DE1508405C - Device for patenting wire rod in a hot-carrier fluidized bed - Google Patents

Description

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The invention relates to a device for heat transferring through a relatively narrow cooling Patenting of wire rod is guided in a heat pipe, which is surrounded by a liquid embroidery carrier fluidized bed, while avoiding bainite material or another liquefied cooling gas a sorbitic structure is to be achieved. Furnishing is surrounded. Here, too, one can speak of a warming to this exist, like other systems for heat transfer fluid bed and a heat transfer circuit treatment of metallic goods that speak with a heat, but here are the fine-grained heat transfer fluid bed work, in their basic contractor only aids that allow heat transfer Construction from a fluidized bed chamber with good feed and good- influence from liquid nitrogen on the wire deduction, mostly also a heat transfer circuit and should. In addition, in the known device a carrier gas line system with a fan. - An io the heat transfer can be controlled by variation When patented, the heat transfer fluid bed depends on the speed of the flow to be treated Wire compared to the mere air cooling of the pre-wire through the cooling tube, the temperature of the significantly higher heat transfer coefficients. There carrier gas for the heat transfer circuit and the therefore allows especially when the wire is in flow of liquid nitrogen. That’s functional Windings are treated fanned out, the immediate 15 no regulation. In addition, is itself a bable combination of modern, with large operationally safe control of patenting speed working wire rolling mills with a so that no bainite is produced, hardly possible, especially Patenting system, which due to its strong cooling, the passage speed of the assigned effect produces a wire, the quality of which depends on the rolling mill and can hardly be varied is equivalent to the lead patented wire. Known- 20 may.

borrowed is the combination of lead patenting systems. The object of the invention is to provide a

with high-speed wire lines so far not possible to create facility with the in a simple way

borrowed. A major problem in patenting rolling and with certainty as well as for large-scale practice

wire in a heat transfer fluid bed, the control of a wire mill is suitable the conditions so

the temperature and the cooling rate 25 can be controlled that the formation of a for

of the wire, which is drawn from the rolling heat and reaches suitable sorbitol and the

Heat transfer fluid bed from which the carrier gas does not penetrate bainite,

fine-grained heat carriers flowed continuously The invention is based on a device for

is passed through. Patenting of wire rod in a heat transfer medium

Measures to patent steel wire from 30 fluidized bed, consisting of a fluidized bed chamber with the rolling heat out are available in various forms known. In particular, it is known circuit and a carrier gas line system with Ge (cf. French patent 1 392 709), the to .blase. The device according to the invention is patented Wire through a heat transfer fluid bed is characterized by an intermediate grate 35 conveyor for the fanned-out wire, one in lent to lead through. The wire is thereby smoothly switched on the heat transfer circuit, adjustable or in turns, e.g. B. also fanned out, led. Cooling device, a device for adjustment The latter is also a factor in other cooling measures with regard to the flow rate of the carrier gas (see U.S. Patent 3103,237). It is true that temperature measuring units assigned to the wire take-off are known as part of the known measures exactly 40 direction for the wire outlet temperature and one the thermodynamic and metallurgical zu- this temperature measuring device associated with the connections (see "Wire and Wire Products", 1957, affecting the transport speed of the conveyor-S. 1179 to 1182), but cannot operate the control loop. Controllable cooling of the heat is ensured that the patented steel wire carrier can be reached easily and reliably has the sorbitic structure, which for 45 by that the heat transfer circuit from an im optimal quality is required. Fluctuating area of the wire withdrawal arranged sink for the Initial conditions or boundary conditions in thermal heat transfer medium, one to the cooling device and from the dynamic point lead to quality impairment cooling device back to the heat transfer fluid bed in activities, either through the formation of bainite or the area of the wire feed-guided pipe system of an ill-formed sorbitol. There was front 50 and a pneumatic conveyor for the beaten, the quality of the wire consists of verandes heat transfer medium, the heat transfer fluid bed tion of the amount of coolant, d. H. by the intensity of the wire feed to the wire withdrawal downwards To control cooling, this procedure is at. Can be arranged inclined. The facility for objection a fluidized bed as a coolant does not affect the flow velocity of the carrier. - Otherwise, one knows in connection 55 gases expediently consists of one or with the heat treatment of metallic objects, several valves in the carrier gas distribution line which are arranged so to speak immersed in a heat transfer fluid bed.

