CN205990407U - A kind of device of fast automatic detecting material viscosity - Google Patents

Abstract

The utility model discloses a kind of device of fast automatic detecting material viscosity, described device is to set the discharge nozzle with conveying pipeline on enzymatic vessel, and conveying pipeline sets the water inlet pipe of provided with electromagnetic valve；Discharge nozzle sets first switch and sets the First piston bar with the first annulus, and first oil cylinder supporting with First piston bar sets second switch.Container below conveying pipeline is located on pivoted frame, the pivoted frame of belt sensor and handle key and motor connection, and motor is located on the crossbearer with second piston bar, expansion link and third and fourth switch；The 6th switch is set on the second oil cylinder supporting with second piston bar.The vertical frame being located at ground sets controller, viscometer and the 5th switch.7th switch, feed pipe and the 3rd piston rod with the second annulus are set on the tremie pipe of enzymatic vessel, threeth oil cylinder supporting with the 3rd piston rod sets the 8th switch.Expansion link and each oil cylinder are located on outer wall or the ground of enzymatic vessel.Each hydraulic means, each switch and motor, viscometer, sensor, electromagnetic valve that controller is associated with each oil cylinder through wire connect.This utility model technology can fast and automatically detect material viscosity in enzymatic vessel, thus judging the Degree of Enzymatic Hydrolysis of substrate in time, efficiently controlling and ensureing the enzymolysis quality of material, safe operation process, health, efficient and convenient and material waste can be reduced, there is very big using value.

Description

A kind of device of fast automatic detecting material viscosity

Technical field

The present invention relates to a kind of device of detection material viscosity, it is specifically related to a kind of fast automatic detecting material viscosity Device.

Background technology

After material in enzymatic vessel agitated a period of time with enzymolysis, people can take out material sample from enzymatic vessel, uses Viscometer detects viscosity, and the viscosity of such as material reaches requirement, that is, stop stirring, enzymolysis, then releases material and carries out enzyme denaturing work. According to aforesaid operations, after the viscosity of material sample is detected, can not accurately compare the viscosity of material in enzymatic vessel, because It is gradually lowered with Degree of Enzymatic Hydrolysis increase for material viscosity, and with enzymolysis process propulsion, the viscosity of material declines increasingly faster, inspection Survey not in time, lead to enzyme denaturing not in time, thus affecting whole Controlled-enzymatic Hydrolysis process it is impossible to zymolyte under obtaining desired viscosity Material.And, it is manual operation now mostly from enzymatic vessel（Agitator is also in operating）Middle taking-up material sample, dangerous, do not defend Raw, troublesome poeration；Time-consuming simultaneously, and efficiency is low.

In addition, being typically provided valve on the tremie pipe of present enzymatic vessel, and between valve and the bottom of enzymatic vessel, also have one Little segment distance, can precipitate material in a bit of tremie pipe of that above valve, these materials cannot obtain the stirring of agitator And enzymolysis, it is deposited in described tremie pipe, easily causes blocking, hinder discharging, and these materials also will be discarded, thus causing wave Take, although a sub-quantity is less, long-term accumulated, waste then very big.

Content of the invention

The purpose of the present invention：It is that a kind of device of fast automatic detecting material viscosity is provided for solving the above problems.

The technical solution adopted in the present invention is：Described enzymatic vessel is arranged on the ground through support, and this enzymatic vessel is provided with down Expects pipe；It is characterized in that：The leg of described enzymatic vessel bottom is provided with the discharge nozzle of more than three, and this discharge nozzle is provided with conveying pipeline； Described discharge nozzle is flexibly connected with First piston bar, and described First piston bar is arranged on the first of DYN dynamic first hydraulic means In oil cylinder, described first oil cylinder is connected with the outer wall of enzymatic vessel or ground；Described discharging pipe outer wall has been provided with position-limiting action First switch；Described first oil cylinder outer wall has been provided with the second switch of position-limiting action；Described First piston bar is provided with first Annulus；

