DE19812436A1 - Functional component e.g. membrane, filter valve, dosing unit or pump - Google Patents

Abstract

Sensitive polymer (2) reacts to ambient magnitudes to set, control or regulate a flow rate. No external energy is required. Preferred features: A membrane controlling flow rate of fluid and/or aerosol, is a sensitive polymer affected by specific ambient magnitudes. Consequently, flow rate is influenced by a volume and/or structural alteration. A filter similarly controlling flow rate includes a similarly sensitive polymer. A valve controls or regulates, using the same effect. The idea is extended to a two-or multichamber valve and a dosing unit for fluids and/or aerosols. This unit includes an (e.g. absorbent) body reacting to ambient magnitudes by delivering or accepting fluids and/or aerosols. A pump and reservoir can be conceived, using this action. Temperature-sensitive polymers are applied in this way, as are pH-sensitive polymers. Ion concentrations could be sensed, alternatively material concentrations, especially organic solvent concentrations. Organic materials, dissolved or otherwise, produce the effect. The polymer is sensitive to pollutant concentrations. The membranes comprise sensitive polymers moderating flow rates by alteration of their diffusion characteristics. The sizes of their perforations or pores change. The membrane may be coated with a sensitive polymer having this effect. The membrane may include sensitive polymer fibers or small particles. Several such membranes may be combined. A filter chamber is filled with a sensitive polymer in bulk volume-, fibrous- or small particle form. The absorbent sensitive polymer has a porous structure. Contraction or expansion of a sensitive polymer casing drives out the fluid and/or aerosol. A fluid and/or aerosol flow is caused by contraction and/or expansion in a reservoir. A similar effect is produced by expansion and/or contraction of a cross section of sensitive polymer through which the fluid and/or aerosol stream can flow. For increased dynamic response of the functional component, the sensitive polymer has a porous structure.

Description

The invention relates to functional elements for the fluid or Aerosol technology, such as membrane, filter, valve, dosing device device, pump.

Functional elements for fluid or aero have long been soltechnik known, which depends on manipulated variables, such as Pressure, temperature, acceleration, level, the flow control of media by instead of a manual actuator gans suitable actuators on the functional element, so for example, a slide or a valve cone ken. According to the state of the art, pressure dosimeters Thermocouples, governors, floats, electronic Measuring devices with connected hydraulic, pneumati or electromagnetic control and regulating apparatus etc.

The structure of the functional elements themselves corresponds to essential well-known constructions, which means that For example, use a screw spindle for a valve dig with a so-called stuffing box, so no substance escapes and for the valve cone Valve seat through machining processes such as grinding or Milling, must be carefully prepared in the valve housing.

For special purposes, namely for the ventilation of a land mine or a corresponding military active body, is also a functional element like an automatically act of the ventilation valve has been described, its passage Opening for a fluid depends on the moisture  content of the fluid contained in the valve housing changes (EP 0 424 749 A1 ). For this purpose, a high compression is in the valve body used natural sponge, which is soaked in water nem condition a spring-loaded rubber washer against the through pressure opening in the valve body, causing the water through let it be throttled. Dilute in dry, warm weather the water flows outwards within a day and that The valve becomes gas permeable again.

A disadvantage of the very specific valve, in addition to that for a valve still requires considerable design effort very long reaction time before opening the valve again and the need to soak the sponge straight up to dive into the water. Also there are no defined through intermediate flow values adjustable. It can also cause interference come by getting between the relatively rigid rubber washer and settle larger particles on the edge of the outlet that the Reduce the sealing effect. The valve also only works in one direction dependent. The suitability is essentially based on rainwater limited. Since the spring is constantly against the rubber plate in the sin ne of keeping the valve open, must when closing the Sponge work against the spring, which is a careful calculation balance of forces required.

The object of the invention is to provide functional elements for a diverse use in fluid and aerosol technology create the relatively robust, fast and responsive are and above all free of auxiliary energy in the sense of an independent The sensor-actuator system can be used, which directly and un After evaluating relevant environmental parameters, the tasks stel len, control or regulation of a flow rate in technical Solve products.

The functional elements should be mechanically simple can be kept, they should be in different sizes be manufactured, corrosion-resistant and insensitive to expected mechanical influences and are sufficient  promise life expectancy.

