DE3546556C2 - - Google Patents

Description

With a blood pressure measurement according to Riva-Rocci and Korotkoff must be in a cuff by means of a compressed air generator the excess pressure generated can be discharged in fine doses, thus the first appearance of the pulsation sounds and you subsequent disappearance can be perceived acoustically and the relevant pressure values in the cuff as systolic blood pressure and as diastrolic blood pressure can be captured. There are different types of drain valves.

In one of these types there is an external one on a valve housing Valve set in the form of the outer surface of a hollow Truncated cone present with a valve body in shape of a matching cone interacts. The valve body is part of a thumbscrew attached to the valve body is screwed into an internal thread with the valve seat flees. With the valve body are usually still a compressed air generator, a pressure measuring device and a hose connector for a connecting hose to the measuring sleeve connected. On this valve housing in the further The drain valve is so in the narrower sense of the word arranged that the thumbscrew protrudes sideways when the valve housing for actuating the compressed air generator and to read the pressure measurement value with one hand. This results in an ergonomically very unfavorable How the thumbscrew operates, which makes it difficult meter the pressure relief carefully. In addition, that between the tapered valve body and the hollow tapered Valve seat in the closed position of the valve not one due to the conical shape of the two sealing surfaces inconsiderable friction that acts in conjunction with a considerable opening moment due to the higher coefficient of friction of the rest on the thumbscrew required to the valve body to release from the valve seat. Because this breakaway moment suddenly  to the much lower value of thread friction drops, the thumbscrew is removed from the fingers of the Operating hand usually turned considerably further than it is for the sensitive relief of the excess pressure would be required. The knurled screw must therefore be turned back and possibly by further turning the knurled screw back and forth the correct measure for the pressure relief is set will. These processes also complicate the sensitive Relieve the overpressure, especially since it is temporarily full Require operator attention and thereby the first appearance of the pulsation noises go unnoticed can and then the determination of systolic blood pressure becomes inaccurate or unusable. If the operator Having noticed this fact retrospectively, she must take the blood pressure measurement cancel and it may only wait after repeat for several minutes. That is for both Operator as well as for the examiner very much annoying.

In another type of drain valve (DE-OS 21 18 295) is a Valve set facing inwards on the valve housing with a valve body guided inside the valve housing cooperates in the form of a very slim cone. He is from a relatively weak compression spring in the Valve seat pushed in. It is from the outside by means of a rocker or toggle button operated on the valve housing is pivotally mounted. Due to the arrangement of the valve body on the inside of the valve body, d. H. on the Overpressure side of the valve set, it is not very necessary strong closing spring to in the closed position of the valve to achieve a good sealing effect. Therefore suffice relatively low axial forces around the valve plug lift off the valve seat. This is facilitated by the fact that with the rocker switch through the different lever arms once to the valve seat and once to the support surface of the finger or thumb actuating them a force translation and accordingly gives a reduction.  

As a result, a very sensitive lowering of the Overpressure possible in the printing system. This drain valve however, requires a whole host of items, each have to be made for themselves and either individually or must be assembled in groups.

The invention specified in claim 1 is the object based on a drain valve for blood pressure monitors too create that with good usability from just a few Items are made up and are relatively lightweight and easy to install.

This drain valve only includes the hollow elastomer body and the rigid hollow body, which is simply inserted into one another and then together between two Abutments are used, one of which is on the valve housing is stationary and the other is movable is led. A separate closing spring is not necessary because the elastomer body due to its own elasticity the required restoring force in the closing direction yourself. For the operation of this valve is on the movable abutment on the facing him End of the elastomer body exerted a force and the Elastomer body deformed elastically, in general compressed in its longitudinal direction. As a result, the Elastomer body at the free end of the cylindrical hollow body more or less far and lets through air gap from the pressure system or escape less quickly.

By designing the drain valve according to claim 2 the parts mentioned can be relatively simple and Manufacture cheaply and assemble easily and easily. By a further development of the drain valve according to claim 3 Production of the hollow body and an abutment and their assembly further simplified.  

