EP0577956A1 - Casing for solenoid - Google Patents

Abstract

A known casing (housing) for a solenoid (magnet coil) consists of a housing block made from a metallic material, a recess being provided in this block in order to accommodate a solenoid. An opening, which is used for accommodating a support for a contact element which is connected to the solenoid, is provided in the wall of the casing, transversely with respect to the longitudinal axis of the casing. The opening is surrounded by an annular part which extends away outwards from the wall of the casing and is constructed integrally with said wall of the casing. In order to design such a casing for a solenoid to be of simpler construction and such that it can be produced more easily, the casing is formed by a tube (3) whose interior is used as a recess for accommodating a solenoid. The annular part (14, 13) is formed by a tubular depression in the wall of the tube (3). The depression (14, 13) in the tube (3) is used for accommodating at least one part of the contact support (16) which holds the contact element (19). The significant feature is that the casing is made from a magnetically conductive material. <IMAGE>

Description

The invention relates to a housing for a magnetic coil according to the preamble of patent claim 1.

Such a housing for a magnetic coil is available from WABCO Standard GmbH under the device number 442 030 602 0.

The known housing consists of a block made of a metallic material, a recess for receiving a magnetic coil being provided in this block. An opening is provided in the wall of the housing transversely to the longitudinal axis of the housing and serves to receive a carrier for a contact element connected to the magnetic coil. The opening is surrounded by an annular part which extends away from the wall of the housing and is formed in one piece with the wall of the housing by machining.

The invention has for its object to provide a housing for a magnetic coil of the type mentioned, which is simple in construction and can be manufactured inexpensively.

This object is achieved with the invention specified in claim 1. Further developments and advantageous refinements of the invention are specified in the subclaims.

The invention offers in particular the advantage of obtaining a housing which is characterized by a small size Weight and a particularly easy to manufacture. The housing consists only of a tube and a shape of the wall of the tube provided transversely to the longitudinal axis of the tube. The shape of the wall of the tube practically forms the limitation and extension of the opening for receiving the carrier for the contact element.

As a starting material for the housing according to the invention can, for. B. serve a tube sold by the meter.

An end face of the tube is advantageously provided with a bottom which, for. B. consists of a plate made of a magnetically conductive material. The plate can have a centrally arranged through opening, in which a core for the magnet coil is held. This has the advantage that the plate is functionally part of the core of the magnetic coil, whereby a good flow of the electromagnetic field lines is achieved.

Advantageously, the bottom of the housing can also be formed by the end region of the tube, the end region of the tube extending inward in a collar-like manner transverse to the longitudinal axis of the tube. This collar is dimensioned such that it delimits a centrally arranged through opening for receiving the magnetic core.

It is also advantageous to form the tube in one piece with the bottom, for. B. pot-shaped.

It is particularly advantageous to make the tube and the base or with the base from a magnetically conductive Manufacture material, since then the arrangement of a yoke can be dispensed with. The flow of the magnetic field lines takes place via the core, the bottom and the tube with formation.

Characterized in that the opening for receiving the carrier for the contact element is formed as a molding of the wall of the housing and a counter-contact carrier having a counter-contact element is held by a holding element which on the front side of the molding of the tube or on the front side of the carrier for the contact element System comes, it is possible to provide a seal between these two components, so that no special seal between the wall of the formation and the peripheral surface of the carrier for the contact element must be provided.

The holding element for the mating contact carrier can be positively connected to the annular part, which is formed by the formation of the wall of the tube, to the formation or to the contact carrier.

The holding element for the mating contact carrier can consist of a union nut which is screwed onto the shape of the wall of the housing or onto the contact carrier.

The holding element for the mating contact carrier can also consist of a pot-like part for receiving the mating contact carrier. Means can be provided on the holding element and on the formation or the contact carrier, which interact in the manner of a bayonet lock and thus connect the formation or the contact carrier to the holding element.

