CN108287098A - A kind of microfossil steeps sampling device automatically - Google Patents

Abstract

A kind of microfossil of present invention offer steeps sampling device automatically,Including the internal cabinet for hollow structure,Several bubble sample buckets,Water inlet manifold,Several water inlet pipes,Main sewer,Several branch drains,Booster pump,Water container and sour container,Microfossil is placed in the bubble sample bucket,The water container is holding water,The sour container steeps the acid solution of sample to hold,The booster pump is the acid solution in the water or sour container in water container to be drawn into water inlet manifold,The water outlet of the water inlet manifold is connected to the water inlet of several water inlet pipes,Several apertures are offered on the water inlet pipe,By the aperture by water inlet pipe acid solution or water be discharged into bubble sample bucket in,The bottom of the bubble sample bucket is provided with first through hole,It will be steeped in the discharging of waste liquid to branch drain in sample bucket by the first through hole,The water outlet of several branch drains is communicated in the water inlet of the main sewer.It is the configuration of the present invention is simple, easy to operate.

Description

A kind of microfossil steeps sampling device automatically

Technical field

The present invention relates to fossil studying technological domains more particularly to a kind of microfossil to steep sampling device automatically.

Background technology

The research field of fossil is related to two different subjects, i.e. geology department and biological subject.It is led in geology department Domain, fossil research has historical geology, paleontology, paleogeography great reference significance, by the investigation and comparison of fossil, The mankind can be helped to be better understood by, and Ancient Climate, ancient times are geographical, ancient ecological environment, so for stratum differentiation sequence when Positioning in intermediate node provides foundation；In biological subject field, paleontology possesses critical role in monoid biological subject, changes Stone research and analysis are its main research work, the Electronic Speculum nannofossil of the research of traditional ancient biological fossil and application modern times The classification etc. for studying influence and species to the origin of species, evolution and environment to biology suffers from significance.

Fossil identification is the basis of the research work of all fossils.Fossil identify general step be sampling, broken sample, steep sample, Sieve sample, choose sample, probation report etc..During chemical identification, bubble sample is needed using chemical reagent to the microfossil after broken sample It is impregnated, microfossil is decomposited to come from rock.The process needs people repeatedly to be rushed in laboratory operation bubble sample bucket at present It washes sample and replaces bubble sample solution, be the process for taking longest in entire fossil identity process, spending manpower most, and steep sample The gas volatilized in the process seriously pollutes laboratory surrounding enviroment.

Invention content

In view of this, the present invention provides a kind of microbodys that can effectively reduce hand labor intensity, not pollute air Stone steeps sampling device automatically.

A kind of microfossil of present invention offer steeps sampling device, including internal cabinet, several bubble samples for hollow structure automatically Bucket, water inlet manifold, several water inlet pipes, main sewer, several branch drains, booster pump, water container and sour container, it is described Bubble sample bucket, water inlet pipe, main sewer and branch drain are respectively positioned on the inside of cabinet, and microfossil is placed in the bubble sample bucket, For the water container to hold the water that bubble sample rinses bubble sample bucket in the process, the sour container steeps the acid solution of sample to hold, The booster pump the acid solution in the water or sour container in water container to be drawn into water inlet manifold, the water inlet manifold Water outlet is connected to the water inlet of several water inlet pipes, and several apertures are offered on the water inlet pipe, by described small Hole by water inlet pipe acid solution or water be discharged into bubble sample bucket in, it is described bubble sample bucket bottom be provided with first through hole, pass through institute Stating first through hole will steep in the discharging of waste liquid to branch drain in sample bucket, and the water outlet of several branch drains is communicated in The water inlet of the main sewer.

Further, the water inlet of the water inlet manifold is connected to the first water inlet pipe and the second water inlet pipe, first water inlet Pipe is connect with water container, and second water inlet pipe is connect with sour container, and first water inlet pipe is equipped with the first liquid inlet electromagnetic valve, Second water inlet pipe is equipped with the second liquid inlet electromagnetic valve, and the inlet end of each water inlet pipe is equipped with third feed liquor The water outlet end of solenoid valve, each branch drain is equipped with draining solenoid valve.