By designing the drain valve according to claim 4 or 5 is on the one hand a very good sealing effect of the Drain valve reached in its closed position and on the other hand allows a sensitive ventilation. By a additional embodiment of the drain valve according to claim 6 the elastomer body becomes radial at the sealing point additionally stretched elastically so that it is still good even then rests sealingly on the extension if one over time certain setting effect in the material of the elastomer body should occur.

In one embodiment of the drain valve according to claim 7 lies the relevant length section of the elastomer body due to an additional elastic stretch with increased Sealing effect on the corresponding length section of the extension so that any secondary outlet for the compressed air is switched off in the printing system and the elastic Deformation of the elastomer body for the pressure relief itself concentrated the actual valve area.

With a configuration of the drain valve according to claim 8 becomes an elastomer body with a long service life and a longer life Operability created.

With a configuration of the drain valve according to claim 9 the ease of use of the drain valve as such through the power transmission and reduction of the rocker button still improved and in addition the ventilation after completion the actual measuring process easier. The same goes for in a configuration of the drain valve according to claim 10.

An embodiment of the invention is explained with reference to FIGS. 1 to 4. Show it

Fig. 1 is a partially sectioned side view of the valve housing with arranged thereon bellows to inflate a pressure cuff of a blood pressure measuring apparatus,

Fig. 2 shows the detail II in FIG. 1 on an enlarged scale,

Fig. 3 is an end view of the housing according to the arrow III in Fig. 1 and

Fig. 4 shows a modified detail of FIG. 2.

Referring to FIG. 1, a pressure cuff 1, shown only schematically can inflate by means of a rubber ball pump 2 more or less strong pressure. The rubber ball pump 2 is connected to the pressure cuff 1 via a pressure line 3 and a valve arrangement 4 arranged between the pressure line 3 and the rubber ball pump 2 , which allows air to be controllably released from the pressure cuff 1 .

The valve arrangement 4 has a housing 5 with a longitudinal bore 6 arranged therein, which extends through a connection piece 7 carrying the rubber ball pump 2 to a connection connection 8 for the tubular pressure line 3 . In the connection piece 7 there is also a non-illustrated check valve which only allows air to pass from the rubber ball pump 2 in the direction of the pressure line 3 , but blocks it in the opposite direction. This check valve consists, for example, of a sleeve-like body made of elastomer material, which is open at its end facing the rubber ball pump 2 and closed at the other end and has slots on its circumferential wall, which open with sufficient overpressure in the rubber ball pump 2 relative to the pressure line 3 , close in the opposite direction if the pressure drops.

A transverse bore 9 branches off from the longitudinal bore 6 near the connection piece 7 , which in turn opens into a bore 10 which leads outwards and is arranged slightly obliquely to the longitudinal bore 6 . The bore 10 has near the transverse bore 9 a portion 10 'with a narrow diameter, which is followed by the formation of a step 11 of the longer portion 10 ''leading to the outside with a larger diameter.

Arranged in the bore 10 are the elements of a drain valve 12 which are explained below and which are actuated by means of a rocker arm-like button 13 . The key 13 is pivotally mounted on lateral pins 14 of the housing 5 and can be pressed down into a limit position against the housing 5 by a stop 15 on the housing side. In this end position, in which the drain valve 12 is fully open, overlap side parts of the button 13 latch-like lateral locking projections 16 on the housing 5 , so that the button 13 may remain in the specified end position and the drain valve 12 can be kept open continuously. There is thus the possibility of completely venting the pressure cuff 1 or applying it in the completely vented state, as is desirable for a high measuring accuracy of a blood pressure measuring device.

In section 10 '' of the bore 10 , a tubular elastomer body 17 is arranged, which has a section 17 'with a larger outer diameter and a section 17 ''with a smaller outer diameter and an intermediate transition region 17 ''' with a funnel-shaped outer contour. Within the elastomeric body 17, a channel 18 having 'a relatively large circular cross-section and in the area of the portion 17' 'has a relatively small circular cross-section in the region of the portion 17 extends, which portions form an annular step 19 in the portion 17' '' merge. The cross sections of the channel 18 are preferably dimensioned such that the wall thickness of the elastomer body in section 17 'is slightly less than in section 17 ''.

