DE102014222180B4 - Circuit arrangement for detecting an unstable mechanical connection - Google Patents

Abstract

Disclosed is a circuit arrangement (SA) comprising:
- A circuit carrier (TR) having a first conductor track portion (LA1) and a second, of the first conductor track portion (LA1) electrically separated conductor track portion (LA2);
- A with respect to the circuit carrier (TR) movable moving part (SR) with an electrically conductive portion (AB) which is electrically contacted in an interlocking position of the moving part (SR) with the first (LA1) and the second (LA2) conductor track portion;
- A measuring unit (MA), the signal input side electrically connected to the first (LA1) and the second (LA2) track section and adapted to measure an electrical resistance between the first (LA1) and the second (LA2) track section;
A comparison unit (VA), which is electrically connected to the measurement unit (MA) and is set up to compare a resistance value measured by the measurement unit (MA) with a reference resistance value and to detect, based on the comparison result, whether the movement component (SR) is in the locking position.

Description

The present invention relates to a circuit arrangement for detecting an unstable mechanical connection of a movable part.

Technical devices include components that are fixedly connected to one another by screws, rivets, housing parts or other mechanical fasteners. By mechanical shocks, thermal expansion and other external influences as well as material aging, the mechanical connections become unstable over the life of the devices and the components dissolve.

EP 0 428 154 A1 discloses a device for checking the tightness of screws, with the slightest loosening of a screw, the electrical contact between a short-circuit coil and a short-circuiting plate is interrupted. The respective state of the screw fastening is checked by means of a measuring coil and the measurement result is fed to a display device for small induction changes.

DE 10 2004 031 184 B3 discloses a body component with at least one structural component made of sheet metal, in which a detector unit is provided for crack detection, which is in communication with a diagnostic unit. The detector unit may comprise means for measuring sound or for measuring electrical signals.

DE 198 31 372 A1 discloses a device for controlling non-positive connections, which is characterized in that at least one washer-shaped component is provided, in which a measuring system is at least partially integrated.

DE 101 38 261 A1 discloses a sensor element which is inserted in the frictional connection of a non-positive connection of a plurality of workpieces. This sensor element emits a signal which is dependent on the magnitude of the prevailing force flow and which serves to monitor compliance with the nominal value of the force which is decisive for this connection.

DE 10 2006 055 929 A1 discloses an arrangement for monitoring a threaded connection with a first component and with a second component, which are interconnected by the screw connection. An insulator comprising two electrical contacts and a spring arrangement is arranged between the screw connection on the one hand and the second component on the other hand. The spring arrangement is arranged between the two electrical contacts, so that the two contacts are electrically separated in a loose screw through the predetermined spring tension and that in a fixed screw by overcoming the spring tension, the two contacts are electrically in contact. The two contacts are connected to an electronic monitoring circuit which indicates the fixed screw connection.

DE 10 2011 011 415 A1 discloses a device for checking the cutting edges of a deburring tool for bores in a workpiece. After performing a deburring operation, the deburring tool is withdrawn from the bore of the workpiece and the blades are positioned between insulated metal contact plates and extended to contact the contact plates. Then electrical voltage is applied to produce an error message in the absence of contact between at least one cutting edge and a contact plate.

In particular, in an application in the automotive sector, such a separation of the components of the vehicle devices, which perform some safety-related functions, can lead to malfunction in the vehicle devices and even the failure of the vehicle devices, which in turn can lead to accidents in extreme cases.

Thus, the object of the present invention is to provide a way to reliably detect an unstable mechanical connection of the components of a device.

This object is solved by subject matters of the independent claims. Advantageous embodiments are the subject of the dependent claims.

According to a first aspect of the invention, a circuit arrangement is provided.

The circuit arrangement comprises a circuit carrier which has a first conductor track section and a second track track section which is electrically separated from the first conductor track section. Both conductor track sections are preferably arranged on the same side of the circuit carrier or on two mutually opposite sides of the circuit carrier.

The circuit arrangement further comprises a movable relative to the circuit carrier moving part with an electrically conductive portion which is electrically contacted in an interlocking position with the first and the second conductor track portion.

The circuit arrangement further comprises a measuring unit, the signal input side with the first and the second conductor track section electrically is connected and arranged to measure an electrical resistance between the first and the second conductor track portion.

