DE7719777U1 - BODY SOUND SENSOR, IN PARTICULAR FOR AN ELECTRONIC STETHOSCOPE - Google Patents

Description

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23/77 <'"·'' EK / PLI Lu / Li

June 23, 1S77 / "

ROBERT BOSCH, GMBH, Stuttgart

Structure-borne sound sensors, in particular
for an electronic stethoscope

summary

It becomes a structure-borne sound sensor, especially for an electronic one Stethoscope, with a piezoelectric element, one which the sound vibrations of a body on the piezoelectric Element-transmitting plunger and with a holder connected to the housing of the structure-borne sound sensor for the piezoelectric Element and the plunger proposed. The holder for the piezoelectric element designed as a circular plate consists made of two rigid metal bodies firmly connected to one another in an electrically insulated manner. The piezoelectric element is between the two metal bodies arranged. The top of the piezoelectric element is connected to the through an opening in the upper metal body penetrating metallic plunger connected., while the bottom of the piezoelectric element on the lower Metal body rests plane-parallel. The lower metal body has a large size in relation to the piezoelectric element Dimensions.

7719777 09/29/77

State of the art

The invention is based on a structure-borne sound sensor according to the preamble of the main claim. A well-known structure-borne sound sensor comprises a piezoelectric element, a plunger for transmitting the structure-borne sound to the piezoelectric element and a massive fitting. The molded piece, which also serves as a holder, has a circular opening, the edge of which has an annular bearing surface forms for fixing the piezoelectric element. Which engages with a surface of the piezoelectric element standing plunger is led through the opening to the outside.

A structure-borne sound sensor with this or a similar structure has the disadvantage that it can be used, for example, as a circular plate formed piezoelectric element is relatively heavily stressed in bending, so that a considerable risk of breakage of the element consists. As a result of the small contact surface of the holder for the piezoelectric element, there is a risk of the element becoming loose relatively large in terms of number of copies; also is the transmission quality of the alternating pressure of the body to be examined on the piezoelectric element should not be regarded as perfect.

Advantages of the invention

The structure-borne sound sensor according to the invention with the characteristic Features of the main claim has the advantage that the piezoelectric element is designed as a pressure transducer. As the element on a massive rigid body of in proportion to the element of great mass with its entire surface plane-parallel

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any risk of breakage is excluded. Besides, the Structure of the structure-borne sound sensor is very robust and the transmission of the alternating pressure via the plunger is of excellent quality. There is also the sensitivity of the acoustic-electrical transmission is increased, the noise level of the amplifier no longer has a disruptive effect.

By the measures listed in the subclaims are advantageous further developments and improvements of the body-type sound sensor specified in the main claim are possible.

drawing

An embodiment of the invention is shown in the drawing and explained in more detail in the description below. The drawing shows a cross section through the structure-borne noise on an enlarged scale.

Description of the invention

A holder 25, connected to a housing 20 of the structure-borne sound sensor, for the piezoelectric element 13 consists of two Rigid metal bodies 11 and 14 firmly connected to one another by an insulating disk 15. Between the two metal | bodies 11, 14, designed as a circular plate 1 piezoelectric element 13 is arranged such that the top 16 i of the piezoelectric element 13 with the through an opening 23; of the upper metal body 11 penetrating metallic] The plunger 12 is connected and that the underside 17 of the piezoelectric element 13 is plane-parallel on the lower metal body 14:

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rests. The lower metal body 14 has a ratio |

to the piezoelectric element 13 large mass. f

£ 5 plunger 12 consists of a cylindrical pin 24 with |

an attached flange 18. The j

Element 13 has the flange 18 of the plunger resting on it approximately |

the same support surface 16 as the surface of the piezoelectric f

Elements. The upper part of the plunger 12 has an approximately half-f

spherical button made of plastic. Yy

i between the upper metal body 11 and the pin 24 ^züge-] facing side of the flange 18 of the plunger 12 is an elastic
Perforated disk 19, for example made of foamed plastic,
inserted, which ensures that the piezoelectric element
is resiliently pressed against the lower metal body 14.

The insulating material disk 15 located between the two metal bodies 11, 14 has the same diameter as the piezoelectric
Element 13 corresponding opening and is with the metal bodies
preferably firmly connected by means of an adhesive. The connection
the metal body over the insulating disk can also be done by means of insulating screws or rivets. \

Both the upper and lower metal bodies 11,14 have
each serving to accommodate the piezoelectric element 13
cylindrical trough 21, 22.

The housing 20 of the sound sensor consists of one of the
Holder 25 at a certain distance enclosing cap from a
insulating plastic. The distance between the cap and the holder ensures that sound waves impinging on the cap do not reach the
Holder are transferred and therefore do not cause any interference.

7719777 09/29/77

Claims (9)

ti ι it ti 01 ι ι r β β 6 It. I 41 «» IfI I 1 1 t 1 t 1 Itlllt'lt t | 1 t I ( 23/77 «.. · ..». .,! . EK / PLI Lu / Li June 23, 1977 ROBERT BOSCH GMEH, Stuttgart Expectations . Structure-borne sound sensor, in particular for an electronic stethoscope, with a piezoelectric element, a plunger which transmits the sound vibrations of a body to the piezoelectric element and with a holder for the piezoelectric element and the plunger connected to the housing of the structure-borne sound sensor, characterized in that the holder (25 ) for the piezoelectric element (13) consists of two rigid metal bodies (11, 14) firmly connected to one another via an insulating washer (15), that the piezoelectric element is arranged between the two metal bodies, that the top (16) of the piezoelectric element with the through an opening (23) of the upper metal body (11) passing through metallic plunger (12) is connected that the underside (17) of the piezoelectric element rests plane-parallel on the lower metal body (14) and that the lower metal body (14) has a ratio has a large mass to the piezoelectric element. 2. Structure-borne sound sensor according to claim 1, characterized in that that the piezoelectric element (13) is designed as a circular plate and that the plunger (12) consists of a cylindrical There is a pin (24) with an attached flange (18). 7719777 09/29/77 1 t I. f 1 1 t 23/77 ·· "'-'1 - · ! 3. Structure-borne sound sensor, characterized in that the on the s piezoelectric element (13) resting flange (18) of the The plunger (12) has approximately the same bearing surface (16) as the Surface of the piezoelectric element (13). H 4. Structure-borne sound sensor according to one of claims 1 to 3, characterized II characterized in that the upper part of the plunger (12) has an approximately H hemispherical button (10) made of plastic. 5. Structure-borne sound sensor according to one of claims 1 to 4, characterized characterized in that between the upper metal body (11) and the pin (24) facing side of the Flamjches (18) of the Plunger (12) a perforated disc (19) made of at least something elastic material is inserted. 6. Structure-borne sound sensor according to one of claims 1 to 5, characterized characterized in that the two metal bodies (11, 14) have a Insulating disk (15), which has an opening corresponding to the diameter of the element (13), with one another by means of an adhesive are connected. 7. Structure-borne sound sensor according to one of claims 1 to 6, characterized characterized in that the two metal bodies (11, 14) over the insulating washer (15) by means of insulating screws or rivets are connected to each other. 8. Structure-borne sound sensor according to one of claims 1 to 7, characterized characterized in that both the upper and the lower metal body (11, 14) each have one for receiving the piezoelectric Elements (13) serving trough (21, 22) has. 7719777 09/29/77 23/77 - 3 - 9. Structure-borne sound sensor according to one of claims 1 to 8, characterized in that the housing (20) of the sound pickup consists of a spacer enclosing the holder (25) Cap is made of plastic. 7719777 09/29/77