CS256298B1 - Static heating device for heating the surface of the rotary cylinder - Google Patents

Abstract

The solution concerns the field of tanning machines and equipment for tanneries.^The heating of the shell of a rotary cylinder of larger diameter is solved by static electric heating units placed around the circumference of the inner wall of the rotary cylinder. The essence of the solution lies in the fact that inside the rotary cylinder, heating unit guides are fixed on the circumference of the static support unit. The heating units are evenly distributed around the circumference of the static support unit. The heating unit consists of a carrier with three or more heating rods. The heating units can be gradually inserted onto the heating unit guides through the segmental opening of the rotary cylinder face > secured against ejection with screws, the solution can be used in the tanning industry4

Description

The invention relates to a static heating device for heating the surface of a larger diameter rotary cylinder.

The hitherto known devices for heating the surface of a rotary cylinder work on the principle of heating with heat transfer medium from inside the cylinder. The rotary cylinder has a double jacket wall, the gap between the double wall being helical, allowing the heating medium to flow from one side of the cylinder to the other in the helix, ensuring uniform heating of the surface of the rotary cylinder. The heat transfer fluid has forced circulation by means of a pump and is heated in a separate tank by submersible electric heating elements. The passage of the heating medium from the heating circuit to the cylinder and back allows distribution with a seal inside the carcass shell of the cylinder on which it is supported. The disadvantage of the whole device is the complexity of the whole heating system and thus the possibility of frequent failure, i.e. the malfunction of the distribution system with the seal, leakage of the heat transfer medium from the pipeline. The greatest drawbacks are the considerable heat loss of the entire heating device and the high thermal inertia during heating and cooling of the cylinder surface. Another heating device of the surface of the rotary cylinder also has forced circulation of the heating medium and its heating by means of immersion electric heating elements built in a separate tank. The rotary roller has a simple jacket wall and is partially filled with heating medium from the inside. The heated heating medium inlet and outlet are provided by two static pipes located at one and the other face of the rotary cylinder and partially submerged by their inlet and outlet *

below the level of heating medium. The disadvantage of this device is also a considerable heat loss due to the fact that the heating medium is heated outside the cylinder, as well as a considerable power consumption. the energy to heat the rotary cylinder together with the heating medium and the long thermal inertia of the entire device after the heaters have been switched off.

256 298

The method of the electrically heated cylinder according to FIG. AO 166'451, which is based on the fact that a barrel-shaped support structure of beams carrying flat heating elements is inserted in the cylinder casing and is straightened after unscrewing the expanding bolts so that all flat elements come into contact with the inner wall of the shell war. On one cylinder pin there is a collecting device for supplying electric current, because the entire supporting structure with the heating elements rotates simultaneously with the heated cylinder, which is disadvantageous for large diameter cylinders used in leather tanning leather. Another embodiment is described in U.S. Pat. No. 182,833 and consists of a cylindrical metal support, a first layer of mineral electrical insulator supported on a support, an electrical resistance wound around a first layer of mineral electrical insulator, a second layer of electrical mineral insulator, which covers a first mineral electrical insulator layer and comprises a submerged electrical resistance and a third friction layer. This device is relatively complex and difficult to manufacture for use in the tanning industry.

The disadvantages of the prior art devices are eliminated by a static heating device for heating the surface of a rotary cylinder according to the invention, characterized in that, within the rotary cylinder, on heating lines mounted in recesses around the ribs of the static support unit, removable through a segment hole in a particular position of the face of the rotary cylinder, wherein the ends of the static support unit are tongues fixedly fixed in hubs rotatably mounted in the right and left lids. On the right lid there is a set pin with a mark to adjust the position of the heating units with respect to the segment hole.

The progress achieved by the invention is that a static heating device with heating units located inside the rotary cylinder operates with minimal heat loss and low thermal inertia during heating and cooling. Furthermore, it is easy to assemble the replacement of spent heating units.

m V Z Z i ·. Z · ^. . In the case of V and -. E Z · W,

Fig. 3 is a cross-sectional view of the heater unit with the conduit mounting on the ribs of the support unit, and Fig. 4 is a side view of the heater unit with its mounting on the support unit and the wires mounting.

Inside the rotary cylinder 2 on the guides 2 fixed in the recess 13 on the rib 14 by screws. 27 is supported by means of bolts 26. The holder 6 is fastened by means of holders 16, clips 24 and heating rod screws 17. A ceramic cube 28 is fastened to the bridge 25, on which holders 29 with conductors 31 are fastened by nuts 30. The support unit 2 consists of ribs 14 and a tube whose right and left ends pass through the holes of the hollow pins of the faces 10. The right end of the tongue unit 2 is rigidly received in the hub 2 with the rod 22 rotatably mounted in the right lid 8 the adjusting pin 12 is mounted and the left end of the support unit 2 is rotatably mounted in the left cover 9, while the static support unit 2 is secured against axial displacement by retaining rings 18. The opening of the support unit 2 is insulated from asbestos insert 19 end faces 10 in which the segment holes 11, 3 ^{θ are} mounted on antifriction bearings 20 on the tenon pins 10. The antifriction bearings 20 are fixedly mounted in the frame 21 of the machine, in the right cover 8, the left cover 2 and the covers 23.

The device according to the invention operates as follows. The rotary cylinder 1 with the fronts 10 housed in the bearings 20 rotates during operation of the machine and is heated by heating units Ia to IXa mounted on a static support unit 2 secured against rotation by the adjusting pin 12. In the event of mounting or proceed as follows. After releasing the adjusting pin 12, the position indicated on the hub 2 II-VIII and, at the same time, by a line against the line of the adjusting pin 12 is adjusted by means of a rod 22 (FIG. 2). In this case, the rotary cylinder 2 is rotated so that the segment opening 11 is in position X and the heater unit 11a can be removed after unscrewing the screws 26 from the bridge 25. By rotating the segment opening 11 to position XI the heater unit VIIIa can be removed. According to the position at the hub 2 ^{ζ θ} 1 then rotate the rotary drum 2 P ^ro assembly or exchange of any of the heating unit.

Claims (2)

Static heating device for heating the surface of a rotary cylinder and heating units mounted therein, characterized in that inside the rotary cylinder (1) on lines (3) mounted in recesses (13) along the periphery of the ribs (14) of the static support unit (2) heating units consisting of carriers (4) with heating rods (5) removable via a segment opening (11) at a certain position (X) of the face (10), the ends of the static support unit (2) being tongues (6) fixed in the hubs (7) rotatably mounted in the right and left lids (8,9). 2. Equipment according to item 1 _; characterized in that in one lid (8) there is an adjustment pin (12) with a line for positioning I to IX of the heating units (Ia to IXa) in position X or XI of the segment opening (11) of the face (10), on the hub (7) with numbers II-VIII opposite the mark of the adjusting pin (12) means the position of the heating unit (ilaj in position X of the segment opening (11) of the face (10).