CN207722388U - A kind of ginkgo biloba p.e enrichment facility - Google Patents

Abstract

The utility model is related to a kind of ginkgo biloba p.e enrichment facilities, belong to flashing apparatus field.Ginkgo biloba p.e enrichment facility majority in the prior art is made using glass, and heat-conducting effect is not ideal enough, and broken, and temperature control is not accurate enough, and flow is difficult to control.The utility model includes stoste bottle, heating assembly, vapor-liquid separation assembly, cooling unit, vacuum pump, concentrate surge flask, solvent surge flask, concentrate receiving flask and solvent receiving flask, stoste bottle is connected to heating assembly, heating assembly is connected to vapor-liquid separation assembly, vapor-liquid separation assembly is connected to concentrate surge flask, concentrate surge flask is connected to concentrate receiving flask, vapor-liquid separation assembly is connected to cooling unit, cooling unit is connected to solvent surge flask, solvent surge flask is connected to solvent receiving flask, and solvent surge flask is connected to vacuum pump.The temperature for controlling the device, installation flowmeter is facilitated to facilitate observation traffic conditions, be convenient for the adjusting of flow by temperature controller.

Description

A kind of ginkgo biloba p.e enrichment facility

Technical field

The utility model is related to a kind of ginkgo biloba p.e enrichment facilities, belong to flashing apparatus field.

Background technology

Ginkgo biloba p.e enrichment facility majority in the prior art is made using glass, and heat-conducting effect is not enough managed Think, and broken, temperature control is not accurate enough, and flow is difficult to control, and the liquid to drop down in separator is easily sticked to point Inner wall from device.

In view of this, disclosing a kind of rapid concentration higher boiling solution in the patent document that notification number is CN2136064Y Or the Multifunctional flash vaporizer of recycling design, the device is by heat source, and vacuum pump, flow back thin film evaporator, vapour liquid separator, condensation Device, recycling design receiver, concentrate solution receiver, weak solution container and control piper composition.There is temperature in above-mentioned comparison patent Degree is difficult to control, and cleaning is inconvenient, and heat-conducting effect is poor, it is frangible the shortcomings of.

Utility model content

The purpose of the utility model is to overcome above-mentioned deficiencies existing in the prior art, and provide a kind of structure design conjunction The ginkgo biloba p.e enrichment facility of reason.

