DE102005054802A1 - Water-fast exhaust valve for use in arm and leg prostheses has the seat of the sprue dummy reduced so as to fix it to the PE sleeve and the connector plug - Google Patents

Abstract

A water-fast exhaust valve with a manual opening slide (1) is such that the seat of the sprue dummy is reduced so producing bonding to the PE sleeve (3) and the connector plug (4).

Description

object the present invention is a discharge valve for a human prosthesis, especially for a human upper or lower leg prosthesis. Appropriate Exhaust valves are known in various designs from the prior art. she serve for venting of the prosthetic socket cavity from which when prosthesis is applied Air displaced becomes. Corresponding discharge valves are therefore usually as pressure relief valves designed to be vented at a defined overpressure in the Open cavity and when inserting of the residual limb into the prosthesis stem cavity displaced air let escape. After the air displaced by the stump the prosthesis stem cavity has flowed out, the discharge valve closes again, resulting in a good grip of the prosthesis on the stump due to the resulting negative pressure results.

A generic discharge valve is offered, for example, under the name Icelock ^™ Expulsion Valve Series 500 by Ossur Europe, 5690 AC Son en Breugel, The Netherlands. The Icelock ^TM 500 series are simple discharge valves for a human upper or lower leg prosthesis for bleeding a prosthetic socket cavity. The valves are rotationally symmetrical and have a plastic valve body which is screwed into a vent opening of the prosthesis stem cavity. In the presence of a defined overpressure in the prosthesis shaft cavity, the discharge valve designed as a pressure relief valve opens and thus allows an outflow of air displaced from the inserted leg stump out of the prosthesis shaft cavity. However, the opening pressure of the discharge valve is not adjustable.

To lay down the prosthesis, the prosthesis shaft cavity must be ventilated, otherwise the negative pressure prevailing in the prosthesis shaft cavity fixes the prosthesis on the stump. For this purpose, the Icelock ^TM 500 series discharge valves have an opening device for manual venting of the prosthetic socket cavity, which consists of a push button. In the case of a valve of the series 500 (ie in installation position) inserted in the prosthesis, this push-button is outboard. By simply pressing the push button, the closed pressure relief valve is opened, so that the prosthesis shaft cavity is ventilated and the stump located in the cavity can be pulled out.

A disadvantage of the Icelock ^TM 500 series discharge valves is that, due to their overall height, they generally have to be arranged at the distal end of the shaft edge within a cosmetic drawn over the shaft. In the case of an air-impermeable cosmetic, this can lead to swelling of the cosmetics during the application of the prosthesis. Furthermore, the pressure-operated opening device, here the push button, sensitive to unintentional actuation, which can destabilize the seated on the stump prosthesis. Furthermore, the Series 500 valves have limited suitability for use in the wet room area.

Furthermore, the supplier Otto Bock HealthCare GmbH, 37115 Duderstadt, Germany under the name Harmony ^® offers an active discharge valve system, which is provided for venting a prosthetic socket cavity of a lower leg prosthesis. In this system, an actively controlled valve is used to vent the prosthetic socket cavity along with a pumping device inserted between the prosthetic socket and an artificial foot. Although the "Harmony System" achieves a very good wearing comfort and an optimal function, it is associated with enormous costs and due to the technically demanding execution of a high weight and it is only conditionally suitable for use in the damp area.

task It is therefore an exhaust valve of the present invention for a human Prosthesis, in particular a thigh or lower leg prosthesis, for venting to specify a prosthetic socket cavity, which the aforementioned Overcomes disadvantages.

Is solved this task by a discharge valve with the features of the main claim.

One Exhaust valve according to the invention for one human prosthesis for venting a prosthesis shaft cavity, which is designed as a pressure relief valve is, in this case comprises an opening device for manual ventilation of the prosthetic socket cavity. In contrast to the one from the state the technology known discharge valves is according to the invention, however provided that the opening device the exhaust valve operated by train becomes. For this purpose, in particular an actuating element can be provided on the discharge valve according to the invention which, in the installed position of the discharge valve according to the invention in the prosthesis stem operated by train can be.

Particular advantages arise when the discharge valve according to the invention is intended for installation in the proximal edge of the prosthesis stem cavity. For this purpose, the discharge valve is preferably formed substantially cuboid, wherein the shortest edge of the cuboid (hence the di bridge) has a length of preferably between 2 and 20 mm.

in the Contrary to the known from the prior art discharge valves is the discharge valve according to the invention not for placement directly on the bottom of the prosthesis stem cavity intended. this makes possible it, a vent of the prosthetic socket cavity into the interior of a via the Prosthesis stem to avoid drawn cosmetics. Rather, it can be through suitable embodiment of the discharge valve according to the invention a vent on the proximal prosthesis margin. For this purpose, the discharge valve according to the invention prefers an outflow opening, in the installation position of the discharge valve in the proximal edge of the prosthetic socket cavity to the shaft edge the prosthesis is directed.

