CN217647449U - Novel slab crystallizer - Google Patents

Abstract

The utility model discloses a novel slab crystallizer relates to slab crystallizer technical field. The utility model discloses a novel slab crystallizer, which comprises a fixed plate fixed with a reference, wherein the upper surface of the fixed plate is fixedly provided with a crystallizer fixed side; the processing side of the fixed side of the crystallizer is movably provided with a movable side of the crystallizer so as to reform the existing four-piece crystallizer into two pieces, thereby improving the integral strength and stability. The left end and the right end of the fixed side of the crystallizer are respectively communicated with a fixed side water inlet tank and a fixed side water outlet tank to provide cooling water for the fixed side of the crystallizer; the left end and the right end of the movable side of the crystallizer are respectively and movably provided with a movable side water inlet tank and a movable side water outlet tank so as to provide cooling water for the movable side of the crystallizer. Through integrating crystallizer water tank inner structure to each waterway structure in optimizing crystallizer water tank, thereby simplify overall structure.

Description

Novel slab crystallizer

Technical Field

The utility model relates to a slab crystallizer technical field, the more specifically novel slab crystallizer that says so.

Background

The crystallizer is a core part of continuous casting, a crystallizer copper plate is used as an important heat-conducting part from liquid molten steel to solidified solid blank shells in continuous casting, and the quality of the crystallizer copper plate directly influences the surface quality of a casting blank, the pulling speed of a continuous casting machine and other indexes. Molten steel flows through a crystallizer copper plate, is crystallized into a blank under the action of external cooling water, and is pulled out of the crystallizer by a dummy bar, so that the crystallizer copper plate is seriously abraded and frequently replaced due to frequent blank pulling.

Current crystallizer is mostly "four formula" structures, specifically including two sets of processing frames that set up relatively, all is provided with backplate and copper between two sets of processing frame opposite faces, through left side support and the right side support fixed mounting who controls and set up between two sets of processing frames. In the slab continuous casting process, cooling water flows from the lower water tank to the copper plate, flows to the upper water tank and is discharged out of the water tank through the water outlet to cool the copper plate, so that the copper plate is prevented from being damaged due to overhigh temperature in the machining process; in order to ensure the internal strength, a plurality of groups of reinforcing plates are usually additionally arranged in the water tank, and water paths are opened on the reinforcing plates, so that the water tank inside two groups of oppositely arranged processing frames is relatively complex. Because the water inlet and outlet pipes of the water tank in the crystallizer are connected with the water pipes on the left and right supports through flanges, the middle of the water tank is also provided with a corrugated pipe, the leaked pipeline is welded with the left and right supports through stainless steel pipes, and the corrugated pipe for connection is expensive, so that the cost is high, and the water tank is easy to collide and corrode; in addition, the crystallizer has a complex and unstable structure, is time-consuming and labor-consuming to install, and is inconvenient to maintain, so that a new crystallizer needs to be designed to overcome the defects.

SUMMERY OF THE UTILITY MODEL

1. Technical problem to be solved by the utility model

Aiming at the problems of complex structure and the like of the existing crystallizer and an internal water tank thereof, the utility model provides a novel slab crystallizer, which is characterized in that after the fixed side of the crystallizer is fixed with a reference, the movable side of the crystallizer is installed, so that the existing four-piece crystallizer is reformed into two pieces, thereby facilitating the disassembly and assembly; meanwhile, the waterway structures of all parts are integrated and transformed, so that the integral structure is simplified, and the equipment maintenance is facilitated.

2. Technical scheme

In order to achieve the above purpose, the utility model provides a technical scheme does:

a novel slab crystallizer comprises a fixed plate fixed with a reference, wherein the upper surface of the fixed plate is fixedly provided with a crystallizer fixed side; the movable side of the crystallizer is movably arranged at the processing side of the fixed side of the crystallizer, and the movable side of the crystallizer is arranged after the fixed side of the crystallizer is fixed with a reference, so that the existing four-piece crystallizer is reformed into two pieces, the integral strength and stability are improved, and the disassembly and the assembly are convenient; the fixed side of the crystallizer is communicated with the movable side of the crystallizer through water inlet pipes and water outlet pipes which are symmetrically arranged left and right; the left end and the right end of the fixed side of the crystallizer are respectively provided with a fixed side water inlet tank and a fixed side water outlet tank in a communication manner, and the fixed side water inlet tank and the fixed side water outlet tank are fixedly arranged on the upper surface of the fixed plate; both ends are movable mounting respectively about crystallizer activity side have activity side to advance water tank and activity side to go out the water tank, activity side advances water tank and activity side to go out water tank fixed mounting at the fixed plate upper surface to corresponding optimization crystallizer water tank inner structure makes inside each water route of crystallizer water tank integrate.

