CN217392283U

CN217392283U - Microorganism throwing device for sewage treatment

Info

Publication number: CN217392283U
Application number: CN202220919000.1U
Authority: CN
Inventors: 刘阳; 陈敬旭; 梁飞
Original assignee: Shanghai Limong Ecological Environment Technology Group Co ltd
Current assignee: Shanghai Limong Ecological Environment Technology Group Co ltd
Priority date: 2022-04-20
Filing date: 2022-04-20
Publication date: 2022-09-09
Anticipated expiration: 2032-04-20

Abstract

The utility model belongs to the technical field of sewage treatment, in particular to a microorganism throwing device for sewage treatment, which comprises a carrier, wherein the upper surface of the carrier is detachably connected with the lower surface of a mixing box, the upper surface of the mixing box is provided with a mixing component, the reserves in a quantitative tank a and a quantitative tank b are quantified by rotating a screw rod a and a screw rod b to move in the quantitative tank a and the quantitative tank b, water and microorganisms are discharged into the quantitative tank a and the quantitative tank b to be quantitatively used, the microorganism waste is avoided, meanwhile, the proportion between the microorganisms and water can be accurately controlled, a servo motor b drives a stirring paddle to rotate to fully mix the water and the microorganisms in the mixing box, a water suction pump b extracts the microorganism mixed liquid in the mixing box, and the microorganism mixed liquid is discharged into lakes and rivers through a water discharge pipe b to be thrown, so that the microorganism mixed liquor can be better mixed with water flows in lakes and rivers.

Description

Microorganism throwing device for sewage treatment

Technical Field

The utility model belongs to the technical field of sewage treatment, concretely relates to microorganism input device for sewage treatment.

Background

The microbial strains are used as the core of the sewage treatment by the biological method, and the addition of the microbial strains can effectively shorten the domestication time, improve the effluent quality and the system stability, and comprehensively improve the pollutant removal capacity of the sewage treatment system; and for a system with poor running state or about to crash, the system can be quickly recovered to the normal running state by adding microbial strains, and even the effluent standard-lifting discharge can be achieved.

Lake, river etc. that need carry out sewage treatment have not few solid refuse in the river course, and when current microorganism was put in the device and is put in the microorganism, the microorganism very easily was put in on solid refuse surface, can't fuse with water, leads to the effect of microorganism bacterial can't exert to the biggest, and the unable ration of putting in when microorganism was put in simultaneously has caused unnecessary wasting of resources.

SUMMERY OF THE UTILITY MODEL

To solve the problems raised in the background art described above. The utility model provides a microorganism feeding device for sewage treatment.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a microorganism input device for sewage treatment, includes the carrier, the upper surface of carrier can be dismantled with the lower surface of mixing box and be connected, the upper surface of mixing box is equipped with mixed subassembly, the left and right sides of mixing box upper surface passes through the support and can dismantle with the surface of storage tank and be connected, the lower surface of storage tank is equipped with row's material subassembly, the left and right sides face of support inner wall is equipped with quantitative subassembly.

Preferably, the mixing assembly comprises a servo motor b arranged on the upper surface of the mixing box, and an output shaft of the servo motor b is fixedly connected with the top end of the stirring paddle through a bearing and a rotating shaft which are clamped on the upper surface of the mixing box.

Preferably, arrange the material subassembly and include the play workbin that is linked together with the storage tank lower surface, the lower surface mounting who goes out the workbin has servo motor a, servo motor a's output shaft is through the bearing of play workbin lower surface center department joint and the bottom rigid coupling of pivot and auger delivery oar, the surface of auger delivery oar and the inner wall sliding connection who goes out the workbin, the right flank that goes out the workbin is linked together through the left surface that goes out hopper and quantitative jar b.

Preferably, the ration subassembly includes ration jar an and the ration jar b of rigid coupling in the support inner wall left and right sides face, the inner wall of ration jar a and the ration jar b respectively with baffle an and baffle b's surface sliding connection, the center department of baffle an and baffle b upper surface rotates with screw a and screw b's bottom respectively and is connected, the screw hole that quantitative jar an and the ration jar b inner wall upper surface were seted up is passed respectively on screw a and screw b's top extends to ration jar a and the ration jar b outside, suction pump a is installed to the left surface of support, suction pump a's drainage end is linked together through the left surface of drain pipe an with ration jar a, suction pump a's the end of drawing water is linked together with the one end of drinking-water pipe an, the lower surface of ration jar a and the ration jar b is linked together through the left and right sides of discharging pipe a and mixing box upper surface respectively, and the front surfaces of the discharge pipes a and b are respectively provided with a valve b and a valve a.

