EP1429420A1 - Connecting device, in particular for electrical installation - Google Patents

Abstract

The connector has an insulating housing defining receptacles (7,8,11) in which connection terminals (12,13) are arranged for connection to electrical lines. An electrical component (15) is arranged in one of the receptacles (11), and is connected to at least two terminals via connecting lines which are formed as spring contacts (44,45).

Description

The invention relates to a connection device, the is provided in particular for electrical equipment.

Electrical equipment can be used for ballasts Gas discharge lamps, in particular so-called ballasts, Small transformers or the like. Occasionally must be such as electrical equipment designated, devices are connected upstream, the to protect the devices, to meet general safety conditions, for interference suppression or for other purposes serve. In addition, such equipment must be external Network are connected, for which purpose a connection device anyway is required.

From DE 199 15 355 A1 is an electrical Connection or connecting terminal known as a connection device for electrical equipment serves. The connection terminal has a terminal housing a temperature-sensitive element housed in it on. This is on the underside of the terminal box attached in such a way that it heats up a carrier plate, on which it is mounted, is affected first. The terminal box contains three individual, side by side arranged terminal elements, two of which are connected to the electrical Component are connected. Every terminal element each has two clamping screws, two of which are for Define connecting wires of the component.

The thermally sensitive electrical component lies in a separate chamber and thus takes it Temperature. The response speed, in particular on rapid temperature changes depends on the quality the heat transfer between the heat transfer wall of the Housing and the component.

Are the connecting wires of the electrical component secured by clamping screws in case of improper later installation of one with such a connection device provided equipment accidentally a clamping screw be solved with which the component is connected is. If this goes unnoticed, it can cause malfunctions come.

Based on this, it is an object of the invention to Connection device with increased operational reliability create.

This task is carried out with the connection device Claim 1 solved:

The connection device according to the invention has Housing on in which the connection terminals and in addition at least one electrical component are accommodated. The electrical component is via spring contacts with the Connected terminals, the spring contacts of are not accessible from the outside. You are thus in front of the outside Protection against manipulation - by connecting and disconnecting of individual lines from the connection terminals the electrical contact between the spring contacts and the Terminals are not affected.

It has been shown that the reliability of a such connection device is very good.

The connection device according to the invention also allows a particularly simple manufacture. It just has to the housing with the connection terminals and the electrical Component are populated. This is a pure joining process, where the spring contacts on the corresponding Connect terminals. Special other measures are not to be met.

In a preferred embodiment there is a connection terminal designed as a feedthrough clamp while the other two connection terminals each with one connection (Spring contact) of the component, but not are interconnected. The latter two Terminals are preferably arranged on a line, the parallel to the longitudinal axis of the other, two Terminal points, aligned terminal is. This allows the connection device to be seen from above be designed like a conventional luster terminal, the Connection requires no special attention. The correct connection does not depend on whether the user concerned is aware that in the housing an electrical switching element is arranged.

The connection terminals are preferably screw terminals educated. However, if necessary, they can also as spring clips, insulation displacement contacts or otherwise be trained. Mixed contact systems are also possible, where both spring terminals and screw terminals available.

The electrical component can be a PTC resistor be used as a temperature sensitive current limiting device serves. In modified embodiments, this can Component can also be designed as a varistor, the overvoltages between the two parallel to each other, then as Through contacts. It can also be used as an interference suppression capacitor or as another electrical component be formed. preferably, it’s a temperature sensitive device, that between the terminals and the bottom Wall of the housing is arranged to be as quick as possible to detect the temperature of the carrier on which the connection device is mounted.

It is considered particularly advantageous when the component is pressed against the lower housing wall is. This can be done by a spring means integrated into the housing or also by some other spring means. Serve in a particularly simple embodiment the spring contacts also as spring means for pressing the Component to the heat transfer wall of the housing.

The component is preferably in by locking means secured the housing. It can then be inserted after the Terminals in the housing simply in a corresponding Compartment of the same are inserted, the spring contacts, the necessary electrical connections automatically produce. In addition, the two chambers are for the concerned Terminals with the receiving chamber for the electrical Component connected. The two reception chambers for the connection clamps from the receiving chamber for the wall separating the component can have a corresponding one Have slot that penetrated by the spring contacts becomes.

Figur 1

ein elektrisches Betriebsmittel mit der erfindungsgemäßen Anschlusseinrichtung,

Figur 2

das Betriebsmittel nach Figur 1 in einer teilweisen geschnittenen Seitenansicht,

Figur 3

das Betriebsmittel nach Figur 1 und 2 in einer Stirnansicht,

Figur 4

die Anschlusseinrichtung des Betriebsmittels nach den Figuren 1 bis 3 in einer schematisierten und reduzierten Schnittdarstellung,

Figur 5 und 6

die Anschlusseinrichtung nach Figur 4 in Perspektivdarstellungen,

Figur 7

die Anschlusseinrichtung in einer Stirnansicht und

Figur 8

die Anschlusseinrichtung geschnitten entlang der Linie A-A in Figur 8.