According to the further technical scheme, the fixed side of the crystallizer comprises a fixed frame body, the fixed frame body comprises a fixed frame body upper water tank and a fixed frame body lower water tank which are arranged at intervals up and down, a fixed frame body water outlet and a fixed frame body water inlet are formed in the left and right of a spacing area between the fixed frame body upper water tank and the fixed frame body lower water tank, and the fixed side water inlet tank and the fixed side water outlet tank are communicated with the fixed frame body through the fixed frame body water inlet and the fixed frame body water outlet respectively; a fixed side inlet water tank is vertically arranged at the joint of the fixed side inlet water tank and the fixed plate, a fixed side inlet water tank partition plate is transversely arranged in the middle of the fixed side inlet water tank, and the fixed side inlet water tank is communicated with a circular pipe through hole I arranged on the fixed side inlet water tank partition plate through a vertically-installed circular pipe; the fixed external water source of side inlet, the fixed side outlet tank has vertically seted up fixed side outlet with the fixed plate junction, fixed side outlet tank middle part transversely is provided with fixed side outlet tank baffle, the pipe that fixed side outlet tank passes through vertical installation is linked together with the pipe through-hole II of seting up on the fixed side outlet tank baffle to the copper I that the realization provides the cooling water to the crystallizer fixed side and is used for installation on the fixed frame body medial surface leads to water the cooling, separates with fixed side inlet tank and fixed side outlet tank and activity side inlet tank and activity side outlet tank, makes the fixed side of crystallizer and crystallizer activity side form each from closed circulation water route.

According to the further technical scheme, a lower water tank water inlet I is vertically formed in the position, close to a fixed frame body water inlet II, of the upper surface of a lower water tank of the fixed frame body; the lower surface of the water tank at the upper part of the fixed frame body is close to the water inlet I of the fixed frame body, the upper water tank water outlet I is vertically arranged, cooling water is discharged into the fixed frame body through the fixed side water inlet II through the fixed side water inlet tank, the cooling water enters the water tank at the lower part of the fixed frame body through the lower water tank water inlet I, the cooling water flows to the copper plate I from the water tank at the lower part of the fixed frame body to be cooled, and finally the cooling water is discharged through the fixed side water outlet.

Further technical scheme, water inlet II and delivery port II that fixed frame body medial surface transversely seted up about through are linked together with inlet tube and outlet pipe, water inlet II and delivery port II set up the interval region at fixed frame body upper portion water tank and fixed frame body lower part water tank to guarantee the fixed frame body with copper I and the copper II of installation cool off simultaneously on the movable frame body, thereby make the slab of continuous casting between the two be heated evenly, ensure the precision of processing.

According to the further technical scheme, a fixed side water outlet through hole is transversely formed in the joint of the fixed side water outlet tank and the movable side water outlet tank, and the fixed side water outlet through hole is communicated with the lower area of a fixed side water outlet tank partition plate arranged in the fixed side water outlet tank; a fixed side water inlet through hole is transversely formed at the joint of the fixed side water inlet tank and the movable side water inlet tank and is communicated with the lower area of a fixed side water inlet tank partition plate arranged in the fixed side water inlet tank; activity side inlet water tank and the vertical activity side inlet water mouth of having seted up of fixed plate junction, the external water source of activity side inlet water mouth, activity side outlet water tank and the vertical activity side outlet water mouth of having seted up of fixed plate junction, the cooling water that gets into activity side inlet water tank through activity side inlet water mouth, rethread delivery port II discharges to inside the crystallizer activity side to copper II to the installation of crystallizer activity side medial surface carries out water spray cooling, in the water rethread outlet pipe row activity side outlet water tank after the cooling process is ended, discharge through activity side outlet water mouth at last. During the copper II of installation on the crystallizer activity side carries out the water cooling process, and the cooling water borrows fixed side water inlet tank and fixed side water outlet tank lower part vacant space to carry out the water route circulation and flows, and the water route of the fixed side of crystallizer and crystallizer activity side is independent separately for whole device waterway structure integrates, and need not extra external bellows, has improved the life of equipment.

