DE102012209989A1 - Device for opening detection of housing of temperature measuring device, has spring including conductor, which contacts contact and is movable against another contact that is spaced at distance from former contact - Google Patents

Abstract

The device has a spring (3) i.e. spiral spring, loadable between ends (4, 6), and producing a spring force. One of the ends loads a spring holder (5). The force is oriented against another spring force that is produced by another spring (8) i.e. metal snap dome, between one of the ends and another spring holder (10). The holders are connected with each other at a distance by a connector (16), and displaced against a carrier (7). The latter spring includes a conductor, which contacts a contact (14) and is movable against another contact (15) that is spaced at a distance from the former contact. The carrier is a printed circuit board. An independent claim is also included for a method for manufacturing a device for opening detection of a housing.

Description

The invention relates to a device for opening detection of a housing, in particular a meter housing, which is arranged between a first housing part and a second housing part movable relative to the first housing part. Preferably, the invention relates to a measuring device with a housing having the device for opening detection, and a method for producing the device for opening detection and the meter housing. The housing has or comprises a first and a second housing part. Preferably, the device is a measuring device, in particular for the time-dependent measurement of temperatures, in particular by means of a first sensor which is loaded against the second housing part and by means of a second sensor which is arranged in a second housing part opposite portion of the first housing part. The device preferably has a data memory set up to store the time profile of the measured temperatures, and a transmission device for transmitting the stored data. The device is preferably a heat cost allocator, which is set up for recording temperatures and for calculating heat quantities of a radiator.

In a preferred embodiment, the device for opening detection is characterized in that it is suitable for example for a temperature measuring device with a simple structure and in combination with the opening recognition allows the positioning of an electrically contacted temperature sensor against the second housing part.

Object of the invention

The object of the invention is to provide an alternative device for opening detection of a housing, preferably in the provision of an alternative measuring device housing with opening detection.

General description of the invention

The invention solves the problem with the features of the claims, in particular with a first spring whose first end loads a first spring holder and the second end acts against the first end of a second spring and the second end of the second spring loaded a second spring holder, the through a connector spaced with the first spring holder is connected. The first spring exerts a first spring force, which counteracts the second spring force generated by the second spring and is greater than the second spring force. The first spring holder can be arranged against a second housing part of a housing and is loaded by the first spring away from a first housing part. The second end of the first spring is arranged against the first housing part, in particular against a support of the first housing part. The carrier is preferably a circuit board which is fixed in the first housing part.

In the closed position of the first and second housing parts together, in which the second housing part is e.g. is positioned closer to the first housing part, in particular closer to a support of the first housing part, the first spring between the first spring holder and its second end is more heavily loaded than in the open position in which the second housing part at a greater distance from the first housing part, in particular whose carrier is positioned.

The second spring is arranged between a section of the first housing part, in particular with its carrier, and the second spring holder, so that its second spring force counteracts the first spring force generated by the first spring between the first housing part or its carrier and the first spring holder. For the purposes of the invention, a portion of the first housing part is referred to as a carrier.

Preferably, the first spring is arranged on the first side of a carrier and the second spring on the second side of the carrier, so that the carrier between the first and the second spring is arranged. Particularly preferably, the second end of the first spring is arranged on the first side of the first carrier and the first end of the second spring is arranged on the second side of the carrier. More preferably, the first spring is disposed with its first end against the first spring holder and with its second end against the first side of the carrier, and the second spring is with its first end against the second side of the carrier and with its second end against the second Spring holder arranged, wherein the connector holds the first and the second spring holder at a distance from each other and the connector is displaceably guided on the carrier, in particular in an aperture of the carrier is displaceable. Particularly preferably, the carrier is plate-shaped, for example a circuit board, and the connector has one or more sections, which are guided displaceably perpendicular to the carrier in each case an opening. In this embodiment, each of the first and second spring, which are loaded with respective opposite ends against the first and second spring holder, limits the displacement of the connector relative to the carrier.

