DE813182C - Cooling device for an electrical discharge tube with a cylindrical, cooled wall - Google Patents

Description

Cooling device for an electric discharge tube with a cylindrical cooled wall The invention relates to a cooling device for an electrical Discharge tube with a cylindrical cooled wall with a number im cooling ribs that are essentially perpendicular to this wall and parallel to the generators is provided, wherein the coolant is supplied and / or discharged through at least one channel which extends transversely to the longitudinal direction of the cooling fins. Next relates the invention to an electric discharge tube, which is used for cooling in a such a device is suitable.

It has been found that when the length of the cooling fins is a certain If it exceeds the value, it is very difficult to create a large number of closely spaced cooling fins to be soldered to the cooled wall along its entire length in intimate thermal contact or to be welded. Both the cooled ones made of a material that conducts heat well Wall and the cooling fins made of thin plate metal are usually not perfectly regular, which means that the cooling fins are never directly over their entire length rest against the wall. This is true both when the ribs are each attached to the cooled wall can be placed as well in the event that the ribs in any Way are united in a zigzag band.

It has then proven beneficial to that Cooling fins not to make too long and in this way on the cylindrical cooled cylinder wall to arrange a number of cooling fin rings next to each other.

A new task arises here. The cooling fins of the various Rings will generally not be in the same alignment, so that a coolant flow in the longitudinal direction of the ribs only at the expense of a great drag of one Pass the cooling fin ring into the other. The invention avoids this disadvantage and allows certain advantages to be achieved.

According to the invention are in a cooling device for an electrical Discharge tube with a cylindrical cooled wall with a number im cooling ribs that are essentially perpendicular to this wall and parallel to the generators is provided, wherein the coolant is supplied and / or discharged through at least one channel which extends transversely to the longitudinal direction of the cooling fins, over the cooling fins a number of juxtaposed wreaths distributed, each with the separation lies between two wreaths in the middle of an inlet or outlet channel. The separation between the rib wreaths at the same time forms the separation between the opposing ones directed coolant flows that are assigned to the local supply or discharge channel are.

If the cooling fins are dimensioned relatively large perpendicular to the wall are, it is desirable to have the coolant flow over the entire length down to the bottom of the To allow space between the cooling fins. This can be achieved in that A certain space remains between the cooling fin rings, which means that along the whole A channel is created around the cylindrical cooled wall in which the spaces between open to the ribs. If the cooling fins, however, only relatively small radial Have dimensions, so it is useful to have partition walls between the cooling fin rings to arrange, e.g. B. by arranging a flat ring between adjacent wreaths which fits around the cylindrical cooled wall.

It will generally suffice to place the cooling fin rings in the longitudinal direction to squeeze together., Since the cooling fins of the different wreaths do not interrelate are in alignment, then, as described above, a dividing wall to the flow is formed of the coolant between the adjacent rings. The fact that the cooling fins of the different wreaths are not in the same alignment, also has the consequence that It is easier for solder to remain in these areas than between the ribs themselves. However, this is generally not a disadvantage, since the separation between the Ribbed wreaths act as a separation between the air currents anyway. The possibly Cooling fins combined in the form of a zigzag band can therefore be turned around without hesitation the cooled wall clamped and the whole thing immersed in a solder) ad; through which the time-consuming, piece-by-piece soldering of the cooling fins or the fin rings is no longer necessary. The rib rings are preferably designed in the form of zigzag bands, wherein namely those formed between the reciprocating parts of a zigzag band Parts on the side of the cooled wall are pressed shut.

The above-described system of distributing the 'cooling fins over a number of wreaths has the advantage that, with cooled walls, different Length can still be used the same cooling fins, d. H. by changing the Number of wreaths. As a result, there are various choices for cooled discharge tubes Dimensioning with the same ribs, which are therefore cheaper.

The invention is explained in more detail with reference to the accompanying drawing. Fig. I is a partially cut-away side view of a cooling device with of an electric discharge tube according to the invention, and Fig. 2 is a cross section by this device along the line 11-II of Fig. i.

In the figure, i is the glass wall of the electric discharge tube referred to, which is further not essential to the invention. On the circular cylindrical A number of cooling fin rings 3 are attached to the metal anode 2. Around the cooling fins run several annular channels 4, which on one side to a common supply pipe 5 are connected. Three of the annular channels 4 are partially broken shown to illustrate the arrangement of the rib rings to each other. With 6 denotes the annular channel that separates two at a certain distance arises from mutually arranged rib wreaths; 7 is a flat ring that sits between two rib wreaths is arranged, and 8 are solder drops denoted between two wreaths of ribs pressed against each other are left behind. The cooling air flows through channels 4 freely into the atmosphere.

Claims (3)

PATENT CLAIMS: i. Cooling device for an electrical discharge tube with a cylindrical, cooled wall which is provided with a number of cooling fins essentially perpendicular to this wall and parallel to the generators, the coolant being supplied and / or discharged through at least one channel which extends transversely to the direction of the cooling fins extends, characterized in that the cooling fins are distributed over a number of rings arranged next to one another, the separation between the different rings being in the middle of a supply or discharge channel. 2. Electric discharge tube which can be used for cooling in a device according to claim i is suitable and is provided with a number of adjacent rib rings, characterized,. that the rib rings are arranged at a short distance from each other are. 3. Electric discharge tube, used for cooling in a device according to claim i suitable and with a number of juxtaposed Rib wreaths is provided, characterized in that between the various rib rings a flat ring is attached to fit around the cooled wall. . Electric discharge tube, which is suitable for cooling in a device according to claim i and with a number ' ribbed rings arranged next to one another is provided, characterized in that the various rib rings are in direct contact with one another.