DE102013001832A1 - Electricity meter e.g. electronic electricity meter for use in site by service technician, has board that comprises test pad with contact points provided on opening of upper housing portion and made to contact with test adapter - Google Patents

Abstract

The meter has a lower housing portion (10) that comprises a microprocessor which is arranged in a printed circuit board. An upper housing portion (12) is formed with an opening. The circuit board has a test pad comprising multiple contact points which are provided on the opening of the upper housing portion and made to contact with a test adapter by the opening when the upper housing portion is closed. The test pad is arranged on the upper housing portion facing side of the circuit board. A cover (14) is provided to cover the opening against unauthorized access.

Description

The invention relates to an electricity meter having a housing and a printed circuit board arranged in the housing, which has a microprocessor.

Such electricity meters are known and are also referred to as electronic electricity meters. The microprocessor is provided for controlling functions of the electricity meter, for example for acquiring measured data, for calculating quantities of energy, for storing measured values and energy quantities, for controlling an electronic display and / or for operating an optical or other interface. Such microprocessors are programmable and are usually already provided with software during the manufacture of the electricity meter.

This is usually done before the printed circuit board on which the microprocessor is mounted, is installed in the housing of the electricity meter. Subsequently, the housing of the electricity meter is closed. When the housing is closed, the data stored in the microprocessor or other memory elements of the circuit board are only accessible to the extent necessary for the normal operation of the counter, for example via an optical communication interface of the electricity meter. On the other hand, there is no direct access to the software used in the microprocessor when the housing is closed, which is also useful in order to prevent manipulation.

As far as an update of the software is provided in known electricity meters, this can usually only be done with the housing open. For this purpose, the circuit board may have a connector to which an electronic device used for the software update is connected with a cable. An update of the software in this way is complicated and is made at most manufacturer.

On this basis, it is the object of the invention to provide an electricity meter in which a software update is easier possible.

This object is achieved by the electricity meter having the features of claim 1. Advantageous embodiments are specified in the subsequent subclaims.

The electricity meter has a housing and a printed circuit board disposed within the housing having a microprocessor, the housing having an opening and the circuit board having a test pad including a plurality of contact points and being arranged relative to the opening so as to be closed when the housing is closed can be contacted through the opening with a test adapter.

The housing may have a plurality of housing parts which are joined together to form the closed housing. For this purpose, for example, they can be locked into each other by means of suitable locking elements, so that they can not be easily removed from each other again. It is also possible to screw the different housing parts together. In this case, unauthorized opening of the housing can be prevented for example by a seal.

The contact points can be, for example, solder points, conductor tracks or other contact surfaces formed on the printed circuit board, via which an electrical contact to the test adapter can be made. The contact points may each have a depression to prevent slipping of pins of the test adapter. The contact points may in particular be arranged in the form of a grid, for example in two adjacent tracks. The defined arrangement of the plurality of contact points forms the test pad. The contact points are electrically connected to those tracks that are needed for updating the software of the microprocessor, for example with certain connection legs of the microprocessor and / or with a supply voltage leading conductor.

The test pad is arranged so that it can be contacted with the housing closed through the opening with a test adapter. The test adapter may include a plurality of contact pins that connect to electrical equipment used for software update via electrical connection lines. The opening is arranged so that a suitable test adapter can be passed through the opening to the test pad. For this purpose, the opening is preferably located above the test pad, so that a connecting line from the test pad to the opening is perpendicular to the circuit board. Then the test adapter can be particularly easily brought in the vertical direction of the test pad and brought into contact with the test pad without the contact pins of the test adapter tend to slipping sideways.

By the invention, an update of the software can be done without the housing of the electricity meter must be opened. It is sufficient to pass a suitable test adapter through the opening in the housing and so the Contact test pad. This makes it much easier to update and / or test the software. In the case of the invention, this may even be readily possible even for a service technician on site without having to open the housing or having to uninstall the electricity meter.

In one embodiment, the housing has a lower housing part, to which the printed circuit board is fastened and which has a base plate or faces a bottom plate, and an upper housing part, in which the opening is formed, and the test pad is on a side facing the upper housing part Side of the circuit board arranged. In this arrangement, the test pad is particularly easily accessible through the upper housing part, d. H. usually from a front of the electricity meter.