Farther There are advantages when provided in the discharge valve from the flow opening in the closed state the exhaust valve at least splash-proof is covered. Such an execution makes use of an exhaust valve according to the invention equipped Prosthesis also possible in damp areas. In particular, this can Sauna visits or the use of public showers made possible become. A corresponding splash-proof design can be realized, for example, by the outflow opening of the discharge valve in the closed state the exhaust valve splashproof from the actuator is covered.

The Exhaust valve according to the invention is preferred for placement in the proximal edge of the prosthesis stem cavity is provided. The derived from the prosthetic socket cavity Air from the bottom of the cavity, thus from the distal end of the prosthesis stem, is preferred over a vent line between the bottom of the prosthetic socket cavity and the discharge valve according to the invention led out in the prosthesis. For this purpose, the ejection valve according to the invention Advantageously, at least one connection for such a vent line on.

to Preparation of a ready-to-use prosthesis is usually in an early one Working step of the prosthesis stem made of a high-strength composite material, like a carbon fiber reinforced Plastic, customized. Here is how - out the state of the art in principle known - instead a working one discharge valve according to the invention a so-called Eingußdummy at that point of the prosthesis stem laminated to the discharge valve according to the invention in the ready-to-use prosthesis is arranged. After curing of the plastic material, the Eingussdummy is removed and an inventive discharge valve with identical dimensions in the remaining cavity in the prosthesis stem introduced. Due to the tight fit of the discharge valve according to the invention in the Eingußdummy Leaving cavity usually forms without further action a sealing seat of the discharge valve according to the invention in the prosthesis stem.

Around the introduction the discharge valve according to the invention to facilitate the cavity left by the pouring dummy, can be provided, the outer surface of the discharge valve at least partially with a friction reducing coating Mistake. In particular, this can be a thin film of a low-friction Plastic on portions of the outer surface of the discharge valve according to the invention glued on. As a result, too high a mechanical load during insertion the exhaust valve in the cavity left in the prosthesis stem by the pouring dummy be prevented.

Further Advantages and features of the discharge valve according to the invention will be apparent from the dependent claims and the embodiment discussed below, which reference closer to the drawing explained becomes. In this show:

1 FIG. 2: a plan view through a section of an exhaust valve according to the invention according to the exemplary embodiment, FIG.

2 a section through a view of a Eingußdummy for mounting the discharge valve according to the invention 1 in the proximal shaft edge of a prosthesis.

1 shows an exemplary to be understood inventive discharge valve, which realizes the advantages of the invention. The exhaust valve 100 includes a valve body 3 , which may be made of, for example, a well machined metal such as aluminum. However, it is also possible to use other metallic materials, provided they are easy to work with and that they are perfect under physiological aspects. The use of suitable hard plastics is possible.

In the valve body 3 extend two parallel piston bores 11 located on a narrow side of the cuboid valve body 3 in two connection holes 10 for vent lines open. These connection holes 10 have a smaller inner diameter than the piston bores 11 ,

Upper side is on the valve body 3 a metallic intermediate plate 2 Screwed (eg aluminum), in the two through holes 12 for metallic push rods 6 (For example, made of stainless steel) are formed, which extends through the through holes 12 through into the piston bores 11 extend into it.

The through holes 12 form guides for the push rods 6 out, so that they are displaced in the axial direction.

On the in the valve body 3 reaching end of the push rod 6 , which is provided with an external thread, is in each case a threaded bushing 4 screwed, which is a sliding bearing of the push rod 6 in the associated piston bore 11 formed.

On the push rod 6 opposite side is on each threaded bush 4 a rubber stopper 5 glued, which is intended to sealing on the valve seat 13 aufzusitzen, which is between piston bore 11 and connection hole 10 forms for the vent line.

In the valve body 3 is a T-shaped valve body bore 14 formed, which to the valve seats 13 adjacent areas of the piston bores 11 with the at the opposite end of the valve body 3 arranged outflow opening 9 in the valve body 3 connects, with this outflow opening 9 also through the on the valve body 3 screwed intermediate plate 2 extends through.

