CN216687703U - Low-carbon energy-saving pharmaceutical wastewater treatment system - Google Patents

Abstract

The utility model discloses a low-carbon energy-saving pharmaceutical wastewater treatment system, which belongs to the technical field of pharmaceutical wastewater treatment and comprises a wastewater treatment tank and a filter box connected with the bottom end of the wastewater treatment tank, wherein a top plate is embedded and fixed at the top end of the wastewater treatment tank, a drug storage cylinder is fixed at the bottom end of the top plate, a drive shaft is rotatably inserted at the bottom end of the drug storage cylinder, a drug pushing plate in threaded connection with the drive shaft is inserted in the drug storage cylinder in a matching manner, drug outlet grooves are formed in the top end of the outer wall of the drug storage cylinder in an annular array, a water flow driving member is fixed at the bottom end of the drive shaft, a partition plate is fixed at the central position of the filter box, connecting pipes communicated with the filter box are respectively installed on two sides of the top end surface of the filter box, water inlet pipes horizontally staggered with the water flow plates are installed on the side wall of the wastewater treatment tank, and the low-carbon energy-saving effect of the pharmaceutical wastewater treatment system is improved, the work of the pharmaceutical wastewater treatment system is not affected by replacing the filtering device.

Description

Low-carbon energy-saving pharmaceutical wastewater treatment system

Technical Field

The utility model belongs to the technical field of pharmaceutical wastewater treatment, and particularly relates to a low-carbon and energy-saving pharmaceutical wastewater treatment system.

Background

The pharmaceutical industry wastewater mainly comprises four types of antibiotic production wastewater, synthetic drug production wastewater, Chinese patent drug production wastewater and washing water and flushing wastewater in the production process of various preparations, and is characterized by complex components, high organic matter content, high toxicity, deep chromaticity, high salt content, particularly poor biodegradability and intermittent discharge, belongs to industrial wastewater which is difficult to treat, and the pharmaceutical wastewater gradually becomes one of important pollution sources along with the development of the pharmaceutical industry in China.

At present, pharmacy effluent treatment plant need add the treatment medicament at the in-process of handling waste water to stirring waste water makes medicament and waste water mix the back, uses filter equipment to filter waste water, and current pharmacy effluent treatment plant need use a large amount of electric energy to drive at the in-process of handling, does not conform to the requirement of low carbon energy-conservation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a low-carbon and energy-saving pharmaceutical wastewater treatment system to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a low-carbon and energy-saving pharmaceutical wastewater treatment system comprises:

a top plate is embedded and fixed at the top end of the wastewater treatment tank;

the filter tank is connected to the bottom end of the wastewater treatment tank;

the bottom mounting of above-mentioned roof has the cartridge case of depositing, and the aforesaid bottom of depositing the cartridge case rotates to peg graft and has the drive shaft, and deposit in the cartridge case coincide peg graft have with drive shaft threaded connection push away the medicine board, and wherein the outer wall top of depositing the cartridge case is annular array and has seted up out the medicine groove, the bottom mounting of above-mentioned drive shaft has the rivers driving piece, the central point department of putting of above-mentioned rose box is fixed with the baffle, and the connecting pipe that communicates with the rose box is all installed to rose box top face both sides.

Furthermore, the top end of the driving shaft is rotatably inserted into the top plate through a bearing, and the water flow driving pieces are water flow plates which are fixed at the bottom end of the driving shaft in an annular array.

Furthermore, the lateral wall of above-mentioned waste water treatment jar is installed and is installed the inlet tube crisscross with rivers board level, and the bottom of waste water treatment jar is annular array and installs the bracing piece.

Furthermore, a positioning groove is formed in the top end of the side wall of the driving shaft, and the inner wall of the medicine pushing plate is matched and inserted into the positioning groove.

Furthermore, a medicine inlet channel communicated with the medicine storage cylinder is formed in the top plate, and a sealing plug is inserted into the top end of the medicine inlet channel in a threaded mode.

Further, the both ends of above-mentioned rose box all coincide and peg graft and have the filter, and the bottom fixedly connected with drain pipe of rose box, the handle is all installed to the lateral wall of two above-mentioned filters.

Further, the equal symmetry in both ends of above-mentioned rose box installs the bolt, and the lateral wall threaded connection of above-mentioned bolt and filter all installs the control valve on two above-mentioned connecting pipes.

