CN216472624U

CN216472624U - Analytic reaction device for recycling L-carnitine from pharmaceutical wastewater

Info

Publication number: CN216472624U
Application number: CN202123318148.4U
Authority: CN
Inventors: 黎锋; 陈国威; 蔡耿林; 舒俭
Original assignee: Guangzhou Rand Environmental Protection Resources Technology Co ltd
Current assignee: Guangzhou Rand Environmental Protection Resources Technology Co ltd
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-05-10
Anticipated expiration: 2031-12-27

Abstract

The utility model discloses an analytic reaction unit of pharmacy waste water recovery levogyration carnitine relates to pharmacy waste water technical field, to current can not adjust according to the internal reaction condition and lead to the analysis complete and the comparatively loaded down with trivial details problem of pharmacy waste water filtration, the following scheme is proposed at present, and it includes the analysis jar, the lateral wall of analysis jar is provided with the sampling mechanism, the sampling mechanism is used for the sample of analysis pharmacy waste water, the bottom of analysis jar is provided with filter mechanism, filter mechanism is used for the filtration of pharmacy waste water; the filtering mechanism comprises a discharge hopper and a filter box, and the discharge hopper is positioned at the bottom end of the analysis tank. The utility model discloses pharmacy waste water recovery levogyration carnitine's analytic reaction unit can adjust the reagent proportion of pharmacy waste water according to the analytic condition of sample, reduces the analytic not complete problem inadequately of pharmacy waste water, also need not carry out the leading-in filtration of secondary simultaneously, has improved filtration efficiency, facilitates the use.

Description

Analytic reaction device for recycling L-carnitine from pharmaceutical wastewater

Technical Field

The utility model relates to a pharmacy waste water technical field especially relates to an analytic reaction unit of pharmacy waste water recovery levogyration carnitine.

Background

Contain certain levo-carnitine among the pharmacy waste water, need use analytic reaction unit when carrying out recycle to levo-carnitine, when carrying out analytic reaction to pharmacy waste water, can not adjust according to the inside reaction condition of analytic device, thereby lead to the analysis incomplete inadequately, and pharmacy waste water can produce some crystallization at the in-process of reaction, and these crystallization generally all are directly derived with liquid, then the inside of leading-in filter equipment filters, thereby lead to filtering comparatively loaded down with trivial details, consequently, in order to solve this type of problem, we have proposed an analytic reaction unit of pharmacy waste water recovery levo-carnitine.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of pharmacy waste water recovery levogyration carnitine's analytic reaction unit solves and analyzes the device and can not adjust according to the inside reaction condition and lead to the analytic comparatively loaded down with trivial details problem of pharmacy waste water filtration completely inadequately.

In order to realize the purpose, the utility model adopts the following technical scheme:

an analysis reaction device for recycling L-carnitine from pharmaceutical wastewater comprises an analysis tank, wherein a sampling mechanism is arranged on the side wall of the analysis tank and used for analyzing and sampling pharmaceutical wastewater, a filtering mechanism is arranged at the bottom end of the analysis tank and used for filtering pharmaceutical wastewater;

the filtering mechanism comprises a discharge hopper and a filter box, the discharge hopper is positioned at the bottom end of the analysis tank, the top end of the discharge hopper extends into the analysis tank, and the top end of the filter box is connected with the discharge hopper.

Preferably, the bottom of analysis jar is installed the support frame, the support frame is circular display distribution with the mid point of analysis jar.

Preferably, sampling mechanism includes sample jar, transfer line, catheter, first valve and second valve, the sample jar is located the circumference lateral wall of analysis jar, just the sample jar evenly sets up along the length direction of analysis jar.

Preferably, the one end of transfer line is connected with the sampling jar, the one end that the transfer line kept away from the sampling jar extends to the inside of analysis jar, the catheter is located the circumference lateral wall of sampling jar.

Preferably, the first valve is located on the circumferential side wall of the infusion tube, the bottom end of the first valve extends to the inside of the infusion tube, the second valve is located on the circumferential side wall of the catheter, and one end of the second valve extends to the inside of the catheter.

Preferably, the top of analysis jar is provided with the rotating cover, the top of rotating cover is provided with the feeder hopper, the bottom of feeder hopper extends to the inside of rotating cover.

Preferably, servo motor is installed to the circumference lateral wall of analysis jar, drive gear is installed to servo motor's output, the circumference lateral wall of rotatory lid is provided with driven gear, drive gear and driven gear mesh mutually.

Preferably, the inside of analysis jar is provided with the dwang, the circumference lateral wall of dwang is provided with first stirring piece, the top of dwang is connected with the swivel cap.

Preferably, first stirring piece evenly sets up along the length direction of dwang, just the second stirring piece is installed to the bottom of dwang.

Preferably, the circumference lateral wall of analysis jar is provided with the person in charge, the one end of being responsible for extends to the inside of analysis jar, just the branch pipe is installed on the top of being responsible for, the bottom of branch pipe extends to the inside of being responsible for.

