DE589127C - Device to prevent flashbacks in mercury vapor rectifiers - Google Patents

Description

It is known that reignition occurs in mercury vapor rectifiers this prevents the accumulation of mercury vapor and the formation of mercury condensate in the immediate vicinity the anodes and in the ineffective anode spaces at the introduction of the same avoided will. In order to achieve this, one generally has to avoid ineffective spaces at the anode lead-in sought that one has sealed the anode head against the lead-in insulator. When applied protective sleeves for the anode have been hung on the lead-in insulator. You also have the anode itself and the space in the immediate vicinity of the anode by means of radiators and fixtures in the anode sleeve overheated to reduce vapor density. As the power of the rectifier increases, however, it is evident that the previously The usual sealing of the ineffective spaces at the anode inlet can no longer be carried out is because due to the high anode temperatures between the anode and the lead-in insulator, such high tensile stresses arise that the insulator is destroyed. As a result, you are forced to remove the boundary surfaces between the anode and To move the isolator to cooler places. But this will again become large ineffective Anode spaces created above the anode. To the harmful influence of these rooms too eliminate, it has been proposed to attach special radiators above the anode. However, these special radiators require a large number of insulating bushings by the anode plate as well as by the anode protection sleeve, which complicate the assembly of the rectifier and make the production much more expensive. 4 "

According to the invention, these deficiencies are eliminated in that the ineffective Space lying part of the anode bolt on part of its length in its cross section compared to the cross section required for guiding the anode current is so greatly reduced that this part of the Anode bolt serves as a heating element that is heated by the anode current.

An exemplary embodiment of the invention is shown schematically in the drawing. α is the anode with the anode bolt b and the electrode lead c, which is inserted through the anode plate by means of the insulator d. e is the anode protection sleeve suspended from the insulator. The anode bolt is screwed to the feed, for example through a threaded nipple /. The anode bolt is made so long that the point of contact between it and the insulator is moved to a cool place outside the area of the anode, so that the sealing point is only slightly heated and the transfer of tensile stresses from the anode to the insulator is avoided as far as possible is. The part of the anode bolt located in the inactive space within the sleeve, which immediately adjoins the anode head

to a certain length in its cross-section compared to that for guiding the anode current required cross-section greatly reduced. This part of the anode bolt will strongly heated when current passes through; it thus serves as a radiator for the ineffective Space above the anode, so that a harmful vapor density and mercury condensation are avoided in this space

ίο is. This reduction in cross-section of the anode bolt also has the advantage that the heat dissipation from the anode via the bolt after the insertion point is very small, so that even after long periods of inactivity of the rectifier is still sufficient heat stored in the anode and that without special preheating of the anode the rectifier is started up again with full load after a break in operation

so can be. With regard to the necessary At high temperatures, graphite anodes are advantageously used, which then consist of one piece with the anode bolt can. The cross-section of the anode bolt can be reduced by removing the material or by molding and pressing the body.

Claims (2)

Patent claims: i. Device for preventing reignition in mercury vapor rectifiers with the sleeves surrounding the anodes due to overheating of the ineffective space between anode bolts and sleeve above the anode head, characterized in that the part of the Anode bolt on part of its length in its cross section compared to that for guiding the anode current required cross-section is reduced so much that this part of the anode bolt serves as a heater that is heated by the anode current. 2. Device according to claim 1 for rectifier with graphite anode, characterized characterized in that the anode head and anode bolt consist of one piece, with the immediately above the The anode head, tapered in cross section, is screwed with its thickened end to the electrode feed and is sealed against the lead-in insulator. 1 sheet of drawings