CN206244804U - A kind of enzymic catalytic reaction tank - Google Patents

Abstract

The utility model discloses a kind of enzymic catalytic reaction tank, including retort body, pH control assemblies and temperature-controlling module；The utility model is provided with the groove that feeds intake, can be in initial reaction stage isolation ice cube shape enzyme and some other solid material, as the carrying out of stirring causes these enzymes and solid material gradually to melt or dissolve, it is to avoid the collision with agitating paddle；Automatically controlling for pH can be realized when carrying out enzymic catalytic reaction, it is not necessary to which manual acid adding alkali adjusts the pH of reaction system；Automatically controlling for temperature can be realized when carrying out enzymic catalytic reaction, it is not necessary to manually adjust the water inlet of enzymic catalytic reaction tank chuck to adjust the temperature of reaction system；React to automatically control, it is to avoid the fluctuating change for manually adjusting, be that the steady of reaction carries out providing condition；Realize feeding intake for ice cube shape enzyme, it is not necessary to ice cube shape enzyme is smashed fed intake again in advance, save time manpower and materials, reduce production cost.

Description

A kind of enzymic catalytic reaction tank

Technical field

The utility model is related to biological technical field, more particularly to a kind of enzymic catalytic reaction tank.

Background technology

Biotechnology is developed rapidly nearly ten years, and traditional chemical reaction is big, raw due to severe reaction conditions, environmental pollution High cost, the low defect of safety coefficient are produced, is just gradually substituted by biological enzyme reaction, enzymic catalytic reaction is due to reaction speed Hurry up, the features such as reaction condition is gentle, low in the pollution of the environment, substrate metastatic is strong, obtained increasing industrial applications.But The storage of enzyme needs cryogenic conditions, and enzyme liquid typically is carried out into freezen protective, is fed intake after being crushed again when using, and is fed intake in enzyme liquid Small this workload of situation of amount is smaller, but, it is necessary to using a large amount of ice cube shape enzymes in actual large-scale industrial production, therefore The broken intricate operation of enzyme, workload is big, and no small puzzlement is caused to enzymatic production.In addition, large-scale production at present Enzymic catalytic reaction tank major part is not carried out automatically controlling for temperature and pH, both increased cost of labor, and to enzymic catalytic reaction Bring certain fluctuation.Therefore, a kind of exigence new enzymic catalytic reaction tank solves above-mentioned technical problem.

Utility model content

The purpose of this utility model：A kind of enzymic catalytic reaction tank is provided, it is easy to operate, reliable and stable, can direct plunge into Ice cube shape enzyme and solid material, and automatically controlling for pH and temperature can be realized.

To achieve these goals, the technical solution of the utility model is：

A kind of enzymic catalytic reaction tank, including retort body, pH control assemblies and temperature-controlling module；Described retort The center of top of body is provided with motor, and the top side of described retort body is provided with cover, described retort body Inside be provided with the agitating paddle being vertically arranged, the upper end of described agitating paddle through described retort body and with described motor Output shaft is coaxially connected and synchronous axial system, and a upper lateral part of described retort body is provided with the groove that feeds intake；Described pH control groups Part includes pH transmitters, peristaltic pump and pH electrodes, and described pH transmitters are by described peristaltic pump and described retort sheet Body is connected, and is inserted in the top opposite side of described retort body；Described pH electrodes are arranged on described retort On body, positioned at the bottom opposite side of described retort body；Described temperature-controlling module includes temperature electrode, water inlet pipe Road, water circulating pump, heater, water return pipeline, water supply pump and cold water pipes；Described temperature electrode is arranged on described retort On body, positioned at the bottom side of described retort body；One end of described inlet channel is connected to described retort The bottom side of body, the other end of described inlet channel passes through the water inlet end of described water circulating pump and described heater Connection, one end of described water return pipeline be connected with the water side of described heater, the other end of described water return pipeline and The described groove connection that feeds intake；Described cold water pipes are connected by described with described heater.

Above-mentioned enzymic catalytic reaction tank, wherein, described retort body is provided with chuck, described chuck from bottom to On be wrapped on the outer wall of described retort body, and canned water in described chuck.

Above-mentioned enzymic catalytic reaction tank, wherein, described inlet channel is provided with recirculated water valve, described cold water pipes Cold water tap is provided with, recirculated water valve and Cold water tap are pneumatic operated valve.

Above-mentioned enzymic catalytic reaction tank, wherein, described heater is provided with overfall.

Above-mentioned enzymic catalytic reaction tank, wherein, uniformly divide on the described groove groove that feeds intake for platy structure and described that feeds intake It is furnished with multiple through holes.

Above-mentioned enzymic catalytic reaction tank, wherein, the aperture of described through hole is 5-10mm.