The advantages achieved by the invention are taken (cf. US Pat. No. 3,053,704), these are primarily to be seen in the fact that with an invention, however, not to solve the problems, the 60 according device in a simple way and with the patenting of wire rod in a thermal safety in the course of the patenting of steel wire carrier fluidized bed occur. This also applies to an input from the rolling heat, the formation of bainite device for patenting wire rod from flow can be prevented, whereby the device can be combined without bed chamber with wire feed and wire take-off, further with modern wire rolling mills with high rolling heat transfer circuit and carrier gas line system 65 speed is.
with fan (cf. British patent specification 1 036 894). In the following, the invention is explained in more detail using a drawing showing the wire rod directly from the rolling heat, together with a stream of fine-grained voltage, it shows

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F i g. 1 schematically shows a one according to the invention and consequently spreads out in turns.

direction, the subsidy 2. The subsidy 2 is an example

F i g. 2 a diagram with cooling curves of a wire mesh or a similar device,

Wire rod in the course of patenting measures. where the funding document consists of several parallel

The in the F i g. 1 device shown serves 5 led ropes is constructed. At the entrance of the conveyor for patenting wire rod (steel wire) from the band, the wire mesh runs e.g. B. on a flat rolling heat out and consists in their basic plate on which a bed of heat transfer lent structure from a heat transfer fluidized bed 1 with builds, which limits the fluidized bed. In the area of the conveyor 2 for the transport of the output to be patented there is the already described sink, wire rod 3 through the heat transfer fluid bed 1, which causes the fluidized heat transfer medium to pass through, wire feed (at 23) and wire take-off 8 as well as an apron educate the. from the carrier gas line system 19, 20 with fan. As a patented wire 3 is pierced. So that heat transfer media are z. B. ceramic materials or between wire feed 4 and wire take-off 8 under Be magnesium oxide, bulk density 1.5 to 5 g / ccm, taking into account the transport speed of the För grain size 0.01 to 0.15 mm. The device has a definite dwell time of the device has a heat transfer circuit 5 with a patented wire in the heat transfer fluid bed 1 switched on, adjustable cooling device 6, a given. Consequently, it is possible in the sense of the inven- tion device for setting the flow velocity according to the method, on the one hand, by cooling the carrier gas and a heat transfer medium and setting the flow-related temperature measuring device for the wire speed of the carrier gas, the theoretical discharge temperature with associated , the transport speed limit for the patented wire 3 speed of the conveyor 2 influencing control circuit. and on the other hand by influencing the transport speed of the conveyor 2, the cooling device can also be disconnected. The heat transfer circuit 5 has an entry temperature of the patented wire to a depression 7 25 arranged in the area of the wire take-off which excludes the formation of bainite for the heat transfer medium. Regulate to the heat carrier circuit. - If it is to be feared that the connected to the cooling device 6 and from the cooling running wire strong temperature fluctuations on the device back to the fluidized bed in the area of points, it can be useful to lead the incoming wire feed pipe system 5 and a for wire through a upstream water cooling od. dereinrichtung, z. B. to regulate a pneumatic conveying unit 30 like. To a certain inlet temperature, direction of pipelines and blowers, for the For a better understanding of the heat transfer medium according to the invention, the heat transfer fluid bed 1 of measures are in the following on the basis of the wire task4 to the wire withdrawal8 downwards 2 some remarks on metallurgy which can be arranged inclined. The device for one-wire patenting is connected: setting the flow rate of the carrier gas consists of one or more valves 9, wires, it is important to have a structure suitable for drawing in the carrier gas line system mostly and in the external structure receive. The second requirement, which must be arranged below the fluidized bed 1, is complete uniformity. The carrier gas is over a special one over the entire length of the wire. The best promoted to the fan not shown. The structure suitable for temperature drawing is sorbitol. Sorbitol is a measuring device 11, which is located behind the wire deduction 8 fine form of pearlite, which is located at, is expediently formed as a radiation pyro conversion of the austenite at about 550 ° C, meter. This temperature measuring device 11 If the austenite at a lower temperature, above all, belongs to a control circuit which is converted in the figure below 500 ^° C., the pearlite is structured in a very block diagram. The from the Temperaturmeß- 45 finely designed as bainite. This structure is essentially the measured value of the temperature Hch harder than sorbitol and unsuitable for drawing. In a transducer 12 and from there to a 550 ⁰ C rising transition temperatures setpoint-actual-value comparator 13 is züge- in the controller 14 of the pearlite formed is coarser. First of all, forms leads. The regulator 14 adjusts the drive of a conveyor 2. This form of formation of the structure - coarser

For the device according to the invention is in the single - sorbitol with ferrite network - is in the so-called nen still achieved a considerable above the heat transfer air patenting. It also makes one fluid bed 1 opening suction line 16 with fan 17 easy to pull wire. However, an air patent holds or fan that is above the heat transfer fluid wire does not have the number of bends made after beds 1 generates a negative pressure. In this suction 55 of the German standard for rope wires are required, line 16 is a separator. The exhaust air In the torsion test, on the other hand, he got a good result via the fan 17 and a special exhaust air result.

