JP2002053988A - Device for treating metallic strand product, particularly for pickling rolled strip - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide the improvement of a pickling method of a strand, particularly of a rolled strip. SOLUTION: In this device for treating a metallic strand product 1, particularly for pickling a rolled strip 1a, in which carrying can be performed through a treating passage 2, and also, a treating fluid 5 can be projected by turbulence from a nozzle 6, fluid projection 7 is controlled at the inlet 8 of the passage in the carrying direction 9 of the strand product, is oriented so as to dam up the quick drainage of the treating fluid 5 at the outlet 10 of the passage confronted with the carrying direction 9 of the strand product and is useful for the optimization of the treating fluid by the strengthening of the chemical reaction condition, the treating passage 2 is formed of alternately drawn up migrating members 11 on the upper side 2a, the migrating members are respectively provided with some or plural flatly distributed heat exchangers 12 so as to be oriented toward the strand product 1, and the heat energy thereof can be transferred to the treating fluid 5 and/or the strand product 1.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for processing metal strand products which can be transported through a processing path and which can blast a processing fluid from a nozzle in a turbulent manner, in particular for pickling a rolled strip, comprising a fluid projection apparatus. Is adjusted at the passage entrance in the strand product transport direction and is directed to dampen prompt drainage of processing fluid at the passage exit opposite the strand product transport direction.

[0002]

2. Description of the Related Art A device of this kind is known from DE-A 29 11 701. This arrangement avoids the difficulties of installing the squeeze roll and the transfer of processing fluid between some tanks. At that time,
The support or guide rolls can be replaced by other elements. On the one hand, this arrangement starts from an elongated rectangular processing chamber, and on the other hand, the processing nozzles are arranged parallel and perpendicular to the direction of transport of the strand products. In addition, so-called deflectors are arranged above and below the strand product relative to the processing nozzle, resulting in better distribution of the strand product. However, the described means are exclusively directed to the further swirling and gradient of the turbulence and exhibit a completely mechanical mode of action. No preceding chemical action is provided or intended.

[0003]

SUMMARY OF THE INVENTION The object of the present invention is to provide, in addition to the physical action of turbulence, the chemical action of the process fluid and, in some cases, the process action in the direction of process expansion and charge rise in critical steel types. The purpose is to improve the surface condition in the strand product transport direction.

[0004]

SUMMARY OF THE INVENTION According to the present invention, it is an object of the present invention to provide a process in which a processing passage is formed on the upper side by electrophoretic members which are aligned with each other, and the electrophoretic members are slightly directed toward the strand products. Or a plurality of evenly distributed heat exchangers whose thermal energy can be transferred to the process fluid and / or the strand product. The chemistry increases the additional thermal hazard as the processing fluid quickly reaches the desired reaction temperature, thereby reacting faster and more strongly. Therefore, the invention is preferably applicable to a strand product 1 consisting especially of IF steel (IF = intervening free steel).

A further improvement in the efficiency of operation of such a device is that, in combination with a chemical reaction, a flow guide plate is juxtaposed to a flat distributed heat exchanger and projects downward to direct the process fluid flow. Achieved by serving to mix.

[0006] In a preferred embodiment, the flow guide plate between the two heat exchangers is arranged beside one heat exchanger and / or in front of one or a pair of heat exchangers. A particularly powerful swirling of the processing fluid is thereby achieved.

[0007] The transfer of thermal energy and / or processing fluid over the strand product is particularly powerful since the heat exchangers each comprise a heating tube or plate mounted on the underside of the electrophoresis member.

A further feature is that the heating tube is a heated honeycomb (Heizwa
This is caused by being installed in a serpentine tube for be). This combines the high surface tension of the available bottom surface with the high heat load.

A further configuration is that the heating tube is made of PVDF or PDF.
Manufactured from TFE and operated at a temperature of approximately 130-135 ° C. This configuration ensures good heat load capability at relatively high temperatures.

