CN110317729B - Biological enzyme control process system - Google Patents

Abstract

The invention relates to a biological enzyme control process system which comprises a body, an air inlet pipe, a biological enzyme feeding pipe and a water inlet pipe, wherein the air inlet pipe, the biological enzyme feeding pipe and the water inlet pipe are connected in parallel through connecting pipes, a main outlet pipe connected to the connecting pipes is connected with a top cover of the body, and a control valve is arranged on each pipe; the connecting pipes extend towards the two ends to form a sewage discharge pipe; a drain pipe is arranged on the main outlet pipe; the body comprises an interlayer and a pressurizing nozzle mechanism. The invention is suitable for the industrial fields of biological enzyme experimental research, biological medicine, food processing and the like.

Description

Biological enzyme control process system

Technical Field

The invention relates to the technical field of flow devices, in particular to a biological enzyme flow control process device.

Background

In the chemical process, the catalytic synthesis of the biological enzyme has the advantages of mild condition, avoidance of use of highly toxic chemicals, short process route and the like, is a trend of green chemical synthesis research, is critical to control in the catalytic synthesis process due to the activity of the biological enzyme, particularly controls the dosage and flow rate of the biological enzyme, influences the efficiency and quality of the catalytic synthesis reaction, and influences the subsequent purification process due to improper post-treatment of the biological enzyme, thereby influencing the quality of target products.

Disclosure of Invention

The invention aims to: in order to overcome the defects, the invention provides a biological enzyme control process system which is safe and environment-friendly and convenient to operate.

The technical scheme is as follows: the invention adopts a biological enzyme control process system, which comprises a body, an air inlet pipe, a biological enzyme feeding pipe and a water inlet pipe, wherein the air inlet pipe, the biological enzyme feeding pipe and the water inlet pipe are connected in parallel through connecting pipes, a main outlet pipe connected to the connecting pipes is connected with a top cover of the body, and a control valve is arranged on each pipe; the connecting pipes extend towards the two ends to form a sewage discharge pipe; a drain pipe is arranged on the main outlet pipe; the body comprises an interlayer and a pressurizing nozzle mechanism, and the interlayer divides the inner part of the body into an upper separation cavity and a lower separation cavity; the lower separation cavity is in an inverted convex shape, the wider part of the lower separation cavity is an upper cavity, the narrower protruding part of the lower separation cavity is a pressurizing nozzle mechanism, the pressurizing nozzle mechanism comprises a plurality of curved plates and nozzles, the curved plates are longitudinally arranged at intervals, a pressure cavity is formed between the adjacent curved plates, an inclined plate is arranged on the inner wall of the pressure cavity, one end of the inclined plate is fixedly connected with the inner wall of the pressure cavity, and the inclined plate is provided with a plurality of parallel and spaced; the included angle between the inclined plate and the horizontal plane ranges from-30 degrees to-80 degrees.

Preferably, the curved plate is provided with a hole.

Preferably, the interlayer is a multi-layer metal mesh.

Preferably, the interlayer comprises an active carbon layer and a filter membrane from top to bottom.

Preferably, the pressurizing nozzle mechanism is detachably connected with the upper cavity.

Preferably, the interlayer is detachably connected with the inner wall of the body.

The beneficial effects are that: the invention adopts the air inlet pipe, the biological enzyme feed pipe and the water inlet pipe to be connected in parallel, and the control valve is used for selecting and opening the needed pipeline; the pressure in the body can be regulated according to the process requirement by controlling the opening or closing of the air inlet pipe, the water inlet pipe and the air inlet pipe can purge and clean the biological enzyme feeding pipe, so that the biological enzyme is prevented from remaining on the pipe wall, dead angle contamination bacteria are avoided, the subsequent catalytic process reaction is affected, and the purged sewage can be discharged from the sewage discharge pipe. The adoption of multiple metal layers can uniformly permeate the biological enzyme liquid and uniformly spray out from the nozzle, so that the reaction is uniform, and the phenomenon that the biological enzyme cannot uniformly enter a reaction system to cause insufficient reaction is avoided; the pressure cavity is formed by adopting the curved plate and the inclined plate, the pressure and the flow rate of discharging can be increased, the inclined plates with different included angles are selected according to different reaction systems, different pressures and different flow rates are generated, and the reaction of different enzyme catalytic reaction systems is ensured to be carried out towards the forward reaction. Holes are arranged on the curved plate, and the pressure difference between the adjacent pressure cavities can be adjusted, so that the pressures of the different pressure cavities are basically the same, and the same flow rate of the biological enzyme liquid sprayed out of the nozzle is ensured. The adoption of multiple metal layers can filter the protein impurities in the enzyme solution, and reduce the impurities in the final product of the enzyme reaction. The detachable pressurizing nozzle mechanism is adopted, so that the pressure cavity and the nozzle can be conveniently cleaned.

Drawings

FIG. 1 is a schematic view of a first end head according to the present invention;

wherein: 1-a body housing; 2-an interlayer; 3-an upper compartment; 4-a lower compartment; 5-an air inlet pipe; 6-biological enzyme feeding pipe; 7-a water inlet pipe; 8-connecting pipes; 9-a sewage outlet; 10-a control valve; 11-curved separator; 12-a bevel panel; 13-a pressure chamber; 14-nozzle.

