DE202013105483U1 - Physiological measuring module - Google Patents

Abstract

A physiological measurement module, comprising: a power transmission unit (10); a connecting body (20) attached to one side of the power transmission unit (10), the connecting body (20) having a receiving cavity (21) in its center and a positioning recess (22) on the circumference; and an electrical component (30) which runs through the current transmission unit (10) and the receiving cavity (21) of the connecting body (20) and connects the two parts to one another, so that a physiological measuring module is realized which is not only easy to manufacture, but can also be assembled quickly and stably, preventing a short circuit.

Description

The invention relates to a physiological measuring module, in particular a physiological measuring module serving to detect a physiological signal, according to the preamble of the claim.

The physiological signals such as heartbeats, brain waves, etc. are currently detected by means of a physiological measuring device with a plurality of sensor elements, the sensor elements are either directly and separately attached to different body surfaces or integrated as components in a sensor chest belt or a sensor clothing and a physiological Be carried by a person to be examined so that corresponding current signals, which are caused by a neurological activity (by changing a membrane potential) and via a human organ (such as: heart, brain) to a surrounding tissue or a Body surface spread, be detected. The detected current signals are relayed by electrical cables from the sensor elements to the physiological measuring device, processed there and displayed after data conversion, thereby detecting a health condition (such as a heart rate, brain wave change) at the measured locations.

Although the conventional sensor clothing and the conventional sensor chest belt can be used to detect the health of the person to be examined, but their production is very complicated, wherein a current conductive textile fabric is placed overlapping on a base material of the sensor clothing and the sensor chest belt and zusammengelocht with this , Then, a rubber is placed on the base with a rivet nut attached to the rubber, while a rivet body is sequentially inserted through the current-conducting fabric, the base and the rubber, pressed against the rivet nut, and finally riveted together with the rivet nut. whereby a sensor clothing or a sensor chest belt is only finished production. All components of the above construction are manufactured as a whole in a single operation, so that it is hardly possible to make the sensor clothing or the sensor chest belt as a separate component, the entire construction, once made, can not change what greatly interferes with ease of manufacture and flexibility in commercial use.

The object of the invention is to remedy the above-mentioned disadvantages of the sensor clothing or the sensor chest belt both in production and in use, while still improving their design design.

Furthermore, it is an object of the invention to develop a physiological measuring module that is not only easy to make in a separate operation, but also can be assembled quickly and stably, the physiological measuring module additionally has the ability to prevent a short circuit.

The invention provides a physiological measuring module which is composed of a current transmission unit, a connecting body and an electrical component, wherein the connecting body is provided with an annular positioning recess, so that the physiological measuring module of the present invention by means of two existing buttonholes of the sensor clothing or the Sensor breast belt is attached to the sensor clothing or the sensor chest belt, wherein the annular positioning recesses of the two physiological modules clamp the respective buttonholes, without using any other connection construction on the sensor chest belt or on the sensor clothing. Incidentally, when the physiological modules need to be attached to a different location of the sensor chest belt or the sensor clothing, one only needs to open the buttonholes at a corresponding location and the physiological measurement modules by a simple and quick assembly of its power transmission unit, its connecting body and its electrical component at the appropriate place, so that a physiological measuring module is formed. As a result, it is realized that the physiological measuring modules are manufactured separately from the sensor chest belt or the sensor clothing and quickly attached to them as needed, which greatly facilitates the production, whereby the practical applicability of the physiological measuring modules is increased even more.

In addition, the invention provides a physiological measuring module whose electrical component consists of a rivet nut and a rivet body, both of which can be quickly connected to each other, wherein the rivet nut is attached to a receiving cavity provided with a side of the connecting body, while the rivet body through the Power transmission unit and the receiving cavity of the connector body is inserted and connected to the rivet nut, whereby it is realized that the physiological measuring module is positioned by a quick assembly and electrically connected to an external device, so that the physiological signals are provided, which is the practicality the entire construction further increased.

Furthermore, the invention provides a physiological measuring module in which a water-proofing layer, which can be, for example, a plastic film applied by heat lamination, as a further improvement on one of the two physiological measuring modules used together, on the bottom side of the rivet body of the electrical component, is arranged so that the physiological measuring module on the one hand completely covered to prevent a short circuit between two physiological measuring modules, which increases the safety in use.

The invention has in particular the features specified in claim 1. Advantageous embodiments of the invention are specified in the subclaims.

According to the invention, a physiological measuring module is provided which has the following features:
a power transmission unit;
a connector body attached to one side of the power transmission unit, the connector body having a receiving cavity at its center and a positioning recess peripherally; and
an electrical component that passes through the power transmission unit and the receiving cavity of the connector body and connects the two parts together.

As a result, a physiological measuring module is realized, which is not only easy to make, but also can be composed quickly and stably, with a short circuit is still prevented.

According to the invention, a water protection layer is further provided, which is connected to the power transmission unit.

According to the invention, the electrical component is composed of a rivet nut and a rivet body, wherein the rivet nut is attached to a receiving cavity provided with the side of the connecting body, while the rivet body passes through the power transmission unit and the receiving cavity of the connecting body and is connected to the rivet nut.

According to the invention, the power transmission unit ( 10 ) designed as a current-conducting textile fabric

In the following the invention and its embodiments will be explained in more detail with reference to the drawing. In the drawing shows:

1 a perspective assembly view of an embodiment of a physiological measuring module according to the invention;

2 an exploded perspective view of the embodiment of a physiological measuring module according to the invention;

3 a section through the embodiment of a physiological measuring module according to the invention;

4 a section through the embodiment of a physiological measuring module according to the invention in the use state;

5 a first application example of the physiological measuring module according to the invention in a schematic perspective view; and

6 a second example of application of the physiological measuring module according to the invention in a schematic perspective view.

