DE2650098A1 - Flat bottom thyristor cell with threaded bolt - has cathode connector cap shaped current tap with centre opening and cathode covering flange - Google Patents

Abstract

The annular cathode of the thyristor in the cell surrounds a control electrode. Both are contacted by a current tap each using a compression spring. The current tap (211) of the cathode (K) connecting part (21) is cap-shaped, and its flange (F) covers the cathode. The cap has a centre opening (O). The connecting part (22) of the control electrode (D) is formed by a wire (222) with a head-shaped current tapping end (221). This tap is brought into contact with the control electrode by a cylindrical ceramic pressure element (224) and a compression spring (24) in the cathode current tap cavity. The wire (22) is brought out from this cavity through the centre opening of the cathode tapping cap in an insulating manner. It is then bent in the shape of an S, eccentric and parallel to the long axis of the cell.

Description

"Semiconductor cell for a disc-shaped

Thyristor element "The invention relates to and is based on one Semiconductor cell, in particular threaded bolt and flat bottom cell for a disk-shaped Thyristor element with the features specified in the preamble of claim 1.

DT-AS 1 236 079 makes it a threaded bolt cell of this type known in which the connection between a large-area electrode as well one or more small-area control electrodes on the one hand and the associated ones Connection conductors (connecting parts) on the other hand with the help of pressure contacts instead is made by welding or soldering. A gas-tight closure of the housing space, in which the thyristor element is enclosed, is used in this threaded bolt cell with a base plate part of the housing and a cooperating bell-shaped Reached housing part, which has a housing jacket, which has a glass insulating body is made as an electrically insulating pressure glass bushing.

It must be ensured that with the company Heating never tensile stresses that would lead to cracking in the Vitreous can arise.

Furthermore, the DT-OS 15 14 154 is a semiconductor cell for one Known thyristor with pressure contact only one main electrode, in which the cell housing from a base part and a cylindrical housing jacket, preferably made of ceramic, consists, with a U-shaped sheet metal ring connecting these components as well as with a sheet metal cover closing the housing with an outer flange. The flange and the sheet metal ring are connected to the housing jacket by a tight lS: ceramic-metal soldering connected to each other so that the housing space is hermetically sealed. By doing The cover is a connection part that is led to a main electrode as a power supply and it is a metal sleeve for receiving a control connection conductor Soldered in over a cylinder made of glass or ceramic.

It has changed from the previous and the status considered above Based on the technology, the task is to create a semiconductor cell with pressure contact, in particular to create threaded bolt cells and flat-bottom cells, in which a for certain applications sufficiently tight sealing of the housing space without the difficult Pressure glass bushing or expensive metal-ceramic soldering version is made.

According to the invention, such a semiconductor cell has the identifier of claim 1 specified structural features and has compared to the considered Prior art, for example, the advantages of using inexpensive Material such as cheap ceramics can be made, as well as that in building the cell does not require any welding or soldering work.

By the more specific measures specified in the subclaims are advantageous in addition to an expedient configuration for the connection part of the cathode Further developments of some of the structural features specified in claim 1 are possible. By using a head wire for pressure contacting the control electrode for example, there is a reduction in manufacturing costs that is significant is. Furthermore, the arrangement and use of a cylindrical pressure piece made of ceramic in the cavity of the current collector of the cathode a safe Pressure contacting of the control electrode even with head wires with a small contact head achieved.

An embodiment of the invention is shown in the drawing and explained in more detail in the following description.

FIG. 1 shows a fully assembled threaded bolt cell partly in side view and partly in one going through the longitudinal axis of the cell Longitudinal section Figure 1a and Ib two cross sections through the connecting part of the cathode of the thyristor element.