On every pole 6 is between the intermediate plate 2 and the threaded bush 4 one compression spring each 7 arranged, which at the lower end of the push rod 6 arranged rubber stopper 5 with defined force on the corresponding valve seat 13 imprints. This results in a sealing seat of the rubber stopper 5 on the valve seat 13 , Thereby the spring constant and the compression of the compression spring become 7 chosen so that at a defined overpressure at the port 10 the rubber stopper 5 from the valve seat 13 lifts and thus that designed as a pressure relief valve inventive discharge valve opens.

Is the bottom of the prosthesis stem cavity over (for example two) vent lines with the terminals 10 connected, so in the prosthetic socket cavity, for example, when creating the prosthesis resulting overpressure on the vent lines to the discharge valve according to the invention 100 which opens when a preset overpressure is exceeded, whereby the pressure over the discharge opening 9 can escape.

On the upper end of the push rods 6 which is from the valve body 3 and the intermediate plate 2 protrudes, is now also a metallic sliding plate 1 (made of aluminum, for example). These are in the sliding plate 1 two through holes 15 formed, which the upper ends of the push rods 6 record, with the diameter of the through holes 15 and the push rods 6 are adapted to each other so that the push rods 6 in the through holes 15 are displaceable in the axial direction. The through holes 15 in the sliding plate 1 open at the top in stuffing boxes 16 , which threaded bushes 17 take up sliding. The threaded bushes 17 have a slotted internal thread, which on the externally threaded upper ends of the push rods 6 are screwed on.

Will now be the sliding plate 1 tensioned in the direction of the arrow, so lift the spring-loaded valve piston 18 the discharge valve according to the invention 100 which are formed here by the push rods 6 , the threaded bushings 4 as well as the rubber stopper 5 , from each corresponding valve seat 13 so that the discharge valve according to the invention 100 is opened by this.

Would like to wear the carrier with the discharge valve according to the invention 100 equipped prosthesis lay down the prosthesis, so he only needs the sliding plate 1 slightly lift in the direction of the arrow, ie train load, causing the discharge valve 100 opens. The resulting during stripping of the prosthesis in the prosthesis shaft cavity negative pressure can then be compensated by the air flowing through the outflow 9 , the valve body bore 14 and the to the connections 10 connected vent lines in the prosthesis stem flows into the bottom of the prosthesis stem cavity.

The discharge valve according to the invention 100 is in the prosthesis shaft preferably in the proximal end, ie in that end of the prosthesis, which is opposite to the torso of the user and arranged arranged. Because that exhaust valve 100 In the embodiment shown has extremely small dimensions that are in the range of 20 mm wide, 30 mm long and 6 mm thick, the discharge valve can be easily arranged in the thin-walled proximal edge of the prosthesis stem.

In the embodiment shown, the in 1 non-visible underlying side surface of the cuboid discharge valve over the entire surface with a friction-reducing plastic film of small thickness pasted. As a suitable material for this, the plastic material marketed under the name "Shearban" has proven itself.

The discharge valve according to the invention 100 with manual opening slider for arm and leg prosthesis allows by its flat construction the integration in the upper final shaft edge of the prosthesis. This is done by a sprue dummy 200 according to 2 allows, in the preparation of a prosthesis using a discharge valve according to the invention according to the embodiment instead of the discharge valve 100 is formed in the upper shaft edge. This shows the sprue dummy 200 essentially the dimensions of the discharge valve 100 on.

To form the vent line between exhaust valve 100 and bottom of the prosthesis stem cavity can eg PE tubes 21 used in the creation of the prosthesis with molded into the prosthesis socket. To ensure correct positioning of the PE hoses 21 in the ready-to-use prosthesis, the sprue dummy points 200 Bottom threaded holes 19 on, in the grub screws 20 are screwed in. On these grub screws 20 When creating the prosthesis then the PE tubes 21 attached.

Alternatively, the vent lines in the existing of a carbon fiber reinforced plastic prosthesis stem, for example, by lamination of PE wires 24 in the tapped holes 19 the Eingußdummys are used are produced.

After creating the prosthesis stem then the Eingussendummy 200 by means of a in the top-side threaded hole 23 screwed in screw pulled out of the prosthesis stem, with the PE tubes 21 remain in place. The PE wires 24 however, with the sprue dummy 200 pulled out of the prosthesis stem, whereby vent lines remain in the prosthesis stem. These connect the bottom ports 10 in the valve body 3 with the connection plugs 22 , which form an access to the bottom of the prosthesis stem cavity.