Preferably, transparent scale is installed in the equal front of ration jar an and ration jar b, the upper surface mounting of baffle a has the overflow pipe, the other end of overflow pipe passes the upper surface of ration jar an inner wall and extends to the ration jar a outside.

Preferably, suction pump b is installed to the right flank of mixing box, suction pump b's the end of drawing water is linked together through the right flank of drinking-water pipe b with the mixing box, the drainage end of suction pump b is linked together with the one end of drain pipe b.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses, move in quantitative jar an and quantitative jar b through rotating screw rod an and screw rod b and carry out the ration to the inside reserves of quantitative jar an and quantitative jar b, discharge into quantitative jar an and quantitative jar b with water and microorganism in, carry out the ration use to the microorganism, it is extravagant to avoid the microorganism, simultaneously can accurate control microorganism and the proportion between the water, servo motor b drives the stirring rake and rotates and carry out the intensive mixing to the water and the microorganism in the mixing box, the microorganism of suction pump b extraction mixing box mixes the liquid, mix the liquid with the microorganism through drain pipe b and emit into the lake, put in the river, make the mixed liquid of microorganism can be better with the lake, rivers in the river mix.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic sectional view of the front view of the present invention;

fig. 3 is a schematic structural view of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A of the present invention;

in the figure: 1. a material storage tank; 2. a support;

a discharge assembly: 31. a discharging box; 32. a discharge hopper; 33. a screw conveying paddle; 34. a servo motor a;

a quantitative component: 41. a quantification tank a; 42. a quantification tank b; 43. a screw rod a; 44. a screw b; 45. a water pump a; 46. a water pumping pipe a; 47. a drain pipe a; 48. a valve b; 49. a valve a; 410. a discharge pipe a; 411. a discharge pipe b; 412. a baffle plate a; 413. a baffle b;

5. a mixing box;

a mixing component: 61. a servo motor b; 62. a stirring paddle;

7. a carrier; 8. a graduated scale; 9. an overflow pipe; 10. a water pump b; 11. a water pumping pipe b; 12. And a drain pipe b.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-4, the present invention provides the following technical solutions: the utility model provides a microorganism input device for sewage treatment, includes carrier 7, the upper surface of carrier 7 can be dismantled with the lower surface of mixing box 5 and be connected, the upper surface of mixing box 5 is equipped with mixed subassembly, the left and right sides of 5 upper surfaces of mixing box can be dismantled with the surface of storage tank 1 through support 2 and be connected, the lower surface of storage tank 1 is equipped with row's material subassembly, the left and right sides face of 2 inner walls of support is equipped with quantitative subassembly.

Specifically, the mixing component comprises a servo motor b61 arranged on the upper surface of the mixing box 5, and an output shaft of the servo motor b61 is fixedly connected with the top end of the stirring paddle 62 through a bearing and a rotating shaft which are clamped on the upper surface of the mixing box 5;

the servo motor b61 is started through the external power supply, the output shaft of the servo motor b61 drives the stirring paddle 62 to rotate, and the stirring paddle 62 rotates to fully mix water and microorganisms in the mixing box 5.

Specifically, the discharging assembly comprises a discharging box 31 communicated with the lower surface of the storage tank 1, a servo motor a34 is installed on the lower surface of the discharging box 31, an output shaft of the servo motor a34 is fixedly connected with the bottom end of a spiral conveying paddle 33 through a bearing and a rotating shaft which are clamped at the center of the lower surface of the discharging box 31, the outer surface of the spiral conveying paddle 33 is in sliding connection with the inner wall of the discharging box 31, and the right side surface of the discharging box 31 is communicated with the left side surface of a quantitative tank b42 through a discharging hopper 32;

through external power supply start-up servo motor a34, servo motor a34 starts to drive auger delivery oar 33 rotatory, and auger delivery oar 33 is rotatory to be driven the microorganism bacterial downstream in the storage tank 1 and is got into ration jar b42 portion through a hopper 32, carries through auger delivery oar 33, avoids storage tank 1 to arrange the material and blocks up.