The technical scheme in the invention for solving the above technical problem is：The ginkgo biloba p.e enrichment facility, knot Structure feature is：Including stoste bottle, heating assembly, vapor-liquid separation assembly, cooling unit, vacuum pump, concentrate surge flask, solvent Surge flask, concentrate receiving flask and solvent receiving flask, the stoste bottle are connected to heating assembly, the heating assembly and vapour-liquid point It is connected to from assembly, the vapor-liquid separation assembly is connected to concentrate surge flask, the concentrate surge flask and concentrate receiving flask Connection, the vapor-liquid separation assembly are connected to cooling unit, and the cooling unit is connected to solvent surge flask, the solvent buffering Bottle is connected to solvent receiving flask, and the solvent surge flask is connected to vacuum pump；The heating assembly includes heater housing, snakelike Heating tube, electric heater, temperature controller, flowmeter, flow adjustment knob, heater Quick Release and drain, the vapour-liquid point Include separator liquid feed valve from assembly, separator inlet tube, separator form, separator vacuum meter, separator temperature table, divide From Quick Release, separator bleeder valve and separator under Quick Release, separator on device, the cooling unit includes cooler water inlet, cold But device water outlet, spiral coil cooling tube and cooler casing are equipped with concentrate surge flask at the top of the concentrate surge flask and put The lower part of empty valve, the concentrate surge flask is equipped with concentrate surge flask tapping valve, the top installation of the solvent surge flask There are solvent surge flask blow valve, solvent surge flask liquid feed valve and solvent surge flask vacuum valve, the lower part peace of the solvent surge flask Equipped with solvent surge flask tapping valve；The serpentine heating pipe be mounted on heater housing in, the import of the serpentine heating pipe with The top of flowmeter is connected to, and the outlet of the serpentine heating pipe is connected to separator liquid feed valve, the stoste bottle and flowmeter Bottom is connected to, and the flow adjustment knob is mounted on flowmeter, and the electric heater is mounted on the bottom of shell, the temperature Controller and flowmeter are installed on heater housing, and the electric heater includes fire end and terminals, the fire end In heater housing, the terminals are located at outside heater housing, and terminals are connect with temperature controller, the emptying Mouth is mounted on the top of heater housing, and the heater Quick Release is mounted on the top of heater housing, the separator installation On cooler casing, the separator liquid feed valve is mounted on outside separator, and one end of the separator liquid feed valve adds with snakelike The outlet of heat pipe, the separator inlet tube are connected to the other end of separator liquid feed valve, and separator inlet tube is installed In separator, Quick Release is mounted on the top of separator on the separator, and the separator temperature table is mounted on separator On Quick Release, Quick Release is mounted on the bottom of separator under the separator, and the separator bleeder valve is mounted on Quick Release under separator On, the separator bleeder valve is connected to concentrate surge flask, and the concentrate surge flask tapping valve connects with concentrate receiving flask Logical, the separator form is mounted on separator, and the separator vacuum meter is mounted on the lower part of separator, described snakelike Cooling tube is mounted in cooler casing, the import of the spiral coil cooling tube and Quick Release on separator be connected to, it is described snakelike cold But the outlet of pipe is connected to solvent surge flask liquid feed valve, and the cooler water inlet is mounted on the top of cooler casing, described Cooler water outlet is mounted on the bottom of cooler casing, and the solvent surge flask tapping valve is connected to solvent receiving flask, described Solvent surge flask vacuum valve is connected to vacuum pump, and the solvent surge flask blow valve is connected to solvent surge flask vacuum valve.Pass through Temperature controller facilitates the temperature for controlling the device, installation flowmeter to facilitate observation traffic conditions, is convenient for the adjusting of flow, installation Separator inlet tube avoids liquid and is sticked to chamber wall.

Further, the material of the heater housing, serpentine heating pipe, spiral coil cooling tube and cooler casing is not Become rusty steel；The material of the concentrate surge flask and solvent surge flask is glass.Heater housing, serpentine heating pipe, cooler Coiled pipe and cooler casing make the device reach better heat-conducting effect using stainless steel, nor broken, dense Contracting liquid surge flask and solvent surge flask use glass material, convenient for observation inner case.

Further, heater housing No.1 interface and heater housing two are also equipped at the top of the heater housing Number interface, import and the heater housing No.1 orifice of the serpentine heating pipe, the outlet of the serpentine heating pipe with plus The top of No. two orifices of hot device shell, the heater housing No.1 interface and flowmeter passes through No.1 pipeline connection, institute The bottom for stating stoste bottle and flowmeter passes through No. two pipeline connections, No. two interfaces of the heater housing and separator liquid feed valve One end passes through No. three pipeline connections.

Further, it is also equipped with concentrate surge flask interface at the top of the concentrate surge flask, the separator is put For liquid valve with concentrate surge flask interface by No. four pipeline connections, the concentrate surge flask tapping valve is logical with concentrate receiving flask Cross No. five pipeline connections.

Further, separator air bleeding valve, the separator air bleeding valve and snake are also equipped on the separator on Quick Release The import of shape cooling tube passes through No. six pipeline connections.

Further, cooler casing No.1 interface and cooler casing two are also equipped at the top of the cooler casing Number interface, import and the cooler casing No.1 orifice of the spiral coil cooling tube, the outlet of the spiral coil cooling tube with it is cold But No. two orifices of device shell, the cooler casing No.1 interface pass through No. six pipeline connections, institute with separator air bleeding valve No. two interfaces of cooler casing and solvent surge flask liquid feed valve are stated by No. seven pipeline connections, the solvent surge flask tapping valve with Solvent receiving flask passes through No. eight pipeline connections.

