected on the front side of the eighth support frame 92, the second gear 93 is connected on the upper part of the third rotating shaft 921, the ninth support frame 94 is arranged on the left front side of the blanking frame 52, the fourth rotating shaft 95 is rotatably connected on the front side of the ninth support frame 94, a second bevel gear assembly 96 is connected between the right side of the fourth rotating shaft 95 and the lower side of the third rotating shaft 921, the third gear 97 is connected on the right side of the fourth rotating shaft 95, the second gear 93 is positioned on the right side of the second bevel gear assembly 96, the second rack 98 is connected on the upper side of the piston 84, the second rack 98 is engaged with the third gear 97 at the left side.

First drive assembly 76 rotates and drives first rack 91 and removes, when first rack 91 moves to and second gear 93 meshing, drive third pivot 921 and rotate, and then drive second bevel gear assembly 96 and rotate, second bevel gear assembly 96 drives fourth pivot 95 and then drives third gear 97 and rotate, third gear 97 drives second rack 98 and moves up, drive piston 84 and move up, third spring 85 is tensile this moment, when first rack 91 moves to and separates with second gear 93, third spring 85 contracts this moment, drive piston 84 and move down and reset.

Also comprises a feeding mechanism 10, the feeding mechanism 10 comprises a feeding frame 101, a switch 102, a tenth supporting frame 103 and a fifth rotating shaft 104, second transmission assembly 105, second torsion spring 106, fourth gear 107 and third bevel gear assembly 108, fourth support frame 61 top left rear side is connected with material loading frame 101, material loading frame 101 front side lower part rotary type is connected with switch 102, material loading frame 101 front side is connected with tenth support frame 103, tenth support frame 103 middle part rotary type is connected with fifth pivot 104, be connected with second transmission assembly 105 between fifth pivot 104 left side and the switch 102 left side, be connected with second torsion spring 106 between switch 102 left side and the material loading frame 101 front side lower part, second torsion spring 106 cover is in the switch 102 left side, tenth support frame 103 right side downside rotary type is connected with fourth gear 107, be connected with third bevel gear assembly 108 between fourth gear 107 upside and fifth pivot 104 right side.

People pack lime cream in material loading frame 101, when first rack 91 rotates to mesh with fourth gear 107, drive third bevel gear subassembly 108 and then drive fifth pivot 104 and rotate, fifth pivot 104 drives second transmission assembly 105, and then drive switch 102 and rotate, second torsion spring 106 twists reverse this moment, lime cream falls into the waste water after the integration through switch 102 in, carry out the neutralization to waste water, when first rack 91 rotates to separate with fourth gear 107, second torsion spring 106 reversal this moment drives switch 102 and rotates and resets, the discharge gate of material loading frame 101 is plugged up once more to switch 102.

Still including collecting mechanism 11, collect mechanism 11 including second slider 111, collect frame 112, handle 113 and third rack 114, the left and right sides of first bottom plate 2 rear side all is equipped with third rack 114, the inboard symmetry of first bottom plate 2 rear side is equipped with second slider 111, and detachable collection frame 112 is installed to the slidingtype between second slider 111, collects the frame 112 rear side and is equipped with handle 113.

After water is filled, people manually push the second sliding block 111 backwards, at the moment, the first spring 46 is stretched, the first gear 44 and the screening frame 43 are driven to move backwards, when the first gear 44 moves to be meshed with the third rack 114, the screening frame 43 is driven to overturn, lime milk in the screening frame 43 is deposited and poured into the collection frame 112, people loosen the second sliding block 111 again, at the moment, the first spring 46 contracts, the second sliding block 111 and the screening frame 43 are driven to move forwards to reset, after the collection frame 112 is filled with the materials, people grasp the handle 113 to pull out the collection frame 112, the lime sediment inside is cleaned up again, and then the collection frame 112 is pushed to reset.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims (9)

1. The utility model provides a sewage treatment plant of phosphorus chemical industry is utilized to effluent water sump, characterized by, including:

the supporting device comprises a first supporting frame (1) and a first bottom plate (2), wherein the first supporting frame (1) is arranged on each of two sides of the first bottom plate (2);

two second supporting frames (3) are arranged on two sides of the first bottom plate (2);

the screening mechanism (4) is arranged on one side of the first bottom plate (2);

the blanking mechanism (5) is arranged between one sides of the second supporting frames (3), and parts of the blanking mechanism (5) are in contact with parts of the screening mechanism (4).

2. The apparatus for treating sewage from a sewage pool utilizing phosphorus chemical as claimed in claim 1, wherein the screening means (4) comprises:

the first sliding rail (41) is arranged on each of two sides of the first bottom plate (2);

one side of each first sliding rail (41) is connected with a first sliding block (42) in a sliding manner;

the first spring (46) is connected between one side of the first sliding block (42) and one side of the first sliding rail (41), and the first spring (46) is sleeved on one side of the first sliding rail (41);

one side of the first sliding block (42) is rotatably connected with the first gear (44);

the first torsion spring (45) is connected between one side of the first gear (44) and one side of the first sliding block (42), and the first torsion spring (45) is sleeved on one side of the first sliding block (42) and one side of the first sliding block (42) on one side respectively;

the screening frame (43) is connected between the screening frames (43) and the first gears (44).