Specifically, the quantitative assembly comprises a quantitative tank a41 and a quantitative tank b42 fixedly connected to the left side and the right side of the inner wall of the bracket 2, the inner walls of the quantitative tank a41 and the quantitative tank b42 are respectively connected with the outer surfaces of a baffle a412 and a baffle b413 in a sliding manner, the centers of the upper surfaces of the baffle a412 and the baffle b413 are respectively connected with the bottom ends of a screw a43 and a screw b44 in a rotating manner, the top ends of a screw a43 and a screw b44 respectively penetrate through threaded holes formed in the upper surfaces of the inner walls of the quantitative tank a41 and the quantitative tank b42 and extend to the outside of the quantitative tank a41 and the quantitative tank b42, a45 is installed on the left side of the bracket 2, the water discharge end of the water pump a45 is communicated with the left side of the quantitative tank a41 through a47, the water suction end of the water pump a45 is communicated with one end of a water suction pipe 46, the lower surfaces of the quantitative tank a41 and the quantitative tank b42 are respectively communicated with the left side and the right side of a mixing tank 5 through a discharge pipe b411 and a410, the front surfaces of the discharging pipes a410 and b411 are respectively provided with a valve b48 and a valve a 49;

the baffle plate a412 and the baffle plate b413 are driven to move downwards by rotating the screw a43 and the screw b44, the baffle plate a412 and the baffle plate b413 move downwards to quantify the storage amount inside the quantitative tank a41 and the quantitative tank b42, the water pump a45 is started through an external power supply, the water pump a45 pumps external water through a water pumping pipe a46, the water is drained into the quantitative tank a41 through a water draining end of the water pump a45 and a water draining pipe a47, when the storage amount of the water and microorganisms in the quantitative tank a41 and the quantitative tank b42 is sufficient, the water in the quantitative tank a41 and the microorganisms in the quantitative tank b42 enter the mixing box 5 through a discharge pipe a410 and a discharge pipe b411 by rotating the valve a49 and the valve b48, the microorganisms are quantitatively used, and waste of the microorganisms is avoided.

Specifically, transparent graduated scales 8 are arranged on the front faces of the quantitative tank a41 and the quantitative tank b42, an overflow pipe 9 is arranged on the upper surface of the baffle plate a412, and the other end of the overflow pipe 9 passes through the upper surface of the inner wall of the quantitative tank a41 and extends to the outside of the quantitative tank a 41;

the storage amounts of the materials in the quantitative tank a41 and the quantitative tank b42 can be observed through the transparent graduated scale 8, when the quantitative tank a41 is full of water, the water overflows the outside of the quantitative tank a41 through the overflow pipe 9, and the water level in the quantitative tank a41 is maintained at a certain height through the overflow pipe 9.

Specifically, a water suction pump b10 is installed on the right side face of the mixing box 5, the water suction end of the water suction pump b10 is communicated with the right side face of the mixing box 5 through a water suction pipe b11, and the water discharge end of the water suction pump b10 is communicated with one end of a water discharge pipe b 12;

the water pumping end of the water pumping pump b10 pumps the microorganism mixed liquor in the mixing box 5 through the water pumping pipe b11, and the microorganism mixed liquor is discharged into the lake and the river through the water discharging end and the water discharging pipe b12 for putting.

The utility model discloses a theory of operation and use flow:

the utility model, when in use;

rotating a screw a43 and a screw b44 to drive a baffle a412 and a baffle b413 to move downwards, enabling the baffle a412 and the baffle b413 to move downwards to quantify the storage capacity inside a quantification tank a41 and a quantification tank b42, enabling a water pump a45 to pump external water through a water pumping pipe a46, enabling water to be discharged into the quantification tank a41 through a water discharging end of a water pumping pump a45 and a water discharging pipe a47, enabling a servo motor a34 to start to drive a spiral conveying paddle 33 to rotate, enabling the spiral conveying paddle 33 to rotate to drive microbial species in a material storage tank 1 to move downwards to enter a quantification tank b42 through a material discharging hopper 32, and enabling the water in the quantification tank a41 and the quantification tank b42 and the microbial storage capacity to be sufficient, enabling the water in a valve a49 and the valve b48 and the microbial species in the quantification tank a41 and the quantification tank b42 to enter a mixing box 5 through the material discharging pipe a410 and a material discharging pipe b411, and quantitatively using the microbial organisms;