The utility model has the advantages that:

1. through opening during the pharmacy waste water direct introduction sampling tank that first valve will resolve jar internal reaction finishes, when sampling tank fills up, close first valve to can effectually prevent too much or too little of pharmacy waste water sample, open the second valve afterwards, directly derive the observation through the pharmacy waste water of catheter in with sampling tank, thereby can adjust the reagent proportion of pharmacy waste water according to the analytic condition of sample, reduce the not complete problem of pharmacy waste water analysis.

2. Through going out the inside that the hopper will resolve complete pharmacy waste water direct introduction rose box, then filter the crystallization in the pharmacy waste water through the rose box to need not carry out the leading-in filtration of secondary, improved filtration efficiency.

To sum up, the device can adjust the reagent proportion of pharmacy waste water according to the analytic condition of sample, reduces the analytic incomplete problem inadequately of pharmacy waste water, also need not carry out secondary induction filtration simultaneously, has improved filtration efficiency, facilitates the use.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a side view of the structure of the present invention.

Fig. 3 is a schematic view of the split structure of the present invention.

Reference numbers in the figures: 1. an analysis tank; 2. a support frame; 3. a sampling mechanism; 301. a sampling tank; 302. a transfusion tube; 303. a catheter; 304. a first valve; 305. a second valve; 4. a filtering mechanism; 401. a discharge hopper; 402. a filter box; 5. a rotating cover; 6. a feed hopper; 7. a servo motor; 8. a drive gear; 9. a driven gear; 10. a main pipe; 11. a branch pipe; 12. rotating the rod; 13. a first stirring block; 14. and a second stirring block.

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.

Referring to fig. 1-3, an analysis reaction device for recovering l-carnitine from pharmaceutical wastewater comprises an analysis tank 1, wherein a sampling mechanism 3 is arranged on the side wall of the analysis tank 1, the sampling mechanism 3 is used for analyzing samples of pharmaceutical wastewater, a filtering mechanism 4 is arranged at the bottom end of the analysis tank 1, and the filtering mechanism 4 is used for filtering pharmaceutical wastewater;

the filter mechanism 4 comprises a discharge hopper 401 and a filter box 402, wherein the discharge hopper 401 is positioned at the bottom end of the analysis tank 1, the top end of the discharge hopper 401 extends into the analysis tank 1, and the top end of the filter box 402 is connected with the discharge hopper 401.

As shown in fig. 1 and 2, a support frame 2 is mounted at the bottom end of the analysis tank 1, the support frame 2 is distributed in a circular array at the midpoint of the analysis tank 1, the sampling mechanism 3 includes a sampling tank 301, an infusion tube 302, a liquid guide tube 303, a first valve 304 and a second valve 305, the sampling tank 301 is located on the circumferential side wall of the analysis tank 1, the sampling tank 301 is uniformly arranged along the length direction of the analysis tank 1, one end of the infusion tube 302 is connected with the sampling tank 301, one end of the infusion tube 302 away from the sampling tank 301 extends to the inside of the analysis tank 1, the liquid guide tube 303 is located on the circumferential side wall of the sampling tank 301, the first valve 304 is located on the circumferential side wall of the infusion tube 302, the bottom end of the first valve 304 extends to the inside of the infusion tube 302, the second valve 305 is located on the circumferential side wall of the liquid guide tube 303, and one end of the second valve 305 extends to the inside of the liquid guide tube 303, by closing the first valve 304 and opening the second valve 305, the pharmaceutical wastewater inside the sampling tank 301 is led out to observe the analysis state, thereby effectively preventing the problem of too much or too little during sampling.

As shown in fig. 1 and 3, a rotary cover 5 is arranged on the top end of the analysis tank 1, a feed hopper 6 is arranged on the top end of the rotary cover 5, the bottom end of the feed hopper 6 extends into the rotary cover 5, a servo motor 7 is arranged on the circumferential side wall of the analysis tank 1, a drive gear 8 is arranged at the output end of the servo motor 7, a driven gear 9 is arranged on the circumferential side wall of the rotary cover 5, the drive gear 8 is meshed with the driven gear 9, a rotating rod 12 is arranged inside the analysis tank 1, a first stirring block 13 is arranged on the circumferential side wall of the rotating rod 12, the top end of the rotating rod 12 is connected with the rotary cover 5, the first stirring block 13 is uniformly arranged along the length direction of the rotating rod 12, a second stirring block 14 is arranged at the bottom end of the rotating rod 12, and a main pipe 10 is arranged on the circumferential side wall of the analysis tank 1, be responsible for 10 one end and extend to the inside of analytic jar 1, just be responsible for 10 top and install branch pipe 11, branch pipe 11's bottom extends to the inside of being responsible for 10, can drive first stirring piece 13 and second stirring piece 14 through rotatory dwang 12 and stir pharmaceutical wastewater, and the reagent that will need react with pharmaceutical wastewater simultaneously through branch pipe 11 is leading-in inside of analytic jar 1.