It is provided with transparent container, this container is placed on pivoted frame, described pivoted frame is provided with infrared ray below described conveying pipeline Sensor, this sensor is corresponding with described container；Described pivoted frame is connected with the axle of motor, and described motor is arranged on liftable On crossbearer, described crossbearer is in the lower section of pivoted frame, and the 3rd switch and the 4th that this crossbearer has been respectively provided on two sides with position-limiting action is opened Close, described pivoted frame bottom is provided with handle key；Described crossbearer bottom is connected with second piston bar, and described second piston bar is arranged on electronic In second oil cylinder of the second hydraulic means of formula, described second oil cylinder is connected with ground；Described crossbearer bottom is provided with expansion link, should Expansion link is connected with ground；Described ground is provided with vertical frame, and this vertical frame is provided with DYN dynamic viscometer；Described vertical frame is provided with Play the 5th switch of position-limiting action；Described second oil cylinder outer wall has been provided with the 6th switch of position-limiting action；

Described tremie pipe is provided with feed pipe；Described tremie pipe is flexibly connected with the 3rd piston rod, described 3rd piston rod It is arranged in the 3rd oil cylinder of DYN dynamic 3rd hydraulic means, described 3rd oil cylinder is connected with ground；Described blanking pipe outer wall It has been provided with the 7th switch of position-limiting action；Described 3rd oil cylinder outer wall has been provided with the 8th switch of position-limiting action；Described Three piston rods are provided with the second annulus；

Described vertical frame is provided with charged line and the controller of switch, and this controller is filled with the first hydraulic pressure respectively through wire Put, the second hydraulic means, the 3rd hydraulic means, motor, viscometer, sensor, first switch, second switch, the 3rd switch, the Four switches, the 5th switch, the 6th switch, the 7th switch, the 8th switch connect.

Described conveying pipeline is provided with water inlet pipe, and this water inlet pipe is connected with running water pipe, and this water inlet pipe is provided with electromagnetic valve, should Electromagnetic valve is connected with described controller through wire.

Described first annulus is corresponding with first switch and second switch respectively, in described First piston bar closed mode Under, described first annulus is contacted with first switch；Under described First piston bar open mode, described first annulus and second Switch contacts.

Described 3rd switchs power control switch when clockwise for motor, and the described 4th switchs power supply when reversing for motor Controlling switch；Described handle key is corresponding with the 3rd switch and the 4th switch respectively, under the clockwise state that puts in place of motor and pivoted frame, institute State handle key to contact with the 3rd switch；Reversing in motor and pivoted frame puts in place under state, and described handle key is contacted with the 4th switch.

Under the clockwise state that puts in place of pivoted frame, meanwhile, rising in second piston bar and crossbearer, pivoted frame puts in place under state, described 5th switch is contacted with described pivoted frame；Declining in second piston bar and crossbearer, pivoted frame puts in place under state, described 6th switch with Described crossbearer contacts.

Described second annulus is corresponding with the 7th switch and the 8th switch respectively, in described 3rd piston rod closed mode Under, described second annulus is contacted with the 7th switch；Under described 3rd piston rod open mode, described second annulus and the 8th Switch contacts.

Beneficial effects of the present invention：The present invention greatly improves to the detection efficiency of material viscosity in enzymatic vessel and accuracy rate, So as to precisely efficiently controlling and ensureing the enzymolysis quality of material in enzymatic vessel.Detection safe operation process, health, fast side Just and material waste can be reduced.In addition, when the 3rd piston rod being connected with tremie pipe is closed, the head of this stopper rod and enzymatic vessel The inwall of bottom flushes, and, will not enter simultaneously so the material in enzymatic vessel can obtain full and uniform stirring and enzymolysis, meanwhile It is deposited in tremie pipe, so can avoid being deposited on, because of material, the generation leading to these material waste phenomenons in tremie pipe, from And saved material；The resource such as water, electricity, enzyme need to be used because processing these materials, so while saving material, also having reached section Can effect.High degree of automation of the present invention, easy to operate, safe and reliable.

Brief description

Fig. 1 is present configuration principle schematic.

Fig. 2 is schematic top plan view of the present invention.

Specific embodiment

In conjunction with accompanying drawing, the present invention is further described.