The utility model is provided with the groove that feeds intake, and can isolate ice cube shape enzyme and some other solid material in initial reaction stage, with The carrying out of stirring so that these enzymes and solid material gradually melt or dissolve, it is to avoid collision with agitating paddle；Carry out enzyme Automatically controlling for pH can be realized during catalytic reaction, it is not necessary to which manual acid adding alkali adjusts the pH of reaction system；Carry out enzymic catalytic reaction When can realize automatically controlling for temperature, it is not necessary to the water inlet of enzymic catalytic reaction tank chuck is manually adjusted to adjust the temperature of reaction system Degree；React to automatically control, it is to avoid the fluctuating change for manually adjusting, be that the steady of reaction carries out providing condition；Realize Ice cube shape enzyme feeds intake, it is not necessary to smash ice cube shape enzyme fed intake again in advance, save time manpower and materials, reduce life Produce cost.

Brief description of the drawings

Fig. 1 is a kind of sectional view of enzymic catalytic reaction tank of the utility model.

Fig. 2 is a kind of front view of the groove that feeds intake of enzymic catalytic reaction tank of the utility model.

Specific embodiment

Embodiment of the present utility model is further illustrated below in conjunction with accompanying drawing.

Refer to shown in accompanying drawing 1, a kind of enzymic catalytic reaction tank, including retort body 1, pH control assemblies 2 and temperature control Component processed 3；The center of top of described retort body 1 is provided with motor 11, and the top side of described retort body 1 sets There is cover 12, the agitating paddle 13 being vertically arranged is provided with described retort body 1, institute is run through in the upper end of described agitating paddle 13 The retort body 1 and and synchronous axial system coaxially connected with the output shaft of described motor 11 stated, described retort body 1 One upper lateral part is provided with the groove 14 that feeds intake；Described pH control assemblies 2 include pH transmitters 21, peristaltic pump 22 and pH electrodes 23, described PH transmitters 21 be connected with described retort body 1 by described peristaltic pump 22, and be inserted in described retort sheet In the top opposite side of body 1；Described pH electrodes 23 are arranged on described retort body 1, positioned at described retort sheet The bottom opposite side of body 1；Described temperature-controlling module 3 includes temperature electrode 31, inlet channel 32, water circulating pump 33, heating Device 35, water return pipeline 36, water supply pump 39 and cold water pipes 30；Described temperature electrode 31 is arranged on described retort body 1 On, positioned at the bottom side of described retort body 1；One end of described inlet channel 32 is connected to described retort sheet The bottom side of body 1, the other end of described inlet channel 32 passes through described water circulating pump 33 and described heater 35 Water inlet end is connected, and one end of described water return pipeline 36 is connected with the water side of described heater 35, described water return pipeline 36 other end is connected with the described groove 14 that feeds intake；Described cold water pipes 30 are connected by described with described heater 35 Connect.

Described retort body 1 is provided with chuck 15, and described chuck 15 is wrapped in described reaction by bottom up Canned water in chuck 15 on the outer wall of tank body 1 and described.

Described inlet channel 32 is provided with recirculated water valve 34, and described cold water pipes 30 are provided with Cold water tap 38, Recirculated water valve 34 and Cold water tap 38 are pneumatic operated valve, to realize the automatic switch of valve.

Described heater 35 is provided with overfall 37.

Refer to shown in accompanying drawing 2, be evenly distributed with the described groove 14 that feeds intake for platy structure and described of groove 14 that feeds intake Multiple through holes, can feed intake the initial stage isolation ice cube shape enzyme, prevent from being collided with agitating paddle, with ice cube thawing enzyme liquid by Step is mixed into reaction solution, and then completes enzymic catalytic reaction.

The aperture of described through hole is 5-10mm.

When using, the numerical value that can be surveyed according to technological requirement and pH electrodes 23, from acid adding alkali soluble in trend retort body 1 Liquid, so as to realize automatically adjusting for pH value in retort body 1.

When using, temperature is detected according to temperature electrode 31 and the difference of temperature is set, it is possible to use heater 35 will be followed Ring water is heated, and then retort body 1 is heated up using chuck 15 by way of interior circulation, it is also possible to in circulation Cold water is added, so that the reduction of enzymic catalytic reaction tank temperature.

The utility model can be carried out as follows the dispensing of ice cube shape enzyme and material.Retort body 1 is cleaned with clear water first, Prescribed volume (not crossing more than the bottom of groove 14 that feeds intake) is added water to, motor 11 is opened and is stirred, to the thing such as input substrate in the groove 14 that feeds intake Material, rear opening pH control assemblies 2 to be dissolved and temperature-controlling module 3, make pH and temperature be adjusted to specified value, then to the groove that feeds intake Ice cube shape enzyme is added in 14, with the thawing of ice cube, enzyme liquid is mixed into reaction system, and enzymic catalytic reaction is proceeded by.