For the construction and operation of the heat exchanger, it is further provided that the electrophoretic elements with the heat exchanger are fixed at a distance from the open cover housing facing the respective enclosing electrophoretic element. preferable.

For this purpose, it is provided that the cover housing is connected to the electrophoresis member by a plurality of spacers.

The operation of the electrophoresis member, the heat exchanger and the cover housing can furthermore be such that the cover housing can be pulled out of one piece with the electrophoresis member by means of one lifting tool (Hebegeschirrs) or one hydraulic device or mounted in the processing chamber. Alleviated. Thereby, the heat exchanger can be easily and quickly replaced or repaired outside the device.

Finally, it is provided that the electrophoresis element is made of synthetic resin, so that fairly light structures can be created.

The drawings illustrate embodiments of the present invention and will be described in detail. FIG. 1 shows a vertical longitudinal section through the aligned processing chambers, and FIG. 2 shows a perspective view from below of the electrophoresis member with the heat exchanger and the cover housing.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An apparatus for processing a metal strand product 1, particularly a rolled strip 1a, conveyed by a processing path 2 has one first processing chamber 3 and one second processing chamber 4 located one behind the other. . The strand product 1 is projected by a fluid projection 7 from a nozzle 6 with a processing fluid 5 such that a turbulent processing fluid flow 5a is generated. This fluid projection 7 is adjusted at the passage inlet 8 in the strand transfer direction 9 and is opposite to the strand transfer direction 9 at the passage outlet 10, so that the processing fluid 5 from each of the processing chambers 3 and 4 is promptly moved. At least drainage is stopped. The strand product 1 is mounted on the stones 3a and 4a inside the processing chambers 3 and 4.

The processing passage 2 is formed on its upper side 2a by electrophoretic members 11 which are aligned with one another, the electrophoretic members facing the strand product 1 and each having some or a plurality of flatly distributed heat exchangers 12. With
The heat energy is transmitted to the processing fluid 5 and / or the strand product 1. The treatment fluid 5 which produces the desired inflow temperature enhances the chemical reaction between the surfaces of the strand product 1, in particular the rolling strip 1a, causing a cleaning process to be strengthened, thereby optimizing the treatment and increasing the charging. Guide efficiency.

Since turbulence also contributes to this process,
A clear improvement of the process is provided by the combination with the warmed and stored process fluid 5. This effect is led by a flatly distributed flow guide plate 13 which is juxtaposed to the flatly distributed heat exchanger 12 and protrudes downward, considerably enhancing the mixing of the process fluid stream 5a.

As is further evident from FIG. 2, the flow guide plate 13 between the two heat exchangers 12 can be located beside one heat exchanger 12 in the strand transport direction 9 and / or one or a pair of heat exchangers. It is arranged in front of the vessel 12.

In one particular embodiment, the heat exchanger 12 comprises a heating tube 14 or a heating plate, respectively, located on the lower surface 11a of the electrophoresis member 11. The heating tube 14 is installed in a serpentine shape with respect to the heating honeycomb 15, and
In one closed cutting section 11b. Heating tube 14 is PV
Manufactured from DF (polyvinylidene fluoride) or PTFE (polytetrafluoroethylene), approximately 130-
It guides steam at 135 ° C.

The electrophoresis member 11 includes a heat exchanger 12 and an open cover housing 1 facing the electrophoresis member 11 surrounding the heat exchanger 12.
It is connected to 7 at an interval 16. Interval 16
Is covered by the plurality of spacers 18 with the migration member 11.
It is formed between the housings 17. The cover housing 17 can be pulled out as a unit together with the electrophoresis member 11 and the heat exchanger 12 by means of a lifting tool 19 or a single hydraulic device, or can be mounted in the processing chamber 3 or 4.
The electrophoresis member 11 receives only a small weight and receives the processing fluid 5.
It can be manufactured from synthetic resins to capture and trap the annoying vapors that can arise from.