The second spring is connected to an electrical conductor or has an electrical conductor, preferably, the second spring is made electrically conductive material and forms the conductor, in particular of spring steel, wherein the electrical conductor or the second spring against one of at least two spaced contacts, which are arranged on the first housing part, in particular on the carrier, in a contact both positions, in the contacts are conductively connected to each other, or in a spaced position movable, in which the conductor or the second spring at least one of the contacts is not affected and does not establish an electrical connection between the contacts. The electrical contacts may be in one or more parts, so that only a single or multi-part first contact in a first position, in which the conductor or the second spring is positioned at a large distance from the contacts, the conductor or the second spring touches and the second contact is not contacted by the conductor or the second spring, while only in the position in which the conductor or the second spring is positioned closer to the second housing part or its carrier, in addition to the first and the second contact touches an electrically conductive connection between the first and the second contact is made.

Preferably, the second spring is a snap-action disc, in particular of spring steel, which has a conductor or forms the conductor. A second spring designed as a snap-action disc is contacted only by a first contact in a first position, in particular in the closed position, and additionally contacted by a second contact in a second position. Particularly preferably, the second spring is a snap-action disc, the peripheral portion bears as a first end against a arranged on the second side of the carrier one-piece or multi-part first contact, wherein at a distance from the first contact, a second contact in the region of the second side of the carrier is arranged which is covered by the conductor or the second spring designed as a snap disk.

Upon loading of the second spring holder against the second end of the second spring of the conductor or the second spring is disposed against the second contact and forms upon contact of the second contact, an electrical connection between the first and the second contact.

In a preferred embodiment, a sensor, in particular a first temperature sensor relative to the first spring on the first spring holder is arranged, optionally with electrical insulation between the first spring and the sensor. In this embodiment, the first spring loads the sensor against the second housing part and therefore leads to a mechanical contact between the sensor and the first housing part. In a preferred embodiment, the second housing part is a metal plate, against which a sensor designed as a first temperature sensor is arranged. In the closed position, the first spring loads the sensor relative to the first housing part, in particular with respect to the carrier, against the second housing part and relieves the second spring, as is generally preferred, the second housing part in the closed position closer to a portion of the first housing part opposite the second housing part, or is positioned relative to the carrier of the first housing part. In the relief of the second spring, the conductor of the second spring, or a portion of the second spring, which forms the conductor of at least one of the two contacts spaced, against which the conductor or the second spring is movable. Alternatively, in the closed position, the conductor of the second spring or the second spring itself can touch both contacts.

In the open position, the first spring is relieved from the closed position and moves the conductor, the second spring has or forms by the displacement of the second spring holder relative to the second housing part, or with respect to the carrier and brings the second spring in a position in which the conductor or the second spring itself touches both contacts.

The device according to the invention therefore has the advantage, with the arrangement of the first and second spring both an opening detection, namely the different positioning of the second housing part relative to the first housing part by the dependent thereon contacting a first and second contact through the conductor, which has the second spring to provide, as well as a sensor with a predetermined spring force from the first housing part or its carrier to load against the second housing part.

The connector may be one-piece or multiple pieces. The connector may be disposed outside the first spring in the portion extending along the first spring and forming a cage for the first spring and / or disposed within an internal space defined by the spring and within the first spring Form leadership. The connector may be disposed in the portion in which it extends along the second spring within an inner space spanned by the second spring; Preferably, the connector with the portion extending along the second spring is disposed along the circumference of the second spring and forms a cage for guiding the second spring, in particular when a first and a spaced second contact are arranged in the one of the second Spring spanned section of the vehicle. One of the first and second spring holders is preferably fixedly connected to the connector, in particular integrally formed with the connector, while the other spring holder with the connector can be latched, in particular with a thread or bayonet lock.

In a preferred embodiment, the carrier is a rigid circuit board and has on the second side two spaced first solder joints, on each of which a conductor of a flexible first conductor is attached, at the opposite end of the sensor, which is arranged on a piece of PCB, with two second Soldering is contacted. This embodiment is advantageous because it provides an easy-to-manufacture flexible contacting of the sensor, which is arranged on the first spring holder. Furthermore, this embodiment allows a manufacturing method in which both the first and second contact and the first solder joints are made on the same second side of the carrier formed as a board, in particular in a common automated soldering. Furthermore, the board piece, on which the first sensor is arranged, may be formed as a board piece spaced from the board, which is connected to the same carrier board as the board, which forms the carrier. In a preferred embodiment of the method, a board forming the carrier is produced, which is connected along one edge to a carrier board, to which also the edge of the board piece carrying the sensor is attached.

