CN106906593A - A kind of portable anhydrous dyeing and finishing test glass of supercritical fluid - Google Patents

Abstract

The invention discloses a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid, can effectively realize for traditional fixed dyeing and finishing of supercritical fluid drawing a design unit change for a kind of test glass of packaged type, realize and multiple test glasses are separately or concurrently carried out medium tank fill, then concentrate carries out the purpose of elevated temperature test processing simultaneously.Drawn a design processing efficiency so as to substantially increase the anhydrous dyeing and finishing of high-pressure supercritical fluid, and its medium booster jar fills the utilization ratio with separation and recovery system, effectively adapted to the anhydrous dyeing and finishing actual production of textile to the wilderness demand drawn a design.So as to overcome existing fixed supercritical fluid dyeing and finishing Sample devices or its device systems utilization ratio it is low, clean it is cumbersome, can not meet actual production to draw a design demand the shortcomings of.Be remarkably improved the sample efficiency of supercritical fluid anhydrous dyeing and finishing production, and have the advantages that device systems easy to operate, sample efficiency high, reliability, be easy to clean, it is economical and practical, have a wide range of application.

Description

A kind of portable anhydrous dyeing and finishing test glass of supercritical fluid

Technical field

The present invention relates to pressure vessel and textile dyeing and finishing equipment manufacturing technology field, more particularly to a kind of movable type The anhydrous dyeing and finishing test glass of supercritical fluid.

Background technology

The dyeing and printing process production of traditional textile, not only its technological process is long, and operation is more, the matter of product Amount is often by the combined influence of many factors, and the particularly color processing of textile.Thus, in textile Dyeing and printing process, it usually needs by beat sample, put middle sample, trial production and produce etc. link.And wherein beat Sample etc. tests link, is basis and the premise for obtaining factory formula and technological parameter.Therefore, research and develop efficiently, Reliable, applicable little sample testing device systems, have very important effect to big production.

Generally, the dyeing and printing process production of textile, its operation is more, technological process is long, and product quality is often received To the combined influence of Various Complex factor, especially in the color process segment of textile.Thus, textile Dyeing and printing process, it usually needs by beating sample, putting the links such as middle sample, trial production and production.Wherein, beat small Sample is the premise for obtaining production technology basic components.Therefore, efficient, reliable, applicable sample is researched and developed to draw a design Device systems, to the anhydrous dyeing and finishing technique of supercritical fluid be applied clinically and popularized and industrialization all have it is extremely important Effect.

In recent years, due to reasons such as ecological, environmental protective and shortage of fresh waters, with supercritical CO₂It is medium Deng fluid Anhydrous dyeing and finishing technique, obtained extensive concern and the attention of industry.Traditional water bath is replaced to textile with it Dyeing and finishing processing is carried out, traditional dyeing and finishing can be thoroughly eliminated from source and is processed brought high energy consumption, environmental pollution It is serious to wait puzzlement.Thus, the anhydrous change system of supercritical fluid is researched and developed, to the sustainable of textile printing and dyeing industry Change development, and ecological environmental protection etc. all has important society and realistic meaning.Wherein design, develop Send out efficient, reliable, applicable little sample testing device systems, the popularization to the anhydrous dyeing and finishing technique of supercritical fluid Using and industrialization all there is very prominent impetus.

But from terms of presently disclosed document report and practical application, existing supercritical fluid dyeing and finishing Sample devices Or its device systems, the usual fixed dyeing and finishing sample machining cell of only one of which, a corresponding compression train System, and a set of separation and recovery system is configured in dyeing and finishing sample cell downstream, to realize to machining medium and residual Stay the separation and recovery of dye material.Thus, this kind of sample system typically once can only carry out sample to a sample Processing, and sample must also be cleaned after terminating to system every time, and can just be drawn a design experiment next time, Especially when the color sample for carrying out textile is processed, the thoroughly cleaning of system just seems particularly significant.However, Existing most Sample devices systems or its machining cell, its cleaning process are cumbersome, and are difficult to clean.Meanwhile, The pressurization of this kind of dyeing and finishing sample system configuration and separation and recovery system, its vacancy rate are high, it is impossible to effectively filled Divide and utilize.Thus, the efficiency of current these existing supercritical fluid dyeing and finishing sample systems is low, far can not expire Sufficient actual production to the wilderness demand of sample sample, so as to also largely effect on and delay supercritical fluid anhydrous The Industry Promotion of dyeing and finishing technique and practical application.