The low-carbon energy-saving pharmaceutical wastewater treatment system has the technical effects and advantages that: the drug storage tank is fixed at the bottom end of the top plate, the drive shaft is inserted at the bottom end of the drug storage tank in a rotating mode, the drug pushing plate is arranged in the drug storage tank, the water flow plate is pushed by wastewater in the process that the wastewater enters the wastewater treatment tank from the water inlet pipe to enable the drive shaft to rotate, the top of the drive shaft drives the drug pushing plate to move upwards in the drug storage tank in the rotating process, so that drugs in the drug storage tank enter the wastewater treatment tank along the drug outlet groove to be in contact with the wastewater, meanwhile, the drugs are stirred by the rotation of the water flow plate, the drugs are added and stirred by water flow driving, and the low-carbon energy-saving effect of the pharmaceutical wastewater treatment system is improved; the center position department through the rose box is fixed with the baffle, separates the rose box through the baffle and establishes into two passageways, and the filter at rose box both ends filters waste water, closes one of them connecting pipe through the control valve when changing the filter, changes filter equipment and can not cause the influence to pharmacy effluent disposal system's work.

Drawings

FIG. 1 is a cross-sectional view of an embodiment of the present invention;

FIG. 2 is a schematic view of a drive shaft according to an embodiment of the present invention;

FIG. 3 is an enlarged view of the embodiment of the present invention at A in FIG. 1;

fig. 4 is a schematic structural diagram of a filter box according to an embodiment of the utility model.

In the figure: 1. a wastewater treatment tank; 2. storing the medicine box; 3. a medicine pushing plate; 4. a top plate; 5. a water inlet pipe; 6. a drive shaft; 7. a water flow plate; 8. a drain pipe; 9. a support bar; 10. positioning a groove; 11. a drug inlet channel; 12. a medicine outlet groove; 13. a sealing plug; 14. a bolt; 15. a filter plate; 16. a filter box; 17. a partition plate; 18. a connecting pipe; 19. a handle.

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.

Referring to fig. 1-4, a low-carbon and energy-saving pharmaceutical wastewater treatment system comprises a wastewater treatment tank 1 and a filter tank 16 connected to the bottom end of the wastewater treatment tank 1, wherein a top plate 4 is embedded and fixed in the top end of the wastewater treatment tank 1.

Referring to fig. 1 and 2, a drug storage tank 2 is fixed at the bottom end of a top plate 4, a driving shaft 6 is inserted at the bottom end of the drug storage tank 2 in a rotating manner, a drug pushing plate 3 is arranged in the drug storage tank 2, wastewater pushes a water flow plate 7 to rotate the driving shaft 6 in the process of entering the wastewater treatment tank 1 from a water inlet pipe 5, the top of the driving shaft 6 drives the drug pushing plate 3 to move upwards in the drug storage tank 2 in the rotating process, so that drugs in the drug storage tank 2 enter the wastewater treatment tank 1 along a drug outlet groove 12 to be contacted with the wastewater, the drugs are stirred by the rotation of the water flow plate 7, the drug adding and the stirring are completed by water flow driving, the low-carbon energy-saving effect of the pharmaceutical wastewater treatment system is improved, the drug storage tank 2 is fixed at the bottom end of the top plate 4, the driving shaft 6 is inserted at the bottom end of the drug storage tank 2 in a rotating manner, and the drug pushing plate 3 in threaded connection with the driving shaft 6 is inserted in the drug storage tank 2 in a matching manner, wherein the outer wall top of depositing cartridge case 2 is annular array and has seted up out medicine groove 12, the bottom mounting of drive shaft 6 has the rivers driving piece, the top of drive shaft 6 is passed through the bearing and is rotated and peg graft in roof 4, the rivers driving piece is for being the rivers board 7 that annular array fixed in drive shaft 6 bottom, the inlet tube 5 crisscross with rivers board 7 level is installed to the lateral wall of waste water treatment jar 1, and the bottom of waste water treatment jar 1 is annular array and installs bracing piece 9, constant head tank 10 has been seted up on the lateral wall top of drive shaft 6, the inner wall that pushes away medicine board 3 coincide and peg graft in constant head tank 10.