A threaded bolt cell for a thyristor element is shown in FIG 1 essentially consists of three main components, namely a part 1 consisting of a threaded bolt 11 made of copper with hexagon 12, on which a jacket of the Cell forming steel tube 13 is soldered coaxially with respect to the longitudinal axis L, further a part 2 with current-consuming connection parts 21, 22 for cathode K and control electrode G of the thyristor element 6 and a plate spring 23 and a compression spring 24, and finally a part 3, the cover closing off the housing of the cell which the downstream connecting parts 21, 22 led out of the housing are. Outside the cell, these connecting parts are with two connecting cables 4 and 5, the free end of which is equipped with a cable lug, for example. The parts 12, 13 and 3 form the housing of the cell, which encloses the housing space R on all sides. A support layer 61 forms the bottom of the housing on the main surface which is free per se of the hexagon. A thyristor element provided with three electrodes A, E, G is on top of this 6 arranged centered on the bottom of the housing by means of a fitting ring 62. One Contacting disk can be placed between the housing base and the thyristor element be inserted. The thyristor element 6 has a centered on one main surface arranged control electrode G by an annular cathode K is enclosed. While the bottom of the case is anode A's current collector and the threaded bolt with the hexagon forms the associated connecting part, is used A cap 211 made of copper with an outer flange F is used as the current collector of the cathode (like the brim of a hat), this flange covering the entire annular cathode K covered and rests on it, and it serves as an associated connecting part 21, a cylindrical Connector with a squeezable socket 213, which extends from the ceiling D of the cap continues eccentrically via a stem-like intermediate piece 212. In the At the top of the cap 211 there is a centrally arranged through opening Ö. Only a piece of head wire is used as the connecting part 22 of the control electrode G 222 with a head-shaped end 221, which rests against the control electrode and the current collector forms.

The part of the head wire with the head-shaped end is held by a Sheathed insulating tube 223, stands centrally in the cavity of the cap 211 and is through the opening Ö in the cap top D led out of the cap in an isolated manner. After a S-shaped bend is the free end of the head wire through the final lid 3 led out eccentrically from the housing. The one located in the cavity of the cap Part of the head wire 222, except for the head-shaped end 221, passes through a guided in the direction of the longitudinal axis of a cylindrical body 224 made of ceramic stepped bore B, which with the help of a compression spring 24 as a pressure piece for the Contacting the control electrode G and at the same time also the head wire in the cavity serves to hold the cap 211 in a centered manner. In the steel tube 13 and jacket of the cell is close to the free edge of the jacket a circumferential tapering the diameter of the jacket Bead 131 introduced. This serves as an abutment for one between himself and the Outer flange of the current collector 211 of the cathode K clamped disk spring 23 for pressure contacting the cathode. The cathode is connected to the anode by an in The insulating ring I inserted into the set is electrically insulated.

The bead 131 also serves as a centering means for the final Lid 3. This is disc-shaped and has two eccentric and parallel to Breakthroughs 31, 32 directed along the longitudinal axis of the cell, one with a large diameter for leading the connecting part 21 of the cathode out of the housing and a bore with a small diameter, in which a copper sleeve 32 'with an externally offset diameter is inserted and riveted. The free end of the head wire is through this sleeve 222 led out eccentrically from the housing. The edge surface 33 of the lid 3 is adapted in profile to the diameter profile of the jacket 13 of the cell.

The central opening Ö in the ceiling D of the cap 211 is at the exit of the insulated head wire 222 is closed by means of a sealing compound 225. Of the from the thyristor element 6, the connecting parts 21 and 22 and the plate spring 23 Housing space R that remains free is filled with a liquid that has hardened by cooling Potting compound filled. The final cover 3 is immersed in the potting compound and is bound to it after hardening. That in the copper sleeve 32 'out of the cell out end of the head wire 222 is with the strand of the connecting rope 5 for the control electrode connected by pinching Q of the copper sleeve. Accordingly is also the connection piece 213 led out of the cell through the cover connected to the connecting cable 4 for the cathode by pinching the receptacle.

It becomes the components of a threaded bolt cell, as above described, composed as follows.

