DE2808355C3 - High-voltage connection device for a flash lamp of a laser excitation device - Google Patents

Description

The invention relates to a high voltage S 'connection device for a flash lamp of a laser excitation device.

As excitation light sources for laser excitation devices Flash lamps are often used. These must be mechanical within the excitation device are held and require a corresponding high voltage supply for ignition, which certain Requirements, in particular with regard to dielectric strength and thermal conductivity, must meet.

The invention is therefore based on the object of providing a flash lamp of a laser excitation device to create such a connection for the mechanical mounting of the lamp and for the high voltage supply.

Ό This task is performed with a high-voltage connection device solved according to the invention in that the connection · and holding element for the Flash lamp consists of an approximately right-angled ceramic part IUS aluminum oxide ceramic, the legs of which are each provided with a hole that the two holes both to each other and to each other legs run approximately vertically and open into each other at their ends that the holes in the area of the ends that merge with one another with an electrically conductive layer and with one on each contact socket for the flash lamp or the inner conductor of a high-voltage cable are provided and that the ceramic part on its outer surfaces almost completely with another electrically conductive layer coated and at the free end of one leg with a plug-in pin is provided

The high-voltage connection device according to the invention is made of alumina ceramic and thus a material that is particularly good as a high-voltage connection element in terms of dielectric strength and thermal conductivity is suitable for flash lamps in laser excitation devices and also has the advantage that it is entirely or partially with a electrically conductive layer, e.g. B. can be provided with a metal layer. The inside partially and outside Almost completely applied electrically conductive layer forms the forward and return lines of the ignition pulse. In addition, the inner conductive layer connects the

■ to both contact sockets electrically with one another. The inventive design also enables both a plug-in connection of a high-voltage cable to an electrode of the flash lamp, taking into account the required creepage distances and dielectric strength, and a plug-in mechanical mounting of the flash lamp. In this way, the high-voltage supply and mechanical mounting can be achieved particularly easily and with little assembly effort by means of plug-in connections. In the event of maintenance, this type of bracket facilitates quick and easy replacement of the flash lamp. The outer electrically conductive layer can advantageously be used as an outer shielding of the connection and thus as an electrical; S <hirmung the high voltage pulse and can be used by means of the spigot at a free leg end to the plug-in connection to the shield of high-voltage cable. In addition, good heat dissipation from the electrode of the flash lamp can be achieved with a high-voltage connection device according to the invention.

The ceramic part expediently consists of an injection-molded part. In addition to the more diverse design options, injection-molding technology also enables the economical production of rounded portions of the ceramic body, which reduce the appearance of spray on the edges of the body at high voltage.
For a high-voltage connection device according to

According to the invention, it is advantageous if the contact sockets contained in the bores of the ceramic part are designed to be radially resilient. Such contact sockets can then due to their Spring properties the diameter tolerances that occur in the manufacture of the ceramic part Compensate holes. This is particularly the case with ceramics manufactured by means of transfer molding technology advantageous.

In an advantageous embodiment of a high-voltage connection device according to the invention if the ceramic part has a T-shaped cross-section on its outside between the two legs, wall provided with an electrically conductive layer. Here, the crosspiece of the T-wall can be used Attachment of the ceramic part z. B. be used on a metallic excitation housing. The electric The conductive layer is then at the housing potential via the fastening surface of the T-wall and forms thus the outer shielding of the connection. Appropriately, the ceramic part is aer Attachment by means of the T-wall so attached to the inner wall of an excitation housing that the ceramic part lies in the cooling air flow of the excitation system. This is in terms of heat dissipation of particular advantage.

Further advantageous refinements of the subject matter of claim 1 are given in the rest Subclaims indicated.

An advantageous embodiment of a high-voltage connection device according to the invention for flash lamps of laser excitation devices is described in more detail below with reference to the drawing.

F i g. 1 shows a front view of a high-voltage connection and a mounting element for a flash lamp serving part,