Detailed Description

The technology of the present invention will be further described with reference to the accompanying drawings and specific examples, but the scope of the present invention is not limited to the examples described below. It will be apparent to those skilled in the art from this disclosure that some basic variations of the same principle, or alternatives to commonly known techniques in the prior art, as well as simple changes in the features of the same combinations of features, the same or similar technical effects, can be directly derived from this disclosure without departing from the scope of the invention.

Example 1

As shown in fig. 1, a biological enzyme control process system comprises a body 1, an air inlet pipe 5, a biological enzyme feeding pipe 6 and a water inlet pipe 7, wherein the air inlet pipe 5, the biological enzyme feeding pipe 6 and the water inlet pipe 7 are connected in parallel through a connecting pipe 8, a main outlet pipe connected with the connecting pipe 8 is connected with a top cover of the body 1, and a control valve 10 is arranged on each pipe; the connecting pipe 8 extends towards two ends to form a sewage discharge pipe 9; a drain pipe 9 is arranged on the main outlet pipe; the body 1 comprises a partition layer 2 and a pressurizing nozzle mechanism, wherein the partition layer 2 divides the interior of the body 1 into an upper partition chamber 3 and a lower partition chamber 4; the lower separation cavity 4 is in an inverted convex shape, the wider part of the lower separation cavity is an upper cavity, the narrower protruding part is a pressurizing nozzle mechanism, the pressurizing nozzle mechanism comprises a plurality of curved plates 11 and nozzles 14, the curved plates 11 are longitudinally arranged at intervals, a pressure cavity 13 is formed between the adjacent curved plates 11, an inclined plate 12 is arranged on the inner wall of the pressure cavity 13, one end of the inclined plate 12 is fixedly connected with the inner wall of the pressure cavity 13, and the inclined plate 12 is in a plurality of parallel and spaced arrangement; the included angle between the inclined plate 12 and the horizontal plane ranges from-30 degrees to-80 degrees. According to different reaction systems, inclined plates with different included angles are selected to generate different pressures and flow rates, so that the reaction of different enzyme catalytic reaction systems is ensured to be carried out towards the forward reaction. In this embodiment, the holes are formed in the curved plate, so that the pressure difference between the adjacent pressure chambers can be adjusted, and the pressures of the different pressure chambers are substantially the same, thereby ensuring that the flow rate of the bio-enzyme liquid sprayed from the nozzles is the same.

In the embodiment, the middle layer is a plurality of layers of metal nets, so that enzyme liquid protein impurities can be filtered, and the impurities of enzyme reaction end products can be reduced.

Example 2

In this embodiment, the connection structure of body 1, intake pipe 5, bio-enzyme inlet pipe 6, inlet tube 7 is the same as embodiment 1, and interlayer 2 from the top down includes active carbon layer, filter membrane in proper order, plays the effect of filtering enzyme protein impurity, interlayer 2 with the inner wall of body is dismantled and is connected, is convenient for change, ensures the filter effect, is applicable to the great process systems of bio-enzyme quantity. The pressurizing nozzle mechanism is detachably connected with the upper cavity. The pressure chamber and the nozzle can be conveniently cleaned.

Claims (5)

1. A biological enzyme control process system, characterized in that: the biological enzyme water inlet device comprises a body (1), an air inlet pipe (5), a biological enzyme feed pipe (6) and a water inlet pipe (7), wherein the air inlet pipe (5), the biological enzyme feed pipe (6) and the water inlet pipe (7) are connected in parallel through connecting pipes (8), a main outlet pipe is connected to the connecting pipes (8) and is connected with a top cover of the body (1), and a control valve (10) is arranged on each pipe; the connecting pipes (8) extend towards two ends to form a sewage discharge pipe (9); a drain pipe (9) is arranged on the main outlet pipe; the body (1) comprises an interlayer (2) and a pressurizing nozzle mechanism, wherein the interlayer (2) divides the interior of the body (1) into an upper separation cavity (3) and a lower separation cavity (4); the lower separation cavity (4) is in an inverted convex shape, the wider part of the lower separation cavity is an upper cavity, the narrower protruding part of the lower separation cavity is a pressurizing nozzle mechanism, the pressurizing nozzle mechanism comprises a plurality of curved plates (11) and nozzles (14), the curved plates (11) are longitudinally arranged at intervals, a pressure cavity (13) is formed between the adjacent curved plates (11), an inclined plate (12) is arranged on the inner wall of the pressure cavity (13), one end of the inclined plate (12) is fixedly connected with the inner wall of the pressure cavity (13), and the inclined plate (12) is arranged at intervals in parallel; the included angle between the inclined plate (12) and the horizontal plane is between-30 degrees and-80 degrees;

holes are formed in the curved plate (11).

2. The biological enzyme control process system according to claim 1, wherein: the interlayer (2) is a multi-layer metal net.

3. The biological enzyme control process system according to claim 1, wherein: the interlayer (2) sequentially comprises an active carbon layer and a filter membrane from top to bottom.

4. The biological enzyme control process system according to claim 1, wherein: the pressurizing nozzle mechanism is detachably connected with the upper cavity.

5. The biological enzyme control process system according to claim 1, wherein: the interlayer (2) is detachably connected with the inner wall of the body (1).