The circuit arrangement also comprises a comparison unit, which is electrically connected on the signal input side of the measurement unit and is configured to compare a resistance value measured by the measurement unit with a predetermined reference resistance value and to detect, based on the comparison result, whether the movement part is in the locking position ,

With a locking position, a position is referred to, in which the moving part does not move relative to the circuit carrier, and in which the moving part two mutually movable components with each other positively or positively connects and holds together. In this case, the moving part may be a connecting element which mechanically connects the two components together, such. B. a screw, a rivet. The moving part can also be one of the two mutually movable components themselves or a part thereof, such. B. a housing or a housing part.

As long as the two components mechanically firmly connected to each other, the moving part remains in the locking position in which the moving part electrically connects the two conductor track sections or short-circuits each other electrically. As a result, the electrical resistance between the two conductor track sections is low. This electrical resistance is measured by the measuring unit and compared by the comparison unit with a predetermined reference resistance value. If the measured resistance value is smaller than the reference resistance value, it is assumed that the moving part is in the locking position and the two components are firmly connected to one another.

Leaves the mechanical connection between the two components z. B. by the mechanical vibrations, so the moving part also loosens from the locking position and thus solves the physical contacts of the moving part to the two conductor track sections. Consequently, the electrical resistance between the two conductor track sections increases. If the measured resistance value exceeds the reference resistance value, it is assumed that the mechanical connection between the two components decreases.

This provides a way to safely detect an unstable mechanical connection between components.

Preferably, the first conductor track portion is formed substantially circular surface. The second conductor track section is in turn preferably substantially arc-shaped and surrounds the first conductor track section at least partially.

Preferably, the moving part is formed such that it presses in the locking position via the electrically conductive portion on the first and the second conductor track section and thereby electrically short-circuits the first and the second conductor track section via the electrically conductive section.

Preferably, the measuring unit and / or the comparison unit are (directly) arranged on the circuit carrier. In particular, the measuring unit and the comparison unit are arranged on the same surface of the circuit carrier, where the two conductor track sections are arranged.

The moving part preferably comprises a screw, a rivet, a comparable mechanical connecting element and / or a housing part. The moving part may further comprise a component portion or a component element, such. Example, a housing part, which is mechanically fastened via a connecting element, such as a screw, to the circuit carrier or is physically connected to the circuit carrier.

If the moving part is designed as a screw or a rivet, this preferably comprises a screw head or a rivet head, which has the above-described electrically conductive portion, this portion in the screwed or riveted and thus in the locking position of the screw or Rivet on the first and the second trace portion depressed and thus electrically short-circuits the first and the second trace portion with each other.

Preferably, the moving part further comprises a screw shaft or rivet shank as a screw or a rivet. The first conductor track section preferably has (eg in the center of the circle) a continuous recess, wherein the screw or rivet shank protrudes through the recess in the locking or riveted position of the screw or rivet.

Alternatively or in addition to the screw or the rivet, the moving part comprises a housing part of a housing, in which the circuit arrangement can be arranged. The housing part preferably comprises a projection, in turn, the aforementioned electrically conductive portion having. In an interlocking position of the moving member, the projection presses on the first and second conductor track sections via the electrically conductive section and thus electrically connects the two conductor track sections to one another.

In the following, an exemplary embodiment of the invention with reference to the accompanying drawings is explained in more detail. Showing:

1 in a schematic plan view of a circuit arrangement according to an embodiment of the invention,

2 in a schematic sectional view of in 1 illustrated circuit arrangement.

1 shows a circuit arrangement SA, for example, a power converter in a schematic plan view.

The circuit arrangement SA comprises a circuit carrier TR, which in this embodiment is designed as a ceramic substrate.

The circuit arrangement SA furthermore comprises a conductor track structure which is formed on a surface OF of the circuit carrier TR and comprises a first conductor track section LA1 and a second track track section LA2. Here, the first conductor track section LA1 is formed substantially circular-shaped and has in the circle center on a likewise circular surface-shaped continuous recess AS. The second conductor track section LA2 is semicircular and partially surrounds the first conductor track section LA1. The first and second conductor track sections LA1, LA2 are electrically isolated from each other.

