CN205856456U - A kind of the most efficiently enzyme denaturing device - Google Patents
A kind of the most efficiently enzyme denaturing device Download PDFInfo
- Publication number
- CN205856456U CN205856456U CN201620856902.XU CN201620856902U CN205856456U CN 205856456 U CN205856456 U CN 205856456U CN 201620856902 U CN201620856902 U CN 201620856902U CN 205856456 U CN205856456 U CN 205856456U
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- China
- Prior art keywords
- tube
- warming
- rotating shaft
- heat pipe
- contact rod
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Abstract
A kind of the most efficiently enzyme denaturing device, is to be connected by the warming tube of the discharge nozzle of enzymatic vessel with band heating screw feeder;The right-hand member of the rotating shaft of screw feeder is connected with the suspension bracket in warming tube, and rotating shaft left end is connected with the axle of motor after warming tube, safety box;The rotating shaft being in safety box sets first and second sheave with first and second conducting ring;First and second conducting ring contacts with first and second contact rod being located on first and second insulation tube.First and second conductor wire being located on first and second conducting ring connector and first in rotating shaft adds heat pipe and connects, and this adds heat pipe and is arranged on the inner chamber of screw feeder blade and rotating shaft.Warming tube outer wall sets temperature sensor and second and adds heat pipe.Setting the conveying pipeline of band pump between warming tube and storage vat, conveying pipeline is located in cooling tube.The running water pipe with the second electromagnetic valve and outlet pipe is set on cooling tube.First and second electromagnetic valve, first and second contact rod, second add heat pipe, motor, pump, sensor are connected with the controller on enzymatic vessel outer wall through wire.
Description
Technical field
The present invention relates to a kind of enzyme denaturing device, is specifically related to a kind of the most efficiently enzyme denaturing device.
Background technology
After material body in enzymatic vessel is released, need quick moment enzyme denaturing, quickly material body is cooled down again, convenient to material
Body following process processes.The steam the most mostly produced by steam engine carries out enzyme denaturing through jet chimney and cold-heat exchanger etc.,
These equipment occupation space are big, and enzyme denaturing process is loaded down with trivial details, the longest, and efficiency is low.
Summary of the invention
The purpose of the present invention: be that a kind of the most efficiently enzyme denaturing device is provided for solving the problems referred to above.
The technical solution adopted in the present invention is: the discharge nozzle being arranged on the enzymatic vessel on ground or wall is provided with the first electricity
Magnet valve;Described discharge nozzle is connected with warming tube, and the outlet of described warming tube is connected with coil-like conveying pipeline, this conveying pipeline and storage
Charging basket connects, and is being provided with pump on the conveying pipeline of storage vat side, and described conveying pipeline is arranged on cooling tube inner chamber, described cooling
One of pipe is connected with the running water pipe with the second electromagnetic valve, and the other end of described cooling tube is connected with outlet pipe, this outlet pipe
It is connected with storage tank;Described cooling tube is connected with ground through support;The outer wall of described enzymatic vessel is provided with charged line and switch
Controller, this controller is connected with described first electromagnetic valve, the second electromagnetic valve, pump through wire.
It is characterized in that: the left end of described warming tube i.e. tail end is closed, the right-hand member of this warming tube i.e. front end is provided with outlet,
This warming tube is oblique i.e. right low left high, and the left side of this warming tube is connected with described discharge nozzle;Described warming tube inner chamber is provided with and stirs
Dragon, the right-hand member of the rotating shaft of this screw feeder is flexibly connected with suspension bracket, and this suspension bracket is connected with warming tube inwall;The left end of described rotating shaft is to the left
It is connected with the axle of motor after warming tube left end, safety box;Described safety box and motor be arranged on ground bracing frame
Connect;The described rotating shaft being in safety box is provided with the first sheave and the second sheave, and this first sheave and the second sheave divide
It is not provided with the first conducting ring and the second conducting ring;Described first conducting ring and the second conducting ring respectively with the first contact rod and second
Contact rod contacts;Described first contact rod and the second contact rod are separately positioned in the first insulation tube and the second insulation tube, described
The head of the first contact rod and the second contact rod stretches out the first insulation tube and the second insulation tube respectively;Described first contact rod and
The afterbody of two contact rods connects with the first spring being arranged in the first insulation tube and the second insulation tube inner chamber and the second spring respectively
Connect;Described first insulation tube and the second insulation tube are arranged in safety box.
The described rotating shaft inner chamber being in safety box is provided with connector, is respectively equipped with the first conductor wire and in this connector
Two conductor wires, this first conductor wire and the second conductor wire both pass through after rotating shaft outer wall and the first sheave and the second sheave respectively with
One conducting ring and the second conducting ring connect;Described first conductor wire is connected with the flat-shaped first add heat pipe one through connector,
Described first other end adding heat pipe enters through after the screw feeder blade inner chamber being in warming tube again after passing rotating shaft outer wall
Pass screw feeder blade, meanwhile, enter through again rotating shaft inner chamber and be connected with the second conductor wire after connector again.