The outer diameter of the section 17 'is slightly larger than the diameter of the bore 10 , while the outer diameter of the section 17 ''is less than the bore diameter. Accordingly, the outer wall of the elastomer body 17 is stretched in the region of section 17 'elastically sealing against the wall of the bore 10 , while an annular space remains between the wall of the bore 10 and the section 17 ''.

As shown, the elastomer body 17 is inserted into the bore 10 such that the free end face of the section 17 'bears against the step 11 of the bore 10 .

Furthermore, a piston-like member disposed in the bore 10 20 displaceable, which 'has an dimensioned to slide in the bore 10 thicker portion 20' and an adjacent thinner portion 20 'which is slightly protrudes from the hole 10 to the outside. On from the thinner area 20 '' opposite side of the thicker portion 20 'is of the elastomer body arranged on the piston-like part 20 in the section 17' '17 in protruding mandrel or extension 21, whose axial length is shorter the bit than the axial length Section 17 '' and whose outer diameter slightly exceeds the dimension of the inner diameter of section 17 '' of the elastomer body 17 , such that the section 17 '' of the elastomer body 17 encloses the extension 21 with a corresponding elastic tension.

Near the spherically shaped free end of the extension 21 , an annular groove 22 is arranged on the same, so that a corresponding annular space between the walls of the annular groove 22 and the inner wall of the portion 17 '' of the elastomer body 17 is formed. This annular space is connected via a radial bore 23 in the region of the annular groove 22 with an axial channel 24 , which is arranged within the piston-like part 20 and is open to the outside at the free end of the area 20 '' of the piston-like part 20 , while the other end of the axial channel 24 is closed in the region of the crowned end of the extension 21 . To prevent the piston-like part 20 from being accidentally pulled out of the bore 10 , an annular stop 25 is arranged in the same, which interacts with the thicker region 20 'of the piston-like part as a counter-stop.

The drain valve 12 formed by the elastomer body 17 and the piston-like part 20 functions in the following manner:

If the button 13 is depressed against the housing 5 , the piston-like part 20 is increasingly pushed into the bore 10 . The elastomer part 17 facing end of the thicker portion 20 'of the piston-like part, on which the free end of section 17 ''of the elastomer body acts as a movable abutment of the elastomer body 17 , while the step 11 in the bore 10 serves as a fixed abutment opposite the facing end face of section 17 'of the elastomer body 17 . According to the aforementioned displacement of the piston-like part 20 , the elastomer body 17 is increasingly compressed between the abutments mentioned, with the result that the free end or the annular groove 22 of the extension 21 of the piston-like part 20 increasingly in the direction of the transition region 17th '''Of the elastomer body or in the direction of the ring step 19 moves. At the same time, the elastomer body 17 seeks to bulge in the transition area 17 '''and in the adjoining area of the section 17 '', ie the inner wall of the elastomer body 17 lifts more or less from the free end after a certain adjustment path of the piston-like part 20 of the extension 21 , so that a permeable connection between the axial channel 24 and the longitudinal bore 6 of the housing via the transverse bore 9 , the section 10 'of the bore 10 and the channel 18 in the elastomer body 17 is given. Depending on the adjustment path of the piston-like part 20 , this connection path is throttled more or less because the bulge of the elastomer body 17 is more or less pronounced in accordance with the adjustment path mentioned.

When the rocker or rocker button 13 is depressed in its locked position, the valve 12 is in an unthrottled open position, which on the one hand leads to quick ventilation of the pressure cuff 1 and on the other hand ensures an undisturbed discharge of the residual air from the pressure cuff. This is particularly important when putting on the pressure cuff 1 again , because for a high measuring accuracy in blood pressure measurement it is essential that the pressure cuff 1 , which is as completely vented as possible, is folded over as closely as possible.

FIG. 4 shows a modified embodiment of the mandrel 21st Here the free end of the mandrel 21 adjoining the annular groove 22 is shaped like a truncated cone.

In addition, between the annular groove 22 and the truncated cone - at the thicker end thereof - a cylindrical narrow region is arranged, the diameter of which is preferably slightly larger than the diameter of the section of the mandrel 21 adjoining the other side of the annular groove 22 . The annular groove 22 has an approximately semicircular profile. Finally, the axial channel 24 is widened in the vicinity of the annular groove 22 , so that it offers a particularly low flow resistance to the air flowing through.