Referring to fig. 3 and 4, a partition 17 is fixed at the center of a filter box 16, the filter box 16 is divided into two channels by the partition 17, the filter plates 15 at the two ends of the filter box 16 filter the wastewater, one of the connecting pipes 18 is closed by a control valve when the filter plates 15 are replaced, the replacement of the filter device does not affect the operation of the pharmaceutical wastewater treatment system, the partition 17 is fixed at the center of the filter box 16, the connecting pipes 18 communicated with the filter box 16 are installed at the two sides of the top end face of the filter box 16, a drug inlet channel 11 communicated with the drug storage tank 2 is installed on the top plate 4, a sealing plug 13 is inserted in the top end of the drug inlet channel 11 in a threaded manner, the filter plates 15 are inserted in the two ends of the filter box 16 in a matching manner, the drain pipes 8 are fixedly connected to the bottom end of the filter box 16, handles 19 are installed on the side walls of the two filter plates 15, and bolts 14 are symmetrically installed at the two ends of the filter box 16, the bolt 14 is connected with the side wall of the filter plate 15 in a threaded manner, and the two connecting pipes 18 are provided with control valves.

This energy-conserving pharmacy effluent disposal system of low carbon, during the use, screw off behind the sealing plug 13 through advancing medicine passageway 11 with the medicine add to depositing in the cartridge case 2, waste water drives rivers board 7 and drive shaft 6 rotation when getting into waste water treatment jar 1 along inlet tube 5, drive shaft 6 is at its top of rotatory in-process and pushes away 3 threaded connection of medicine board, thereby make and push away medicine board 3 rebound in depositing cartridge case 2, make the medicine arrange with waste water mixture in waste water treatment jar 1 along a play medicine groove 12, baffle 17 separates filter box 16 and establishes to two passageways, filter 15 at filter box 16 both ends filters waste water, close one of them connecting pipe 18 through the control valve when changing filter 15, screw off 14 back hand handle 19 can take out filter 15 from filter box 16.

The above description is only for the preferred embodiment of the present invention, but the scope of the utility model is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the utility model, and equivalent alternatives or modifications according to the technical solution of the utility model and the practical idea thereof should be covered by the scope of the utility model.

Claims (7)

1. A low-carbon and energy-saving pharmaceutical wastewater treatment system comprises:

the device comprises a wastewater treatment tank (1), wherein a top plate (4) is embedded and fixed at the top end of the wastewater treatment tank (1);

the filter tank (16), the said filter tank (16) is connected to the bottom of the waste water treatment tank (1);

the method is characterized in that: the bottom mounting of roof (4) has deposit cartridge case (2), the bottom of depositing cartridge case (2) is rotated and is pegged graft and have drive shaft (6), and deposit cartridge case (2) in coincide peg graft have with drive shaft (6) threaded connection push away medicine board (3), wherein deposit the outer wall top of cartridge case (2) and have seted up out medicine groove (12) for annular array, the bottom mounting of drive shaft (6) has the rivers driving piece, the central point department of putting of rose box (16) is fixed with baffle (17), and connecting pipe (18) with rose box (16) intercommunication are all installed to rose box (16) top face both sides.

2. The low-carbon energy-saving pharmaceutical wastewater treatment system according to claim 1, characterized in that: the top of drive shaft (6) passes through the bearing and rotates the grafting in roof (4), rivers driving piece is for being the rivers board (7) that the annular array is fixed in drive shaft (6) bottom.

3. The low-carbon energy-saving pharmaceutical wastewater treatment system according to claim 2, characterized in that: the lateral wall of waste water treatment jar (1) is installed and is gone up crisscross inlet tube (5) with rivers board (7) level, and the bottom of waste water treatment jar (1) is annular array and installs bracing piece (9).

4. The low-carbon energy-saving pharmaceutical wastewater treatment system according to claim 1, characterized in that: the top end of the side wall of the driving shaft (6) is provided with a positioning groove (10), and the inner wall of the medicine pushing plate (3) is matched and inserted in the positioning groove (10).

5. The low-carbon energy-saving pharmaceutical wastewater treatment system according to claim 1, characterized in that: the medicine storage device is characterized in that a medicine inlet channel (11) communicated with the medicine storage barrel (2) is formed in the top plate (4), and a sealing plug (13) is inserted into the top end of the medicine inlet channel (11) in a threaded mode.

6. The low-carbon energy-saving pharmaceutical wastewater treatment system according to claim 1, characterized in that: the both ends of rose box (16) all coincide and peg graft and have filter (15), and the bottom fixedly connected with drain pipe (8) of rose box (16), two handle (19) are all installed to the lateral wall of filter (15).

7. The low-carbon energy-saving pharmaceutical wastewater treatment system according to claim 6, characterized in that: bolts (14) are symmetrically installed at two ends of the filter box (16), the bolts (14) are in threaded connection with the side wall of the filter plate (15), and control valves are installed on the two connecting pipes (18).

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