Further, vacuum pump interface is installed, the solvent surge flask vacuum valve connects with vacuum pump on the vacuum pump Mouth passes through No. nine pipeline connections.

Further, the heating assembly, cooling unit, vacuum pump, concentrate surge flask and solvent surge flask are placed On the table, the stoste bottle, concentrate receiving flask and solvent receiving flask are respectively positioned on the lower section of workbench.

Compared with prior art, the utility model has the following advantages：The device many places use quick-disassembly structure, cleaning when compared with For convenience, the installation of separator inlet tube avoids liquid and is sticked to chamber wall, reaches better vapor liquid equilibrium effect, separator temperature Parameter regulation is convenient in the installation for spending table.

Description of the drawings

Fig. 1 is the connection relationship diagram of the ginkgo biloba p.e enrichment facility of the utility model embodiment.

Fig. 2 is the connection relationship diagram of the heating assembly of the utility model embodiment.

Fig. 3 is the connection relationship diagram of the vapor-liquid separation assembly of the utility model embodiment.

Fig. 4 is the connection relationship diagram of the cooling unit of the utility model embodiment.

In figure：A- stostes bottle, B- heating assembly, C- vapor-liquid separations assembly, D- cooling units, E- vacuum pumps, F- concentrates Surge flask, G- solvents surge flask, H- concentrates receiving flask, I- solvents receiving flask, 1- heater housings, 2- serpentine heating pipes, 3- Electric heater, 4- temperature controllers, 5- flowmeters, 6- flow adjustment knobs, 7- heaters Quick Release, 8- drains, 9- separators Liquid feed valve, 10- separators inlet tube, 11- separators form, 12- separators vacuum meter, 13- separator temperatures table, 14- point It is slow from Quick Release, 16- separators bleeder valve, 17- concentrate surge flasks blow valve, 18- concentrates under Quick Release, 15- separators on device It is molten to rush bottle tapping valve, 19- coolers water inlet, 20- coolers water outlet, 21- spiral coil cooling tubes, 22- cooler casings, 23- Agent surge flask blow valve, 24- solvent surge flasks liquid feed valve, 25- solvent surge flasks vacuum valve, 26- solvent surge flasks tapping valve, 27- separators, 28- heater housing No.1s interface, No. two interfaces of 29- heater housings, 30- concentrate surge flasks interface, 31- Cooler casing No.1 interface, No. two interfaces of 32- cooler casings, 33- vacuum pump interfaces, 34- separators air bleeding valve, 35- mono- No. seven number pipeline, No. bis- pipelines of 36-, No. tri- pipelines of 37-, No. tetra- pipelines of 38-, No. five pipelines of 39-, No. six pipelines of 40-, 41- pipes Road, No. eight pipelines of 42-, No. nine pipelines of 43-, 44- workbench.

Specific implementation mode

The utility model is described in further detail below in conjunction with the accompanying drawings and by embodiment, and following embodiment is pair The explanation of the utility model and the utility model is not limited to following embodiment.

Embodiment.

Shown in Fig. 1 to Fig. 4, it should however be clear that structure, ratio, size etc. depicted in this specification institute accompanying drawings are only used To coordinate the revealed content of specification, so that those skilled in the art understands and reads, it is new to be not limited to this practicality The enforceable qualifications of type, therefore do not have technical essential meaning, the modification of any structure, the change of proportionate relationship or size Adjustment should all still be fallen new in this practicality in the case where not influencing the effect of the utility model can be generated and the purpose that can reach In the range of the revealed technology contents of type can be covered.Meanwhile if in this specification with reference as "upper", "lower", " left side ", The term on " right side ", " centre " and " one " etc. is merely convenient to being illustrated for narration, rather than enforceable to limit the utility model Range, relativeness are altered or modified, enforceable when being also considered as the utility model in the case where changing technology contents without essence Scope.