As shown in Figure 1-2, in figure 1. enzymatic vessel, 2. viscometer, 3. rotor, 4. the 5th switch, 5. vertical frame, 6. discharge nozzle, 7. first switch, 8. First piston bar, 9. second switch, 10. water inlet pipe, 11. sensors, 12. first annulus, 13. the 3rd open Pass, 14. motors, 15. conveying pipelines, 16. containers, 17. pivoted frames, 18. handle keys, 19. the 4th switches, 20. crossbearers, 21. second pistons Bar, 22. the 6th switches, 23. tremie pipes, 24. the 7th switches, 25. the 3rd piston rods, 26. second annulus, 27. the 8th switch, 28. feed pipes.

The assembling of invention device

Described enzymatic vessel 1 is arranged on the ground through support, and this enzymatic vessel 1 is provided with tremie pipe 23；Described enzymatic vessel 1 bottom Leg is provided with the discharge nozzle 6 of more than three, and this discharge nozzle 6 is provided with conveying pipeline 15；Described discharge nozzle 6 and First piston bar 8 are lived It is dynamically connected, described First piston bar 8 is arranged in the first oil cylinder of DYN dynamic first hydraulic means, described first oil cylinder and enzyme The outer wall of solution tank 1 or ground connect；Described discharge nozzle 6 outer wall has been provided with the first switch 7 of position-limiting action；Described first oil cylinder Outer wall has been provided with the second switch 9 of position-limiting action；Described First piston bar 8 is provided with the first annulus 12；

It is provided with transparent container 16, this container 16 is placed on pivoted frame 17, on described pivoted frame 17 below described conveying pipeline 15 It is provided with infrared ray sensor 11, this sensor 11 is corresponding with described container 16；Described pivoted frame 17 is connected with the axle of motor 14, institute State motor 14 to be arranged on liftable crossbearer 20, described crossbearer 20 is in the lower section of pivoted frame 17, this crossbearer 20 both sides sets respectively Had position-limiting action the 3rd switchs 13 and the 4th and switchs 19, and described pivoted frame 17 bottom is provided with handle key 18；Described crossbearer 20 bottom It is connected with second piston bar 21, described second piston bar 21 is arranged in the second oil cylinder of DYN dynamic second hydraulic means, institute State the second oil cylinder to be connected with ground；Described crossbearer 20 bottom is provided with expansion link, and this expansion link is connected with ground；Set on described ground There is vertical frame 5, this vertical frame 5 is provided with DYN dynamic viscometer 2；Described vertical frame 5 has been provided with the 5th switch 4 of position-limiting action；Institute State the 6th switch 22 that the second oil cylinder outer wall has been provided with position-limiting action；

Described tremie pipe 23 is provided with feed pipe 28；Described tremie pipe 23 is flexibly connected with the 3rd piston rod 25, and described Three piston rods 25 are arranged in the 3rd oil cylinder of DYN dynamic 3rd hydraulic means, and described 3rd oil cylinder is connected with ground；Described Tremie pipe 23 outer wall has been provided with the 7th switch 24 of position-limiting action；Described 3rd oil cylinder outer wall has been provided with the of position-limiting action Eight switches 27；Described 3rd piston rod 25 is provided with the second annulus 26；

Described vertical frame 5 is provided with charged line and the controller of switch, and this controller is filled with the first hydraulic pressure respectively through wire Put, the second hydraulic means, the 3rd hydraulic means, motor 14, viscometer 2, sensor 11, first switch 7, second switch the 9, the 3rd Switch the 13, the 4th switch the 19, the 5th switch the 4, the 6th switch the 22, the 7th switch the 24, the 8th switch 27 connection.

Described conveying pipeline 15 is provided with water inlet pipe 10, and this water inlet pipe 10 is connected with running water pipe, and this water inlet pipe 10 is provided with Electromagnetic valve, this electromagnetic valve is connected with described controller through wire.

Described first annulus 12 is corresponding with first switch 7 and second switch 9 respectively, closes in described First piston bar 8 Under state, described first annulus 12 is contacted with first switch 7；Under described First piston bar 8 open mode, described first circle Ring 12 is contacted with second switch 9.

Described 3rd switch 13 is power control switch when motor 14 is clockwise, and described 4th switch 19 reverses for motor 14 When power control switch；Described handle key 18 is corresponding with the 3rd switch 13 and the 4th switch 19 respectively, in motor 14 and pivoted frame 17 clockwise put in place under state, described handle key 18 13 is contacted with the 3rd switch；Reversing in motor 14 and pivoted frame 17 puts in place under state, Described handle key 18 is contacted with the 4th switch 19.