Claims (10)

1. Drain valve for blood pressure monitors characterized by the features:

• - There is a hollow elastomer body ( 17 ), the interior ( 18 ) of which is connected to the compressed air system of the blood pressure monitor,
• - The elastomer body ( 17 ) is arranged between two abutments ( 11, 20 ' ) which are displaceable relative to one another under elastic compression or expansion of the elastomer body ( 17 ),
• - In the interior of the elastomer body ( 17 ), a relatively rigid hollow body ( 21 ) is arranged, on which the elastomer body ( 17 ) lies at least in some areas
• - The interior ( 24 ) of the hollow body ( 21 ) is connected at one end to the ambient air,
• - The other end of the hollow body ( 21 ), which faces the compressed air system of the blood pressure monitor, is closed in the axial direction,
• - In the vicinity of the other end, the hollow body ( 21 ) has a radial opening ( 23 ),
• - In the longitudinal section with the radial opening ( 23 ), the hollow body ( 21 ) has a circumferential groove ( 22 ) on its outside,
• - The outer diameter of the hollow body ( 21 ) and the inside width of the elastomer body ( 17 ) are so matched to one another that the elastomer body ( 17 ) in the stretched or un-compressed state at least in that between the circumferential groove ( 22 ) and the subsequent Free end of the hollow body ( 21 ) located length section lies sealingly on the outside of the hollow body ( 21 ) and that when the abutment ( 11, 20 ' ) is displaced towards the unstretched or compressed state of the elastomer body ( 17 ), the elastomer Body ( 17 ) at least from the length section between the circumferential groove ( 22 ) and the free end of the hollow body ( 21 ) can be increasingly lifted.

2. Drain valve according to claim 1, characterized by the features:

• - The elastomer body ( 17 ) is designed as a hollow cylinder,
• - The elastomer body ( 17 ) is arranged in a cylindrical recess ( 10 ) of the valve housing ( 5 ), one end of which is connected to the compressed air system of the blood pressure measuring device and the other end of which is connected to the ambient air and whose inside diameter is larger than the outside diameter of the Elastomer body ( 17 ),
• - The one abutment ( 11 ) is fixed to the valve housing ( 5 ),
• - The other abutment ( 20 ) is piston-like and slidably guided in the cylindrical recess ( 10 ) of the valve housing ( 5 ),
• - The hollow body ( 21 ) is coupled to the displaceable abutment ( 20 ) in the longitudinal direction.

3. Drain valve according to claim 2, characterized by the feature:

• - The hollow body is designed as a spike-like extension ( 21 ) of the displaceable abutment ( 20 ).

4. Drain valve according to claim 2 or claim 3, characterized by the feature:

• - The longitudinal section of the extension ( 21 ) between the circumferential groove ( 22 ) and the free end is spherical or crowned.

5. Drain valve according to one of claims 2 to 4, characterized by the feature:

• - The end portion of the extension ( 21 ) is frustoconical.

6. Drain valve according to one of claims 2 to 5, characterized by the feature:

• - The longitudinal section of the extension ( 21 ) between the circumferential groove ( 22 ) and the free end has at least in the area adjoining the circumferential groove ( 22 ) an outer diameter which is slightly larger than the area of the extension located on the other side of the circumferential groove ( 21 ).

7. Drain valve according to one of claims 2 to 6, characterized by the feature:

• - The extension ( 21 ) in the longitudinal section between the circumferential groove ( 22 ) and the displaceable abutment ( 20 ) has an outer diameter which is greater than the inside width of the cooperating longitudinal section ( 17, 2 ' ) of the elastomer body ( 17 ) .

8. Drain valve according to one of claims 2 to 7, characterized by the feature:

• - The elastomer body ( 17 ) is made of silicone material, preferably of silicone rubber.

9. Drain valve according to one of claims 2 to 8, characterized by the features:

• - The displaceable abutment ( 20 ) can be actuated by means of a toggle button ( 13 ),
• - The toggle button ( 13 ) can be locked in the end position corresponding to the compressed state of the elastomer body ( 17 ).

10. Drain valve according to one of claims 2 to 9, characterized by the feature:

• - The drain valve ( 10 ) takes its unthrottled open position in a lockable end position of the movable abutment ( 20 ).