According to the invention, the object is defined in claim 1 given characteristics solved. Application-specific design are given in claims 2 to 7. Accompany tendency subclaims show advantageous embodiments on.

As a result of the very simple construction of a functional element is the system for a mass, large-scale technical set just as predestined as for applications in miniaturi devices. Any parts prone to failure, such as gum insert, spring body, mechanical filter body, electro mechanical drives, mechanical, pneumatic, hydraulic or electromechanical actuators, control and regulating devices, can be omitted without replacement.

The sensitive elements consist of polymers, their volume Change in the properties of the influencing fluid or is dependent on aerosols without being attacked by it become.

The functional elements are preferably used in the field of membranes, filters, valves, dosing devices and Pumps for fluids and aerosols, at least one polymer body under the influence of certain environmental sizes eats the tasks automatically and completely without auxiliary energy Set, control or regulate the flow rate of a fluid and / or an aerosol.

A membrane according to the invention for controlling or regulating Flow rate consists of at least one sensitive poly mer, that the through when certain environmental variables act flow rate due to a change in volume and / or structure changes to zero after loading. This can be done by ver change the diffusion property caused or by directly or indirectly changing the perforation or bottom  cross sections.

There is a filter to control or regulate the flow rate made of at least one sensitive polymer that acts on exposure certain environmental variables the flow rate through a volu changes in structure and / or structure. A filter can do itself understandably consist of several membranes. He can do that too be constructed that at least one filter chamber with sensiti ven polymers in solid, fiber or small particles shape is filled.

There is a valve for controlling or regulating the flow rate made of at least one sensitive polymer that acts on exposure certain environmental variables the flow rate through a volu changes in structure and / or structure.

A two or multi-chamber valve for controlling or regulating the Flow rate consists of at least one sensitive poly mer, that the through when certain environmental variables act flow rate changes due to a change in volume and / or structure.

A dosing device for controlled delivery and / or intake me of fluids and / or aerosols consists of at least egg body made of a storable, sensitive polymer that when exposed to certain environmental variables, fluids and / or Releases or absorbs aerosols. The fun as a storage element ging, sensitive polymers have, for example porous structure.

A pump for generating regulated fluid and / or aerosol As pump drive, streams has at least one sensitive poly mer, when exposed to certain environmental parameters Volume change the fluid or aerosol from a reservoir drives. By contraction or expansion more jacket-shaped, sen Sitative polymers can for example be fluids and / or aero sole from or into the reservoir located in the jacket be squeezed or sucked in. A fluid and / or  Aerosol flow through expansion and / or contraction of a sensitive polymer in a reservoir or in a through flowable cross section are generated.

To improve the dynamics of the functional element can the sensitive polymers have a porous structure.

Influencing factors for the property changes of the sensitive Polymers are the direct material properties of the Functional elements flowing or flowing through fluids and / or Aerosols themselves, such as temperatures, pH values, ion concentration ions, substance concentrations, concentrations of organic solvents solvents, concentrations of dissolved and / or undissolved organic materials, enzyme concentrations, surfactant concentrations trations, alcohol concentrations or pollutant concentration tions, whereby on auxiliary energy sources and external control, Control and regulation variables can be completely dispensed with. For example, a valve closes at a given pH one liquid and thus interrupts the other Flow.

The invention is intended to be explained in more detail using an exemplary embodiment are explained. Show in the accompanying drawings

Fig. 1 to Fig. 4 gene in different membranes Ausführun,

Fig. 5 and Fig. 6 filter in two models,

Fig. 7 and Fig. 8 valves in two versions and

Fig. 9 The principle of operation of a Dosiereinrich device and

Fig. 10 to 12 conveyors such as pumps.

In Fig. 1, a membrane is greatly enlarged and shown schematically in the sectional view. It consists of a perforated or porous carrier material I, which is coated with a sensitive polymer 2 on the perforation or pore inner walls, which influences the flow rate of a fluid or aerosol by changing the layer thickness and thus the flow-through cross-sections 3 .

According to FIG. 2, the permeability of a membrane changes by means of particles of sensitive polymers 2 introduced into the flow cross-sections 3 within a few seconds when flowing through the particle-changing fluid or aerosol. As in the example according to FIG. 1, the carrier material 1 itself is fluid-neutral.