According to the further technical scheme, the movable side of the crystallizer is connected with the movable side water inlet tank through a movable side water inlet tank connecting groove and a movable side water inlet tank connecting block which are connected in a clamping manner, the movable side water inlet tank connecting groove is fixedly arranged on the outer side surface of the movable side water inlet tank, and the movable side water inlet tank connecting block is fixedly arranged on the outer side surface of the movable side of the crystallizer; the movable side water outlet tank connecting groove is connected with the movable side water outlet tank connecting block through the clamping connection, the movable side water outlet tank connecting groove is fixedly installed on the outer side face of the movable side water outlet tank, and the movable side water outlet tank connecting block is fixedly installed on the outer side face of the movable side water outlet tank, so that the crystallizer is simple, convenient and quick to assemble and disassemble, and time and labor are saved.

According to the further technical scheme, the movable side of the crystallizer comprises a movable frame body, the movable frame body comprises a movable frame body upper water tank and a movable frame body lower water tank which are arranged at intervals up and down, a plurality of groups of upper water tank inlets are transversely arranged on the upper portion of the movable frame body upper water tank at equal intervals, and a plurality of groups of lower water tank outlets are transversely arranged on the lower portion of the movable frame body lower water tank at equal intervals; the movable side water inlet is formed in the joint of the movable side water inlet tank and the fixed plate, and the movable side water outlet is formed in the joint of the movable side water outlet tank and the fixed plate so as to provide cooling water for the movable side of the crystallizer.

According to a further technical scheme, the movable frame body is communicated with a water inlet pipe and a water outlet pipe through a water outlet I and a water inlet I which are transversely formed, and the water outlet I and the water inlet I are arranged in a separation area between a water tank on the upper portion of the movable frame body and a water tank on the lower portion of the movable frame body.

According to the technical scheme, an upper water tank water outlet is vertically formed in one side, close to the water inlet, of the lower surface of the upper water tank of the movable frame body, a lower water tank water inlet is vertically formed in one side, close to the water outlet, of the upper water tank of the lower water tank of the movable frame body, so that the upper water tank of the movable frame body is communicated with the lower water tank of the movable frame body, and cooling water is enabled to flow in a circulating mode inside the upper water tank of the movable frame body.

According to the further technical scheme, the inner side face of the fixed frame body is sequentially and vertically provided with a back plate I and a copper plate I.

According to the further technical scheme, the inner side face of the movable frame body is sequentially and vertically provided with a back plate II and a copper plate II.

3. Advantageous effects

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

(1) The novel slab crystallizer of the utility model is characterized in that the movable side of the crystallizer is installed after the fixed side of the crystallizer is fixed with the reference, so that the existing four-piece crystallizer is reformed into two pieces, thereby facilitating the disassembly and assembly; meanwhile, the waterway structures of all parts are integrated and reformed, so that the integral structure is simplified, and the equipment maintenance is facilitated;

(2) The utility model discloses a novel slab crystallizer, the crystallizer fixed side includes the fixed frame body, and the water that gets into from the fixed side inlet flows into the fixed frame body through the fixed frame body water inlet to carry out water spray cooling to the copper I of installing on the fixed frame body medial surface; the water flow flows into the fixed side water outlet tank from the water outlet of the fixed frame body and is discharged through the fixed side water outlet, so that cooling water is supplied to the fixed side of the crystallizer for cooling the copper plate I, and the internal structure of the crystallizer water tank is further optimized;

(3) The utility model discloses a novel slab crystallizer, in the water spray cooling process to the copper II of installation on the crystallizer activity side, the cooling water that gets into activity side inlet box through activity side inlet, flow into the interval region between the fixed side inlet box and through the fixed side inlet through-hole, the rethread delivery port II is discharged to the inside of crystallizer activity side, thereby carry out water cooling to the copper II of crystallizer activity side medial surface installation, water after the cooling process finishes rethreads the outlet pipe and discharges back to in the activity side outlet box, discharge through the activity side outlet, the cooling water borrows fixed side inlet box and fixed side outlet box lower part vacant space to carry out the water route circulation and flows, make whole device waterway structure integrate, and need not extra external bellows, the life of equipment is improved;