Under the clockwise state that puts in place of pivoted frame 17, meanwhile, rise, in second piston bar 21 and crossbearer 20, pivoted frame 17, the state that puts in place Under, described 5th switch 4 is contacted with described pivoted frame 17；Decline the state that puts in place in second piston bar 21 and crossbearer 20, pivoted frame 17 Under, described 6th switch 22 is contacted with described crossbearer 20.

Described second annulus 26 is corresponding with the 7th switch 24 and the 8th switch 27 respectively, closes in described 3rd piston rod 25 Under closed state, described second annulus 26 is contacted with the 7th switch 24；Under described 3rd piston rod 25 open mode, described Two annulus 26 are contacted with the 8th switch 27.

The use of invention device

After the material in enzymatic vessel 1 is in enzymolysis a period of time, " detection " switch on controller, the first liquid can be clicked Pressure device starts work, and First piston bar 8 is opened（Outwards move down, when First piston bar 8 is outwards simultaneously downward simultaneously When moving into place, the first annulus 12 is just contacted with second switch 9, and this switch cuts out, and so that the first hydraulic means power-off is stopped Only work, First piston bar 8 stops moving）, the material in enzymatic vessel 1 flows into transparent appearance after discharge nozzle 6 and conveying pipeline 15 In device 16；When the semifluid material in container 16 increases to certain altitude, can be monitored in time by infrared ray sensor 11, sensing Device 11 transmits a signal to controller, and controller assigns instruction to the first hydraulic means, and the first hydraulic means starts work again Make, so that First piston bar 8 is closed（Inwardly move up simultaneously, when First piston bar 8 inwardly moves up and puts in place simultaneously, First annulus 12 is just contacted with first switch 7, and this switch cuts out, and so that the first hydraulic means power-off is quit work, and first Piston rod 8 stops moving）.When First piston bar 8 is closed, the head of First piston bar 8 is flushed with the inwall of enzymatic vessel 1.

In First piston bar 8 closing process, the material being deposited in discharge nozzle 6 especially conveying pipeline 15 may proceed to flow into In container 16, after First piston bar 8 completely closes, the material in conveying pipeline 15 then all flows in container 16, makes container 16 In material capacity reach detection require.

After First piston bar 8 completely closes, in the presence of controller, motor 14 automatically begins to work, and drive turn Frame 17, container 16 etc. are clockwise, when pivoted frame 17 etc. is clockwise put in place when（About clockwise 180 degree, in being embodied as, along turning 90 degrees, With time-consuming）, handle key 18 just 13 contacted with the 3rd switch, and this switch cuts out, and so that motor 14 power-off is stopped clockwise, with When, controller cuts off the power supply of this switch, thus thoroughly cut-out motor 14 continues clockwise power supply, to guarantee safety.

When motor 14 quits work, in the presence of controller, the second hydraulic means can automatically begin to work, and second lives Stopper rod 21 drives crossbearer 20, pivoted frame 17 and container 16 to rise, when pivoted frame 17 etc. rises and puts in place, pivoted frame 17 just with vertical frame 5 on The 5th switch 4 contact, this switch cuts out, and so that the second hydraulic means power-off is quit work, second piston bar 21 stops Rise.When the rising such as crossbearer 20, pivoted frame 17 and container 16 puts in place, the rotor 3 on viscometer 2 just immerses the material of container 16 In.

When the second hydraulic means quits work, in the presence of controller, viscometer 2 automatically begins to work.

Start to stable numerical value is read on viscometer from pressing " detection " controller, altogether take and about exist Within one minute.

After having detected the viscosity of material, " detection " switch on controller can be clicked again, the second hydraulic means starts work Make, second piston bar 21 drives crossbearer 20, pivoted frame 17 and container 16 to decline, when crossbearer 20 etc. declines and puts in place, crossbearer 20 is just Contact with the 6th switch 22, this switch cuts out, and so that the second hydraulic means power-off is quit work.It is arranged on stretching on crossbearer 20 It is more steady that contracting bar makes crossbearer 20 grade lift.