Two exemplary embodiments of the invention are explained in more detail below with the aid of the drawing.

Figur 1

ein Gehäuse mit Magnetspule, welches eine quer zu seiner Längsachse verlaufende Ausformung und ein von einer Platte gebildetes Bodenteil aufweist,

Figur 2

ein Gehäuse gemäß Figur 1, jedoch ohne Magnetspule und Kontaktelement dargestellt und

Figur 3

ein mit einem Boden einstückig ausgebildetes Rohr, bei welchem der die Kontaktelemente haltende Träger aus der Ausformung herausragt.

Show it:

Figure 1

a housing with a magnetic coil, which has a shape running transversely to its longitudinal axis and a base part formed by a plate,

Figure 2

a housing according to Figure 1, but shown without a magnetic coil and contact element and

Figure 3

a tube formed in one piece with a base, in which the carrier holding the contact elements protrudes from the formation.

Figure 1 shows a tube (3) made of a magnetically conductive material, which is closed at one end by a plate (1) made of a likewise magnetically conductive material. The plate (1) has a centrally arranged through opening (29), in which a core (7) made of a magnetically conductive material is held at one end. The other end face of the tube opposite the plate (1) is closed by an insert (10) which is inserted into this end face of the tube (3) and consists of a magnetically conductive material and which has a circumferential seal (11) which seals the inner wall of the tube (3) rests. The insert (10) has a centrally arranged, stepped through hole (12). The core (7) has a through hole which interacts with valve elements, not shown.

A coil carrier (4) is mounted in the housing (3, 1, 10) formed by the tube (3), the plate (1) and the insert (10). The coil carrier (4) is held in the axial direction by the mutually facing sides of the plate (1) and the insert (10). A coil winding (5) which surrounds it in the circumferential direction is arranged on the coil carrier. The coil carrier (4) has a passage (9) running in the direction of its longitudinal axis, into which the magnetic core (7) extends. The magnetic core (7) has a circumferential seal (8) which sealingly abuts the wall of a tubular part (6) made of a magnetically non-conductive material, which is arranged in the passage (9).

An armature (2) is arranged in the tubular part (6) so as to be movable in the direction of the longitudinal axis of the tube (3) and cooperates with a valve, not shown.

The wall of the tube (3) has a tubular shape (14, 13) which runs transversely to its longitudinal axis and delimits an opening (22) in the wall of the tube (3) leading from the inside of the tube (3) to the outside. The formation (14, 13) extends away from the wall of the tube (3). Thread (23) is cut into the outer lateral surface of the formation (14, 13). In this case, the formation (14, 13) has a widened end region (14).

The annular part formed by the formation (14, 13) serves to receive and hold a carrier (16) for one or more electrical contact elements (19). In this embodiment, only one electrical contact element (19) is shown. The carrier (16) for the contact elements consists of an electrically non-conductive material.

The contact element (19) is held in a bore (17) arranged in the carrier (16). An electrical line (20) fastened to the contact element (19) is guided through a recess (24) in the coil carrier (4) and connected to the coil winding (5). The space between the coil winding (5) and the side of the carrier (16) facing this for the electrical contact element and the cavities between the magnet coil and the coil carrier (4) are filled with a filling material (15), such as. B. a plastic mass, which also serves to fix the electrical lines (20), filled. Said space can of course also be used to hold electrical elements, in which case at least some of the filler material is dispensed with.

To supply the solenoid (5) with a voltage, a counter contact element (18) is provided, which is fastened in a carrier serving as a counter contact carrier (27). To secure the mating contact carrier (27) on the housing (3), a union nut (25) with an internal thread (26) serving as a holding element is provided, which, after the contact element (19) and mating contact element (18) have been plugged together, onto the free end region (14) Forming (14, 13) of the housing (3) is screwed on. From the electrical mating contact element (18) leads an electrical line (21) via a switching device, not shown, to a voltage source, also not shown.

