WO2006108332A1 - A lightweight mold of conticaster - Google Patents

Abstract

The present invention discloses a lightweight mold of conticaster, which is comprised of molding walls, a water jacket, cooling water pipes and a vibration means etc. The water inlet/outlet pipes including flexible part connect to the vibration mold and stationary supporting frame, and accordingly connected with the cooling water supply pipe and cooling water return pipe respectively disposed in the frame. The selective electromagnetic stirring spools are installed in the supporting frame. The characteristic of the present invention is that the weight of vibration means is smaller than the traditional vibration means, and convenient for making, the structure is also simplified.

Description

 Continuous casting machine light crystallizer

 This invention relates to a continuous casting machine crystallizer. technical background

 Continuous casting machine crystallizer is the key equipment of modern metallurgical technology. Its function is to transfer the process from molten steel to billet by cooling. The inlet and outlet pipes for crystallizer cooling are connected to the cooling water supply pipe and the return pipe from the crystallizer to the crystallizer support frame and the like. Generally, the support frame of the crystallizer vibrates with the crystallizer, and the disadvantage is that the quality of the vibrating portion of the crystallizer is large, requiring a high-powered vibration-vibrating device. Someone

( US 005676194A ) The upper and lower flanges of the billet crystallizer are divided into inner and outer rings, and the two rings are connected by a metal film. The crystallizer casing, the cooling water pipe and the support frame of the crystallizer do not vibrate. The quality of the vibrating portion of the crystallizer is reduced, which has the disadvantage that the sealing problem of the crystallizer is difficult to solve, the mechanical strength is weakened, and manufacturing and assembly are difficult. Summary of the invention

 SUMMARY OF THE INVENTION An object of the present invention is to provide a caster light crystallizer which can reduce the quality of the vibrating portion of the crystallizer and is easy to manufacture.

 The object of the present invention is achieved in that the cooling water pipe drawn from the crystallizer comprises a length of hose connected to one end of the crystallizer vibrating with the crystallizer, and one end of the support frame connected to the crystallizer is not vibrated.

 The water inlet ring and the water outlet ring which are spaced apart from each other are arranged around the draft water of the billet crystallizer.

 Both the cooling water inlet pipe and the cooling water outlet pipe of the billet crystallizer are introduced into the crystallizer in the upper portion of the crystallizer.

The support frame of the existing slab crystallizer vibrates with the large vibration table below it, and the vibration shield is large, and the power of the vibration-vibrating device used is large. Moreover, a cooling water pipe with a throat and a quick-change table and a vibration table base are provided under the vibration table, and the structure is complicated, which increases the investment cost. The invention utilizes the deformation of the cooling water pipe containing the hose section to realize the vibration of the crystallizer alone and the support frame does not vibrate, and the vibration part quality of the slab crystallizer whose vibration part is usually 30t can be reduced to 15 t, and The support frame itself also functions as a quick change table for the conventional slab mold and is directly mounted on the base, omitting the vibration table and the quick change table, and simplifies the structure of the slab mold.

 The existing billet crystallizer has a crystallizer casing between the upper and lower flanges around the diversion water jacket, and there is a water inlet tank and a water outlet tank between the outer casing and the diversion water jacket with a partition therebetween. This not only increases the weight of the crystallizer, but also divides the partition between the inlet and outlet tanks into inner and outer rings, and it is necessary to solve the sealing problem between the two rings. The invention simplifies the inlet and outlet water tank of the billet crystallizer into a water inlet and outlet ring which is opened apart, and the water inlet and outlet water ring is connected to the non-vibrating support frame through the inlet and outlet water pipes containing the hose section, which simplifies the billet crystallizer. The structure is easy to manufacture, and the mass of the vibrating portion of the billet crystallizer having a vibrating portion of usually 3 to 5 t is reduced to 0.5 t, and a non-vibrating external electromagnetic stirring coil can be installed between the inlet and outlet rings. The distance between the external electromagnetic stirring coil and the molten steel in the crystallizer is reduced, and the efficiency of electromagnetic stirring is improved.

 The cooling water inlet pipe and the cooling water outlet pipe of the billet crystallizer are introduced into the crystallizer in the upper portion of the crystallizer, so that the electromagnetic stirring wire can be hoisted without the mold. DRAWINGS

 The invention is illustrated in Figures 1 - 6.

 Figure 1 is a schematic view showing the structure of a slab light crystallizer;

 Figure 2 is a cross-sectional view of Figure 1;

 Figure 3 is a cross-sectional view of Figure 2;

 Figure 4 is a schematic view showing the structure of a billet light crystallizer;

 Figure 5 is a plan view of Figure 4;

 Fig. 6 is a schematic view showing the structure of a billet light crystallizer which is not attached to the crystallizer by the electromagnetic stirring wire. detailed description