Described warming tube outer wall is provided with plural temperature sensor, and this warming tube outer wall is wound with second and adds heat pipe;Should
Second adds and is provided with thermal insulation layer outside heat pipe, is provided with the housing of warming tube outside this thermal insulation layer, and this housing is connected with ground through support.
Described first contact rod and the second contact rod afterbody are respectively equipped with the first power line and second source line, this first electricity
Source line and second source line be each passed through after the first spring and the second spring, the first insulation tube and the second insulation tube and safety box with
Described controller connects;Described motor, second add heat pipe, temperature sensor is connected with described controller through wire.
Beneficial effects of the present invention: because being provided with heating screw feeder in warming tube, makes the present invention to the material physical ability in warming tube more
Add accurate, carry out moment enzyme denaturing uniformly, efficiently.Because being provided with plural temperature sensor, for different enzymes, can be in control
Precisely set corresponding enzyme-removal temperature on device processed, thus reach more accurate and more energy-conservation enzyme denaturing effect.It addition, can basis
Enzymatic vessel is expected the viscosity of body, sets corresponding motor speed on the controller, thus be precisely controlled the rotating speed of screw feeder, make screw feeder
Can preferably drive material body uniformly to roll reach with a kind of suitable speed, and combine suitable temperature, to expecting in body
Enzyme carries out accurate efficient inactivation.Material body can quickly be cooled down again by the chiller arranged, and facilitates following process to process, improves
Work efficiency.The present invention takes up room little, easy to operate, safe and reliable.
Accompanying drawing explanation
Fig. 1 is present configuration principle schematic.
Detailed description of the invention
In conjunction with accompanying drawing, the present invention is further described.
As it is shown in figure 1,1. enzymatic vessels, 2. discharge nozzle, 3. the first electromagnetic valve, 4. motor, 5. safety box, 6. the first groove in figure
Wheel, 7. the second sheave, 8. the first contact rod, 9. the second contact rod, 10. the first insulation tube, 11. second insulation tubes, 12.
Temperature sensor, 13. warming tubes, 14. rotating shafts, 15. screw feeder blades, 16. first add heat pipe, 17. second electromagnetic valves,
18. running water pipes, 19. cooling tubes, 20. conveying pipelines, 21. outlet pipes, 22. pumps, 23. storage vats.
The discharge nozzle 2 of the enzymatic vessel 1 being arranged on ground or wall is provided with the first electromagnetic valve 3;Described discharge nozzle 2 with heat
Cylinder 13 connects, and the outlet of described warming tube 13 is connected with coil-like conveying pipeline 20, and this conveying pipeline 20 is connected with storage vat 23,
Conveying pipeline 20 near storage vat 23 side is provided with pump 22, and described conveying pipeline 20 is arranged on cooling tube 19 inner chamber, described cooling
One of pipe 19 is connected with the running water pipe 18 with the second electromagnetic valve 17, and the other end of described cooling tube 19 is with outlet pipe 21 even
Connecing, this outlet pipe 21 is connected with storage tank;Described cooling tube 19 is connected with ground through support;Set on the outer wall of described enzymatic vessel 1
Having the controller of charged line and switch, this controller is through wire with described first electromagnetic valve the 3, second electromagnetic valve 17, pump 22 even
Connect.
The left end i.e. tail end of described warming tube 13 is closed, and the right-hand member of this warming tube 13 i.e. front end is provided with outlet, and this adds
Temperature cylinder 13 is in oblique i.e. right low left high, and the left side of this warming tube 13 is connected with described discharge nozzle 2;Described warming tube 13 inner chamber is provided with
Screw feeder, the right-hand member of the rotating shaft 14 of this screw feeder is flexibly connected with suspension bracket, and this suspension bracket is connected with warming tube 13 inwall;Described rotating shaft 14
Left end is connected with the axle of motor 4 to the left after warming tube 13 left end, safety box 5;Described safety box 5 and motor 4 be arranged on
Ground bracing frame connects;The described rotating shaft 14 being in safety box 5 is provided with the first sheave 6 and the second sheave 7, and this is first years old
It is respectively equipped with the first conducting ring and the second conducting ring on sheave 6 and the second sheave 7;Described first conducting ring and the second conducting ring divide
Do not contact with the first contact rod 8 and the second contact rod 9;It is exhausted that described first contact rod 8 and the second contact rod 9 are separately positioned on first
In edge pipe 10 and the second insulation tube 11, the head of described first contact rod 8 and the second contact rod 9 stretches out the first insulation tube 10 respectively
With the second insulation tube 11;The afterbody of described first contact rod 8 and the second contact rod 9 respectively be arranged on the first insulation tube 10 and
The first spring and the second spring in two insulation tube 11 inner chambers connect;Described first insulation tube 10 and the second insulation tube 11 are respectively provided with
In safety box 5.