Further, the cabinet is internally provided with master controller and sub-controller, and the cabinet includes cabinet face, the cabinet Face is equipped with serial ports display screen, and the sub-controller and serial ports display screen are connect with master controller respectively, the serial ports display screen To add bubble sample task and display bubble sample process, the master controller to read bubble sample task and by bubble sample task be sent to Sub-controller, the sub-controller and the first liquid inlet electromagnetic valve, the second liquid inlet electromagnetic valve, third liquid inlet electromagnetic valve, drain electromagnetism Valve connects, and the sub-controller, which receives, opens or closes the first liquid inlet electromagnetic valve, second after the bubble sample task into liquid electromagnetic Valve and corresponding third liquid inlet electromagnetic valve and draining solenoid valve.

Further, the top in the cabinet face offers the first cabinet door, and the centre in the cabinet face offers the second cabinet door, institute It states and places the first support plate in the first cabinet door, the second support plate of placement and third support plate in second cabinet door, described first Several bubble sample buckets are placed in support plate, the second support plate and third support plate.

Further, the lower part in the cabinet face is further opened with the 4th cabinet door, and waste collection bottle is placed in the 4th cabinet door, The waste collection bottle is located at the lower end of the water outlet of main sewer.

Further, the centre in the cabinet face is further opened with third cabinet door, and the 4th support plate is placed in the third cabinet door, Exhaust fan is placed in 4th support plate, air inlet is installed in the upper end of the exhaust fan.

Further, the lower part in the cabinet face offers the 5th cabinet door, and gas sampling bottle, institute are placed in the 5th cabinet door It states gas sampling bottle to be connected to the lower end of exhaust fan by outlet air hose, the gas sampling bottle is to useless in collection cabinet body Gas.

Further, first support plate, the second support plate, be provided with several second through-holes in third support plate.

Further, it is connected with telescoping shoring column on the branch drain and water inlet pipe, passes through the telescoping shoring column The position of branch drain, water inlet pipe can be adjusted.

Further, sub-sieve is installed, the sub-sieve includes the sub-sieve upper layer being detachably connected in the bubble sample bucket With sub-sieve lower layer, microfossil is placed between the sub-sieve upper layer and sub-sieve lower layer；The lower section of the booster pump is equipped with Support base can support and fix booster pump by the support base.

The advantageous effect that technical solution provided by the invention is brought is：Microfossil provided by the invention steeps sampling device automatically Bubble sample process simple in structure, easy to operate, being automatically performed in fossil identification, effectively optimizes bubble sample flow；This hair The microfossil of bright offer steeps sampling device automatically can automatically control bubble sample by serial ports display screen, master controller and sub-controller Liquid feeding, drain and flushing process in the process, reduce hand labor intensity；Microfossil provided by the invention steeps sample dress automatically The exhaust gas that can be discharged in time by exhaust fan in cabinet is set, air pollution is effectively reduced.

Description of the drawings

Fig. 1 is the structural schematic diagram that a kind of microfossil of the present invention steeps sampling device automatically.

Fig. 2 is the structural schematic diagram for the sub-sieve that a kind of microfossil of the present invention steeps sampling device automatically.

Specific implementation mode

To make the object, technical solutions and advantages of the present invention clearer, below in conjunction with attached drawing to embodiment party of the present invention Formula is further described.