an output shaft of the servo motor b61 drives the stirring paddle 62 to rotate, the stirring paddle 62 rotates to fully mix water and microorganisms in the mixing box 5, a water pumping end of the water pump b10 pumps microorganism mixed liquid in the mixing box 5 through a water pumping pipe b11, and the microorganism mixed liquid is discharged into a lake or a river through a water discharging end and a water discharging pipe b12 to be thrown.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a microorganism puts in device for sewage treatment, includes carrier (7), its characterized in that: the upper surface of carrier (7) can be dismantled with the lower surface of mixing box (5) and be connected, the upper surface of mixing box (5) is equipped with mixed subassembly, the left and right sides of mixing box (5) upper surface passes through support (2) and can dismantle with the surface of storage tank (1) and be connected, the lower surface of storage tank (1) is equipped with row's material subassembly, the left and right sides face of support (2) inner wall is equipped with quantitative subassembly.

2. The microorganism delivering device for sewage treatment as claimed in claim 1, wherein: the mixing assembly comprises a servo motor b (61) arranged on the upper surface of a mixing box (5), and an output shaft of the servo motor b (61) is fixedly connected with the top end of a rotating shaft and a stirring paddle (62) through a bearing and a rotating shaft which are clamped on the upper surface of the mixing box (5).

3. The microorganism delivering device for sewage treatment as claimed in claim 1, wherein: the discharge assembly comprises a discharge box (31) communicated with the lower surface of the storage tank (1), a servo motor a (34) is installed on the lower surface of the discharge box (31), the output shaft of the servo motor a (34) is fixedly connected with the bottom end of a rotary shaft and a spiral conveying paddle (33) through a bearing and the center of the lower surface of the discharge box (31), the outer surface of the spiral conveying paddle (33) is connected with the inner wall of the discharge box (31) in a sliding mode, and the right side surface of the discharge box (31) is communicated with the left side surface of a quantitative tank b (42) through a discharge hopper (32).

4. The microorganism throwing apparatus for sewage treatment of claim 1, wherein: the quantitative assembly comprises a quantitative tank a (41) and a quantitative tank b (42) which are fixedly connected to the left side surface and the right side surface of the inner wall of a support (2), the inner walls of the quantitative tank a (41) and the quantitative tank b (42) are respectively in sliding connection with the outer surfaces of a baffle a (412) and a baffle b (413), the centers of the upper surfaces of the baffle a (412) and the baffle b (413) are respectively in rotating connection with the bottom ends of a screw rod a (43) and a screw rod b (44), the top ends of the screw rod a (43) and the screw rod b (44) respectively penetrate through threaded holes formed in the upper surfaces of the inner walls of the quantitative tank a (41) and the quantitative tank b (42) and extend to the outside of the quantitative tank a (41) and the quantitative tank b (42), a water suction pump a (45) is installed on the left side surface of the support (2), and the water drainage end of the water suction pump a (45) is communicated with the left side surface of the quantitative tank a (41) through a drainage pipe (47), the one end of the end of drawing water and drinking-water pipe a (46) of suction pump a (45) is linked together, the lower surface of ration jar a (41) and ration jar b (42) is linked together through discharging pipe b (411) and discharging pipe a (410) and the left and right sides of mixing box (5) upper surface respectively, valve b (48) and valve a (49) are installed respectively in the front of discharging pipe a (410) and discharging pipe b (411).

5. The microorganism delivering device for sewage treatment as claimed in claim 4, wherein: transparent scale (8) are installed to the equal front of ration jar a (41) and ration jar b (42), the upper surface mounting of baffle a (412) has overflow pipe (9), the upper surface that the other end of overflow pipe (9) passed ration jar a (41) inner wall extends to ration jar a (41) outside.

6. The microorganism throwing apparatus for sewage treatment of claim 1, wherein: suction pump b (10) are installed to the right flank of mixing box (5), the end of drawing water of suction pump b (10) is linked together through the right flank of drinking-water pipe b (11) and mixing box (5), the drainage end of suction pump b (10) is linked together with the one end of drain pipe b (12).