Ginkgo biloba p.e enrichment facility in the present embodiment, including stoste bottle A, heating assembly B, vapor-liquid separation assembly C, Cooling unit D, vacuum pump E, concentrate surge flask F, solvent surge flask G, concentrate receiving flask H and solvent receiving flask I, stoste bottle A is connected to heating assembly B, and heating assembly B is connected to vapor-liquid separation assembly C, and vapor-liquid separation assembly C connects with concentrate surge flask F Logical, concentrate surge flask F is connected to concentrate receiving flask H, and vapor-liquid separation assembly C is connected to cooling unit D, cooling unit D and The G connections of solvent surge flask, solvent surge flask G are connected to solvent receiving flask I, and solvent surge flask G is connected to vacuum pump E；

Heating assembly B in the present embodiment includes heater housing 1, serpentine heating pipe 2, electric heater 3, temperature controller 4, flowmeter 5, flow adjustment knob 6, heater Quick Release 7 and drain 8, vapor-liquid separation assembly C include separator liquid feed valve 9, Separator inlet tube 10, separator form 11, separator vacuum meter 12, separator temperature table 13, Quick Release 14 on separator, point From Quick Release under device 15, separator bleeder valve 16 and separator 27, cooling unit D includes cooler water inlet 19, cooler water outlet Mouthfuls 20, spiral coil cooling tube 21 and cooler casing 22 are equipped with concentrate surge flask blow valve at the top of concentrate surge flask F The lower part of 17, concentrate surge flask F are equipped with concentrate surge flask tapping valve 18, and solvent is equipped at the top of solvent surge flask G Surge flask blow valve 23, solvent surge flask liquid feed valve 24 and solvent surge flask vacuum valve 25, the lower part of solvent surge flask G are equipped with Solvent surge flask tapping valve 26.

Serpentine heating pipe 2 in the present embodiment is mounted in heater housing 1, import and the flowmeter 5 of serpentine heating pipe 2 Top connection, the outlet of serpentine heating pipe 2 is connected to separator liquid feed valve 9, and stoste bottle A is connected to the bottom of flowmeter 5, flows It measures adjusting knob 6 to be mounted on flowmeter 5, electric heater 3 is mounted on the bottom of shell 1, and temperature controller 4 and flowmeter 5 are equal On heater housing 1, electric heater 3 includes fire end and terminals, and fire end is located in heater housing 1, wiring End is located at outside heater housing 1, and terminals are connect with temperature controller 4, and drain 8 is mounted on the top of heater housing 1, Heater Quick Release 7 is mounted on the top of heater housing 1.

Separator 27 in the present embodiment is mounted on cooler casing 22, and separator liquid feed valve 9 is mounted on separator 27 Outside, the outlet of one end of separator liquid feed valve 9 and serpentine heating pipe 2, separator inlet tube 10 and separator liquid feed valve 9 The other end is connected to, and separator inlet tube 10 is mounted in separator 27, and Quick Release 14 is mounted on the top of separator 27 on separator Portion, separator temperature table 13 are mounted on separator on Quick Release 14, and Quick Release 15 is mounted on the bottom of separator 27 under separator, point It is mounted under separator on Quick Release 15 from device bleeder valve 16, separator bleeder valve 16 is connected to concentrate surge flask F, and concentrate is slow It rushes bottle tapping valve 18 to be connected to concentrate receiving flask H, separator form 11 is mounted on separator 27, separator vacuum meter 12 Mounted on the lower part of separator 27.

Spiral coil cooling tube 21 in the present embodiment is mounted in cooler casing 22, the import of spiral coil cooling tube 21 with detach On device Quick Release 14 be connected to, the outlet of spiral coil cooling tube 21 is connected to solvent surge flask liquid feed valve 24, cooler water inlet 19 pacify Mounted in the top of cooler casing 22, cooler water outlet 20 is mounted on the bottom of cooler casing 22, solvent surge flask drain Valve 26 is connected to solvent receiving flask I, and solvent surge flask vacuum valve 25 is connected to vacuum pump E, solvent surge flask blow valve 23 with it is molten Agent surge flask vacuum valve 25 is connected to.

