DE202015008918U1 - Electrical connection device - Google Patents

Abstract

Electrical connection device (14) for an electromagnetic valve (4) having a temperature sensor (10) for detecting a medium temperature, with an electrical contact plug (15), characterized in that the electrical contact plug (15) is part of a common housing (13), which also has an actuator coil (12) for the electromagnetic valve (4) and a plug contact (18) for electrical contacting of the temperature sensor (10) during assembly of the housing (13) on the valve (4).

Description

The invention relates to an electrical connection device with a contact plug according to the closer defined in the preamble of claim 1. The invention also relates to an electromagnetic valve with a temperature sensor and such an electrical connection device. Furthermore, the invention relates to the use of such an electromagnetic valve.

Electromagnetic valves with a temperature sensor are known from the prior art and are used, for example, in compressed gas containers, on the one hand to detect the temperature of the medium in the compressed gas container and on the other hand, for example, to control a removal of the medium from the compressed gas container via the electromagnetic valve. By way of example may be in the context of DE 10 2014 002 660 A1 be referenced, which describes such a structure.

In practice, it is now so that the wiring and the connection of the temperature sensor and the electromagnetic valve or an actuator coil of the same is relatively expensive, which makes the structure so very expensive in terms of the electrical system, if maintenance is necessary.

The object of the present invention is now to provide an electrical connection device for an electromagnetic valve and an electromagnetic valve, which / which avoids the disadvantages mentioned and allows easy and reliable installation.

This object is achieved by an electrical connection device with the features in claim 1. An electromagnetic valve device with such an electrical connection device is specified in claim 6. In claim 10 is also called a particularly preferred use of the electromagnetic valve. Further advantageous embodiments will be apparent from the respective dependent claims.

In the electrical connection device according to the invention for an electromagnetic valve with a temperature sensor for detecting a fluid temperature, it is provided that the electrical contact plug is part of a housing, which also has an actuator coil for the valve and a plug contact for electrically contacting the temperature sensor during assembly of the housing having the valve. The electrical connection device thus consists essentially of a housing, which on the one hand has a contact plug, so as to ensure, for example, the contact with an electrical connection line, in particular a wiring harness in a vehicle application. About a contact plug while a very simple in terms of installation and thus less error-prone contacting is possible. The electrical connection device itself in this case directly comprises the actuator coil for the electromagnetic valve, so that it can be mounted together with the housing and not separately mounted and connected. In addition, the electrical connection device comprises a plug contact, which is contacted during assembly with the temperature sensor. The temperature sensor is mounted, for example, as in the aforementioned DE 10 2014 002 660 A1 is described. It is accessible from the rear side, ie the side of the electromagnetic valve device facing away from the pressurized medium, when used as a tank valve in a pressurized gas container, via a bore. This makes the assembly and the electrical contact with the conventional structures extremely expensive. With the electrical connection device according to the invention, a contacting of the temperature sensor can now be easily achieved via the plug contact, for example by this is designed so that it extends over a hole to the temperature sensor or its electrical connections. Then can be achieved by the sole placement of the electrical connection device with the integrated coil and carried out in the contacting contact of the electrical temperature sensor, a connection of all the necessary electrical connections. This makes assembly extremely easy, efficient and fault-tolerant.

The plug contact is in accordance with an advantageous development of the idea as well as the coil connected to the contact plug, so that via this single contact plug, the connection can be made, for example, the connection with a harness for driving the electromagnetic valve on the one hand and for the evaluation of temperature data on the other.

The object according to the invention is also achieved by an electromagnetic valve with a temperature sensor and such an electrical connection device according to the invention. An advantageous development of the electromagnetic valve device according to the invention provides in this case that the temperature sensor and / or its inclusion in the valve has a mark for angularly accurate mounting. Such a marking for angularly accurate mounting of the temperature sensor makes a reliable mounting of the above-described electrical connection device according to the invention very simple. Due to the angular alignment of the temperature sensor are also its electrical contacts aligned with an angle, without having to resort to specially trained contacts such as annular contacts here. Rather, a sufficiently accurate interaction with the mating contacts in the plug contact can be achieved by a precise angular mounting of the temperature sensor, so that the assembly and the structure of the electrical connection device according to the invention is thereby further simplified.

Furthermore, it can be provided that the electrical connection device is connected to the valve via a single releasable connection means. Such a connection means may in particular be a screw arranged axially and centrally in the region of the coil. After plugging in the electrical connection device, in which a contacting of the temperature sensor via the plug contact, this can be secured on the valve by, for example, in the region of the electric magnetic coil at the upper end a screw is introduced to this with a suitable counter element connect. Both the positioning of the electromagnetic coil in the required position and the electrical contacting of the temperature sensor can then be achieved via the single screw. Via the contact plug, this structure prepared in this way can then be contacted extremely extraordinarily simply and efficiently, the transfer of all necessary services and / or data being ensured in the contact plug by a sufficient number of connecting poles.

