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Seat valve

a seat valve and actuator technology, applied in the field of seat valves, can solve the problems of wasting requiring a lot of space, and achieve the effect of reducing the space requirement of the diaphragm actuator

Inactive Publication Date: 2016-05-12
BURKERT WERKE
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

The invention is a way to make a diaphragm actuator that requires less space than traditional actuators. It works by using multiple layers of a special polymer that can be dampened in a frame. This creates a strong actuator that generates a lot of force, but without being too tall. The method also allows for a highly efficient production process in a small space.

Problems solved by technology

In stacked diaphragm actuators of this type it has proved to be disadvantageous that they require a lot of space since the individual diaphragm actuators each lie on top of one another via their frame parts.
Much space thereby is wasted.

Method used

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  • Seat valve
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Examples

Experimental program
Comparison scheme
Effect test

second embodiment

[0146]FIGS. 3a to 3c also show an overview of the diaphragm actuator 10.

[0147]The second embodiment of the diaphragm actuator 10 differs from the first embodiment in that the frame parts 12, 14, the diaphragm layers 16 and the connecting parts 28, 30 are substantially rectangular (see FIG. 3a). Only the corners are rounded.

[0148]Otherwise the structure and mode of operation of the diaphragm actuator 10 are the same, The advantage of the second embodiment is that a plurality of actuators can be disposed closely next to one another without space going to waste between them.

[0149]In FIGS. 3d to 3f the diaphragm actuator 10 of FIG. 3 is shown in a plan view (FIG. 3d) and two transverse cross-sectional views (FIGS. 3e and 3f) in different planes in order to clarify the formation of the two electrodes 20, 22 in accordance with the second embodiment.

[0150]FIGS. 3d to 3f are to be understood analogously to FIGS. 1b to 1d and so the expansion of the respective electrode 20, 22 is clear in pa...

third embodiment

[0154]As shown by the overview of FIG. 4, activation of the diaphragm actuator 10 in accordance with the third embodiment causes the individual diaphragm layers 16 to contract such that the diameter of the openings 32 is reduced.

[0155]In the illustrated embodiment, the openings 32 can contract so far that they close (see FIG. 4c) as compared with an initial condition (see FIGS. 4a and 4b). In this way, e.g. a flow cross-section can be directly controlled without the movement of the actuator having to be transferred to a valve element.

[0156]FIG. 5 illustrates a fourth embodiment of the diaphragm actuator 10 which substantially corresponds to the third embodiment, wherein the frame parts 12, 14, the diaphragm layers 16 and the openings 32 are not circular but rather substantially rectangular.

[0157]However, the remainder of the structure and the mode of operation of the diaphragm actuator 10 do not differ from the third embodiment; the openings 32 can also in this case be closed (see F...

ninth embodiment

[0165]FIG. 8 shows an overview of the diaphragm actuator 10, wherein the plan view (FIG. 8a) and the lower cross-sectional view (FIG. 8c) now show the electrically excited position of the diaphragm actuator 10.

[0166]In contrast to the previous embodiments, the frame parts 12, 14 of the diaphragm actuator 10 are flexible. For this purpose, the diaphragm actuators 10 and in particular the frame parts 12, 12 can be formed from a DEMES structure.

[0167]As shown by the overview in FIG. 8, the individual diaphragm layers 16 and therefore the stack 17 contract upon application of a voltage.

[0168]In this way the diaphragm actuator 10 and in particular the frame 15 thereof are transferred from an equilibrium condition which is favourable in terms of energy (FIG. 8b) to an excited condition (FIG. 8c).

[0169]In this way in the illustrated embodiment, the height of the diaphragm actuator 10 is reduced as shown in particular by a comparison with FIGS. 8b and 8c.

[0170]The frame parts 12, 14 and th...

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PUM

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Abstract

A diaphragm actuator has a first frame part and a second frame part, between which at least two diaphragm layers are disposed in a stacked manner and formed as electro-active polymer layers. Furthermore, a method for producing a diaphragm actuator is described.

Description

[0001]The invention relates to a diaphragm actuator and a method for producing a diaphragm actuator.BACKGROUND OF THE INVENTION[0002]The term “actuator” as used herein designates a component or an assembly with which electrical energy is converted into mechanical energy, whereby a movement of a part of the actuator is generated which can be transferred to an element to be actuated. An actuator of this type can advantageously be used inter alia in fluid valve technology, e.g. in order to actuate a valve.[0003]A diaphragm actuator is characterised in that it has a diaphragm layer which is used to convert the electrical energy into mechanical energy. For this purpose, the diaphragm layer can typically be formed from an electro-active polymer which e.g. expands or contracts when a voltage is applied. In this way the electrical energy applied by the application of voltage is converted into mechanical energy, which leads to a movement of an output part of the actuator.[0004]Suitable elect...

Claims

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Application Information

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IPC IPC(8): F16K31/00H01L41/193H01L41/338
CPCF16K31/007H01L41/338H01L41/0973H01L41/293H01L41/193F16K1/32F16K7/12F16K31/02F16K7/14Y10T137/5196H10N30/874H10N30/886H10N30/50H10N30/206H10N30/03H10N30/857F16K25/005H10N30/088H10N30/063H10N30/2047
Inventor RODEGHERI, CRICIA DE CARVALHOSCHEIBE, RALFKRIPPNER, PETERSEELECKE, STEFAN
Owner BURKERT WERKE
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