(4) The utility model discloses a novel slab crystallizer, fixed side inlet water tank middle part transversely is provided with fixed side inlet water tank baffle, fixed side inlet water port is linked together through the pipe through-hole I of seting up on pipe and the fixed side inlet water tank baffle of vertical installation, fixed side outlet water tank middle part transversely is provided with fixed side outlet water tank baffle, fixed side outlet water port is linked together through the pipe through-hole II of seting up on pipe and the fixed side outlet water tank baffle of vertical installation to separate fixed side inlet water tank and fixed side outlet water tank and activity side inlet water tank and activity side outlet water tank, make crystallizer fixed side and crystallizer activity side form each closed circulation water route;

(5) The utility model discloses a novel slab crystallizer, the movable side inlet water tank connecting groove that is connected through the block between the movable side inlet water tank and the movable side inlet water tank of crystallizer is connected with the movable side inlet water tank connecting block, the movable side inlet water tank connecting groove is fixedly installed on the outer side surface of the movable side inlet water tank, the movable side inlet water tank connecting block is fixedly installed on the outer side surface of the movable side of crystallizer; the movable side water outlet tank connecting groove connected with the movable side water outlet tank through the clamping is connected with the movable side water outlet tank connecting block, the movable side water outlet tank connecting groove is fixedly installed on the outer side face of the movable side water outlet tank, and the movable side water outlet tank connecting block is fixedly installed on the outer side face of the movable side of the crystallizer, so that the crystallizer is simple, convenient and quick to disassemble and assemble, and time and labor are saved.

Drawings

FIG. 1 is a schematic view of the three-dimensional structure of the crystallizer according to the present invention;

FIG. 2 is a schematic view of the bottom structure of FIG. 1;

FIG. 3 is a schematic view of the internal structure of the crystallizer of FIG. 1;

FIG. 4 is a rear view of FIG. 2;

FIG. 5 is a perspective view of the stationary side of the crystallizer shown in FIG. 1;

FIG. 6 is a schematic view of the bottom structure of FIG. 5;

FIG. 7 is a schematic structural view of the mold shown in FIG. 1 with the back plate and the copper plate removed from the stationary side thereof;

FIG. 8 is a schematic view of the structure of the crystallizer in a disassembled state at the movable side;

fig. 9 is a front view of the moving side body of the mold shown in fig. 8.

In the figure: 1-fixed side of crystallizer; 11-a fixed frame body; 12-a backsheet I; 13-copper plate I; 1101-fixing the upper water tank of the frame body; 1102-fixing a water tank at the lower part of the frame body; 1103-upper tank outlet I; 1104-lower tank inlet I; 1105-fixing the water outlet of the frame body; 1106-fixed frame body water inlet; 111-a fixed plate; 2-fixed side water inlet tank; 21-fixed side water inlet; 22-stationary side entry feed-through; 23-fixing a side inlet tank baffle; 231-round tube through hole I; 3-fixing a side water outlet tank; 31-fixed side water outlet; 32-fixing the side water outlet through hole; 33-fixing a side water outlet tank clapboard; 331-circular tube through hole II; 4-the movable side of the crystallizer; 41-a movable frame body; 411-water tank at upper part of movable frame body; 412-a water tank below the movable frame body; 413-upper water tank water outlet II; 414-lower tank inlet II; 415-upper tank inlet; 416-lower tank outlet; 42-Back plate II; 43-copper plate II; 5-a movable side water inlet tank; 51-a movable side intake; 52-Movable side Water tank connection trough; 53-movable side water inlet box connecting block; 6, discharging the water tank from the movable side; 61-movable side water outlet; 62-movable side water outlet tank connecting groove; 63-movable side water outlet tank connecting block; 7-water inlet pipe; 71-water outlet I; 72-water inlet II; 8-water outlet pipe; 81-water inlet I; 82-water outlet II.