Instead of small particles, according to FIG. 3, fibers made of sensitive polymers 2 can also be woven into the flow cross sections 3 , which change in diameter when fluid or aerosol is influenced.

In Fig. 4, finally, a membrane is shown, the Ma material directly consists of a sensitive polymer 2 , the perforation or pore size and thus the flow cross-section 3 changed with appropriate influence.

Fig. 5 shows schematically a filter which is constructed from two under different filter membranes 4 , 5 , alternating layers. Be constructed one or both types of filter membranes 4, 5 may have sensitive properties and the nature of the membranes according to Fig. 1 to Fig. 4.

As shown schematically in Fig. 6, a filter, for example an acid or alkali filter, can also be built up so that the space between its labyrinthine ver set plates 6 with fibrous, sensitive filter material 7 or small sensitive particles, for. B. based on Po lyvinyl alcohol / polyacrylic acid networks.

With reference to FIG. 7 and FIG. 8 will be explained the operation of tilen Ven, the more sensitive to base polymers are constructed. A single chamber according to Fig. 7 has on both sides of a tubular valve body 8 is a voltage Einströmöff 9 and an outflow opening 10th In the valve body is a closure body 11 , for example a gel in the form of a bubble, which changes its volume when exposed to fluid and accordingly enlarges or reduces or completely closes the cross-sectional opening of the valve body.

The pH-sensitive two-chamber valve of Fig. 8 has an outer housing 12 and a perforated inner casing 13. In the inner housing 13 there is a sensitive polymer body 14 based on polyvinyl alcohol and polyacrylic acid, which the momentary flow rate between the outer chamber 15 and the inner chamber 16 with subsequent discharge.

The dosing device according to FIG. 9 for Konzentrationsstabili tion of a solvent has the form of a gel bladder 17th It contains a concentration of solvent, which is released defi ned if the concentration in the working medium is too low.

In Fig. 10, the operation is illustrated a temperature-sensitive pump based on polyvinyl methyl ether, or poly-N-Isopropyla crylamid. When the temperature of the sensitive polymer changes as a result of the instantaneous fluid or aerosol temperature, the pump housing 18 contracts and presses the fluid or aerosol out of the reservoir through an outlet 19 . Sucking in a fluid or aerosol into a reservoir can also be realized.

The pump according to Fig. 11 presses a fluid or aerosol with means of a piston 20 which is acted upon by a body 21 made of a Sensitive Polymers in the direction of output 22. For example, these sensitive polymers can react and swell on traces of alcohol in water. The alcohol concentration decreases, so the body 21 shrinks again and pulls the piston 20 back.

Ultimately, in Fig. 12 is exemplified a conveyor line in which the fluid or aerosol is pumped through a conveyor line 24 by wave-like contraction of a sen sititive polymer jacket 23 due to fluid or aerosol action. For example, the functional element based on polyvinyl alcohol can react to traces of water in organic solvents.

The examples shown are in no way exhaustive the design diversity of the invention is open. For example can a dosing device based on a membrane made of poly mer with acid groups, such as polyacids in the dissociated Zu stood, are built, which are sensitive to ionic Is surfactants and on a concentration gradient between a reservoir in a washing machine and e.g. B. the wash drum reacts.

The functional elements according to the invention are for the environment technology, food industry and chemistry just as interesting as for laboratory and medical technology. In particular, there are no ne limits in terms of miniaturization or large devices Technology recognizable.  

Reference list

1

Backing material

2nd

Sensitive polymers

3rd

Flow cross-section

4th

,

5

Filter membrane

6

plate

7

Filter material in particle or fiber form

8th

Valve body

9

Inflow opening

10th

Outflow opening

11

Closure body

12th

Outer housing

13

Inner casing

14

Polymer body

15

Outer chamber

16

Inner chamber

17th

membrane

18th

Pump housing

19th

exit

20th

piston

21

Polymer body

22

exit

23

Polymer jacket

24th

Conveyor line

Claims (28)