Referring to FIG. 1, the embodiment provides a kind of microfossils to steep sampling device automatically, including internal is hollow The cabinet 1 of structure, several bubble sample buckets 2, water inlet manifold 3, several water inlet pipes 4, main sewer 5, several branch drains 6, Booster pump 7, water container 8 and sour container 9, bubble sample bucket 2, water inlet pipe 4, main sewer 5 and branch drain 6 are respectively positioned on cabinet 1 Inside, water inlet manifold 3, booster pump 7, water container 8 and sour container 9 are arranged at the outside of cabinet 1, microbody are placed in bubble sample bucket 2 The water inlet of fossil, water inlet manifold 3 is connected to the first water inlet pipe 31 and the second water inlet pipe 32, and the first water inlet pipe 31 connects with water container 8 It connects, water container 8 is to hold the water that bubble sample rinses bubble sample bucket 2 in the process, and the second water inlet pipe 32 is connect with sour container 9, sour container 9 To hold the acid solution of bubble sample, the first water inlet pipe 31 is equipped with the first liquid inlet electromagnetic valve 311, and the second water inlet pipe 32 is equipped with Second liquid inlet electromagnetic valve 321 offers several apertures 42 on water inlet pipe 4, by aperture 42 by the acid solution in water inlet pipe 4 Or water is discharged into bubble sample bucket 2, the inlet end of each water inlet pipe 4 is equipped with third liquid inlet electromagnetic valve 41.

Cabinet 1 includes cabinet face 11 and bottom plate 12, and the top in cabinet face 11 offers the first cabinet door 111, and the centre in cabinet face 11 is opened Equipped with the second cabinet door 112 and third cabinet door 113, the lower part in cabinet face 11 offers the 4th cabinet door 114 and the 5th cabinet door 115, and first The first support plate 1111 is placed in cabinet door 111, and the second support plate 1121 and third support plate 1122 are placed in the second cabinet door 112, First support plate 1111, the second support plate 1121 are provided with several second through-hole (not shown) in third support plate 1122, and first Exhaust gas in cabinet door 111 and the second cabinet door 112 can be discharged by the second through-hole in third cabinet door 113, in the first support plate 1111, place several bubble sample buckets 2 in the second support plate 1121 and third support plate 1122, bubble sample bucket 2 be placed on it is corresponding into The lower section of water branch pipe 4, each bottom for steeping sample bucket 2 are provided with first through hole, and first through hole is connected by water pipe 51 and branch drain 6 It is logical, it will be steeped in the discharging of waste liquid to branch drain 6 in sample bucket 2 by first through hole, the water outlet of each branch drain 6 connects The water inlet of main sewer 5 is passed through, the water outlet end of each branch drain 6 is equipped with draining solenoid valve 61, third cabinet door 113 The 4th support plate 1131 of interior placement, exhaust fan 1132 is placed in the 4th support plate 1131, and air inlet is installed in the upper end of exhaust fan 1132 Air hose 1133,114 interior placement waste collection bottle 1141 of the 4th cabinet door, waste collection bottle 1141 is located at the water outlet of main sewer 5 Lower end, waste collection bottle 1141 is used for collecting waste liquid be discharged from main sewer 5, placement gas sampling in the 5th cabinet door 115 Bottle 1151 is connected between gas sampling bottle 1151 and the lower end of exhaust fan 1132 by outlet air hose 1134, gas sampling bottle 1151 are used for collecting the exhaust gas in cabinet 1, and after exhaust fan 1132 is opened, the exhaust gas in cabinet 1 is taken out by air inlet 1133 It gets in gas sampling bottle 1151.

During steeping sample, in order to avoid Laboratory air is contaminated, the first cabinet door 111, the second cabinet door should be closed 112, third cabinet door 113, the 4th cabinet door 114 and the 5th cabinet door 115, open simultaneously exhaust fan 1132.

Four bubbles are placed in one embodiment, in the first support plate 1111, the second support plate 1121 and third support plate 1122 Sample bucket 2.