The material of heater housing 1, serpentine heating pipe 2, spiral coil cooling tube 21 and cooler casing 22 in the present embodiment It is stainless steel；The material of concentrate surge flask F and solvent surge flask G are glass.

The top of heater housing 1 in the present embodiment is also equipped with heater housing No.1 interface 28 and heater housing The import of No. two interfaces 29, serpentine heating pipe 2 is connected to heater housing No.1 interface 28, the outlet of serpentine heating pipe 2 with plus No. two interfaces 29 of hot device shell are connected to, and heater housing No.1 interface 28 is connected to the top of flowmeter 5 by No.1 pipeline 35, Stoste bottle A is connected to the bottom of flowmeter 5 by No. two pipelines 36, No. two interfaces 29 of heater housing and separator liquid feed valve 9 One end be connected to by No. three pipelines 37.

It is also equipped with concentrate surge flask interface 30, separator tapping at the top of concentrate surge flask F in the present embodiment Valve 16 is connected to concentrate surge flask interface 30 by No. four pipelines 38, concentrate surge flask tapping valve 18 and concentrate receiving flask H is connected to by No. five pipelines 39.

Separator air bleeding valve 34, separator air bleeding valve 34 and snake are also equipped on separator in the present embodiment on Quick Release 14 The import of shape cooling tube 21 is connected to by No. six pipelines 40.

The top of cooler casing 22 in the present embodiment is also equipped with outside cooler casing No.1 interface 31 and cooler The import of No. two interfaces 32 of shell, spiral coil cooling tube 21 is connected to cooler casing No.1 interface 31, the outlet of spiral coil cooling tube 21 It is connected to No. two interfaces 32 of cooler casing, cooler casing No.1 interface 31 passes through No. six pipelines 40 with separator air bleeding valve 34 Connection, No. two interfaces 32 of cooler casing are connected to solvent surge flask liquid feed valve 24 by No. seven pipelines 41, solvent surge flask row Liquid valve 26 is connected to solvent receiving flask I by No. eight pipelines 42.

Vacuum pump interface 33 is installed, solvent surge flask vacuum valve 25 connects with vacuum pump on the vacuum pump E in the present embodiment Mouth 33 passes through No. nine pipelines 43 and is connected to.

Heating assembly B, cooling unit D, vacuum pump E, concentrate surge flask F and solvent surge flask G in the present embodiment is equal It is placed on workbench 44, stoste bottle A, concentrate receiving flask H and solvent receiving flask I are respectively positioned on the lower section of workbench 44.

Cooler water inlet 19 in the present embodiment may be mounted at the bottom of cooler casing 22, cooler water outlet 20 It may be mounted at the top of cooler casing 22.

The operation principle of ginkgo biloba p.e enrichment facility in this implementation is as follows：

By separator liquid feed valve 9, separator bleeder valve 16, separator air bleeding valve 34, solvent surge flask liquid feed valve 24 and molten Agent surge flask vacuum valve 25 is opened, and by concentrate surge flask blow valve 17, concentrate surge flask tapping valve 18, solvent surge flask Blow valve 23 and solvent surge flask tapping valve 26 are closed, and add water into heater housing 1 by drain 8, and pass through electrical heating Device 3 provides negative pressure to the heating of in heater housing 1 plus water, by vacuum pump E, the stoste in stoste bottle A is drawn into snakelike In heating tube 2.