Furthermore, it may be provided in the electromagnetic valve according to the invention in an advantageous development of the idea that the plug contact of the connection device and the temperature sensor at an angle of 90 ° to each other. This allows a contacting of the components not in alignment with each other, but at an angle to each other, which is extremely reliable in terms of assembly and very reliable even with higher component tolerances, when the electrical contacts have sufficient flexibility and size.

The electromagnetic valve with a temperature sensor and the ability to mount it extremely easily and efficiently via the electrical connection device is now particularly suitable for use in applications which require correspondingly high numbers of units. It can therefore be used in particular in the field of tank valves of pressurized gas containers, especially when the pressurized gas containers find their preferred use for storing fuel in the form of compressed natural gas or compressed hydrogen in vehicles.

Further advantageous embodiments of the electrical connection device according to the invention and the electromagnetic valve according to the invention will become apparent from the remaining dependent claims and will be apparent from the embodiment, which is described below with reference to the figures.

Showing:

1 a principle indicated vehicle with a compressed gas tank;

2 a view of an electromagnetic valve in an embodiment as a tank valve for the compressed gas tank;

3 a view of the same valve from the direction of III in 2 ; and

4 a possible embodiment of an electrical connection device according to the invention in a three-dimensional representation.

In the presentation of the 1 is purely an example of a vehicle 1 indicated. This is said to be powered by a gaseous fuel, such as compressed natural gas or compressed hydrogen. The fuel can be converted, for example, in an internal combustion engine or in particular in a fuel cell system, in the case of hydrogen, in drive power. For storing the compressed gas, for example hydrogen at a nominal pressure of 70 MPa, is a storage device 2 in the vehicle 1 intended. The storage device 2 typically includes several individual pressurized gas containers 3 , which in the representation of the 1 are indicated. Each of these compressed gas tanks 3 carries a tank valve connected to it 4 which is also referred to as OTV (On Tank Valve). An exemplary construction of such a tank valve is shown in the illustrations of 2 and 3 indicated. The tank valve 4 is as an electromagnetic tank valve 4 educated. It may for example be realized in the form of a so-called pilot valve, which is fundamentally known from the prior art, and exemplified in the DE 10 2013 019 879 A1 the applicant is described.

In the presentation of the 2 is now such a tank valve 4 , from the viewpoint of the compressed gas tank 3 without recognizing it, recognizing it. The tank valve 4 includes a valve housing 5 , in which purely by way of example two with 6 designated connections are indicated, for example, for the supply and removal of gas. In the middle of the tank valve 4 is one with 7 To recognize designated area, which in the assembled state of the tank valve 4 in the compressed gas tank 3 protrudes. In the presentation of the 3 , A side view from the direction of the arrow indicated by III in 2 , this structure is easier to recognize. Furthermore, this projecting in the direction of the compressed gas tank area 7 one with 8th designated thread on, which in the illustration of 3 is indicated. With this thread 8th is the tank valve 4 with the corresponding receptacle, which is typically referred to as BOSS, the compressed gas tank 3 screwed.

The area 7 points, as it again in the representation of the 2 to recognize one with 9 designated communication connection on, via the gas in the compressed gas tank and from the compressed gas tank to the tank valve 4 can flow. Further, a temperature sensor 10 intended. This is in a conventional manner, and for example in the manner as by the aforementioned DE 10 2014 002 660 A1 described, formed and includes a shell, which encloses the actual sensor element, for example, an NTC resistor. This temperature sensor 10 with its shell, for example, with the area 7 be bolted. He has in particular one in the representation of 2 area to be recognized 11 on which also in the representation of the 3 indicated by a cross as area. This allows angular alignment of the temperature sensor 10 during assembly, which may be useful for reasons described later.

For actuating the solenoid-controlled valve 4 this has as an actuator an electromagnetic coil 12 auf, which in particular in the representation of 2 is very easy to recognize. It is located in a housing 13 one in its entirety 14 designated electrical connection device. This shows next to the electromagnetic coil 12 as another part of the case 13 a contact plug 15 over which a connection, for example, to a wiring harness of the vehicle 1 can be done so the electromagnetic coil 12 as actuator coil of the tank valve 4 head for. In its overall structure is the electrical connection device 14 in an exemplary three-dimensional representation in 4 to recognize. That in its entirety with 13 designated housing has the actuator coil 12 in particular in the housing 13 shed on. In addition, the contact plug 15 to recognize. This runs essentially at right angles to the central axis of the actuator coil 12 , For mounting the actuator coil 12 can by a in the representation of the 4 With 16 designated central opening in the actuator coil 12 one in the 2 and 3 With 17 designated screw to be so the electrical connection device 14 with the valve body 5 to screw. The actuator coil 12 can then with the corresponding parts, for example, the pilot valve in the valve housing 5 interact in the desired manner.