Based on accompanying drawings, 1 to 3 a physiological measuring module of the present invention is presented, which essentially consists of a power transmission unit 10 , a connecting body 20 and an electrical component 30 exists, wherein the power transmission unit 10 may be a current-conducting textile fabric, while the connecting body 20 on one side of the power transmission unit 10 is attached. The connecting body 20 has at its center a continuous receiving cavity 21 and a positioning recess for positioning on the outer peripheral side 22 on. The electrical component 30 is through the power transmission unit 10 and the receiving cavity 21 of the connecting body 20 passed through, causing the power transmission unit 10 with the connecting body 20 is connected.

The physiological measurement module also includes a water protection layer 40 connected to the power transmission unit 10 is connected, so that the physiological measuring module is better protected from water.

The electrical component 30 is from a rivet nut 301 and a rivet body 302 assembled, with the rivet nut 301 at one with the receiving cavity 21 provided side of the connecting body 20 is attached while the rivet body 302 through the power transmission unit 10 and the receiving cavity 21 of the connecting body 20 passes through and with the rivet nut 301 connected is.

By the above construction, a physiological measuring module of the present invention is realized. With reference to enclosed drawings, 1 to 6 the special feature of the present invention is that the physiological measuring module according to the design of the power transmission unit 10 , the connecting body 20 and the electrical component 30 is composed, wherein the connecting body 20 with an annular positioning recess 22 is provided so that two physiological measurement modules using two existing buttonholes, as in the 5 is shown on a sensor chest belt 50 or as in the 6 shown on a sensor clothing 60 can be attached, wherein the annular positioning recesses 22 the individual connecting body 20 each connected to a buttonhole without any other connection construction on the sensor chest belt 50 or at the sensor clothing 60 is required. In order to increase the tensile strength of the individual buttonholes, one positioning piece each becomes available 51 attached circumferentially around the individual buttonholes, wherein the positioning piece 51 a plastic film that is attached by a heat lamination. By the way, if the physiological modules at another point of the sensor chest belt 50 or the sensor clothing 60 need to be attached, you need only open the buttonholes at a corresponding point and the physiological measurement modules by a simple and quick assembly of its power transmission unit 10 , his connecting body 20 and its electrical component 30 at the appropriate place so that the physiological measuring modules are formed, thereby realizing that the physiological measuring modules separate from the sensor chest belt 50 or from the sensor clothing 60 and quickly attached to them as needed, which greatly facilitates manufacturing, thereby further increasing the practicality of the physiological measurement modules.

The electrical component 30 is from a rivet nut 301 and a rivet body 302 assembled, with the rivet nut 301 at one with the receiving cavity 21 provided side of the connecting body 20 is attached while the rivet body 302 through the power transmission unit 10 and the receiving cavity 21 of the connecting body 20 passes through and with the rivet nut 301 interconnected, whereby the physiological measuring modules are quickly assembled and electrically connected to an external device, so that the physiological signals are provided, which further increases the practicality of the entire construction.

In addition, when two physiological measuring modules are used in the present invention, a water-proofing layer may be used 70 as a further enhancement to one of the two physiological measurement modules, the water protection layer 70 bottom side of the rivet body 302 of the electrical component 30 the said physiological measuring module is arranged. The water protection layer 70 can be a plastic film that is attached by a heat lamination, so that one of the two physiological measuring modules on the one hand completely covered to prevent a short circuit between two physiological measuring modules, which further increases the safety in use.

In summary, the physiological measurement module of the present invention can be made separately, not only making the physiological measurement module easy to make but also quick and stable to assemble and preventing the short circuit, not only the practicality of the physiological measurement module but also the flexibility and increased safety in its use.

The foregoing description illustrates the embodiments of the invention and is not intended to limit the claims. All equivalent changes and modifications that may be made by those skilled in the art in accordance with the description and drawings of the invention are within the scope of the present invention.

LIST OF REFERENCE NUMBERS

10

 Current transfer unit

20

 connecting body

21

 receiving cavity

22

 positioning recess

30

 Electrical component

301

 Rivet nut

302

 rivet body

40

 Waterproof layer

50

 Sensorbrustgurt

51

 positioning piece

60

 sensor clothing

70

 Waterproof layer

Claims (4)

Physiological measuring module, comprising: a power transmission unit ( 10 ); a connecting body ( 20 ), which on one side of the power transmission unit ( 10 ), wherein the connecting body ( 20 ) in its center a receiving cavity ( 21 ) and peripherally a Positioniervertiefung ( 22 ) having; and an electrical component ( 30 ) transmitted by the power transmission unit ( 10 ) and the receiving cavity ( 21 ) of the connecting body ( 20 ) passes through and connects the two parts together, so that a physiological measuring module is realized, which is not only easy to make, but also can be composed quickly and stably, with a short circuit is still prevented. A physiological measuring module according to claim 1, further comprising a water protection layer ( 40 ) connected to the power transmission unit ( 10 ) connected is. Physiological measuring module according to claim 1, characterized in that the electrical component ( 30 ) from a rivet nut ( 301 ) and a rivet body ( 302 ), wherein the rivet nut ( 301 ) at one with the receiving cavity ( 21 ) provided side of the connecting body ( 20 ), while the rivet body ( 302 ) by the power transmission unit ( 10 ) and the receiving cavity ( 21 ) of the connecting body ( 20 ) and with the rivet nut ( 301 ) connected is. Physiological measuring module according to claim 1, characterized in that the current transmission unit ( 10 ) is designed as a current-conducting textile fabric.

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