Preferably, the board carrier has a linear predetermined breaking point, along which the piece of board are connected to the circuit board forming the carrier with the platinum carrier. The board carrier is particularly preferably a section of a further board which forms a further carrier so that a blank of a board has two or more boards connected to one another along line-shaped predetermined breaking points, each of which forms a carrier and has board pieces spaced therefrom, on which a first sensor is arranged , During manufacture, a portion of a flexible first conductor is connected to the first solder pads of the carrier and to the second solder joints of the board piece, so that the first flexible printed wire spans the distance between the carrier and the piece of board. When separating the mutually arranged carrier along the common line-shaped predetermined breaking point, the connection of each carrier and thus connected by means of a first flexible circuit board piece of the adjacent carrier or board carrier is separated, so that the board piece with the sensor arranged thereon exclusively by the first flexible conductor remains connected to the carrier.

Preferably, on the second side of the board, which forms the carrier, a second sensor, in particular a second temperature sensor, fixed by means of a second flexible conductor track at a distance. The second sensor, in particular a second temperature sensor, is connected by two third solder joints, each contacting a conductor of the second flexible printed circuit, to the circuit board forming the support and at the opposite end of the second flexible support by means of two fourth solder joints to a second one Board piece that carries the second sensor.

The second sensor may be advantageously manufactured in a method as described with respect to the first sensor. Accordingly, in a preferred manufacturing method, a first board piece having a first sensor with a first flexible trace and a second piece of board with a second sensor with a second flexible trace connected to the second side of the board forming the carrier by solder joints and then the the first and the second board piece and the carrier along a line-shaped predetermined breaking point separated from a platinum carrier, so that the first and the second board piece are each connected to a flexible conductor track to the carrier.

In embodiments having a second piece of board, e.g. with a second temperature sensor, the first housing part preferably has a recess into which the second board piece can be arranged at least partly, in particular a recess with a stop against which the second board piece can be arranged. By connecting the second board piece by means of a second flexible conductor to the carrier, the second board piece is fixed by the spring force of the second flexible conductor to a recess or against a stop of the first housing part.

Detailed description of the invention

The invention will now be described in more detail with reference to the figures which show schematically

in 1 a sectional view of the device in a housing and

in 2 a plan view of the board in the preferred manufacturing process of the device show.

In the figures, like reference numerals designate functionally identical elements.

The side sectional view of 1 shows according to the preferred embodiment, a housing having a first housing part 1 and a second housing part 2 which, as is generally preferred, is a metal plate, eg of aluminum. The second housing part 2 is against the first housing part 1 slidably and, for example, by a holding device, such as a seal, in the closed position with the first housing part 1 be connected. The first spring 3 is with her first end 4 against a first penholder 5 arranged and with its second end 6 against a carrier 7 , which is part of the first housing part 1 forms or is fixedly connected to this, for example, is locked. The first spring force, the first spring 3 is directed against the second spring force, that of the second spring 8th is produced. The second spring 8th is with her second end 9 against the second spring holder 10 arranged and in this embodiment with its first end 13 against the carrier 7 , In the embodiment shown here, the carrier 7 between the first spring 3 and the second spring 8th arranged so that the first spring 3 against the first page 11 of the carrier 7 and the second spring 8th against the second page 12 of the carrier 7 is directed. The second spring 8th is with her first end 13 the second page 12 of the carrier 7 facing and is the second pen holder 10 against the carrier 7 loaded.

In the embodiment shown here, the second spring 8th formed as a snap-action disc made of metal and therefore forms even the head, against a first contact 14 is arranged on the carrier 7 , more preferably on its second page 12 is arranged. In the illustrated closed position, the first spring 3 through the first penholder 5 and the second housing part 2 against the carrier 7 loaded so that the connector 16 the second penholder 10 in the direction of the second spring force of the second spring 8th positioned. In this positioning contacted trained as a conductor second spring 8th not the first contact 14 spaced second contact 15 so that the interruption of the line between the first contact 14 and the second contact 15 is generated as a signal for the closed position.