A first embodiment of the present invention is shown in Figs. Cooling water flows through the numerous diversion troughs between the forming wall (copper plate) (1 01 and 03) of the slab light crystallizer and the diversion water jacket (support plate) (102 and 104), and in the diversion trough The inlet and outlet are summarized as the inlet (1 05) and the water outlet (1 06), which pass through the inlet pipe (1 07) containing the hose section (107a) and the outlet pipe containing the hose section (1 08a). (108) connected to non-vibrating On the support frame (109), there is respectively communicated with a cooling water supply pipe (111) and a cooling water return pipe (112) connected to the crystallizer base (110) of the support frame (109). The allowable deformation range of the hose sections (107a) and (108a) ensures long-term operation of the crystallizer vibrating under conditions in which the support frame (109) is not vibrating. The two wide-side guide sleeves (support plates) (102) of the slab mold are fastened by a fastening screw (115), and the narrow-side forming wall (copper plate) (103) and the narrow-side water guiding jacket are thereby used. (support plate) (1 04) clamped. The push-pull rod (11 3) and the hydraulic cylinder (114) are used to adjust the width of the slab mold. The balance spring (116) supports the weight of the crystallizer through the spring upper bracket (120), and the hydraulic cylinder (1 17) drives the crystallizer to perform sinusoidal or non-sinusoidal vibration through the upper cylinder bracket (118). The balance spring (116) and the hydraulic cylinder (117) are mounted on the base (110) by a spring lower support (121) and a hydraulic cylinder lower support (119), respectively. A hook (122) for lifting the crystallizer is arranged on the support frame (109). Compared with the conventional slab crystallizer, this embodiment not only reduces the quality of the vibrating portion of the slab mold, but also omits equipment such as a vibrating table, a cooling water pipe including a throat, and a quick change table.

A second embodiment of the invention is illustrated in Figures 4-5. Cooling water flows between the billet light crystallizer forming wall (copper tube) (201) and the diversion water jacket (202). Between the diversion water jacket (202) and the lower flange (212) and the upper flange (211), a cooling water inlet ring (203) and a cooling water outlet ring (204) are provided respectively. Connected to the non-vibrating support frame (207) through the inlet pipe (205) containing the hose section (205a) and the outlet pipe (206) containing the hose section (206a), respectively The cooling water supply pipe (209) on the base (208) of the support frame (207) communicates with the cooling water return pipe (210). The allowable deformation range of the hose sections (205 a) and (206a) ensures long-term operation of the vibrating crystallizer under conditions in which the support frame (207) is not vibrating. By the inner arc mounted on the support frame (207). One side of the rocker arm (21 3) extending outwardly from the crystallizer is a fork arm (21 3a), and " ² " is linked to the upper flange of the mold (211) by the fork arm seat (215). The fork arm (21 3a) extends The direction of the outward arc is perpendicular to the tangent of the vibration arc of the crystallizer to ensure the arc-like vibration of the crystallizer. The rocker arm (213) extends in the direction of the inner arc and the hydraulic cylinder mounted on the base of the crystallizer (2 08) 216) is connected with the balance spring (217). The hydraulic cylinder (216) drives the billet crystallizer to perform sinusoidal or non-sinusoidal vibration through the vibration bracket. The support frame (207) is provided with a hook (219) for lifting the crystallizer. The electromagnetic stirring coil (218) between the rings (203) and (204) is mounted on the non-vibrating support frame (207). This embodiment and the existing billet Compared with the crystallizer, the quality of the vibrating part of the crystallizer is reduced, the structure of the billet crystallizer is simplified, and the manufacturing is easy, and the distance between the externally mounted electromagnetic stirring coil and the molten steel in the crystallizer is shortened, and the electromagnetic stirring equipment is improved. effectiveness.

 A third embodiment of the present invention is shown in Fig. 6. Billet light crystallizer forming wall

Cooling water flows between the (copper pipe) (301) and the diversion water jacket (302). There is a height-reduced cooling water outlet ring (304) around the guide water jacket (302) and above the flange (311), and a smaller outer diameter cooling water inlet ring (303) from the lower flange.

(312) extends upwardly around the flow guiding ice jacket (302) to the cooling water outlet ring (304). The cooling water inlet ring (303) and the cooling water outlet ring (304) pass through the inlet pipe (305) and the water tank (306b) and the hose section (306a) of the water tank (305b) and the hose section (305a), respectively. The outlet pipe (306) is connected to the non-vibrating support frame (307), where the cooling water supply pipe (309) and the cooling water outlet pipe (310) are respectively supported on the base (308) of the support frame (307). Connected. The allowable deformation range of the hose sections (305a) and (306a) ensures long-term operation of the crystallizer that vibrates under conditions in which the support frame (307) is not vibrating. A vibrating bracket consisting of a rocker mount (314) and a rocker arm (313) mounted on the crystallizer base (308) is mounted in the inner arc of the billet crystallizer. The side of the rocker arm (313) extending outwardly from the arc crystallizer is a fork arm (313a) that is linked to the upper flange of the mold (311) by a fork arm seat (315). The direction in which the fork arm (313a) extends outward is perpendicular to the tangent to the vibration arc of the crystallizer to ensure the crystal arc vibration of the crystallizer. The rocker arm (313) is connected to the hydraulic cylinder (316) and the balance spring (317) mounted on the crystallizer base (308) in the inner arc direction. The hydraulic cylinder ( 316 ) drives the billet crystallizer through the vibrating bracket for sinusoidal or non-sinusoidal vibration. A hook (319) is provided on the support frame (307). The electromagnetic stirrer ( 318 ) is mounted on the base ( 308 ). Thus, the electromagnetic stirring coil ( 318 ) remains stationary while the mold is being lifted.

Claims

P ^CN 2005 / 0 0 2 0 3 1WO 2006/108332 PCT/CN2005/002031 Claims

A continuous casting machine light crystallizer comprising a forming wall, a diversion water jacket, a cooling water pipe and a vibration device, wherein a cooling water pipe including a hose section is connected to a crystallizer at one end of the crystallizer Vibration, the end connected to the crystallizer support frame does not vibrate.

 2. The apparatus according to claim 1, wherein a cooling water inlet ring and a cooling water outlet ring that are spaced apart from each other are disposed around the billet crystallizer water.

 3. Apparatus according to claim 1 wherein both the cooling water inlet and the cooling water outlet of the billet crystallizer are introduced into the crystallizer in the upper section of the crystallizer.