Described rotating shaft 14 inner chamber being in safety box 5 is provided with connector, is respectively equipped with the first conductor wire in this connector
With the second conductor wire, after this first conductor wire and the second conductor wire both pass through rotating shaft 14 outer wall and the first sheave 6 and the second sheave 7
It is connected with the first conducting ring and the second conducting ring respectively;Described first conductor wire adds heat pipe 16 through connector and flat-shaped first
One connection, described first other end adding heat pipe 16 enters through after passing rotating shaft 14 outer wall and is in stirring in warming tube 13
Pass screw feeder blade 15 again after dragon blade 15 inner chamber, meanwhile, enter through again rotating shaft 14 inner chamber again after connector with second
Conductor wire connects.
Described warming tube 13 outer wall is provided with plural temperature sensor 12, and this warming tube 13 outer wall is wound with the second heating
Pipe;This second adds and is provided with thermal insulation layer outside heat pipe, is provided with the housing of warming tube 13 outside this thermal insulation layer, and this housing is through support and ground
Face connects.
Described first contact rod 8 and the second contact rod 9 afterbody are respectively equipped with the first power line and second source line, and this is first years old
Power line and second source line are each passed through the first spring and the second spring, the first insulation tube 10 and the second insulation tube 11 and safety
It is connected with described controller after box 5;Described motor 4, second add heat pipe, temperature sensor 12 through wire and described controller even
Connect.
Can shift to an earlier date and set enzyme-removal temperature on the controller, because being provided with plural temperature sensor 12, can be to different
Enzyme the most precisely sets corresponding enzyme-removal temperature, thus reaches more accurate and more energy-conservation enzyme denaturing effect.It addition, can basis
Enzymatic vessel 1 is expected the viscosity viscosity of detection (in real time) of body, can set corresponding motor 4 rotating speed on the controller, thus precisely
Control the rotating speed of screw feeder, make screw feeder can preferably drive material body uniformly to roll reach with a kind of suitable speed, and combine
Suitable temperature, the enzyme in material body is carried out accurate efficient inactivation, and (the material body that viscosity is big, screw feeder rotating speed can set slower, make
The prolongation enzyme denaturing time, otherwise, screw feeder rotating speed can set faster, to shorten the enzyme denaturing time).
When the material body enzymolysis in enzymatic vessel 1 terminates first 2 minutes, click " heating " switch on controller, the first heating
Pipe 16 and second adds heat pipe and starts simultaneously at and preheat, and under the effect of temperature sensor 12 and controller, first adds heat pipe 16 He
Second heating-up temperature adding heat pipe can automatically achieve the temperature set by controller, and automatically keeps constant.First adds heat pipe 16
The blade 15 of screw feeder, rotating shaft 14 and the inwall of warming tube 13 it is conducted to the most equably with the second heat adding heat pipe generation.?
When pressing " heating " switch, motor 4 also starts simultaneously at work and drives screw feeder to rotate.Then, " the electromagnetism on controller is clicked
Valve " switch, first and second electromagnetic valve and pump 22 are opened simultaneously, and the material body in enzymatic vessel 1 constantly falls into warming tube 13 through discharge nozzle 2
In, and constantly quickly pushed enter behind front portion to conveying pipeline 20 by screw feeder.Because screw feeder is constantly rotating, so, enter warming tube 13
Material body in constantly rolling and reach by screw feeder and the heating quickly and evenly of warming tube 13 inwall, make enzyme in material body
Activity is the most uniformly killed by constant high temperature, thus reaches the most efficient enzyme denaturing effect.Material body after enzyme denaturing enters conveying
During pipe 20, under the common effect of screw feeder and pump 22, rapidly input to storage vat 23.When the second electromagnetic valve 17 is opened, from the beginning
Water is by entering storage tank (these water can separately use it for anything else) after cooling tube 19, because the temperature of tap water is well below in conveying pipeline 20
Material temperature, the material body fast cooling in conveying pipeline 20 and conveying pipeline 20 can be facilitated at following process by the tap water of flowing
Reason.
After material body is transfused to storage vat 23, can again click " heating " and " electromagnetic valve " switch on controller, this
The device of invention i.e. quits work.
Because there being the support of spring, two contact rods can be in close contact with two conducting rings all the time, thus keeps good leading
Electrical property.According to different enzyme-removal temperatures, so screw feeder both can make of the rustless steel of medical treatment or food stage, it is also possible to food stage
Plastics etc. make.