After the sprue dummy 200 is pulled out of its cavity in the edge of the proximal end of the prosthesis shaft, an inventive discharge valve 100 introduced according to the embodiment in the cavity. Due to the unilaterally applied friction reducing coating is the discharge valve 100 insertable without great force into the cavity of the Eingußdummys. As the location of the threaded holes 19 in the sprue dummy 200 with the location of the connections 10 in the valve body 3 covers, this automatically results in a correct connection of the vent lines to the connections 10 ,

The vent lines ensure the connection with the laterally inserted in the bottom of the prosthesis stem cavity plugs 22 , As a result, the air ejected when the prosthesis is applied is not diverted into the foam cosmetics but over the edge of the sheep.

By integrating the exhaust valve 100 In addition, the maximum base height of the prosthesis stem is retained in the proximal shaft edge.

The discharge valve according to the invention 100 is by pulling on the sliding plate 1 opened in the direction of the arrow or by the pressure prevailing in the shaft interior when applying the prosthesis. By the train operation is an accidental opening of the discharge valve by pressure from the outside, for example, on the sliding plate 1 safely prevented.

The discharge valve according to the invention 100 is preferably arranged in the proximal shaft edge so that the sliding plate remains accessible for a pulling operation. To improve the handling of the discharge valve while the sliding plate 1 For example, be partially covered with a section of the denture cosmetics.

In its closed state is the discharge opening 9 the exhaust valve 100 according to the present embodiment, safe from the sliding plate 1 covered. The discharge valve according to the embodiment is thus splash-proof and thus suitable for use in damp rooms. The watertightness can by suitable design of the valve, such as the intermediate plate 2 to be improved.

The discharge valve according to the exemplary embodiment is to be understood only as an example, in particular it should not limit the scope of protection to embodiments according to the exemplary embodiment. Of course, also versions with only one or more than two valve piston 18 possible. Also, the outer shape of the exhaust valve 100 be varied within wide limits.

1

sliding plate

2

intermediate plate

3

valve body

4

threaded bushing

5

rubber stopper

6

pushrod

7

compression spring

8th

Senkschraube

9

outflow

10

connection for venting

tung

11

piston bore

12

Through Hole

13

valve seat

14

Valve body bore

15

Through Hole

16

gland

17

slotted threaded bushing

18

plunger

19

threaded hole

20

Set screw

21

PE tube

22

port plugs

23

threaded hole

24

PE-wire

25

opening device

100

discharge valve

200

Eingussdummy

Claims (12)

Discharge valve ( 100 ) for a human prosthesis for venting a prosthesis stem cavity, which is designed as a pressure relief valve, the opening means ( 25 ) for manually ventilating the prosthesis stem cavity, characterized in that the opening means ( 25 ) is operated by train. Discharge valve ( 100 ) according to claim 1, characterized in that the discharge valve ( 100 ) is provided for installation in the proximal edge of the prosthesis stem cavity. Discharge valve ( 100 ) according to claim 2, characterized in that the discharge valve ( 100 ) in its installed position in the proximal edge of the prosthesis stem a directed to the proximal shaft edge outflow opening ( 9 ) having. Discharge valve ( 100 ) according to claim 3, characterized in that the outflow opening ( 9 ) in the closed state of the discharge valve ( 100 ) is covered at least splash-proof. Discharge valve ( 100 ) according to claim 2, characterized in that the opening device ( 25 ) in installation position of the discharge valve ( 100 ) in the proximal edge of the prosthesis shaft an adjacent to the proximal shaft edge actuator ( 1 ) having. Discharge valve ( 100 ) according to claims 4 and 5, characterized in that the outflow opening ( 9 ) in the closed state of the discharge valve ( 100 ) at least splash-proof from the actuator ( 1 ) is covered. Discharge valve ( 100 ) according to claim 2, characterized in that the discharge valve ( 100 ) is cuboid, wherein the shortest edge of the cuboid has a length between 2 and 20 millimeters. Discharge valve ( 100 ) according to claim 2, characterized in that it has a connection ( 10 ) for a vent line extending between the bottom of the prosthetic socket cavity and the proximal shaft edge of the prosthesis. Discharge valve ( 100 ) according to claim 2, characterized in that the surface of the discharge valve ( 100 ) is at least partially provided with a friction-reducing coating. Discharge valve ( 100 ) according to claim 1 or 2, characterized in that the discharge valve ( 100 ) a spring-loaded valve piston ( 18 ), which in the closed state of the discharge valve ( 100 ) sealingly on a valve seat ( 13 ) is seated. Discharge valve ( 100 ) according to claim 10, characterized in that upon actuation of the opening device ( 25 ) the valve piston ( 18 ) from its valve seat ( 13 ) is lifted. Discharge valve ( 100 ) according to claim 10, characterized in that in the closed state of the discharge valve ( 100 ) on the valve seat ( 13 ) seated head of the valve piston ( 18 ) consists at least partially of an elastomeric material.