Instead of threading the end region (14) of the formation and screwing a union nut onto the end region (14) of the formation (14, 13), it is also possible to provide a pot-shaped part as a holding element for the mating contact carrier (27). A projection can be arranged on the holding element for the mating contact carrier (27) and a recess corresponding to a bayonet catch can be arranged on the formation (14, 13) or the contact carrier (16).

In the holding element (25) for the mating contact carrier (27), a seal (28) is provided which rests on the end face of the mating contact carrier (27), which seals the end face of the recess (14, 13) and the contact carrier (16) of the housing ( 3) is opposite.

If the mating contact carrier (27) consists of an elastic material, the seal (28) can be dispensed with.

For the sake of clarity, FIG. 2 only shows the housing shown in FIG. 1 again, but without the components accommodated by the housing. For the sake of a better overview, the components that are the same as the components shown in FIG. 1 are provided with the same reference numbers.

The housing for the magnetic coil consists of a tube (3) and a plate (1) which closes one end of the tube (3) and which has a centrally arranged one Has through bore (29) which extends in the direction of the longitudinal axis of the tube (3). An opening (22) in the wall of the tube (3), which serves to lead through a part of a contact element and an electrical line connected to it, is delimited by a shape (14, 13) of the wall of the tube (3). The formation (14, 13) runs transversely to the longitudinal axis of the tube (3) and extends outward from the cylindrical part of the tube.

The shape (14, 13) of the wall of the tube (3) is designed as an annular part which is part of the tube (3). A widened area (14) of the formation (14, 13) adjoins the part (13) of the formation (14, 13) of the pipe which directly adjoins the wall of the pipe and has threads (23) cut into its outer lateral surface. The transition from the non-expanded area (13) to the expanded area (14) can serve as a stop for the carrier (16) for the contact elements (19). At least a partial area of the expanded area (14) can also be flanged around at least a partial area of the carrier (16) for the contact elements (19).

However, it is also possible to dispense with widening of the area (14) if the end face of the formation (14, 13) serves as a stop for the contact carrier (16).

It is important that the formation (14, 13) is open on its end face, so that the carrier for the electrical contact element can be inserted into the formation from the outside, and that the housing consists of a magnetically conductive material.

Instead of screwing the union nut onto the formation (14, 13), it is also possible to let the support for the electrical contact element protrude a little from the formation, to provide the outer surface of the support with a thread for the electrical contact element and the holding element for the screw the mating contact carrier (e.g. the union nut) onto the carrier for the contact element.

Of course, it is also possible to design the means for connecting and securing the contact carrier and counter-contact carrier in the manner of a bayonet lock, as already described above.

The connection between one end of the tube (3) and the plate (1) can, for. B. be produced by welding.

FIG. 3 shows a housing for a magnetic coil that is comparable with the housings shown in FIGS. 1 and 2. For the sake of a better overview, the components that are the same as the components shown in FIGS. 1 and 2 are provided with the same reference numbers.

In contrast to the housings shown in FIGS. 1 and 2, which each have a plate (1) which is welded to one end of a tube, the housing according to FIG. 3 is formed in one piece. Instead of providing one end face of the tube (3) with a plate, the tube (3) is provided on this end face with a collar-shaped deformation (30) which extends transversely to the longitudinal axis of the tube (3) in the direction of the central axis of the tube (3) too extends. As The base part for the housing (3, 30) serving for forming (30) of the tube (3) has a centrally arranged through opening (31) in which a magnetically conductive core, not shown, is held.

The bottom of the housing (such as the plate or the bottom of the cup-shaped housing) need not have a through opening. It is also possible to bring the core to the plant directly on the ground.