Automatically controlling for pH control assemblies 2 can be realized by the following method during the course of the reaction：PH electrodes 23 are detected PH signal values in retort body 1 send pH transmitters 21 to, and pH transmitters 21 compare signal value with setting value, if Detected value exceeds setting range, then the output alarm signal of pH transmitters 21, so as to excite peristaltic pump 22 to work, by acid or alkali soluble Liquid pump enters in retort body 1, so as to reach the purpose that pH is automatically adjusted.

Automatically controlling for temperature-controlling module 3 can be realized by the following method during enzyme reaction：Temperature electrode 31 Detect the temperature signal in retort body 1, and transmit a signal to central processing unit, central processing unit by signal value with set Definite value is compared, if detected value is too low, central processing unit sends signal, and control Cold water tap 38 is closed, water supply pump 39 Close, recirculated water valve 34 is opened, and water circulating pump 33 is opened, and heater 35 is opened, and the water in chuck 15 carries out interior circulation and goes forward side by side Row heating；If detected value is too high, central processing unit sends signal, and control Cold water tap 38 and water supply pump are opened, recirculated water Valve 34 and water circulating pump 33 are opened, and heater 35 is closed, and the cold water in cold water pipes 30 endlessly enters the circulatory system In, and flowed out from overfall 37, so as to the temperature of enzymic catalytic reaction tank be reduced；If detected value is in range of set value, All valves and pump are all closed, and heater 35 is closed, so that enzymic catalytic reaction tank temperature keeps stabilization.

In sum, the utility model is provided with the groove that feeds intake, and can consolidate with some other in initial reaction stage isolation ice cube shape enzyme Body material, as the carrying out of stirring causes these enzymes and solid material gradually to melt or dissolve, it is to avoid with touching for agitating paddle Hit；Automatically controlling for pH can be realized when carrying out enzymic catalytic reaction, it is not necessary to which manual acid adding alkali adjusts the pH of reaction system；Carry out enzyme Automatically controlling for temperature can be realized during catalytic reaction, it is not necessary to manually adjust the water inlet of enzymic catalytic reaction tank chuck to adjust reaction The temperature of system；React to automatically control, it is to avoid the fluctuating change for manually adjusting, be that the steady of reaction carries out providing bar Part；Realize feeding intake for ice cube shape enzyme, it is not necessary to ice cube shape enzyme is smashed fed intake again in advance, save time manpower thing Power, reduces production cost.

Preferred embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, The equivalent structure transformation that every utilization the utility model description is made, or it is directly or indirectly related with other are attached to The technical field of product, is similarly included in scope of patent protection of the present utility model.

Claims (6)

1. a kind of enzymic catalytic reaction tank, it is characterised in that：Including retort body, pH control assemblies and temperature-controlling module；Institute The center of top of the retort body stated is provided with motor, and the top side of described retort body is provided with cover, described Be provided with the agitating paddle being vertically arranged in retort body, the upper end of described agitating paddle through described retort body and with institute The output shaft of the motor stated is coaxially connected and synchronous axial system, and a upper lateral part of described retort body is provided with the groove that feeds intake；It is described PH control assemblies include pH transmitters, peristaltic pump and pH electrodes, described pH transmitters by described peristaltic pump with it is described The connection of retort body, and be inserted in the top opposite side of described retort body；Described pH electrodes are arranged on institute On the retort body stated, positioned at the bottom opposite side of described retort body；Described temperature-controlling module includes temperature Electrode, inlet channel, water circulating pump, heater, water return pipeline, water supply pump and cold water pipes；Described temperature electrode is arranged on On described retort body, positioned at the bottom side of described retort body；One end of described inlet channel is connected to The bottom side of described retort body, the other end of described inlet channel is added by described water circulating pump with described The water inlet end connection of hot device, one end of described water return pipeline is connected with the water side of described heater, described return pipe The other end in road is connected with the described groove that feeds intake；Described cold water pipes are connected by described with described heater.

2. enzymic catalytic reaction tank according to claim 1, it is characterised in that：Described retort body is provided with chuck, Canned water in chuck on the outer wall of retort body of the described chuck described in bottom up is wrapped in and described.

3. enzymic catalytic reaction tank according to claim 1, it is characterised in that：Described inlet channel is provided with circulating-water valve Door, described cold water pipes are provided with Cold water tap, and recirculated water valve and Cold water tap are pneumatic operated valve.

4. enzymic catalytic reaction tank according to claim 1, it is characterised in that：Described heater is provided with overfall.

5. enzymic catalytic reaction tank according to claim 1, it is characterised in that：The described groove that feeds intake is for platy structure, and institute Multiple through holes are evenly distributed with the groove that feeds intake stated.

6. enzymic catalytic reaction tank according to claim 5, it is characterised in that：The aperture of described through hole is 5-10mm.