As it is in the presentation of 4 can be seen, the electrical connection device 14 plus one with 18 designated plug contact. This runs parallel to the axis of the actuator coil 12 and extends in the assembled state of the electrical connection device 14 in the valve body 5 into it. This is in the presentation of 2 indicated by dashed lines. The valve housing 5 has a suitable opening 19 on, in which the plug contact 18 can protrude.

In the presentation of the 3 again it can be seen that the temperature sensor 10 through the whole area 7 of the tank valve 4 protrudes, for example, in turn, analogous to the aforementioned DE-font. He typically has in his the valve body 5 facing end corresponding connection elements, which are not visible here. It ends in the area of the opening 19 for the plug contact 18 , Will now be the electrical connection element 14 on the valve body 5 mounted, then protrudes the plug contact 18 in the valve body 5 and comes into electrical connection with the temperature sensor 10 or its the valve housing 5 facing plug contacts. To this contact, which typically by a rectangular mating of the plug contact 18 and the temperature sensor 10 is done, safe and reliable, it is, as already mentioned, important that the angular orientation of the temperature sensor 10 Right. For this purpose, different measures and markers could be provided. In the embodiment shown here, this is through with 11 achieved designated area, which is aligned so that, for example, parallel to the edge of the valve housing 5 runs, on which the electrical connection device 14 is mounted.

With mounted temperature sensor 10 can therefore by simply plugging the electrical connection device 14 a contact of the temperature sensor 10 with the plug contact 18 and thus ultimately with the contact plug 15 the electrical connection device 14 be achieved. Also the actuator coil 12 is inside the electrical connection device 14 with other poles of the contact plug 15 connected. So it is enough, the electrical connection device 14 aufzustecken to achieve the appropriate contact. Then it can, as already mentioned, by the screw 17 be secured. This creates the possibility of the electrical connection device 14 the tank valve 4 extraordinarily easy to contact electrically and during installation or assembly the necessary electrical connections to the contact plug 15 to ensure. About one Connector on the wiring harness of the vehicle 1 can the contact plug 15 then be contacted with the appropriate control devices to ensure reliable functionality of the tank valve 4 and to ensure an evaluation of the temperature signal.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102014002660 A1 [0002, 0006, 0020]
• DE 102013019879 A1 [0018]

Claims (10)

Electrical connection device ( 14 ) for an electromagnetic valve ( 4 ) with a temperature sensor ( 10 ) for detecting a medium temperature, with an electrical contact plug ( 15 ), characterized in that the electrical contact plug ( 15 ) Part of a common housing ( 13 ), which also has an actuator coil ( 12 ) for the electromagnetic valve ( 4 ) and a plug contact ( 18 ) for electrical contacting of the temperature sensor ( 10 ) during assembly of the housing ( 13 ) on the valve ( 4 ) having. Electrical connection device ( 14 ) according to claim 1, characterized in that the plug contact ( 18 ) and the actuator coil ( 12 ) in the housing ( 13 ) electrically with poles of the contact plug ( 15 ) are connected. Electrical connection device ( 14 ) according to claim 1 or 2, characterized in that the plug contact ( 18 ) in alignment or parallel to the central axis of the actuator coil ( 12 ) is arranged. Electrical connection device ( 14 ) according to claim 1, 2 or 3, characterized in that the contact plug ( 15 ) at an angle of approximately 90 ° to the actuator coil ( 12 ) and / or the plug contact ( 18 ) is arranged. Electromagnetic valve ( 4 ) with a temperature sensor characterized by an electrical connection device ( 14 ) according to one of claims 1 to 4. Electromagnetic valve ( 4 ) according to claim 5, characterized in that the temperature sensor ( 10 ) and / or its reception in the valve housing ( 5 ) a mark ( 11 ) has the exact angle mounting. Electromagnetic valve ( 4 ) According to claim 5 or 6, characterized in that the electrical connection means ( 14 ) via a single releasable connection means ( 17 ) with the valve housing ( 5 ) connected is. Electromagnetic valve ( 4 ) according to claim 7, characterized in that the releasable connecting means as an axially and centrally in the region of the actuator coil ( 12 ) arranged screw ( 17 ) is executed. Electromagnetic valve ( 4 ) according to one of claims 5 to 8, characterized in that the plug contact ( 18 ) of the electrical connection device ( 14 ) and the temperature sensor ( 10 ) at an angle of approximately 90 ° to each other. Use of an electromagnetic valve ( 4 ) according to one of claims 5 to 9, as a tank valve ( 4 ) on a pressurized gas container ( 3 ).

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