When the second hydraulic means quits work, in the presence of controller, motor 14 automatically begins to work again, and drives Pivoted frame 17, container 16 etc. reverse, and when pivoted frame 17 etc. reverses and puts in place, handle key 18 is just contacted with the 4th switch 19, this switch Close, make motor 14 power-off stop reversing, meanwhile, controller cuts off the power supply of this switch, thus thoroughly cut-out motor 14 continues The continuous power supply reversing, to guarantee safety.

After pivoted frame 17 completes to reverse and resets, " cleaning " switch on controller can be clicked, electromagnetic valve is opened, from Water is effectively cleaned up to conveying pipeline 15 after water inlet pipe 10, to ensure the purity by conveying pipeline 15 for the next material. After closing because of First piston bar 8, very well, material is difficult to be deposited on discharge nozzle 6 closure.When cleaning conveying pipeline 15, can use Downpipe is connected with conveying pipeline 15 temporarily, and the water after cleaning flows into sewer through downpipe.

In addition, the time of detection material viscosity can be preset on the controller, such as set material in stirring, 30 points of enzymolysis Detected after clock, to after 30 minutes, the present invention i.e. can automatic running above-mentioned items step, complete detect work, further Improve efficiency.Click " blanking " switch on controller, the 3rd hydraulic means is started working, the 3rd piston rod 25 moves down to be beaten Open, when the 3rd piston rod 25 moves down and puts in place, the second annulus 26 is just contacted with the 8th switch 27, and this switch cuts out, and makes 3rd hydraulic means power-off quits work, and the 3rd piston rod 25 then stops moving down.When the 3rd piston rod 25 is opened, enzymatic vessel 1 In material release after tremie pipe 23, feed pipe 28, can carry out next step enzyme denaturing work.Complete under material in enzymatic vessel 1 Afterwards, then click " blanking " switch on controller, the 3rd hydraulic means starts working again, and the 3rd piston rod 25 moves closing, When moving on on the 3rd piston rod 25, the second annulus 26 is just contacted with the 7th switch 24, and this switch cuts out, and makes the 3rd Hydraulic means power-off quits work, the 3rd piston rod 25 then stop on move.When the 3rd piston rod 25 is closed, the 3rd piston rod 25 Head flush with the inwall of enzymatic vessel 1 bottom, so the material in enzymatic vessel 1 will not enter tremie pipe 23, and in enzymatic vessel 1 Material can obtain full and uniform stirring and enzymolysis, thus not had some materials can enter tremie pipe 23 before occurring and The wasting phenomenon producing, thus having saved material, need to use the resource of electric energy, water energy and material and enzyme etc. because processing these materials, So while saving material, also having reached energy-saving effect.

In invention device, multiple detector units is used in combination

With the propulsion of enzymolysis process, the viscosity of material declines quickly, needs in time detection to go out desired viscosity, timely enzyme denaturing, Can be only achieved the effect of effective control enzymolysis.Detect the viscosity of material with the rotor 3 of a viscometer 2 and a model at ordinary times, When finding that detection rotor 3 is not suitable for its viscosity measurements scope, other different model rotors 3 need to be re-replaced, thus both numb Tired and time-consuming, efficiency is low, is unable to reach the purpose quick and precisely detecting material viscosity completely.Therefore apparatus of the present invention equip three Above detector unit, according to needed for produce, adjusts the proportioning combination of the different model rotor 3 of multiple detector units, in being not required to Other model rotors 3 are changed on way, are truly realized the real-time detection of material viscosity, high degree of automation, easy to operate, efficiency high.

The detector unit of more than three described in apparatus of the present invention, is to be provided with the discharge nozzle 6 of more than three on enzymatic vessel 1 Deng, thus being furnished with the container 16 of more than three and the viscometer 2 of more than three, on each viscometer 2 setting different model turn Son 3, and through three real-time detections with upper rotor part 3, then can disposably detect the viscous of material to greatest extent both quick and accurately Degree.

The various simple change made by those of ordinary skill in the art, remodeling all should belong to the scope of the present invention.