line 19 pressed to the outside or via a For the conversion of a wire that is

Another connecting line 20 is circulated, in the current state, that is to say from a temperature above Ac ₃ , in which the heat transfer medium 60 separated out in the separator 18 is cooled, the ZTU diagram is decisive

are via a special line 21 in the cooling (curve display). The thick lines in the picture

device 6 introduced for the heat transfer medium. The ninth curves represent the beginning and end of the

Cooling device 6 consists of a container 6, in development. It would probably be ideal if one

which the heat transfer circuit opens, wherein the wire according to the course of Ac ₃ so quickly on one of these containers of cooling coils 22, which in turn ^{could cool 65 temperature from 550 0} C that it

are traversed by a coolant, is penetrated. reached this temperature before the conversion

The wire rod to be patented passes over the begins, i.e. in about 1.5 seconds. Subsequently

Wire task 4 for a reel 23 with a laying arm, the wire would have to pass through at a constant temperature

the conversion area are led what about Requires 18.5 seconds. This ideal case is technically feasible only for very thin wires. For the With the usual wire diameter of 5.5 mm, such rapid cooling was previously not possible. she is practically only conceivable with water and poses considerable control problems.

The practically performed methods are air and lead bath cooling. The air cooling is used as curve d in the figure. It results in a structure with a pronounced ferrite network and thus poorer bending values. The cooling with air is so slow that even if the full cooling effect is maintained during the transformation there is no risk of the formation of bainite.

The usual lead bath cooling is shown as curve α. It takes place in lead baths of around 500 ° C. The cooling takes place much faster. At the cooling speed achieved by the lead bath, the cooling must not be fully maintained during the conversion, because otherwise it would enter the bainite area before the conversion is completed and thus a share Bainite would form. This is achieved by keeping the lead bath at a temperature of around 500 ° C, at which _a5 no bainite can form.

The cooling in the heat transfer fluid bed of a device according to the invention is shown as curves b and c. It can be seen that the cooling must be stopped after 6 to 8 seconds (depending on the heat transfer coefficient) so that the bainite formation is prevented. The wire can then be passed through air to complete the conversion. This procedure can be achieved without difficulty in the device according to the invention. The cooling in air is so slow that the formation of bainite is not to be expected, especially since heat is also released during the conversion. But you can also lead the wire over metal sheets, for example, which protect it from "radiation losses. It is the general view (not exactly proven) that the properties, especially the number of bends, of the wire, the better the faster the cooling takes place. that is, the closer the ideal case of isothermal conversion (cooling to 550 ° C before the start of conversion) is approached. However, the faster you cool down, i.e. the closer you get to this ideal case, the more precisely the wire must be brought out of the cooling medium in good time for formation If you leave a safety reserve by leading the wire out of the coolant too early, the quality of the wire deteriorates accordingly through the formation of coarser pearlite and above all through the formation of a ferrite network around the pearlite grains. This means that the requirements the more the cooling rate is increased, the greater the control From curve c in the figure it can be seen that the cooling rate in the fluidized bed is already quite high.

It is sufficient if the wire is guided in air during the conversion, where appropriate can be covered with sheets. On the other hand, it can be advantageous if after (e.g. in air) Once the conversion has been completed, it is cooled to loading temperature in a further fluidized bed.

Claims (3)

Patent claims: 1. Device for patenting wire rod in a heat transfer fluidized bed, consisting of a fluidized bed chamber with wire feed and wire take-off, a heat transfer circuit and a carrier gas line system with a fan, characterized by an intermediate grate trained conveyor (2) for the fanned out wire, one in the heat transfer circuit switched on, adjustable cooling device (6), a device for adjusting the flow rate of the carrier gas, a temperature measuring device (11) assigned to the wire take-off (8) for the wire outlet temperature and one of this temperature measuring device (11) assigned, the transport speed of the conveyor (2) influencing control loop (12, 13, 14 and 15). . 2. Device according to claim 1, characterized in that the heat carrier circuit (5) from a depression (7) for the heat transfer medium arranged in the area of the wire withdrawal (8), one to the cooling device (6) and from the cooling device (6) back to the heat transfer fluid bed (1) in the area of the wire feed (4) guided pipe system (5) and a pneumatic conveying device for the heat transfer medium, the heat transfer fluid bed (1) from the wire feed (4) can be arranged inclined downwards to the wire withdrawal (8). 3. Device according to claims 1 and 2, characterized in that the device for Adjustment of the flow rate of the carrier gas from one or more valves (9) consists, which are arranged in the carrier gas distributor line (10). 1 sheet of drawings