The working principle is as follows: when the device is used, pharmaceutical wastewater is firstly guided into the analysis tank 1 through the feed hopper 6, at the moment, the servo motor 7 is started, the servo motor 7 drives the driving gear 8 to rotate, the driving gear 8 drives the driven gear 9 to rotate, the driven gear 9 drives the rotary cover 5 to rotate, the rotary cover 5 can drive the rotary rod 12 to rotate, the rotary rod 12 can drive the first stirring block 13 and the second stirring block 14 to stir the pharmaceutical wastewater, and simultaneously, reagents required to react with the pharmaceutical wastewater are guided into the analysis tank 1 through the branch pipe 11, so that the reagents can be accelerated to react with the pharmaceutical wastewater in the analysis tank 1 through the first stirring block 13 and the second stirring block 14, when the pharmaceutical wastewater is required to be guided out after the reaction is finished, the pharmaceutical wastewater is firstly sampled according to different heights, observe analytic state, open first valve 304 this moment, the leading-in inside of sampling jar 301 of pharmacy waste water of analytic jar 1 inside, when the sampling jar 301 is inside to fill up, close first valve 304 and open second valve 305 and derive the analytic state of observation with the inside pharmacy waste water of sampling jar 301, thereby can effectually prevent to lead to too much or too little problem when the sample, when analytic state is better, through the inside of hopper 401 with the leading-in rose box 402 of analytic good pharmacy waste water, then directly derive after filtering through rose box 402, thereby do not need the secondary to lead to the filtration, make to filter comparatively portably.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims

1. The analysis reaction device for recycling L-carnitine from pharmaceutical wastewater comprises an analysis tank (1), and is characterized in that a sampling mechanism (3) is arranged on the side wall of the analysis tank (1), the sampling mechanism (3) is used for analyzing pharmaceutical wastewater for sampling, a filtering mechanism (4) is arranged at the bottom end of the analysis tank (1), and the filtering mechanism (4) is used for filtering pharmaceutical wastewater;

filtering mechanism (4) are including going out hopper (401) and rose box (402), go out hopper (401) and be located the bottom of analysis jar (1), just the top of going out hopper (401) extends to the inside of analysis jar (1), the top of rose box (402) is connected with play hopper (401).

2. The resolving reaction device for recovering L-carnitine from pharmaceutical wastewater according to claim 1, wherein a supporting frame (2) is installed at the bottom end of the resolving tank (1), and the supporting frames (2) are arranged in a circular shape at the midpoint of the resolving tank (1).

3. The resolving reaction device for recovering l-carnitine from pharmaceutical wastewater according to claim 1, wherein said sampling mechanism (3) comprises a sampling tank (301), an infusion tube (302), a liquid guide tube (303), a first valve (304) and a second valve (305), said sampling tank (301) is located on the circumferential sidewall of the resolving tank (1), and said sampling tank (301) is uniformly arranged along the length direction of the resolving tank (1).

4. The resolving reaction device for recovering L-carnitine from pharmaceutical wastewater according to claim 3, wherein one end of the infusion tube (302) is connected to the sampling tank (301), one end of the infusion tube (302) far away from the sampling tank (301) extends to the inside of the resolving tank (1), and the liquid guide tube (303) is located on the circumferential side wall of the sampling tank (301).

5. The analytical reaction device for recovering L-carnitine from pharmaceutical wastewater according to claim 3, wherein a first valve (304) is located on the circumferential side wall of the infusion tube (302), the bottom end of the first valve (304) extends to the inside of the infusion tube (302), the second valve (305) is located on the circumferential side wall of the catheter (303), and one end of the second valve (305) extends to the inside of the catheter (303).

6. The resolving reaction device for recovering l-carnitine from pharmaceutical wastewater according to claim 1, wherein a rotary cap (5) is disposed at the top end of the resolving tank (1), a feed hopper (6) is disposed at the top end of the rotary cap (5), and the bottom end of the feed hopper (6) extends to the inside of the rotary cap (5).

7. The resolving reaction device for recovering l-carnitine from pharmaceutical wastewater according to claim 6, wherein a servo motor (7) is installed on the circumferential side wall of the resolving tank (1), a driving gear (8) is installed at the output end of the servo motor (7), a driven gear (9) is installed on the circumferential side wall of the rotating cover (5), and the driving gear (8) and the driven gear (9) are meshed.

8. The resolving reaction device for recovering l-carnitine from pharmaceutical wastewater according to claim 6, wherein a rotating rod (12) is disposed inside the resolving tank (1), a first stirring block (13) is disposed on a circumferential side wall of the rotating rod (12), and a top end of the rotating rod (12) is connected to the rotating cover (5).

9. The analytical reaction device for recycling L-carnitine from pharmaceutical wastewater according to claim 8, wherein said first stirring blocks (13) are uniformly arranged along the length direction of said rotating rod (12), and a second stirring block (14) is installed at the bottom end of said rotating rod (12).

10. The resolving reaction device for recovering l-carnitine from pharmaceutical wastewater according to claim 1, wherein a main pipe (10) is disposed on the circumferential side wall of the resolving tank (1), one end of the main pipe (10) extends to the inside of the resolving tank (1), and a branch pipe (11) is installed at the top end of the main pipe (10), and the bottom end of the branch pipe (11) extends to the inside of the main pipe (10).