In one embodiment, the circuit board on the side remote from the upper housing part on another test pad or other contact pad. The further test pad or other contact pad may be formed similarly to the test pad described above. However, it is located in particular on an underside of the printed circuit board and is intended to allow a first-time loading of the software when not yet mounted in the housing circuit board. For this purpose, the circuit board can be placed for example on a vacuum adapter, the contact pins are contacted with the other test pad or other contact pad.

In one embodiment, the housing has a cover that covers the opening in a closed position and protects against unauthorized access. The cover is another housing element of the electricity meter that can perform additional functions in addition to covering the opening. For example, the cover may have a viewing window, behind which a sign, an electronic display and / or an optical interface of the electricity meter is arranged. The cover may form a front of the electricity meter or a part thereof. Alternatively or additionally, the cover may cover electrical connections of the electricity meter. The cover protects the opening from unauthorized access. For this purpose, it is designed so that opening the cover is impossible or at least leaves traces. For example, the cover may be designed to be secured by means of a seal in the closed position. It is also possible to form the cover so that it can not be removed from the closed position without destruction.

In one embodiment, the opening has a guide shaft with a length in the range of 3 mm to 50 mm. The opening may be formed in a wall of the electricity meter, wherein the guide shaft adjoins the wall in the region of an edge of the opening and leads into the interior of the counter. The guide slot can be cylindrical, i. h., That a cross section of the guide shaft, in particular its inner cross section, does not change or only slightly over its length. The cross section of the guide shaft can be arbitrary, for example, circular, many- or rectangular. The cross section of the guide shaft and / or the opening may be asymmetrical, so that a test adapter with complementary cross section can only be used in a single orientation in the guide shaft. In this way, a reverse polarity when contacting the Prüfpads be excluded from the outset.

By the length of the cylindrical guide shaft in said area a reliable guidance of a suitable test adapter is achieved. This makes it considerably easier to attach the test adapter in the intended manner to the test pad.

In one embodiment, an end of the guide slot remote from the opening terminates at a distance of less than 10 mm from the test pad. The guide shaft can also be brought closer to the test pad and end, for example, at a distance of less than 5 mm, less than 3 mm, less than 2 mm or less than 1 mm from the test pad. By this measure, only the test pad is accessible through the opening, while adjacent areas of the circuit board are shielded by the guide shaft. This prevents in a simple way damage to the test pad adjacent elements on the circuit board and at the same time a risk to a user by live elements on the circuit board.

In one embodiment, a lateral wall of the guide shaft has a locking opening or locking recess. The locking recess or locking aperture is adapted to cooperate with a locking projection on the test adapter to fix the test adapter in a position in which contact pins of the test adapter contact the contact points of the test pad. The locking opening may be formed as a passage opening in the wall of the guide shaft. If it is a locking recess, this can be formed either in the inside of the guide slot or in the outside thereof. A for engaging with the locking hole or locking recess certain locking projection can according to the inside of the outside in the locking hole or a engage correspondingly arranged locking recess. This may simplify the handling of the test adapter, for example during a software update.

In one embodiment, the opening is formed in a parallel to the printed circuit board arranged front wall of an upper housing part having a recess adjacent to the opening, wherein a depression laterally defining wall of the upper housing part forms a lateral wall of the guide shaft. The recess may be intended to receive an element of the electricity meter, for example for an additional module. In the above arrangement, a lateral wall of this depression also serves as a lateral wall of the guide shaft, which allows a particularly compact and material-saving construction of the housing.

In one embodiment, the locking opening or locking recess in the recess defining the side of the recess is formed. In this case, a locking projection on the test adapter can be inserted into the recess to engage from the side of the recess in the locking hole or locking recess and to fix the arrangement of the test adapter.