The first contact 14 may be two or more parts, for example in two parts, so that the conductor, the second spring 8th or at two or more areas of the multi-part first contact 14 can be present.

For the preferred embodiment, in which the second spring 8th a snap disc is, the second pen holder points 10 preferably a projection 17 on, the middle approximately against the second spring 8th is directed.

In the open position, the second housing part 2 at a greater distance than in the shown closed position to the first housing part 1 or to its carrier 7 positioned.

As a result, the first penholder becomes 5 no longer through the second housing part 2 held in the position of the closed position, but the first spring force of the first spring 3 can be the first penholder 5 at a greater distance to the carrier 7 of the first housing part 1 move. As a result, the second penholder becomes 10 through the connector 16 towards the second side 12 of the carrier 7 moved and against the second end 9 the second spring 8th , wherein preferably the projection 17 at training of the second spring 8th as a snap disc centrally against the second spring 8th suppressed. Upon movement of the conductor of the second spring 8th , or the second spring 8th as a leader, against the second contact 15 connect the conductor or the second spring 8th the second contact 15 with the first contact 14 so that a signal for the open position is generated.

At the first pen holder 5 is as preferred a first sensor on a first piece of board 18 arranged and is determined by the first spring force of the first spring 3 in closed position against the second housing part 2 loaded. For electrical contacting of the first sensor, it is electrically contacted with a first flexible conductor track, for example with a first soldering point 20 for each contacted conductor of the first flexible trace 19 on the carrier 7 , especially on its second page 12 , and with second solder joints 21 for each conductor of the first flexible trace 19 on the first piece of board 18 , in particular on the second housing part 2 facing side of the first piece of board 18 ,

As for the first sensor on the first board piece 18 described, may preferably a second sensor on a second piece of board 22 be arranged and with a second flexible conductor 23 with the carrier 7 be connected, for example, with a third solder joint 24 for each contacted conductor of the second flexible conductor 23 , especially on the second page 12 of the carrier 7 , as well as at the opposite end of the second flexible conduit 23 with fourth solder joints 25 , in particular on the first housing part 1 facing side of the second board piece 22 , By the tension of the second flexible conductor 23 becomes the second piece of board 22 with the second sensor arranged thereon in a recess or against a stop 26 held.

When the first and second sensor are each designed as a temperature sensor, the device according to the invention offers the greatest possible distance of the second board piece 22 with the second sensor arranged thereon from the second housing part 2 or from the plane in which the first sensor on the first board piece 18 is arranged.

The one- or multi-piece connector 16 is in at least one opening 27 through the carrier 7 guided and therefore perpendicular to the carrier 7 slidably guided.

The supervision of 2 shows two adjacent beams 7 . 7a in supervision on her second page 12 , where the carriers 7 . 7a are formed as sections of a circuit board. There are at least two carriers 7 . 7a along a line-shaped predetermined breaking point 28 connected together, so a carrier 7a as a platinum carrier the carrier 7 , its spaced first piece of board 18 and its spaced second board piece 22 with the first sensor arranged thereon 29 or second sensor 30 wearing. The first piece of board 18 and the second piece of board 22 are only by the along the line-shaped breaking point 28 held as a platinum carrier section, which has a second carrier 7a forms.

A first flexible cable 19 covered in sections the second page 12 of the carrier 7 , First solder joints 20 on the carrier 7 connect the conductors of the first flexible trace 19 and second solder joints 21 on the first piece of board 18 connect the first flexible trace 19 electrically with the first sensor 29 , Accordingly, the conductors of the second flexible conductor track 23 by means of third solder joints 24 on the second page 12 of the carrier 7 connected and with its opposite end by means of third solder joints 25 on the second piece of board 22 with the second sensor 30 ,

In the supervision it becomes clear that the carrier 7 two or more openings 27 which may serve as a guide for the connector 16 serve. Preferred are on the second side 12 of the carrier 7 the first contact 14 , present as a multi-part first contact 14 and a second contact spaced therefrom 15 arranged by a conductor of the second spring 8th are covered, or of the trained as a conductor second spring 8th ,