3. The apparatus for treating sewage from a sewage pool using phosphorus chemical as claimed in claim 2, wherein the discharging mechanism (5) comprises:

a first baffle (51) is arranged between one sides of the second supporting frames (3), and a water outlet is formed in one side of the first baffle (51);

a blanking frame (52), wherein one side of the first baffle (51) is provided with the blanking frame (52);

two third support frames (53) are arranged on one side of the first baffle plate (51);

a second baffle (54) is connected between the third supporting frames (53) in a sliding manner, and one side of the second baffle (54) is positioned at the bottom of the water outlet;

and the second springs (55) are connected between the two sides of the second baffle plate (54) and one sides of the third support frames (53) on the two sides, and the second springs (55) are sleeved on one side of the second baffle plate (54).

4. The sewage treatment plant for the phosphorus chemical industry used in the sewage pool as set forth in claim 3, further comprising a stirring mechanism (6), wherein the stirring mechanism (6) comprises:

a fourth support frame (61), wherein the fourth support frame (61) is arranged on one side of the blanking frame (52);

one side of the fourth support frame (61) is rotatably connected with the first rotating shaft (62);

a stirring blade (63), and one side of the first rotating shaft (62) is provided with the stirring blade (63).

5. The sewage treatment plant for the phosphorus chemical industry used in the sewage pool as set forth in claim 4, further comprising a rotating mechanism (7), wherein the rotating mechanism (7) comprises:

a fifth support frame (71), wherein the fifth support frame (71) is arranged on one side of the blanking frame (52);

a sixth supporting frame (72), wherein the sixth supporting frame (72) is arranged on one side of the fifth supporting frame (71);

the motor (73), one side of the fifth supporting frame (71) is provided with the motor (73);

one side of the sixth supporting frame (72) is rotatably connected with the second rotating shaft (74);

a first bevel gear component (75) is connected between one side of the second rotating shaft (74) and an output shaft of the motor (73);

and a first transmission assembly (76) is connected between one side of the second rotating shaft (74) and one side of the first rotating shaft (62).

6. The apparatus for treating sewage from a sewage pool using phosphorus chemical industry as claimed in claim 5, further comprising a measuring mechanism (8), wherein the measuring mechanism (8) comprises:

a measuring frame (81), wherein the measuring frame (81) is arranged on one side of the blanking frame (52);

the feeding pipe (82) is arranged on one side of the measuring frame (81), and the feeding pipe (82) is connected and communicated with one side of the blanking frame (52);

a seventh supporting frame (83), wherein the seventh supporting frame (83) is arranged on one side of the measuring frame (81);

one side of the seventh supporting frame (83) is connected with the piston (84) in a sliding way;

and a third spring (85) is connected between one side of the piston (84) and one side of the seventh supporting frame (83), and the third spring (85) is sleeved on one side of the piston (84).

7. The apparatus for treating sewage from a sewage pool utilizing phosphorus chemical industry as claimed in claim 6, further comprising an auxiliary mechanism (9), wherein the auxiliary mechanism (9) comprises:

a first rack (91), wherein one side of the first transmission component (76) is provided with the first rack (91);

an eighth support frame (92), wherein the eighth support frame (92) is arranged on one side of the blanking frame (52);

one side of the eighth support frame (92) is rotatably connected with a third rotating shaft (921);

one side of the third rotating shaft (921) is connected with the second gear (93);

a ninth supporting frame (94), wherein the ninth supporting frame (94) is arranged on one side of the blanking frame (52);

a fourth rotating shaft (95), wherein one side of the ninth supporting frame (94) is rotatably connected with the fourth rotating shaft (95);

a second bevel gear assembly (96), wherein a second bevel gear assembly (96) is connected between one side of the fourth rotating shaft (95) and one side of the third rotating shaft (921);

one side of the fourth rotating shaft (95) is connected with the third gear (97), and the second gear (93) is positioned on one side of the second bevel gear assembly (96);

and one side of the piston (84) is connected with a second rack (98), and one side of the second rack (98) is meshed with a third gear (97).

8. The sewage treatment plant for the phosphorus chemical industry used in the sewage pool as set forth in claim 7, further comprising a feeding mechanism (10), wherein the feeding mechanism (10) comprises:

one side of the fourth supporting frame (61) is connected with the feeding frame (101);

the switch (102) is connected to one side of the feeding frame (101) in a rotating mode;

a tenth supporting frame (103), wherein one side of the feeding frame (101) is connected with the tenth supporting frame (103);

a fifth rotating shaft (104), wherein one side of the tenth supporting frame (103) is rotatably connected with the fifth rotating shaft (104);

a second transmission assembly (105), wherein the second transmission assembly (105) is connected between one side of the fifth rotating shaft (104) and one side of the switch (102);

a second torsion spring (106), wherein the second torsion spring (106) is connected between one side of the switch (102) and one side of the feeding frame (101);

a fourth gear (107), wherein one side of the tenth supporting frame (103) is rotatably connected with the fourth gear (107);

and a third bevel gear assembly (108) is connected between one side of the second gear (93) and one side of the fifth rotating shaft (104).

9. The apparatus for treating sewage from a sewage pool utilizing phosphorus chemical industry according to claim 8, further comprising a collecting means (11), wherein the collecting means (11) comprises:

the third racks (114) are arranged on the two sides of the first bottom plate (2);

the second sliding block (111) is symmetrically arranged on one side of the first bottom plate (2);

a detachable collecting frame (112) is installed between the second sliding blocks (111) in a sliding manner;

a handle (113), and a handle (113) is arranged at one side of the collecting frame (112).

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