After stoste in serpentine heating pipe 2 is by heating, separator liquid feed valve 9 and separator inlet tube 10 are flowed through, is entered Into separator 27, and form level-one gas and level liquid, wherein level liquid flow through separator bleeder valve 16 be flowed into it is dense In contracting liquid surge flask F, level-one gas flows through separator air bleeding valve 34 and provides negative pressure by vacuum pump E, and level-one gas is sucked Into spiral coil cooling tube 21, water, the water in cooler casing 22 is added to pass through into cooler casing 22 from cooler water inlet 19 Cooler water outlet 20 is discharged, and the level-one gas cooling in spiral coil cooling tube 21 is formed secondary liquid, and secondary liquid flows through Solvent surge flask liquid feed valve 24 enters in solvent receiving flask I.

By separator liquid feed valve 9, separator bleeder valve 16, separator air bleeding valve 34, solvent surge flask liquid feed valve 24 and molten Agent surge flask vacuum valve 25 is closed, and by concentrate surge flask blow valve 17, concentrate surge flask tapping valve 18, solvent surge flask Blow valve 23 and solvent surge flask tapping valve 26 are opened, make in concentrate surge flask F level liquid pass through its own gravity flow through it is dense Contracting liquid surge flask tapping valve 18 enters in concentrate receiving flask H, and the secondary liquid in solvent surge flask G is made to pass through its own gravity Solvent surge flask tapping valve 26 is flowed through to enter in solvent receiving flask I.

Furthermore, it is necessary to illustrate, the specific embodiment described in this specification, the shape of parts and components is named Claiming etc. can be different, described in this specification above content is only to the utility model structure example explanation. The equivalence changes or simple change that all structure, feature and principles according to described in the utility model patent concept are done, are wrapped It includes in the protection domain of the utility model patent.Those skilled in the art of the present invention can be to described Specific embodiment does various modifications or additions or substitutes by a similar method, without departing from the knot of the utility model Structure or beyond the scope defined by this claim, all should belong to the protection range of the utility model.

Claims (8)

1. a kind of ginkgo biloba p.e enrichment facility, it is characterised in that：Including stoste bottle, heating assembly, vapor-liquid separation assembly, cold But assembly, vacuum pump, concentrate surge flask, solvent surge flask, concentrate receiving flask and solvent receiving flask, the stoste bottle with plus Hot assembly connection, the heating assembly are connected to vapor-liquid separation assembly, and the vapor-liquid separation assembly is connected to concentrate surge flask, The concentrate surge flask is connected to concentrate receiving flask, and the vapor-liquid separation assembly is connected to cooling unit, and the cooling is total It is connected at solvent surge flask, the solvent surge flask is connected to solvent receiving flask, and the solvent surge flask is connected to vacuum pump； The heating assembly includes heater housing, serpentine heating pipe, electric heater, temperature controller, flowmeter, flow-rate adjustment rotation Button, heater Quick Release and drain, the vapor-liquid separation assembly include that separator liquid feed valve, separator inlet tube, separator regard Window, separator vacuum meter, separator temperature table, Quick Release, separator bleeder valve and separation under Quick Release, separator on separator Device, the cooling unit include cooler water inlet, cooler water outlet, spiral coil cooling tube and cooler casing, the concentration Concentrate surge flask blow valve is installed, the lower part of the concentrate surge flask is equipped with concentrate buffering at the top of liquid surge flask Bottle tapping valve, it is slow that solvent surge flask blow valve, solvent surge flask liquid feed valve and solvent are equipped at the top of the solvent surge flask Bottle vacuum valve is rushed, the lower part of the solvent surge flask is equipped with solvent surge flask tapping valve；The serpentine heating pipe, which is mounted on, to be added In hot device shell, the import of the serpentine heating pipe is connected to the top of flowmeter, the outlet of the serpentine heating pipe with detach Device liquid feed valve is connected to, and the stoste bottle is connected to the bottom of flowmeter, and the flow adjustment knob is mounted on flowmeter, described Electric heater is mounted on the bottom of shell, and the temperature controller and flowmeter are installed on heater housing, and the electricity adds Hot device includes fire end and terminals, and the fire end is located in heater housing, and the terminals are located at outside heater housing, And terminals are connect with temperature controller, the drain is mounted on the top of heater housing, the heater Quick Release installation On the top of heater housing, the separator is mounted on cooler casing, and the separator liquid feed valve is mounted on separator Outside, the outlet of one end and serpentine heating pipe of the separator liquid feed valve, the separator inlet tube and separator feed liquor The other end of valve is connected to, and separator inlet tube is mounted in separator, and Quick Release is mounted on the top of separator on the separator Portion, the separator temperature table are mounted on separator on Quick Release, and Quick Release is mounted on the bottom of separator, institute under the separator Separator bleeder valve is stated on Quick Release under separator, the separator bleeder valve is connected to concentrate surge flask, described dense Contracting liquid surge flask tapping valve is connected to concentrate receiving flask, and the separator form is mounted on separator, and the separator is true Reciprocal of duty cycle table be mounted on separator lower part, the spiral coil cooling tube be mounted on cooler casing in, the spiral coil cooling tube into Mouthful with Quick Release on separator be connected to, the outlet of the spiral coil cooling tube is connected to solvent surge flask liquid feed valve, the cooler Water inlet is mounted on the top of cooler casing, and the cooler water outlet is mounted on the bottom of cooler casing, the solvent Surge flask tapping valve is connected to solvent receiving flask, and the solvent surge flask vacuum valve is connected to vacuum pump, the solvent surge flask Blow valve is connected to solvent surge flask vacuum valve.