Detailed Description

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

Example 1

The novel slab crystallizer of the present embodiment, as shown in fig. 1, includes a fixing plate 111 fixed to a reference, wherein a crystallizer fixing side 1 is fixedly installed on an upper surface of the fixing plate 111; the movable crystallizer side 4 is movably mounted on the processing side of the fixed crystallizer side 1, the movable crystallizer side 4 is mounted after the fixed crystallizer side 1 is fixed with a reference, and the assembled fixed crystallizer side 1 and the reference are integrally transferred to a vibration table for fixing so as to reform the conventional four-piece crystallizer into two pieces, thereby improving the integral strength and stability and facilitating disassembly and assembly; the crystallizer fixed side 1 is communicated with the crystallizer movable side 4 through water inlet pipes 7 and water outlet pipes 8 which are arranged in bilateral symmetry; the left end and the right end of the fixed side 1 of the crystallizer are respectively communicated with a fixed side water inlet tank 2 and a fixed side water outlet tank 3, and the fixed side water inlet tank 2 and the fixed side water outlet tank 3 are fixedly arranged on the upper surface of a fixed plate 111; the left end and the right end of the movable side 4 of the crystallizer are respectively movably provided with a movable side water inlet tank 5 and a movable side water outlet tank 6, and the movable side water inlet tank 5 and the movable side water outlet tank 6 are fixedly arranged on the upper surface of the fixing plate 111.

In this embodiment, it provides the cooling water for the fixed side 1 of crystallizer to advance water tank 2 through fixed side to cool down the vertical copper I13 of installing at the fixed side 1 medial surface of crystallizer, the cooling water in the fixed side 1 of crystallizer is discharged through fixed side outlet tank 3 again, thereby corresponding optimization crystallizer water tank inner structure makes inside each water route of crystallizer water tank integrate.

Example 2

The basic structure of the novel slab crystallizer of the embodiment is the same as that of the embodiment 1, and the differences and improvements are as follows: as shown in fig. 4 to 7, the crystallizer fixing side 1 includes a fixing frame body 11, the fixing frame body 11 includes a fixing frame body upper water tank 1101 and a fixing frame body lower water tank 1102 which are arranged at an interval from top to bottom, a fixing frame body water outlet 1105 and a fixing frame body water inlet 1106 are opened at the left and right of an interval region between the fixing frame body upper water tank 1101 and the fixing frame body lower water tank 1102, and the fixing side water inlet tank 2 and the fixing side water outlet tank 3 are respectively communicated with the fixing frame body 11 through the fixing frame body water inlet 1106 and the fixing frame body water outlet 1105; fixed side inlet tank 2 and the vertical fixed side inlet port 21 of having seted up of fixed plate 111 junction, fixed side inlet tank 2 middle part transversely is provided with fixed side inlet tank baffle 23, fixed side inlet tank 21 is linked together through the pipe of vertical installation and the pipe through-hole I231 of seting up on the fixed side inlet tank baffle 23, the external water source of fixed side inlet tank 21, fixed side outlet tank 3 and the vertical fixed side outlet port 31 of seting up of fixed plate 111 junction, fixed side outlet tank 3 middle part transversely is provided with fixed side outlet tank baffle 33, fixed side outlet port 31 is linked together through the pipe of vertical installation and the pipe through-hole II331 of seting up on the fixed side outlet tank baffle 33 to with fixed side inlet tank 2 and fixed side outlet tank 3 with activity side inlet tank 5 and activity side outlet tank 6 separate, make the fixed side 1 of crystallizer and the movable side 4 formation closed circulation water route separately.

In this embodiment, water entering from the fixed side water inlet 21 flows into the fixed frame body 11 through the fixed frame body water inlet 1106 to cool the copper plate I13 mounted on the inner side surface of the fixed frame body 11; the water flow flows into the fixed side water outlet tank 3 from the water outlet 1105 of the fixed frame body and is discharged through the fixed side water outlet 31, so as to realize that cooling water is provided for the crystallizer fixed side 1 for cooling the copper plate I13.

Example 3

The basic structure of the novel slab crystallizer of the embodiment is the same as that of the embodiment 2, and the differences and improvements are as follows: as shown in fig. 4 and 7, a lower tank water inlet I1104 is vertically formed in the upper surface of the fixed frame body lower tank 1102 close to the fixed frame body water inlet II 1106; an upper water tank water outlet I1103 is vertically formed in the position, close to a fixed frame body water inlet I1105, of the lower surface of the fixed frame body upper water tank 1101.