LIST OF REFERENCE NUMBERS

1

 first housing part

2

 second housing part

3

 first spring

4

 first end of the first spring

5

 first penholder

6

 second end of the first spring

7, 7a

 carrier

8th

 second spring

9

 second end of the second spring

10

 second pen holder

11

 first side of the carrier

12

 second side of the carrier

13

 first end of the second spring

14

 first contact

15

 second contact

16

 Interconnects

17

 head Start

18

 first board piece

19

 first flexible trace

20

 first solder joint

21

 second solder joint

22

 second piece of board

23

 second flexible conductor

24

 third solder joint

25

 fourth solder joint

26

 attack

27

 perforation

28

 Breaking point

29

 first sensor

30

 second sensor

Claims (12)

Device for detecting the opening of a housing, which is arranged between a first housing part and a second housing part movable relative to the first housing part, characterized by a first spring, which is loadable between its first end, which loads a first spring holder and its second end and a first spring force which is directed against the second spring force generated by a second spring between the first end thereof and a second spring holder disposed at the second end thereof, the first and second spring holders being spaced apart by a connector and opposed to the first housing part connected to the carrier and wherein the second spring has a conductor which contacts a first contact and is movable against a second contact spaced therefrom. Apparatus according to claim 1, characterized in that the second end of the first spring and the first end of the second spring are loaded against the carrier. Device according to one of the preceding claims, characterized in that the second end of the first spring is loaded against a first side of the carrier and the first end of the second spring against a first side opposite the second side of the carrier are loaded. Device according to one of the preceding claims, characterized in that the carrier is plate-shaped and the connector is guided displaceably perpendicular to the carrier on the carrier. Device according to one of the preceding claims, characterized in that on the first spring holder, a first sensor is arranged, which is loaded by the first spring in the direction of the second housing part. Device according to one of the preceding claims, characterized in that in the closed position of the housing, the second housing part is positioned closer to the carrier than in the open position and in the closed position, the second housing part abuts against the first spring holder and the first spring loaded in the direction of the carrier, wherein the second spring holder is in a position relieving the second spring. Device according to one of the preceding claims, characterized in that in the open position the first spring, the first spring holder further spaced from the carrier than in the closed position and the second spring holder in a second spring against the carrier loading position. Device according to one of the preceding claims, characterized in that the first spring is a spiral spring and the second spring is a snap disc made of metal. Device according to one of the preceding claims, characterized in that the first and the second contact are arranged on the second side of the carrier and on the first spring holder a first sensor exhibiting first board piece is arranged, which is electrically contacted by means of a first flexible conductor track, which are connected by means of first solder joints with the second side of the carrier. Device according to one of the preceding claims, characterized in that the first and the second contact on the second side of the carrier are arranged and a second sensor exhibiting second board piece is electrically contacted by means of a second flexible conductor which by means of solder joints with the second side of the Carriers are connected. Device according to one of the preceding claims, characterized in that the second housing part is a metal plate and the carrier is fixed in the first housing part stationary. Method for producing a device according to one of the preceding claims with the steps Providing a rigid board which has adjacent to a line-shaped predetermined breaking point adjacent carrier and to each carrier at a distance at least a first piece of board, which is connected only along the predetermined breaking point with the adjacent carrier, Arranging a first flexible conductor track which has at least one conductor which spans the distance between the carrier and the board piece and covers a section of the carrier with a first end and covers a section of the first board piece with a second end, Generating a first contact and a second contact spaced therefrom on the second side of the carrier, Generating first solder joints between the first end of the first flexible conductor and the covered portion of the carrier and making second solder joints between the second end of the flexible conductor and the covered portion of the first board piece, - Separating the carrier and the first piece of board along the predetermined breaking point and Arranging a first spring with its first end against a first spring holder and its second end against the carrier, arranging a second spring having a conductor with its first end against the portion of the carrier in which the first and the second contact are arranged are and with their second end against the second spring holder, connecting the first and second spring holder at a distance from each other by a connector which is slidably guided on the carrier.

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