Further details of advantageous embodiments of the invention are the subject of the drawing, the description or the subclaims. An exemplary embodiment of the invention is illustrated in the drawing. Show it:

Figure 1

electrical equipment with the connection device according to the invention,

Figure 2

1 in a partially sectioned side view,

Figure 3

the equipment of Figure 1 and 2 in a front view,

Figure 4

the connection device of the equipment according to Figures 1 to 3 in a schematic and reduced sectional view,

Figures 5 and 6

the connection device according to Figure 4 in perspective views,

Figure 7

the connection device in a front view and

Figure 8

the connection device cut along the line AA in Figure 8.

In Figure 1 is a ballast 1 for a Fluorescent lamp illustrated. The ballast choke 1 stands for various electrical equipment, via a connection device according to the invention 2 can be connected electrically. The series choke 1 comprises a carrier plate 3, which has an iron core 4 with a winding 5 and the connection device 2 wears.

The connection device 2 has, for example made of plastic and thus electrically insulating Housing 6, which is screwed to the carrier plate 3 is. The housing 6 encloses receiving spaces 7, 8, 9, 11, in those, as illustrated in Figures 2 and 3, terminals 12, 13, 14 and an electrical component 15 are arranged.

The connection terminals 12, 13, 14 are by their clamping screws held in their respective recording rooms 7, 8, 9. In addition, they can be frictionally engaged in the housing 2 sit. The connection terminals 14 form a feed-through terminal, whose a clamping screw for connecting a supply line and their other clamping screw for contacting a connection the winding 5 is used. To contact the other Connection of the winding 5 is the connection terminal 13, while the terminal 12 for connecting an outer Line serves.

The basic structure of the connection device 2 can be seen from Figure 4 and Figure 5. The housing 6 has two approximately cuboid sections arranged side by side 16, 17 on each other by two, one Fastening bore 18 defining webs 19, 21 connected are. Extend from the top of sections 16, 17 tubular extensions 22, 23, 24, 25 away, which, as in Luster terminals common, in two parallel rows are arranged and house clamping screws. Figure 4 illustrates the clamping screws 26, 27 of the connection terminals 12, 13. The recording rooms 7, 8 that house them are separated from each other by a partition 28 and are electrical isolated. They are also from the recording room 9 (Figure 5) electrically isolated.

The receiving space 11 is below the receiving spaces 7, 8 arranged and separated from it by a bottom 29. As can be seen from FIG. 8, this does not take the entire one Base area of the recording rooms 7, 8, but leaves, entirely on the contrary, a slot 31 free through which the receiving spaces 7, 8 are connected to the receiving space 11.

The electrical component 15 is preferably approximately cuboid and lies with its flat underside 32 on a thin lower housing wall 33, the the housing 6 closes at the bottom. The housing wall 33 is flat in the assembled state of the connection device 2 on the carrier plate 3. Power transmission with regard to the support of a clamping screw, which passes through the mounting hole 18 outgoing Forces lateral webs 34, 35, 36, 37 (Figure 5 and 6), the Completely close the receiving space 11 or below of the receiving space 9 from the bottom of the carrier plate 3 to extend.

The receiving space 11 is a flat, cuboid Space below the receiving space 7 to one end is open, as Figures 4 and 5 illustrate. The receiving space 11 is on the opposite side also open, as Figure 6 illustrates, lateral Projections 38, 39 narrow the opening. If necessary, the housing can also be completely closed here, like figure 4 shows. The projections 38, 39 or one continuous there Wall serves as a sling for the component 15. Zur Securing the same in the receiving space 11 serves a locking means 41, through one or more, on the housing wall 33 formed locking lugs 42, 43 is formed, as Figure 4 illustrated in connection with Figure 7. The latches 42, 43 each have an oblique ramp shape towards the outside while falling steeply inside. In Due to the inherent elasticity of the housing wall 33, they can dodge resiliently when the component 15 in the receiving space 11 is pushed.

The component 11 is, for example, a thermal switch or a combined current-sensitive thermal switch. This can be in the form of a PTC element, for example be trained that preheated by current flow and at Reaching a transition temperature becomes high resistance. The component 15 connects the two connection terminals 12, 13 electric. For this purpose it has at least two spring contacts 44, 45 on the top 46 or the end faces 47, 48 of the component 15 stand obliquely upwards. Preferably are the spring contacts 44, 45 slightly curved, wherein they form an acute angle with the top 46. They can be directed towards each other or also directed directly be arranged. The spring contacts 44, 45 are preferred protected against corrosion, for example by a Silver coating. The base material can be spring steel. The Terminals 12, 13 are also preferably with the same material (e.g. silver) protected against corrosion. The on their preferably flat underside 44, 45 thus make reliable electrical contact forth. In addition, they load the component 15 in the direction on the housing wall 33 and thus form a spring means, that for the flat contact of the bottom 32 on the Housing wall 33 contributes.