The hot steam is supplied to the heating tube 14 in the direction 20 through the hose connection 21 and through the migrating member 11 and is returned in the circuit.

[Brief description of the drawings]

FIG. 1 shows a vertical longitudinal section through processing chambers aligned with one another.

FIG. 2 is a perspective view of the electrophoresis member viewed from below together with the heat exchanger and the cover housing.

[Explanation of symbols]

 1. . . . . Strand products 1a. . . . Rolled strip 2. . . . . Processing passage 2a. . . . Upper side 3. . . . . First processing chamber 3a. . . . Slip stone 4. . . . . Second processing chamber 4a. . . . Slip stone 5. . . . . Processing fluid 5a. . . . 5. Processing fluid flow . . . . Nozzle 7. . . . . 7. Fluid projection . . . . Passage entrance 9. . . . . Strand transport direction 10. . . . Passage exit 11. . . . Electrophoresis member 11a. . . Lower surface 11b. . . Cutting section 12. . . . Heat exchanger 13. . . . Flow guide plate 14. . . . Heating tube 15. . . . Heating plate 16. . . . Interval 17. . . . Cover housing 18. . . . Spacer 19. . . . Lifting equipment 20. . . . Direction 21. . . . Hose connection

 ────────────────────────────────────────────────── ─── Continuing on the front page (72) Inventor Shijtefan Voorts, Germany, 41468 Grimlinghausen, Hertz Augstrasse, 4F F-term (reference) 4K053 PA02 PA12 QA01 RA14 SA06 TA16 TA24 XA14 XA22 XA47

Claims (10)

[Claims] An apparatus for processing metal strand products, particularly for pickling rolled strips, which can be transported through a processing path and which can blast a processing fluid from a nozzle in a turbulent manner, wherein the fluid projection is performed in the direction of the strand product transport. In a device adjusted at the passage inlet and directed to dampen the rapid drainage of the processing fluid at the passage outlet opposite the direction of strand product transport, the processing passages (2) are aligned with each other on the upper side (2a). Formed by the electrophoresis member (11),
The electrophoresis member is provided with some or a plurality of evenly distributed heat exchangers (12), each directed towards a strand product (1), the heat energy of which is treated fluid (5) and / or strands. An apparatus that can be transmitted to a product (1). 2. A flow guide plate (13) juxtaposed to a flatly distributed heat exchanger (12), the guide plate projecting downward to serve to mix the process fluid stream (5a). The device according to claim 1, characterized in that: 3. The flow guide plate (13) comprises two heat exchangers (12).
3. Heat exchanger (12) according to claim 1, characterized in that it is arranged next to one heat exchanger (12) and / or in front of one or a pair of heat exchangers (12). apparatus. 4. A heat exchanger (12) is provided for each electrophoresis member (1).
Apparatus according to any one of the preceding claims, comprising a heating tube (14) or a heating plate installed on the lower surface (11a) of 1). 5. The device according to claim 1, wherein the heating tube is arranged in a serpentine shape with respect to the heating honeycomb. 6. The heating tube (14) is made of PVDF (polyvinylidene fluoride) or PTFE (polytetrafluoroethylene) and is operated with steam at 130-135 ° C. Apparatus according to any one of the preceding claims. 7. An electrophoretic member (11) provided with a heat exchanger (12) is surrounded by an open cover facing the electrophoretic member (11).
7. The device according to claim 1, wherein the device is fixed at a distance (16) to the housing (17). 8. The cover housing (17) is connected to the electrophoretic member (11) by a plurality of spacers (18). An apparatus according to claim 1. 9. The electrophoresis member (11) wherein the cover housing (17) is provided.
9. The device according to claim 1, wherein the device can be pulled out by a single lifting tool or a single hydraulic device, or can be placed in the processing chamber. 4. apparatus. 10. The apparatus according to claim 1, wherein the electrophoretic member is made of a synthetic resin.