1. Functional element for fluid or aerosol technology, such as membrane, filter, valve, dosing device, pump, whereby at least one body made of a sensitive polymer ( 2 ) automatically, without auxiliary energy, performs the tasks of setting, controlling or regulating Flow rate causes. 2. membrane for controlling or regulating the flow rate of a Fluids and / or aerosols, characterized in that they possesses at least one sensitive polymer which acts on exposure certain environmental parameters the flow rate as a result of a Volume and / or structure change affected. 3. Filters to control or regulate the flow rate of a Fluids and / or aerosols, characterized in that it min at least has a sensitive polymer that acts on exposure certain environmental parameters the flow rate through a Volume and / or structure change affected. 4. Valve for controlling or regulating the flow rate of a Fluids and / or aerosols, characterized in that it is min at least has a sensitive polymer that acts on exposure certain environmental parameters the flow rate through a Volume and / or structure change affected. 5. Two- or multi-chamber valve for controlling or regulating the Flow rate of a fluid and / or aerosol, characterized thereby indicates that it has at least one sensitive polymer, the flow when exposed to certain environmental parameters rate is influenced by a change in volume and / or structure flows. 6. Dosing device for regulated delivery and / or intake of fluids and / or aerosols, characterized in that  at least one body from a storable, sensitive Polymer when exposed to certain environmental fluids and / or releases or picks up aerosols. 7. Pump for generating regulated fluid and / or aerosol flows me, characterized in that at least as a pump drive a sensitive polymer is used, which when exposed to certain Ambient sizes due to volume change of the fluid or aerosol drifts from a reservoir. 8. Functional element according to one of claims 1 to 7, characterized characterized in that temperature-sensitive polymers are used become. 9 functional element according to one of claims 1 to 7, characterized characterized in that pH-sensitive polymers are used the. 10. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which be influenced by ion concentrations. 11. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which be influenced by substance concentrations. 12. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which influenced by concentrations of organic solvents become. 13. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which by concentrations of dissolved and / or undissolved organi shear materials are affected. 14. Functional element according to one of claims 1 to 7, there  characterized in that polymers are used which be influenced by enzyme concentrations. 15. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which be influenced by surfactant concentrations. 16. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which be influenced by alcohol concentrations. 17. Functional element according to one of claims 1 to 7, there characterized in that polymers are used which be influenced by pollutant concentrations. 18. Functional element according to claim 1 or claim 2, characterized characterized in that the membranes are made of sensitive polymers consist of the flow rate of a fluid and / or aero sols by changing their diffusion properties. 19. Functional element according to claim 1 or claim 2, characterized characterized in that the membranes are made of perforated or porous sen sensitive polymers exist that ei the flow rate fluid and / or aerosol by changing the perfora Change tion or pore size. 20. Functional element according to claim 1 or claim 2, characterized characterized in that the membranes are made of perforated or porous sen carrier materials exist with a sensitive Po lymer coated, which is the flow rate of a fluid and / or aerosols by changing the flow through the cross Change cuts in the perforations or pores. 21. Functional element according to claim 1 or claim 2, characterized characterized in that the membranes are made of perforated or porous sen carrier materials exist with a sensitive Po Lymeren are involved in fiber and / or small particle form,  through the flow rate of a fluid and / or aerosol Changing the flow-through cross-sections of the perforations or change pores. 22. Functional element according to claim 1 or claim 3, characterized characterized in that the filter consists of several membranes Claim 2, 17-19 exist. 23. Functional element according to claim 1 or claim 3, characterized characterized in that at least one filter chamber with sensiti ven polymers in solid, fiber or small particles shape is filled. 24. Functional element according to claim 1 or claim 6, characterized characterized in that the acting as a storage element, sen sitive polymer has a porous structure. 25. Functional element according to claim 1 or claim 7, characterized characterized in that by contraction or expansion of a jacket-shaped, sensitive polymer fluids and / or aerosols out of or into the reservoir located in the jacket presses or be sucked. 26. Functional element according to claim 1 or claim 7, characterized characterized in that a fluid and / or aerosol flow through Expansion and / or contraction of a sensitive polymer in a reservoir is generated. 27. Functional element according to claim 1 or claim 7, characterized characterized in that a fluid and / or aerosol flow through Expansion and / or contraction of a sensitive polymer flowable cross section is generated. 28. Functional element according to one of the preceding claims, characterized in that to improve the dynamics of the Functional element, the sensitive polymers have a porous structure own.