In view of above-mentioned defect, the design people is actively subject to research and innovation, to found a kind of movable type The anhydrous dyeing and finishing test glass of supercritical fluid, it is had more the value in industry.

The content of the invention

In order to solve the above technical problems, it is an object of the invention to provide one kind have easy to operate, sample efficiency high, Reliably, it is easy to cleaning, the portable anhydrous dyeing and finishing of supercritical fluid that is economical and practical, having a wide range of application to test Cup.

A kind of portable anhydrous dyeing and finishing test glass of supercritical fluid proposed by the present invention, including high-potting cup Cylinder, high-potting Sealing cap for cup, high-pressure fluid mozzle, the first pressure piping, the second pressure piping, First high-pressure stop valve and the second high-pressure stop valve, it is characterised in that：

The inside bottom of the high-potting cup cylinder is in recessed circular arc, the high-potting Sealing cap for cup Mobile lid is located at the upper end rim of a cup of the high-potting cup cylinder, is spaced on the high-potting Sealing cap for cup It is provided with medium entrance and media outlet；

One end of first pressure piping is connected at the medium entrance and close positioned at high-potting cup The top of capping, the other end of first pressure piping is connected for external air source or tank charging system, and described the One high-pressure stop valve is arranged on first pressure piping；

One end of second pressure piping is connected at the media outlet and close positioned at high-potting cup The top of capping, second pressure piping is connected with high-potting cup cylinder, second high-voltage tube The other end in road is connected for external discrete recovery system, and it is high that second high-pressure stop valve is arranged on described second On pressure pipeline；

The high-pressure fluid mozzle is connected with first pressure piping and is sealed positioned at high-potting cup The lower section of lid, the high-pressure fluid mozzle is suspended in the high-potting cup cylinder vertically；

Also include wireless pressure temperature integrated transducer and safety valve, the wireless pressure temperature integration is passed Sensor is arranged on first pressure piping or the second pressure piping, and the safety valve is arranged on described first On pressure piping or the second pressure piping.

Further, to be installed in described second high for the wireless pressure temperature integrated transducer and safety valve On pressure pipeline, four-way connection is installed on second pressure piping, the four-way connection is located at the medium Between outlet and second high-pressure stop valve, the wireless pressure temperature integrated transducer and safety valve divide An Zhuan not two relative interfaces of the four-way connection.

Further, to be installed in described first high for the wireless pressure temperature integrated transducer and safety valve On pressure pipeline, four-way connection is installed on first pressure piping, the four-way connection is located at the medium Between import and first high-pressure stop valve, the wireless pressure temperature integrated transducer and safety valve divide An Zhuan not two relative interfaces of the four-way connection.

Further, the wireless pressure temperature integrated transducer is arranged on first pressure piping, The safety valve is arranged on second pressure piping, and the first threeway is provided with first pressure piping Joint, first three-way connection is located between the medium entrance and first high-pressure stop valve, described Wireless pressure temperature integrated transducer is arranged at the intermediary interface of first three-way connection, and described second Second three-way connection is installed, second three-way connection is located at institute's media outlet with described the on pressure piping Between two high-pressure stop valves, the safety valve is arranged at the intermediary interface of second three-way connection.

Further, the wireless pressure temperature integrated transducer is arranged on second pressure piping, The safety valve is arranged on first pressure piping, and the first threeway is provided with first pressure piping Joint, first three-way connection is located between the medium entrance and first high-pressure stop valve, described Safety valve is arranged at the intermediary interface of first three-way connection, and the is provided with second pressure piping Two three-way connections, second three-way connection is located between institute's media outlet and second high-pressure stop valve, The wireless pressure temperature integrated transducer is arranged at the intermediary interface of second three-way connection.