In this embodiment, cooling water is discharged into the fixed frame body 11 through the fixed side water inlet tank 2 via the fixed frame body water inlet II1106, the cooling water enters the fixed frame body lower water tank 1102 via the lower water tank water inlet I1104, the cooling water flows from the fixed frame body lower water tank 1102 to the copper plate I13 to cool the same, the cooling water flows into the fixed frame body upper water tank 1101 from above via a gap between the copper plate I13 and the fixed frame body 11, and is discharged into the fixed side water outlet tank 3 via the upper water tank water outlet I1103 and the fixed frame body water inlet I1105 in sequence, and finally is discharged through the fixed side water outlet 31.

Example 4

The basic structure of the novel slab crystallizer of the embodiment is the same as that of the embodiment 3, and the differences and improvements are as follows: as shown in fig. 1, as shown in fig. 8 to 9, a fixed side water outlet through hole 32 is transversely formed at a joint of the fixed side water outlet tank 3 and the movable side water outlet tank 6, and the fixed side water outlet through hole 32 is communicated with a lower area of a fixed side water outlet tank partition plate 33 arranged in the fixed side water outlet tank 3; a fixed side water inlet through hole 22 is transversely formed at the joint of the fixed side water inlet tank 2 and the movable side water inlet tank 5, the fixed side water inlet through hole 22 is communicated with the lower area of a fixed side water inlet tank baffle plate 23 arranged in the fixed side water inlet tank 2, and water paths of the fixed side 1 and the movable side 4 of the crystallizer are independent respectively, so that the water path structure of the whole device is integrated; the junction of the movable side water inlet tank 5 and the fixed plate 111 is vertically provided with a movable side water inlet 51, the movable side water inlet 51 is externally connected with a water source, and the junction of the movable side water outlet tank 6 and the fixed plate 111 is vertically provided with a movable side water outlet 61. The water inlet II72 and the delivery port II82 that fixed frame body 11 medial surface transversely seted up about through are linked together with inlet tube 7 and outlet pipe 8, water inlet II72 and delivery port II82 set up the interval region at fixed frame body upper portion water tank 1101 and fixed frame body lower part water tank 1102 to guarantee fixed frame body 11 with copper I13 and the copper II43 of installation cool off simultaneously on the movable frame body 41, thereby make the slab of continuous casting between the two be heated evenly, ensure the precision of processing.

In this embodiment, the cooling water entering the movable side water inlet tank 5 through the movable side water inlet 51 flows into the spacing region between the fixed side water inlet tanks 2 and 111 through the fixed side water inlet through hole 22, and then is discharged into the movable side 4 of the crystallizer through the water outlet II82, so as to perform water cooling on the copper plate II43 mounted on the inner side surface of the movable side 4 of the crystallizer, the water after the cooling process is discharged back to the spacing region between the fixed side water outlet tank 3 and the fixed plate 111 through the water inlet II72 through the water outlet pipe 8, and then flows into the movable side water outlet tank 6 through the fixed side water outlet through hole 32, and finally is discharged through the movable side water outlet 61. During the copper II43 of installation carries out the water spray cooling process on crystallizer activity side 4, the cooling water borrows fixed side water inlet box 2 and fixed side water outlet box 3 lower part vacant space to carry out the water route circulation and flows for whole device waterway structure integrates, and need not extra external bellows, has improved the life of equipment.

Example 5

The basic structure of the novel slab crystallizer of the embodiment is the same as that of the embodiment 4, and the differences and improvements are as follows: as shown in fig. 1, the movable side 4 of the crystallizer is connected with the movable side water inlet tank 5 through a movable side water inlet tank connecting groove 52 and a movable side water inlet tank connecting block 53 which are connected in a clamping manner, the movable side water inlet tank connecting groove 52 is fixedly installed on the outer side surface of the movable side water inlet tank 5, and the movable side water inlet tank connecting block 53 is fixedly installed on the outer side surface of the movable side 4 of the crystallizer; the crystallizer activity side 4 is connected with activity side play water tank connecting block 63 through activity side play water tank spread groove 62 and the activity side that the block is connected between the activity side play water tank 6, activity side play water tank spread groove 62 fixed mounting is on activity side play water tank 6 lateral surface, activity side play water tank connecting block 63 fixed mounting is on the lateral surface of crystallizer activity side 4 for the dismouting is simple and convenient swift, labour saving and time saving.