Fig. 2 shows this part in a side view in section

The part 1 consists of an aluminum oxide ceramic mass mixed with thermoplastic substances and is formed approximately at right angles. The two legs 2 and 3 of the preferably manufactured by injection molding Ceramic parts 1 are essentially cylindrical and each have a bore 4 or 5 Mistake. These bores run approximately perpendicular to one another in the central axis of the cylindrical Leg, so that the bore 4 in the leg 2 is approximately perpendicular to the longitudinal axis of the other leg 3 and whose bore 5 etv / i is directed perpendicular to the longitudinal axis of the leg 2. At the corners in the Inside the thighs, the holes 4 and 5 run into one another. In this area there are cylindrical bore sections 6 and 7, respectively, while the bores 4 and 5 are otherwise conical towards the outside expand. The bores 4 and 5 are exclusively in the cylindrical bore sections 6, 7 with a electrically conductive layer 8 shown in the drawing marked by thicker lines compared to the other lines. This layer can go through a metallization subsequent to the manufacture of the ceramic part can be formed, e.g. B. by Application with a brush in pasty form and subsequent stoving. In contrast to the inside only partially provided electrically conductive layer, the ceramic part is almost completely on its outer surfaces provided with an electrically conductive layer 9, which in the drawing in the same way as Inner layer 8 is identified and can be produced together with layer 8. The electric Conductive layers 8 and 9 form the outward and return lines of the over a high voltage cable 10 of the Flash lamp 11 to be supplied ignition pulses. In addition, the outer layer 9 forms the electrical shield of the high voltage pulse. As the electrically conductive layers have current-carrying conductors? f the ceramic part are air gaps between the voltage potentials that could lead to spray phenomena, locked out.

Furthermore, in the cylindrical bore sections 6 and 7 each have a contact socket 12 and 13, respectively. The contact socket 12 in the Bore 4 of the leg 2 is used for the plug connection of the inner conductor 14 of the high-voltage cable 10, which Via an expediently spring-loaded, connected to the screen of the high-voltage cable Socket 15 on the formed as a cylindrical plug pin 16 and also conductively coated end of the Leg 2 is attached. The contact socket 12 is radially resilient through a longitudinal section 17 formed and provided at the free end with an outer ring bead 18, which at the inner conductive layer 8 is applied. About this layer is the contact socket 12 with that in the other cylindrical bore section 7 of the other leg 3 arranged Koniakt socket 13 connected. This consists of a conically tapering, radially resilient and resting on the inner layer 8 Sleeve in which the flash lamp 11 with an electrode 19 is inserted and thus connected to the high-voltage cable and at the same time mechanically housed

The ceramic part is attached to a metal excitation housing within a laser excitation system of the system pressed and expediently arranged lying in the cooling air flow, so that sufficient heat dissipation is guaranteed. The fastening surface for the ceramic part is the Support surface of a transverse web 20 of a T-shaped cross-section, also with an electrically conductive one Layer provided wall 21, soft in the angle between the Schenkpin 2 and 3 of the ceramic heater in eggs is arranged in the manner shown

1 sheet of drawings

Claims (8)

Patent claims: 1. High-voltage connection device for a Flash lamp of a laser excitation device, d a characterized in that the connection and holding element for the flash lamp (11) made of an approximately right-angled ceramic part (1) Alumina ceramic consists, the legs (2, 3) with a bore (4, 5) are provided that the both bores both to each other and to the respective other leg (3, 2) approximately perpendicular run and open into each other at their ends that the bores (4, 5) in the area of each other opening ends with an electrically conductive layer (8) and each with one on this layer adjacent contact socket (12, 13) for the flash lamp (11) or the inner conductor (14) of a High-voltage cable (10) are provided and that the ceramic part (1) on its outer surfaces almost completely covered with a further electrically conductive layer (9) and at the free end of the one leg (2) is provided with a plug-in pin (16) 2. High-voltage connection device according to claim 1, characterized in that the in the Bores (4, 5) of the ceramic part (1) contained contact sockets (12, 13) radially resilient are trained. 3. High-voltage connection device according to claim 1 or 2, characterized in that the Bores (4,5) only in which the contact sockets (12, 13) containing. Area cylindrical and otherwise conically widening towards the outside are trained. 4. High-voltage connection device according to one of claims 1 to 3, characterized in that the contact socket (13) for the Flash lamp (11) consists of a conically tapered sleeve. 5. High-voltage connection device according to one of claims 1 to 4, characterized in that that the contact socket (12) for the inner conductor (14) of the high-voltage cable (10) Slit longitudinally and is provided at its free end with a rounded outer ring bead (18). 6. High-voltage connection device according to one of claims 1 to 5, characterized in that that the ceramic part (1) on its outside between the two legs (2, 3) an im Has cross-section T-shaped wall (21) provided with an electrically conductive layer. 7. High-voltage connection device according to one of claims 1 to 6, characterized in that that the ceramic part (1) consists of an injection-molded part. 8. High-voltage connection device according to one of claims 1 to 7, characterized in that that the ceramic part (1) thermoplastic materials ■ Is binders are added.