Further, the upper end of the high-pressure fluid mozzle is by screw thread and high-potting Sealing cap for cup First pressure piping is connected, and the lower end of the high-pressure fluid mozzle is apart from high-potting cup cylinder body bottom Distance be 0.1-5cm.

Further, the medium entrance and media outlet are with the axial line of the high-potting Sealing cap for cup Central Symmetry is set.

By such scheme, the present invention at least has advantages below：The present invention both can by high-potting cup with it is super Critical fluids booster jar fills and is attached with separation and recovery system, realizes that the tank of machining medium is situated between after filling and terminating The separation and recovery of matter；Can also carry out separating disconnections with said system simultaneously, so that by traditional supercritical fluid Fixed dyeing and finishing unit of drawing a design becomes for a kind of test glass of packaged type, realize multiple test glasses respectively or Carry out medium tank simultaneously to fill, then concentrate carries out the purpose of elevated temperature test processing simultaneously.So as to substantially increase The anhydrous dyeing and finishing of high-pressure supercritical fluid is drawn a design processing efficiency, and its medium booster jar fills and separation and recovery system Utilization ratio, effectively adapted to the anhydrous dyeing and finishing actual production of textile to the wilderness demand drawn a design.

What is more important, it is of the invention by medium entrance, outlet and its correspondence stop valve, and wireless pressure Temperature integrated transducer and safety valve the concentrated setting homonymy on high-potting Sealing cap for cup, advantageously reduce The design and difficulty of processing of high-potting cup cylinder, are also more convenient for being carried out concentrating the processing of intensification sample.And Opposite side on high-potting Sealing cap for cup, the high-pressure fluid mozzle being suspended from test glass are arranged on, then can be borrowed The flow velocity and pressure of tank filling medium are helped, the stirring hydrotropy to chemicals such as cup bottom dyestuffs is realized, and in cleaning rank Section also can effectively realize the purging to chemicals such as bottom dyestuffs or suction, improve cleaning efficiency.Meanwhile, examination Testing the wireless pressure temperature integrated transducer set on cup can in real time pass pressure medium, temperature in test glass It is defeated to receive system to external, realize to pressure medium, the record of temperature and monitor in real time in test glass.Experiment The safety valve set on cup can effectively ensure that the use safety of test glass under condition of high voltage.It is existing so as to overcome Fixed supercritical fluid dyeing and finishing Sample devices or its device systems utilization ratio are low, clean cumbersome, Bu Nengman Sufficient actual production to draw a design demand the shortcomings of.

Thus, the technology of the present invention is remarkably improved the sample efficiency of the anhydrous dyeing and finishing production of supercritical fluid, and has Have device systems easy to operate, sample efficiency high, reliability, be easy to cleaning, it is economical and practical, have a wide range of application The advantages of.Generation and discharge to solving textile printing and dyeing industry pollutant from source, realize textile printing and dyeing row The ecology of industry, greenization clean manufacturing, with boundless application prospect and important practical significance.

Described above is only the general introduction of technical solution of the present invention, in order to better understand technology of the invention Means, and being practiced according to the content of specification, with presently preferred embodiments of the present invention and coordinate attached below Figure is described in detail as after.

Brief description of the drawings

Fig. 1 is the structural representation of the anhydrous dyeing and finishing test glass of supercritical fluid of movable type in the embodiment of the present invention one Figure；

Fig. 2 is the structural representation of the anhydrous dyeing and finishing test glass of supercritical fluid of movable type in the embodiment of the present invention two Figure；

Fig. 3 is the structural representation of the anhydrous dyeing and finishing test glass of supercritical fluid of movable type in the embodiment of the present invention three Figure；

Fig. 4 is the structural representation of the anhydrous dyeing and finishing test glass of supercritical fluid of movable type in the embodiment of the present invention four Figure；

Wherein：The high-pressure stop valves of 1- first；2- wireless pressure temperature integrated transducers；3- safety valves；4- is high Pressure experiment Sealing cap for cup；The high-pressure stop valves of 5- second；6- high-pottings cup cylinder；7- high-pressure fluid mozzles； The pressure pipings of 8- first；The pressure pipings of 9- second；10- medium entrances；11- media outlets；12- four-way connections； The three-way connections of 13- first；The three-way connections of 14- second.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiment of the invention is described in further detail.With Lower embodiment is used to illustrate the present invention, but is not limited to the scope of the present invention.