The tube (3) has a shape (13) running transversely to its longitudinal axis, which practically represents an extension of the opening (22) in the wall of the tube (3) and serves to receive a carrier (16) for a contact element. The end face of the tube (3) opposite the deformation (30) of the tube (3) is closed by an insert, not shown, which has a centrally arranged through-hole through which components located inside the housing (3, 30) with outside the housing ( 3, 30) located components can be connected, as is the case with the housing according to Figures 1 and 2. The contact carrier (16) protrudes a little from the formation (13). Such an arrangement of the contact carrier (16) is also possible in the exemplary embodiments according to FIGS. 1 and 2.

The housing (3) consists of a metallic, magnetically conductive material. The contact carrier as well as the mating contact carrier and the coil carrier are preferably made of plastic or an electrically non-conductive other material.

The housing (3) can be manufactured in a simple manner. A pipe is clamped in a device. An elastomer is then introduced into the tube and this elastomer is subjected to force in the direction of the longitudinal axis of the housing.

As a result of this process, part of the wall of the tube is pressed into a predetermined free space in the device. The bottom area of the expressed wall part of the tube is then opened and brought into its final shape by calibration, whereby the axial extension of the formed wall wall (3) is achieved in two stages. The molded part (molding) of the wall of the tube can be widened in its free end area, so that a part to be inserted into the molding (contact carrier) can be connected to the molding by crimping.

The housing can also be made so that the tube and the bottom part are formed as an integral pot-shaped part. This one-piece cup-shaped housing can, for. B. be produced in the drawing process.

Claims (13)

Housing for a magnetic coil with the following features: a) the housing has a recess for receiving a magnetic coil; b) transverse to the longitudinal axis of the housing, an opening is provided in the wall of the housing for receiving a carrier for at least one contact element connected to the magnetic coil; c) the opening is surrounded by an annular part which extends away from the wall of the housing and is formed in one piece with the wall of the housing; characterized by the following features: d) the housing is formed by a tube (3), the interior of which serves as a recess for receiving the magnetic coil; e) the annular part is formed by a tubular shape (14, 13) of the wall of the tube (3); f) the contact carrier (16) is at least partially arranged in the formation (14, 13) of the tube (3). Housing according to claim 1, characterized in that a bottom part (1, 30) is provided on one end face of the tube (3). Housing according to claims 1 and 2, characterized in that the tube (3) and the base part (30) is designed as an integral pot-shaped part. Housing according to at least one of the preceding claims, characterized by the following features: a) a holding element (25) is provided for a counter contact carrier (27) having a counter contact element (18) and located outside the housing (3, 30); b) the holding element (25) for the mating contact carrier (27) can be positively connected to the annular part (14, 13) and / or to the contact carrier (16). Housing according to at least one of the preceding claims, characterized in that the outer lateral surface of the formation (14, 13) of the wall of the tube (3) has a thread (23) which serves to fasten the holding element (25). Housing according to at least one of the preceding claims, characterized in that means are provided on the shape (14, 13) and / or the contact carrier (16) and on the holding element (25) holding the counter-contact carrier (27) in the manner of a bayonet catch work together. Housing according to at least one of the preceding claims, characterized in that the bottom part of a radially inwardly extending collar-shaped part (30) of the tube (3) is formed. Housing according to at least one of the preceding claims, characterized in that the base part is formed by a plate (1) attached to one end face of the tube (3). Housing according to one of the preceding claims, characterized in that the base part (1, 30) has a through opening (29, 31). Housing according to at least one of the preceding claims, characterized in that a sealing element (28) is arranged on the side of the holding element (25) holding the mating contact carrier (27) facing the formation (14, 13) of the tube (3), said sealing element (28) sealingly the end face of the formation (14, 13). Housing according to at least one of the preceding claims, characterized in that the holding element (25) for the mating contact carrier (27) is formed by a union nut. Housing according to at least one of the preceding claims, characterized in that the holding element for the mating contact carrier (27) is formed by a cup-shaped part with holding means for a bayonet connection. Housing according to at least one of the preceding claims, characterized in that the other end face of the tube (3) is closed by an insert (12).

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