Cabinet 1 is internally provided with master controller and sub-controller, and cabinet face 11 is equipped with serial ports display screen 13, sub-controller and Serial ports display screen 13 is connect with master controller respectively, and serial ports display screen 13 is sub to add bubble sample task and display bubble sample process Controller and the first liquid inlet electromagnetic valve 311, the second liquid inlet electromagnetic valve 321, third liquid inlet electromagnetic valve 41, draining solenoid valve 61 connect It connects, after user adds bubble sample task by serial ports display screen 13, master controller reads the bubble sample task and sends bubble sample task To sub-controller, sub-controller receives after the bubble sample task by opening or closing the first liquid inlet electromagnetic valve 311, the second feed liquor Solenoid valve 321, third liquid inlet electromagnetic valve 41 and draining solenoid valve 61 execute liquid feeding, drain and flushing process.

The lower section of booster pump 7 is equipped with support base 71, can support and fix booster pump 7 by support base 71, pass through supercharging Water in water container 8 or the acid solution in sour container 9 can be drawn into water inlet manifold 3 by pump 7, and booster pump 7 is equipped with flow After switch and pressure switch, the first liquid inlet electromagnetic valve 311 or the second liquid inlet electromagnetic valve 321 are opened, booster pump 7 operates, by water The acid solution in water or sour container 9 in container 8 is drawn into water inlet manifold 3, any one third liquid inlet electromagnetic valve 41 is opened Qi Hou, water or acid solution in water inlet manifold 3 are flowed into water inlet pipe 4, are then flowed by the aperture 42 on water inlet pipe 4 In corresponding bubble sample bucket 2, after the first liquid inlet electromagnetic valve 311 or the second liquid inlet electromagnetic valve 321 are closed, booster pump 7 shuts down； After steeping sample process, draining solenoid valve 61 is opened by sub-controller, then the waste liquid steeped in sample bucket 2 is discharged by first through hole Into branch drain 6, then it is flowed into main sewer 5 through branch drain 6.

It is respectively connected with telescoping shoring column 52 on each branch drain 6 and water inlet pipe 4, it can be with by telescoping shoring column 52 The position of branch drain 6, water inlet pipe 4 is adjusted, the upper end of telescoping shoring column 52 connects with corresponding branch drain 6, water inlet pipe 4 It connects, the lower end of telescoping shoring column 52 and corresponding first support plate 1111, the second support plate 1121, third support plate 1122, bottom Plate 12 is fixedly connected.

With reference to figure 2, sub-sieve 21 is installed in bubble sample bucket 2, sub-sieve 21 includes 211 He of sub-sieve upper layer being detachably connected The intermediate of sub-sieve lower layer 212, sub-sieve upper layer 211 and sub-sieve lower layer 212 places microfossil.

It is simple in structure, easy to operate that microfossil provided by the invention steeps sampling device automatically, can be automatically performed fossil mirror Bubble sample process in fixed effectively optimizes bubble sample flow；Microfossil provided by the invention steeps sampling device and passes through serial ports automatically Display screen 13, master controller and sub-controller can automatically control liquid feeding, drain and the flushing process during bubble sample, reduce Hand labor intensity；Microfossil provided by the invention steeps sampling device automatically can be discharged cabinet 1 in time by exhaust fan 1132 Interior exhaust gas, effectively reduces air pollution.

Herein, the nouns of locality such as involved front, rear, top, and bottom are to be located in figure with parts in attached drawing and zero Part mutual position defines, only for the purpose of expressing the technical solution clearly and conveniently.It should be appreciated that the noun of locality Use should not limit the claimed range of the application.

In the absence of conflict, the feature in embodiment and embodiment herein-above set forth can be combined with each other.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all the present invention spirit and Within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of microfossil steeps sampling device automatically, which is characterized in that including internal cabinet, several bubble samples for hollow structure Bucket, water inlet manifold, several water inlet pipes, main sewer, several branch drains, booster pump, water container and sour container, it is described Bubble sample bucket, water inlet pipe, main sewer and branch drain are respectively positioned on the inside of cabinet, and microfossil is placed in the bubble sample bucket, For the water container to hold the water that bubble sample rinses bubble sample bucket in the process, the sour container steeps the acid solution of sample to hold, The booster pump the acid solution in the water or sour container in water container to be drawn into water inlet manifold, the water inlet manifold Water outlet is connected to the water inlet of several water inlet pipes, and several apertures are offered on the water inlet pipe, by described small Hole by water inlet pipe acid solution or water be discharged into bubble sample bucket in, it is described bubble sample bucket bottom be provided with first through hole, pass through institute Stating first through hole will steep in the discharging of waste liquid to branch drain in sample bucket, and the water outlet of several branch drains is communicated in The water inlet of the main sewer.