Claims (6)

1. a kind of device of fast automatic detecting material viscosity, is connected with enzymatic vessel, described enzymatic vessel is arranged on ground through support On, this enzymatic vessel is provided with tremie pipe；It is characterized in that：The leg of described enzymatic vessel bottom is provided with the discharge nozzle of more than three, should Discharge nozzle is provided with conveying pipeline；Described discharge nozzle is flexibly connected with First piston bar, and described First piston bar is arranged on DYN dynamic In first oil cylinder of the first hydraulic means, described first oil cylinder is connected with the outer wall of enzymatic vessel or ground；Described discharging pipe outer wall It has been provided with the first switch of position-limiting action；Described first oil cylinder outer wall has been provided with the second switch of position-limiting action；Described One piston rod is provided with the first annulus；

It is provided with transparent container, this container is placed on pivoted frame, described pivoted frame is provided with infrared ray sensing below described conveying pipeline Device, this sensor is corresponding with described container；Described pivoted frame is connected with the axle of motor, and described motor is arranged on liftable crossbearer On, described crossbearer is in the lower section of pivoted frame, and this crossbearer has been respectively provided on two sides with the 3rd switch and the 4th switch of position-limiting action, institute State pivoted frame bottom and be provided with handle key；Described crossbearer bottom is connected with second piston bar, and described second piston bar is arranged on DYN dynamic In second oil cylinder of the second hydraulic means, described second oil cylinder is connected with ground；Described crossbearer bottom is provided with expansion link, and this stretches Bar is connected with ground；Described ground is provided with vertical frame, and this vertical frame is provided with DYN dynamic viscometer；Described vertical frame has been provided with limit 5th switch of position effect；Described second oil cylinder outer wall has been provided with the 6th switch of position-limiting action；

Described tremie pipe is provided with feed pipe；Described tremie pipe is flexibly connected with the 3rd piston rod, described 3rd piston rod setting In the 3rd oil cylinder of DYN dynamic 3rd hydraulic means, described 3rd oil cylinder is connected with ground；Set in described blanking pipe outer wall There is the 7th switch of position-limiting action；Described 3rd oil cylinder outer wall has been provided with the 8th switch of position-limiting action；Described 3rd lives Stopper rod is provided with the second annulus；

Described vertical frame is provided with charged line and the controller of switch, this controller through wire respectively with the first hydraulic means, the Two hydraulic means, the 3rd hydraulic means, motor, viscometer, sensor, first switch, second switch, the 3rd switch, the 4th open Close, the 5th switch, the 6th switch, the 7th switch, the 8th switch connect.

2. a kind of device of fast automatic detecting material viscosity according to claim 1, is characterized in that：On described conveying pipeline It is provided with water inlet pipe, this water inlet pipe is connected with running water pipe, this water inlet pipe is provided with electromagnetic valve, this electromagnetic valve is through wire and described control Device processed connects.

3. a kind of device of fast automatic detecting material viscosity according to claim 1, is characterized in that：Described first annulus Corresponding with first switch and second switch respectively, under described First piston bar closed mode, described first annulus and first Switch contacts；Under described First piston bar open mode, described first annulus is contacted with second switch.

4. a kind of device of fast automatic detecting material viscosity according to claim 1, is characterized in that：Described 3rd switch For power control switch when clockwise for the motor, the described 4th switchs power control switch when reversing for motor；Described handle key divides Not corresponding with the 3rd switch and the 4th switch, under the clockwise state that puts in place of motor and pivoted frame, described handle key and the 3rd switchs phase Contact；Reversing in motor and pivoted frame puts in place under state, and described handle key is contacted with the 4th switch.

5. a kind of device of fast automatic detecting material viscosity according to claim 1, is characterized in that：Arrive pivoted frame is clockwise Under the state of position, meanwhile, rising in second piston bar and crossbearer, pivoted frame puts in place under state, and the described 5th switchs and described pivoted frame phase Contact；Declining in second piston bar and crossbearer, pivoted frame puts in place under state, and described 6th switch is contacted with described crossbearer.

6. a kind of device of fast automatic detecting material viscosity according to claim 1, is characterized in that：Described second annulus Corresponding with the 7th switch and the 8th switch respectively, under described 3rd piston rod closed mode, described second annulus and the 7th Switch contacts；Under described 3rd piston rod open mode, described second annulus is contacted with the 8th switch.