2. ginkgo biloba p.e enrichment facility according to claim 1, it is characterised in that：It is the heater housing, snakelike The material of heating tube, spiral coil cooling tube and cooler casing is stainless steel；The concentrate surge flask and solvent surge flask Material is glass.

3. ginkgo biloba p.e enrichment facility according to claim 2, it is characterised in that：The top of the heater housing No. two interfaces of heater housing No.1 interface and heater housing are also equipped with, outside the import of the serpentine heating pipe and heater Shell No.1 orifice, outlet and No. two orifices of heater housing of the serpentine heating pipe, the heater housing one By No.1 pipeline connection, the bottom of the stoste bottle and flowmeter is connected by No. two pipelines at the top of number interface and flowmeter Logical, No. two interfaces of the heater housing and one end of separator liquid feed valve pass through No. three pipeline connections.

4. ginkgo biloba p.e enrichment facility according to claim 3, it is characterised in that：The top of the concentrate surge flask Portion is also equipped with concentrate surge flask interface, and the separator bleeder valve is connected with concentrate surge flask interface by No. four pipelines Logical, the concentrate surge flask tapping valve passes through No. five pipeline connections with concentrate receiving flask.

5. ginkgo biloba p.e enrichment facility according to claim 4, it is characterised in that：On the separator on Quick Release also Separator air bleeding valve is installed, the import of the separator air bleeding valve and spiral coil cooling tube passes through No. six pipeline connections.

6. ginkgo biloba p.e enrichment facility according to claim 5, it is characterised in that：The top of the cooler casing No. two interfaces of cooler casing No.1 interface and cooler casing are also equipped with, outside the import of the spiral coil cooling tube and cooler Shell No.1 orifice, outlet and No. two orifices of cooler casing of the spiral coil cooling tube, the cooler casing one Number interface passes through No. six pipeline connections, No. two interfaces of the cooler casing and solvent surge flask liquid feed valve with separator air bleeding valve By No. seven pipeline connections, the solvent surge flask tapping valve passes through No. eight pipeline connections with solvent receiving flask.

7. ginkgo biloba p.e enrichment facility according to claim 6, it is characterised in that：It is equipped on the vacuum pump true Empty pump interface, the solvent surge flask vacuum valve pass through No. nine pipeline connections with vacuum pump interface.

8. ginkgo biloba p.e enrichment facility according to claim 7, it is characterised in that：The heating assembly, cooling are total At, vacuum pump, concentrate surge flask and solvent surge flask be both placed on workbench, the stoste bottle, concentrate receiving flask and Solvent receiving flask is respectively positioned on the lower section of workbench.