Various simple change, the remodeling made by those of ordinary skill in the art all would not depart from the scope of the present invention.
Claims (2)
1. the most efficient enzyme denaturing device;It is on the discharge nozzle of enzymatic vessel, be provided with the first electromagnetic valve;Described enzymatic vessel is arranged
On ground or wall;Described discharge nozzle is connected with warming tube, and the outlet of described warming tube is connected with coil-like conveying pipeline, and this is defeated
Material pipe is connected with storage vat, is being provided with pump on the conveying pipeline of storage vat side, and described conveying pipeline is arranged on cooling tube inner chamber,
One of described cooling tube is connected with the running water pipe with the second electromagnetic valve, and the other end of described cooling tube is connected with outlet pipe,
This outlet pipe is connected with storage tank;Described cooling tube is connected with ground through support;The outer wall of described enzymatic vessel is provided with charged
Line and the controller of switch, this controller is connected with described first electromagnetic valve, the second electromagnetic valve, pump through wire;
It is characterized in that: the left end of described warming tube i.e. tail end is closed, the right-hand member of this warming tube i.e. front end is provided with outlet, and this adds
Temperature cylinder is oblique i.e. right low left high, and the left side of this warming tube is connected with described discharge nozzle;Described warming tube inner chamber is provided with screw feeder, should
The right-hand member of the rotating shaft of screw feeder is flexibly connected with suspension bracket, and this suspension bracket is connected with warming tube inwall;The left end of described rotating shaft passes to the left
After warming tube left end, safety box, the axle with motor is connected;Described safety box and motor are connected with being arranged on ground bracing frame;
The described rotating shaft being in safety box is provided with the first sheave and the second sheave, and this first sheave and the second sheave are respectively equipped with
First conducting ring and the second conducting ring;Described first conducting ring and the second conducting ring respectively with the first contact rod and the second contact rod
Contact;Described first contact rod and the second contact rod are separately positioned in the first insulation tube and the second insulation tube, and described first leads
The head of torch and the second contact rod stretches out the first insulation tube and the second insulation tube respectively;Described first contact rod and the second conduction
The afterbody of rod is connected with the first spring being arranged in the first insulation tube and the second insulation tube inner chamber and the second spring respectively;Described
First insulation tube and the second insulation tube are arranged in safety box;
The described rotating shaft inner chamber being in safety box is provided with connector, is respectively equipped with the first conductor wire and second and leads in this connector
Electric wire, this first conductor wire and the second conductor wire are led with first after both passing through rotating shaft outer wall and the first sheave and the second sheave respectively
Electricity ring and the second conducting ring connect;Described first conductor wire is connected with the flat-shaped first add heat pipe one through connector, described
First other end adding heat pipe passes after entering through, after passing rotating shaft outer wall, the screw feeder blade inner chamber being in warming tube again
Screw feeder blade, meanwhile, enters through again rotating shaft inner chamber and is connected with the second conductor wire after connector;
Described warming tube outer wall is provided with plural temperature sensor, and this warming tube outer wall is wound with second and adds heat pipe;This is second years old
Adding and be provided with thermal insulation layer outside heat pipe, be provided with the housing of warming tube outside this thermal insulation layer, this housing is connected with ground through support.
One the most according to claim 1 precisely efficient enzyme denaturing device, is characterized in that: described first contact rod and second is led
Torch afterbody is respectively equipped with the first power line and second source line, and this first power line and second source line are each passed through the first bullet
It is connected with described controller after spring and the second spring, the first insulation tube and the second insulation tube and safety box;Described motor, second add
Heat pipe, temperature sensor are connected with described controller through wire.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620856902.XU CN205856456U (en) | 2016-08-10 | 2016-08-10 | A kind of the most efficiently enzyme denaturing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620856902.XU CN205856456U (en) | 2016-08-10 | 2016-08-10 | A kind of the most efficiently enzyme denaturing device |
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Publication Number | Publication Date |
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CN205856456U true CN205856456U (en) | 2017-01-04 |
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CN201620856902.XU Withdrawn - After Issue CN205856456U (en) | 2016-08-10 | 2016-08-10 | A kind of the most efficiently enzyme denaturing device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106085818A (en) * | 2016-08-10 | 2016-11-09 | 宁波拜尔玛生物科技有限公司 | A kind of the most efficiently enzyme denaturing device |
-
2016
- 2016-08-10 CN CN201620856902.XU patent/CN205856456U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106085818A (en) * | 2016-08-10 | 2016-11-09 | 宁波拜尔玛生物科技有限公司 | A kind of the most efficiently enzyme denaturing device |
CN106085818B (en) * | 2016-08-10 | 2018-02-27 | 宁波拜尔玛生物科技有限公司 | A kind of Quick uniform enzyme deactivation device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170104 Effective date of abandoning: 20180227 |