In the recess AS of the first conductor track section LA1, a screw SR is arranged, the screw shaft SS protrudes through the recess AS. In this case, the screw SR is screwed to two, not shown in the figure, movable components of a device. In the screwed and therefore locking position, the screw SR connects the two components with each other in a force-locking or form-fitting manner. In this locking position, the screw SR with its screw head SK presses on the two conductor track sections LA1, LA2. The screw SR is made of a metal or a metal alloy and is thus electrically conductive.

The circuit arrangement SA further comprises a measuring unit MA and a comparison unit VA, which are arranged directly on the surface OF of the circuit carrier TR.

The measuring unit MA is designed in this embodiment as an ohmmeter and comprises a first and a second signal input SE1, SE2. The first signal input S1 is electrically connected to the first conductor track section LA via a conductor LB1. Analogously, the second signal input SE2 and via a further interconnect LB2 to the second interconnect portion LA is electrically connected.

The measuring unit MA further comprises a signal output SA, via which the measuring unit MA is signal-technically connected to a signal input SE3 of the comparison unit VA.

The comparison unit VA comprises a comparator for comparing two analog resistance values, as well as a data memory for storing a preceding reference resistance value.

In 2 is a cross section of the circuit arrangement SA in the region of the two conductor track sections LA1, LA2 and the screw SR along an in 1 shown section line AA, wherein in 2A the screw in a tightly bolted locking position and in 2 B the screw is shown in a relaxed and thus non-locking position.

In the locking position, the screw SR presses with the screw head SK on the two conductor track sections LA1, LA2, wherein the electrically conductive screw head SK as an electrically conductive portion AB, the two conductor track sections LA1, LA2 electrically short-circuits each other, as in 2A is shown.

The measuring unit MA measures in this locking position of the screw SR between the two conductor track sections LA1, LA2 an electrical resistance having a resistance value close to zero.

Loosens the screw SR by, for example, shocks from the locking position, so this or their screw head SK does not press or no longer firmly on the two conductor track sections LA1, LA2, as in 2 B is shown. As a result, the electrical resistance between the two conductor track sections LA1, LA2 increases.

The measuring unit MA measures this increased electrical resistance and forwards the measured resistance value to the comparison unit VA.

The comparison unit VA compares the measured resistance value with the predetermined reference resistance value provided by the data memory by means of the comparator and outputs a corresponding warning signal as soon as the measured resistance value exceeds the reference resistance value.

The warning signal is received by a suitable device, whereupon it then initiates corresponding measures known to the person skilled in the art.

Claims (3)

Circuit arrangement (SA), comprising: - a circuit carrier (TR) having a first track section (LA1) and a second track section (LA2) electrically separated from the first track section (LA1); - A with respect to the circuit carrier (TR) movable moving part (SR) with an electrically conductive portion (AB) which is electrically contacted in an interlocking position of the moving part (SR) with the first (LA1) and the second (LA2) conductor track portion; - A measuring unit (MA), the signal input side electrically connected to the first (LA1) and the second (LA2) track section and adapted to measure an electrical resistance between the first (LA1) and the second (LA2) track section; A comparison unit (VA), which is electrically connected to the measurement unit (MA) and is set up to compare a resistance value measured by the measurement unit (MA) with a reference resistance value and to detect, based on the comparison result, whether the movement component (SR) is in the locking position; - Wherein the moving member (SR) in the locking position on the electrically conductive portion (AB) on the first (LA1) and the second (LA1) conductor track portion and thus the first (LA1) and the second (LA1) conductor track section electrically shorted together , characterized in that - the first conductor track portion (LA1) is formed circular-shaped; - The second conductor track portion (LA2) is arcuate and the first conductor track portion (LA1) at least partially surrounded; - The screw (SR) has a screw shaft (SS); - The first conductor track portion (LA1) has a through recess (AS); - Wherein the screw shaft (SS) in the locking position of the moving part (SR) through the recess (AS) protrudes. Circuit arrangement (SA) according to claim 1, wherein the measuring unit (MA) and / or the comparison unit (VA) are arranged on the circuit carrier (TR). Circuit arrangement (SA) according to one of the preceding claims, wherein the screw (SR) comprises a screw head (SK) having the electrically conductive portion (AB).

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