Embodiment one：

As shown in figure 1, a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid, including high-potting cup Cylinder 6, high-potting Sealing cap for cup 4, high-pressure fluid mozzle 7, the first pressure piping 8, the second high pressure Pipeline 9, the first high-pressure stop valve 1 and the second high-pressure stop valve 5, the inner side of the high-potting cup cylinder Bottom is in recessed circular arc, and the high-potting Sealing cap for cup movement lid is located at the high-potting cup cylinder Upper end rim of a cup at, medium entrance 10 and media outlet 11 are interval with the high-potting Sealing cap for cup；

Mobile high-pressure experiment Sealing cap for cup realizes the high pressure sealing to medium in cup.

One end of first pressure piping is connected at the medium entrance and close positioned at high-potting cup The top of capping, the other end of first pressure piping is connected for external air source or tank charging system, and described the One high-pressure stop valve is arranged on first pressure piping；

First high-pressure stop valve can be realized filling the medium tank of test glass, and with source of the gas or tank charging system point Detachment is opened.

One end of second pressure piping is connected at the media outlet and close positioned at high-potting cup The top of capping, second pressure piping is connected with high-potting cup cylinder, second high-voltage tube The other end in road is connected for external discrete recovery system, and it is high that second high-pressure stop valve is arranged on described second On pressure pipeline；

Second high-pressure stop valve can be realized carrying out the medium in test glass decompression output, and with separation and recovery The separation of system disconnects.

The high-pressure fluid mozzle is connected with first pressure piping and is sealed positioned at high-potting cup The lower section of lid, the high-pressure fluid mozzle is suspended in the high-potting cup cylinder vertically；

Also include wireless pressure temperature integrated transducer 2 and safety valve 3, the wireless pressure temperature integration Sensor and safety valve are installed on second pressure piping, and four are provided with second pressure piping Pass joint 12, the four-way connection is located between the media outlet and second high-pressure stop valve, described Wireless pressure temperature integrated transducer and safety valve are separately mounted to two relative interfaces of the four-way connection Place.

Wireless pressure temperature integrated transducer can realize the remote transmission to medium air pressure in test glass, safety Valve is then capable of achieving to carry out emergency decompression when pressure exceedes safe pressure in cup.

The upper end of the high-pressure fluid mozzle is by the first high-voltage tube on screw thread and high-potting Sealing cap for cup Road is connected, and the lower end of the high-pressure fluid mozzle is apart from the distance of high-potting cup cylinder body bottom 0.1-5cm。

The medium entrance and media outlet are symmetrically set centered on the axial line of the high-potting Sealing cap for cup Put.

Test glass is being carried out to realize the stirring hydrotropy to chemicals such as cup bottom dyestuffs when medium tank is filled, in examination The purging that glass wash phase also can effectively be realized to chemicals such as bottom dyestuffs is tested, cleaning efficiency is improved.

The installation site of certain wireless pressure temperature integrated transducer and safety valve is not limited to embodiment one Described in, other positions can be also arranged on, following examples give wireless pressure temperature integrated transducer With other installation sites of safety valve.

Embodiment two：

As shown in Fig. 2 the wireless pressure temperature integrated transducer and safety valve are installed in described first On pressure piping, four-way connection 12 is installed on first pressure piping, the four-way connection is located at described Between medium entrance and first high-pressure stop valve, the wireless pressure temperature integrated transducer and safety Valve is separately mounted to two relative interfaces of the four-way connection.

Embodiment three：

As shown in figure 3, the wireless pressure temperature integrated transducer is arranged on first pressure piping, The safety valve is arranged on second pressure piping, and the first threeway is provided with first pressure piping Joint 13, first three-way connection is located between the medium entrance and first high-pressure stop valve, institute Wireless pressure temperature integrated transducer is stated at the intermediary interface of first three-way connection, described the Second three-way connection 14 is installed, second three-way connection is located at institute's media outlet and institute on two pressure pipings State between the second high-pressure stop valve, the safety valve is arranged at the intermediary interface of second three-way connection.