In one embodiment, the electricity meter is combined with a test adapter having a plurality of contact pins. The number and arrangement of the contact pins can correspond in particular to the number and arrangement of the contact points of the test pad. The contact pins may be in particular spring contact pins. The test adapter may have a front end, on which the contact pins each have a free end, which is provided for contacting a contact point. In addition, the test adapter may have a shank portion with a uniform cross section and a handle portion and / or a plug connection. At the handle portion may be formed a locking projection, for example on a resilient locking arm, so that the test adapter similar to a clip can be attached to the opening of the housing.

In one embodiment, guide elements are arranged on the opening, which interact with complementary shaped guide elements on the test adapter and lead the test adapter when inserted into the opening so that the contact pins impinge on the Prüfpad. The guide elements at the opening may be guide surfaces, in particular inner side surfaces of the guide shaft explained above. Also suitable are guide ribs or grooves. At the test adapter complementarily shaped Fühhrungselemente are provided, so about a shaft portion with outer surfaces which are arranged complementary to the guide surfaces on the opening, or also complementary trained guide grooves or ribs. The guide elements ensure that the test adapter can be inserted only in the intended orientation and / or direction in the housing, so that a simple and reliable contacting of the test pad is achieved.

In one embodiment, a locking projection is formed on the test adapter, which engages in a locking opening or locking recess of the housing when the test adapter is inserted into the opening so that the contact pins contact the test pad. In particular, the locking projection can engage in the locking opening or recess. The test adapter can be very easily fixed in the contacted position.

The invention will be explained in more detail with reference to an embodiment shown in FIGS. Show it:

1 an electricity meter according to the invention with a cover and a terminal cover in a perspective view,

2 the housing of the electricity meter 1 without cover and terminal cover in a perspective view,

3 a test adapter for use with the electricity meter 1 in a perspective view,

4 the arrangement 2 with attached test adapter in a perspective view,

5 a sectional view of the arrangement 4 in a perspective view.

The electricity meter off 1 has a lower housing part 10 , an upper housing part 12 , a cover 14 and a terminal cover 16 on. The lower housing part 10 is about box-shaped and has a in the 1 invisible base plate and a circumferential, frame-shaped section on. The upper housing part 12 is above the lower housing part 10 arranged. The upper housing part 12 and the lower housing part 10 are firmly connected to each other, for example by interlocking locking elements on both housing parts.

The cover 14 is above the upper housing part 12 arranged and consists in the embodiment shown entirely of a transparent plastic material. In the cover 14 Several viewing windows are formed.

The terminal cover 16 is with two sealing screws 18 , each with a pin seal 20 are secured, protected against unauthorized access and arranged on the other housing parts.

2 shows only the lower housing part 10 and the upper housing part 12 of the electricity meter 1 , The two housing parts are still firmly connected. Inside of the lower and upper housing part 10 . 12 formed housing is a not shown in detail circuit board 22 ,

The upper housing part 12 has a front wall 24 on, which is essentially parallel to the circuit board 22 is arranged. There is an opening in it 26 with rectangular cross section. To the edge of the opening 26 closes behind a guide shaft 28 with also rectangular cross section.

The upper housing part 12 also has a recess 30 on, in which, for example, an additional module for the electricity meter can be used. The depression 30 becomes laterally from a lateral wall 32 limited, which is aligned approximately perpendicular to the front wall. This side wall 32 at the same time forms a wall of the guide shaft 28 , In the side wall 32 is in the area of the guide shaft 28 a locking opening 34 educated.

3 shows a test adapter 36 in the opening 26 and the guide shaft 28 can be used. For this purpose, the test adapter 36 a shaft portion 38 on, whose cross section is rectangular and complementary to the cross section of the opening 26 and the inner cross section of the guide slot 28 is. From the front end of the shaft section 38 is a variety of contact pins 40 out. These are spring contact pins. In addition, the test adapter points 36 a grip section 42 and an elastically displaceable arm 44 on, at its lower end a locking projection 46 is trained. When inserting the test adapter 36 in the opening 26 engages the locking projection 46 in the locking hole 34 one. To the test adapter 36 can be seen again, the handle portion 42 be operated like a clamp, whereby the locking projection 46 from the locking opening 34 Will get removed. The contact pins 40 are connected via a not shown electrical line with a connector, also not shown.