In part 1 (open cell), first one is placed on the bottom of the housing 61 centering fitting ring 62, possibly also an IEC contact washer, and that Thyristor element 6 used. A pressure piece is then used for contacting the control electrode of the element to be used and with a central longitudinal bore B provided ceramic part 224 over a straight one partly with insulating tube 223 sheathed piece of head wire pushed up to its head-shaped end 221. That The free end and a sheathed piece of the head wire are then removed from the cavity of the cap-shaped current collector 211 of the cathode, in which previously a compression spring 24 was used, passed through the opening O in the ceiling D. The connecting part 21 is then placed on the cathode K with the flange F of the current collector 211. Then an insulating washer I and a plate spring 23 are placed on the free flange surface put on and the piece of the head wire protruding from the opening Ö is S-shaped, as shown in Fig. 1, bent. Now with the help of a flanging device with a pressure roller and a shaped and pressure piece serving as a stop In the casing 13 of the cell, circumferential bead 131 is formed close to the free casing edge and at the same time the plate spring 23 as well as the compression spring 24 by means of of the pressure piece tensioned. With this process, the pressure contact is made with the cathode and the control electrode. Now the open cell can be closed. First, a sealing compound 225 which cures in air, such as with the designation 1, Elastosil 07 ?? known, the exit of the insulated head wire 222 closed from the opening Ö in the ceiling D of the current collector 211. In the end becomes the remaining free volume R of the open cell with a molten potting compound filled in and the one with the openings 31 and 32 as well as with the copper sleeve 32 ' Via the connecting parts 21 and 22 protruding from the open cell from the outside lid 3 fed forth, the opening of the jacket finally inserted and centered, the lid being partially immersed in the potting compound. When cooling down and When the potting compound hardens, the lid is firmly bound to it.

It can be seen from FIGS. 1a and 1b that the intermediate piece 212 of the connecting part 21 a remote in the levels A and A 'different has a large cross-section, which circular or crescent-shaped is and in this case (Figure 1.b) the edge of the circular ceiling D of the cap-shaped Pantograph 211 convoluted touched.

Claims (6)

Claims 9 semiconductor cell, in particular threaded bolt and Flat bottom cell for a disc-shaped thyristor element with a centrally arranged control electrode enclosed by an annular cathode, in which cell the Cathode and the control electrode each with a connecting part containing a current collector are contacted using compression springs, these connecting parts are eccentric and parallel to the longitudinal axis of the cell in metal sleeves through the housing of the Cell closing cover are brought out and each connected with a connecting cable are, that the pantograph (211) of the The connecting part (21) of the cathode (K) is cap-shaped with a covering that covers the cathode Flange (F) - and a central opening (Ö) in the ceiling (D) (the cap) and the Connecting part extends eccentrically in the direction of the longitudinal axis (L) of the cell via a the stem-like intermediate part (212) continues as a connecting piece with a plug-in sleeve (213), that as a connecting part (22) of the control electrode (G) with a piece of head wire (222) a downstream head-shaped end (221) is used, which by means of a cylindrical Pressure piece (224) made of ceramic and a compression spring (24) in the cavity of the current collector (211) of the cathode are arranged one after the other, contacted with the control electrode is, the head wire through the central opening (Ö) in the ceiling (D) of the pantograph the cathode is led out of its cavity isolated and after an S-shaped Bend eccentric and parallel to the longitudinal axis of the cell through one in a final one Ceramic cover (3) riveted or compressed copper sleeve (32 ') from the cell housing is led out, further that the jacket (13) of the cell has a circumferential, the diameter has tapering bead (131), and a plate spring 23 between the bead and the flange (F) of the current collector (211) of the cathode is clamped, and that at Exit of the insulated head wire (222) from this pantograph the Opening (Ö) in the ceiling (D) closed with a sealing compound (225), the one that remains free Volume (R) of the cell up to the final cover (3) with a hardened potting compound is filled and the free end of the head wire led out through the cover with the connecting cable (5) of the control electrode by squeezing the copper sleeve (32 ') connected is. 2. Semiconductor cell according to claim 1, characterized by a stem-like Intermediate part (212) with a step-like crescent-shaped cross-section, which convolute the edge of the cover (D) of the current collector (211) Ser cathode affects. 3. Semiconductor cell according to claim 1, characterized by a head wire centering cylindrical pressure piece (224) made of ceramic with one in the longitudinal axis (L) of the cell, receiving the head wire (222) except for the head-shaped end (221) through hole (B). 4. Semiconductor cell according to claim 3, characterized by an between a part (222) covered with insulating tube (223) and the head-shaped end (221) of the head wire (22) offset bore (B) of the pressure piece (224) with the diameter clear widths adapted to the insulating tube or the head wire. 5. Semiconductor cell according to claim 1, characterized by one in the the housing of the cell closing cover (3) by means of a step-like exterior offset cross-section rivetable or compressible inserted copper sleeve (32 '). 6. Semiconductor cell according to claim 1, characterized by a disk-shaped the cover that closes the housing of the cell (3) with one of the profile the diameter and the bead of the jacket (13) of the cell adapted edge surface profile.