Example IV：

As shown in figure 4, the wireless pressure temperature integrated transducer is arranged on second pressure piping, The safety valve is arranged on first pressure piping, and the first threeway is provided with first pressure piping Joint 13, first three-way connection is located between the medium entrance and first high-pressure stop valve, institute Safety valve is stated at the intermediary interface of first three-way connection, is provided with second pressure piping Second three-way connection 14, second three-way connection be located at institute's media outlet and second high-pressure stop valve it Between, the wireless pressure temperature integrated transducer is arranged at the intermediary interface of second three-way connection.

When a kind of anhydrous dyeing and finishing test glass of portable supercritical fluid of the invention works, need to carry out first The quantitative textile fabrics of the anhydrous dyeing and finishing sample pretreating of supercritical fluid and material is quantitatively contaminated, be placed in high-potting cup In cylinder 6.High-potting cup cylinder is sealed with high-potting Sealing cap for cup 4, and phase is carried out to miscellaneous part Should connect or assemble.The second high-pressure stop valve 5 is then shut off, first for being connected with the first high-pressure stop valve 1 Pressure piping is connected with machining medium source of the gas or medium tank charging system, and opens the 1 pair of examination of the first high-pressure stop valve Test glass system and carry out quantitative medium tank and fill.Tank closes the first high-pressure stop valve 1 after the completion of filling, and by test glass system System is separated with tank charging system.Aforesaid operations are repeated, the campaign cup of the treatment that need to draw a design is carried out into medium Tank fills.Then the ready test glass drawn a design of waiting to heat up is concentrated in being placed in heating system or other liter of warm bath, And carry out concentration according to predetermined heating schedule and proofing condition and draw a design treatment.

Draw a design after end, each test glass separately or concurrently can be passed through into the outboard end of the second high-pressure stop valve 5 the Two pressure pipings access special separation and recovery system, and dyeing medium is separated and recovered.Meanwhile, according to Actually draw a design demand, the first pressure piping and processing that test glass can also be connected by the first high-pressure stop valve 1 Medium source of the gas or medium tank charging system are connected, to utilize clean fluid medium and cup inner high voltage fluid flow guiding pipe 7 To the loose colour on product or other residual dye materials of being drawn a design in test glass, and the dye material of residual is blown in cup Sweep, clean.The medium of cleaning and residual dye material by media outlet 11 on high-potting Sealing cap for cup 4 again Processed through above-mentioned separation and recovery system.Additionally, the first high-pressure stop valve 1 can also be connected if necessary First pressure piping is connected with special separation and recovery system, by the second of the outboard end of the second high-pressure stop valve 5 Pressure piping is connected with machining medium source of the gas or medium tank charging system, so that using cup inner high voltage fluid flow guiding pipe 7 With clean fluid medium to the loose colour on product or other residual dye materials of being drawn a design in test glass, and residual in cup Dye material aspirated, cleaned, there is provided the cleaning efficiency of some samples.

Under normal circumstances, after separating and recovering or/and cleaning and terminate, make to be set on each test glass first is first high Pressure cutoff valve 1 is closed, then using the gas pump of separation and recovery system configuration in each test glass Medium fully reclaim and be depressured.When wireless pressure temperature integrated transducer 2 display pressure be equal to or During less than atmospheric pressure, the gas pump of separation and recovery system is stopped.Then it is special by what is be connected with test glass Machining medium source of the gas or medium tank charging system, and separation and recovery system are each turned off separating.Finally open high Pressure experiment Sealing cap for cup 4, takes out sample of drawing a design, and completes the experiment of drawing a design of anhydrous dyeing and finishing.Repeat aforesaid operations, The sample of the anhydrous dyeing and finishing of supercritical fluid that can continue to realize next round is drawn a design.

The above is only the preferred embodiment of the present invention, is not intended to limit the invention, it is noted that For those skilled in the art, on the premise of the technology of the present invention principle is not departed from, also Some improvement and modification can be made, these are improved and modification also should be regarded as protection scope of the present invention.