4 shows the arrangement 2 with in the opening 26 inserted test adapter 36 , It can be seen that the grip section 42 above from the upper housing part 12 protrudes and that the locking projection 46 in the locking hole 34 is engaged.

In the sectional view of 5 one recognizes again the lower housing part 10 and the upper housing part 12 with the front wall 24 , Good recognizable is also the circuit board 22 and the test pad placed thereon 48 , The shaft section 38 of the test adapter 36 is in the guide shaft 28 inserted and the contact pins 40 Contact the contact points of the test pad 48 , It is also clearly recognizable in the locking opening 34 latched locking projection 46 of the test adapter 36 , The 5 illustrates that the test pad 48 very easy with the test adapter 36 can be contacted after the cover 14 from the upper housing part 12 was removed. In this way, for example, a very simple software update is possible.

LIST OF REFERENCE NUMBERS

10

lower housing part

12

Upper housing part

14

cover

16

terminal cover

18

Sealed

20

Stiftplombe

22

circuit board

24

front wall

26

opening

28

guide shaft

30

deepening

32

lateral wall

34

locking opening

36

Test Fixtures

38

shank portion

40

contact pins

42

handle portion

44

poor

46

locking projection

48

Prüfpad

Claims (12)

Electricity meter with a housing and a printed circuit board arranged in the housing ( 22 ), which has a microprocessor, characterized in that the housing has an opening ( 26 ) and the printed circuit board ( 22 ) a test pad ( 48 ), which comprises a plurality of contact points and relative to the opening ( 26 ) is arranged so that when the housing is closed through the opening ( 26 ) through with a test adapter ( 36 ) can be contacted. Electricity meter, according to claim 1, characterized in that the housing is a lower Housing part ( 10 ), on which the circuit board ( 22 ) and which has a bottom plate or a bottom plate facing, and an upper housing part ( 12 ), in which the opening ( 26 ) is formed, and the test pad ( 48 ) on one of the upper housing part ( 12 ) facing side of the circuit board ( 22 ) is arranged. Electricity meter according to claim 2, characterized in that the printed circuit board ( 22 ) on the of the upper housing part ( 12 ) facing away from another test pad or another contact pad. Electricity meter according to one of claims 1 to 3, characterized in that the housing has a cover ( 14 ), which in a closed position the opening ( 26 ) and protects against unauthorized access. Electricity meter according to one of claims 1 to 4, characterized in that the opening ( 26 ) a guide shaft ( 28 ) having a length in the range of 3 mm to 70 mm. Electricity meter according to claim 5, characterized in that one of the opening ( 26 ) distal end of the guide shaft ( 28 ) at a distance of less than 10 mm from the test pad ( 48 ) ends. Electricity meter according to claim 5 or 6, characterized in that a lateral wall ( 32 ) of the guide shaft ( 28 ) a locking opening ( 34 ) or locking recess has. Electricity meter according to one of claims 5 to 7, characterized in that the opening ( 26 ) in a parallel to the circuit board ( 22 ), front wall ( 24 ) of an upper housing part ( 12 ) is formed, which one adjacent to the opening ( 26 ) well ( 30 ), wherein one of the depression ( 30 ) laterally bounding wall of the upper housing part ( 12 ) a lateral wall ( 32 ) of the guide shaft ( 28 ). Electricity meter according to claim 8, characterized in that the locking opening ( 34 ) or locking recess in the recess ( 30 ) is formed laterally bounding wall. Electricity meter according to one of claims 1 to 9 with a test adapter ( 36 ), which has a plurality of contact pins ( 40 ) having. Electricity meter according to claim 10, characterized in that at the opening ( 26 ) Guide elements are arranged, which with complementary shaped guide elements on the test adapter ( 36 ) and the test adapter ( 36 ) when inserted into the opening ( 26 ) so that the contact pins ( 40 ) on the test pad ( 48 ). Electricity meter according to claim 10 or 11, characterized in that on the test adapter ( 36 ) a locking projection ( 46 ) is formed, which in a locking opening ( 34 ) or locking recess of the housing engages when the test adapter ( 36 ) so in the opening ( 26 ) is inserted, that the contact pins ( 40 ) the test pad ( 48 ) to contact.

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