2. microfossil as described in claim 1 steeps sampling device automatically, which is characterized in that the water inlet of the water inlet manifold connects Logical first water inlet pipe and the second water inlet pipe, first water inlet pipe are connect with water container, and second water inlet pipe connects with sour container It connects, first water inlet pipe is equipped with the first liquid inlet electromagnetic valve, and second water inlet pipe is equipped with the second liquid inlet electromagnetic valve, each The inlet end of water inlet pipe described in root is equipped with third liquid inlet electromagnetic valve, and the water outlet end of each branch drain is all provided with There is draining solenoid valve.

3. microfossil as claimed in claim 2 steeps sampling device automatically, which is characterized in that the cabinet is internally provided with master control Device and sub-controller processed, the cabinet include cabinet face, and the cabinet face is equipped with serial ports display screen, and the sub-controller and serial ports are aobvious Display screen is connect with master controller respectively, and the serial ports display screen steeps sample process, the master control to add bubble sample task and display Device processed to read bubble sample task and bubble sample task be sent to sub-controller, the sub-controller and the first liquid inlet electromagnetic valve, Second liquid inlet electromagnetic valve, third liquid inlet electromagnetic valve, draining solenoid valve connection, after the sub-controller receives the bubble sample task Open or close the first liquid inlet electromagnetic valve, the second liquid inlet electromagnetic valve and corresponding third liquid inlet electromagnetic valve and draining solenoid valve.

4. microfossil as claimed in claim 3 steeps sampling device automatically, which is characterized in that the top in the cabinet face offers The centre of one cabinet door, the cabinet face offers the second cabinet door, and the first support plate, second cabinet door are placed in first cabinet door The second support plate of interior placement and third support plate are placed in first support plate, the second support plate and third support plate several Steep sample bucket.

5. microfossil as claimed in claim 3 steeps sampling device automatically, which is characterized in that the lower part in the cabinet face is further opened with 4th cabinet door, the 4th cabinet door is interior to place waste collection bottle, and the waste collection bottle is located under the water outlet of main sewer End.

6. microfossil as claimed in claim 3 steeps sampling device automatically, which is characterized in that the centre in the cabinet face is further opened with Third cabinet door, the third cabinet door is interior to place the 4th support plate, and exhaust fan is placed in the 4th support plate, the exhaust fan Upper end is installed by air inlet.

7. microfossil as claimed in claim 6 steeps sampling device automatically, which is characterized in that the lower part in the cabinet face offers Five cabinet doors, the 5th cabinet door is interior to place gas sampling bottle, the lower end that the gas sampling bottle passes through outlet air hose and exhaust fan Connection, the gas sampling bottle is to the exhaust gas in collection cabinet body.

8. microfossil as claimed in claim 4 steeps sampling device automatically, which is characterized in that first support plate, second Several second through-holes are provided on fagging, third support plate.

9. microfossil as described in claim 1 steeps sampling device automatically, which is characterized in that the branch drain and water inlet pipe On be connected with telescoping shoring column, the position of branch drain, water inlet pipe can be adjusted by the telescoping shoring column.

10. microfossil as described in claim 1 steeps sampling device automatically, which is characterized in that installation divides sample in the bubble sample bucket Sieve, the sub-sieve include the sub-sieve upper layer being detachably connected and sub-sieve lower layer, under the sub-sieve upper layer and sub-sieve Microfossil is placed between layer；The lower section of the booster pump is equipped with support base, and increasing can be supported and fixed by the support base Press pump.