The connection device 2 is installed as follows:

After manufacturing the housing 6 and providing the Terminals 12, 13, 14 become the terminals 12, 13, 14 first inserted into their receiving spaces 7, 8, 9 or, if they have a certain excess, pressed in. For example, the receiving space 9 can be provided with ribs 51 be that narrow him and a press fit of those concerned Effect terminal 14. Such projections, ribs or the like can also in the other recording rooms 7, 8 can be provided. After inserting the clamping screws the terminals 12, 13, 14 are in place secured.

In a further step, for example in another workshop from a customer or supplier can be executed, the component 15 is now in the Recording room 11 used. To do this, it is only in Inserted in the longitudinal direction (from right to left in FIG. 4), its spring contact 44 through the slot 31, according to Figure 8 is running. Thus both spring contacts reach each the associated terminal 12 or 13. The spring contacts 44, 45 can be diagonally opposite Positions of the component 15 may be arranged so that the Component 15 in two possible positions in the receiving space 11 can be used. For this purpose, the bottom 29 is like Figure 8 illustrates, preferably shortened, so that it the receiving space 8 downwards, i.e. to the recording room 11, essentially leaves blank. Should, however, one Confusion of direction of the component 15 can be avoided, the bottom 29 can be extended accordingly, whereby then a correspondingly polarized component only in one Direction of insertion are introduced into the receiving space 11 can.

In all cases, the connection device efficient and automated production. This is especially true with regard to the screwless connection technology between the component 15 and the terminals 12, 13. It this results in a compact design of the connection device 2. In addition, there is a total of only two poles Version in contrast to previously known three-pole Versions that do not rule out confusion between assemblies.

In an improved connection device 2 is a in this housed electrical component 15 over screwless contacts, for example spring contacts 44, 45, with two otherwise electrically separated Terminals 12, 13 connected. This enables one particularly efficient assembly, the spring contacts 44, 45 at the same time an improvement in the heat transfer to the Component 15 can cause if this as a temperature sensor is trained. This is achieved by the spring contacts 44, 45 the component 15 against an underside Press the housing wall 33 of the housing 6.

Claims (18)

Connection device (2), in particular for electrical equipment, with a housing (6) which consists of an electrically insulating material and which delimits a plurality of receiving spaces (7, 8, 9, 11), with connecting terminals (12, 13, 14) which are arranged in different receiving spaces (7, 8, 9) and which are set up for connecting electrical lines, and having an electrical component (15) which is arranged in one of the receiving spaces (11) of the housing (6) and is connected to at least two connecting terminals (12, 13) via connecting lines, characterized in that the connecting lines are designed as spring contacts (44, 45). Connection device according to claim 1, characterized in that one of the receiving spaces (9) has no connection to other receiving spaces (7, 8, 11) and serves to receive a feed-through terminal (14), whereas two further receiving spaces (7, 8) which are used for Serve each of a connection terminal (12, 13), each connected to a receiving space (11) which serves to receive the electrical component (15). Connection device according to claim 2, characterized in that the receiving spaces (7, 8), each for receiving a connecting terminal (12, 13), are arranged in a row which is arranged parallel to the receiving space (9) for the lead-through terminal (14). Connection device according to claim 1, characterized in that the connection terminals (12, 13, 14) are screw terminals. Connection device according to claim 1, characterized in that the connection terminals are spring terminals. Connection device according to claim 1, characterized in that the connection terminals (12, 13), which are in electrical connection with the electrical component (15), each have a base surface, on each of which a spring contact (44, 45) of the electrical component (15 ) is present. Connection device according to claim 6, characterized in that the base surface is flat. Connection device according to Claim 1, characterized in that the connection terminals (12, 13) which are in electrical connection with the electrical component (15) are provided, at least in those areas, with a corrosion-protective, electrically conductive coating which is in contact with the spring contacts (44, 45 ) are in contact. Connection device according to claim 1, characterized in that the spring contacts (44, 45) are provided with a corrosion-inhibiting, electrically conductive coating. Connection device according to claims 8 and 9, characterized in that the coating of the spring contacts (44, 45) matches the coating of the connection terminals (12, 13) Connection device according to claim 1, characterized in that the electrical component (15) is a temperature-sensitive component. Connection device according to claim 1, characterized in that the electrical component (15) is a current-sensitive component. Connection device according to claim 1, characterized in that the electrical component (15) is a temperature and current sensitive component. Connection device according to claim 1, characterized in that the component (15) is a switch element. Connection device according to claim 12, characterized in that the component (15) has a switching hysteresis. Connection device according to claim 1, characterized in that the component (15) is secured in the housing (6) by latching means (41). Connection device according to claim 1, characterized in that the component (15) is pressed by a spring means (44, 45) against a heat-transmitting housing wall (33) of the housing (6). Connection device according to claim 17, characterized in that the spring means (44, 45) is formed by the spring contacts (44, 45).

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