Claims (7)

1. A kind of 1. portable anhydrous dyeing and finishing test glass of supercritical fluid, including high-potting cup cylinder (6), High-potting Sealing cap for cup (4), high-pressure fluid mozzle (7), the first pressure piping (8), the second high pressure Pipeline (9), the first high-pressure stop valve (1) and the second high-pressure stop valve (5), it is characterised in that：

   The inside bottom of the high-potting cup cylinder is in recessed circular arc, the high-potting Sealing cap for cup Mobile lid is located at the upper end rim of a cup of the high-potting cup cylinder, is spaced on the high-potting Sealing cap for cup It is provided with medium entrance (10) and media outlet (11)；

   One end of first pressure piping is connected at the medium entrance and close positioned at high-potting cup The top of capping, the other end of first pressure piping is connected for external air source or tank charging system, and described the One high-pressure stop valve is arranged on first pressure piping；

   One end of second pressure piping is connected at the media outlet and close positioned at high-potting cup The top of capping, second pressure piping is connected with high-potting cup cylinder, second high-voltage tube The other end in road is connected for external discrete recovery system, and it is high that second high-pressure stop valve is arranged on described second On pressure pipeline；

   The high-pressure fluid mozzle is connected with first pressure piping and is sealed positioned at high-potting cup The lower section of lid, the high-pressure fluid mozzle is suspended in the high-potting cup cylinder vertically；

   Also include wireless pressure temperature integrated transducer (2) and safety valve (3), the wireless pressure temperature Integrated transducer is arranged on first pressure piping or the second pressure piping, and the safety valve is arranged on On first pressure piping or the second pressure piping.
2. 2. a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid according to claim 1, it is special Levy and be：The wireless pressure temperature integrated transducer and safety valve are installed in second pressure piping On, four-way connection (12) is installed on second pressure piping, the four-way connection goes out positioned at the medium Between mouth and second high-pressure stop valve, the wireless pressure temperature integrated transducer and safety valve are distinguished Installed in two relative interfaces of the four-way connection.
3. 3. a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid according to claim 1, it is special Levy and be：The wireless pressure temperature integrated transducer and safety valve are installed in first pressure piping On, four-way connection (12) is installed on first pressure piping, the four-way connection enters positioned at the medium Between mouth and first high-pressure stop valve, the wireless pressure temperature integrated transducer and safety valve are distinguished Installed in two relative interfaces of the four-way connection.
4. 4. a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid according to claim 1, it is special Levy and be：The wireless pressure temperature integrated transducer is arranged on first pressure piping, the peace Full valve is arranged on second pressure piping, and the first three-way connection is provided with first pressure piping (13), first three-way connection is located between the medium entrance and first high-pressure stop valve, described Wireless pressure temperature integrated transducer is arranged at the intermediary interface of first three-way connection, and described second Second three-way connection (14) is installed, second three-way connection is located at institute's media outlet and institute on pressure piping State between the second high-pressure stop valve, the safety valve is arranged at the intermediary interface of second three-way connection.
5. 5. a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid according to claim 1, it is special Levy and be：The wireless pressure temperature integrated transducer is arranged on second pressure piping, the peace Full valve is arranged on first pressure piping, and the first three-way connection is provided with first pressure piping (13), first three-way connection is located between the medium entrance and first high-pressure stop valve, described Safety valve is arranged at the intermediary interface of first three-way connection, and the is provided with second pressure piping Two three-way connections (14), second three-way connection be located at institute's media outlet and second high-pressure stop valve it Between, the wireless pressure temperature integrated transducer is arranged at the intermediary interface of second three-way connection.
6. 6. a kind of portable anhydrous dyeing and finishing of supercritical fluid according to any one in claim 1-5 Test glass, it is characterised in that：The upper end of the high-pressure fluid mozzle is by screw thread and high-potting cup sealing The the first pressure piping connection for covering, the lower end of the high-pressure fluid mozzle is apart from high-potting cup cylinder The distance of body bottom is 0.1-5cm.
7. 7. a kind of portable anhydrous dyeing and finishing test glass of supercritical fluid according to claim 6, it is special Levy and be：The medium entrance and media outlet are right centered on the axial line of the high-potting Sealing cap for cup Claim to set.