The present invention and its embodiments have been described above schematically, and the description is not limited thereto, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching of the present invention, without departing from the inventive spirit of the present invention, the person skilled in the art should also design the similar structural modes and embodiments without creativity to the technical solution, and all shall fall within the protection scope of the present invention.

Claims (7)

1. A novel slab crystallizer is characterized in that: the crystallizer fixing device comprises a fixing plate (111) fixed with a reference, wherein the upper surface of the fixing plate (111) is fixedly provided with a crystallizer fixing side (1); the processing side of the crystallizer fixed side (1) is movably provided with a crystallizer movable side (4), and the crystallizer fixed side (1) is communicated with the crystallizer movable side (4) through water inlet pipes (7) and water outlet pipes (8) which are arranged in bilateral symmetry; the left end and the right end of the fixed side (1) of the crystallizer are respectively provided with a fixed side water inlet tank (2) and a fixed side water outlet tank (3) in a communicated manner, and the fixed side water inlet tank (2) and the fixed side water outlet tank (3) are fixedly arranged on the upper surface of a fixed plate (111); the crystallizer is characterized in that a movable side water inlet tank (5) and a movable side water outlet tank (6) are respectively and movably mounted at the left end and the right end of the movable side (4) of the crystallizer, and the movable side water inlet tank (5) and the movable side water outlet tank (6) are fixedly mounted on the upper surface of the fixing plate (111).

2. The novel slab crystallizer of claim 1, wherein: the crystallizer fixing side (1) comprises a fixing frame body (11), the fixing frame body (11) comprises a fixing frame body upper water tank (1101) and a fixing frame body lower water tank (1102) which are arranged at intervals up and down, a fixing frame body water outlet (1105) and a fixing frame body water inlet (1106) are formed in the left and right of a spacing area between the fixing frame body upper water tank (1101) and the fixing frame body lower water tank (1102), and the fixing side water inlet tank (2) and the fixing side water outlet tank (3) are communicated with the fixing frame body (11) through the fixing frame body water inlet (1106) and the fixing frame body water outlet (1105) respectively; a fixed side water inlet (21) is vertically formed in the joint of the fixed side water inlet box (2) and the fixed plate (111), a fixed side water inlet box partition plate (23) is transversely arranged in the middle of the fixed side water inlet box (2), and the fixed side water inlet (21) is communicated with a circular pipe through hole I (231) formed in the fixed side water inlet box partition plate (23) through a vertically-installed circular pipe; fixed side water outlet (21) external water source, fixed side water outlet (31) have vertically been seted up with fixed plate (111) junction to fixed side water outlet (3), fixed side water outlet (3) middle part transversely is provided with fixed side water outlet baffle (33), fixed side water outlet (31) are linked together through the pipe of vertical installation and the pipe through-hole II (331) of seting up on fixed side water outlet baffle (33).

3. The novel slab crystallizer of claim 2, wherein: a lower water tank water inlet I (1104) is vertically formed in the position, close to the fixed frame body water inlet (1106), on the upper surface of the fixed frame body lower water tank (1102); an upper water tank water outlet I (1103) is vertically formed in the position, close to the fixed frame body water outlet (1105), of the lower surface of the fixed frame body upper water tank (1101).

4. The novel slab crystallizer of claim 3, wherein: the inner side surface of the fixed frame body (11) is communicated with a water inlet pipe (7) and a water outlet pipe (8) through a water inlet II (72) and a water outlet II (82) which are transversely arranged on the left and right, and the water inlet II (72) and the water outlet II (82) are arranged in a spacing area of a water tank (1101) on the upper portion of the fixed frame body and a water tank (1102) on the lower portion of the fixed frame body.

5. The novel slab crystallizer of claim 4, wherein: a fixed side water outlet through hole (32) is transversely formed at the joint of the fixed side water outlet tank (3) and the movable side water outlet tank (6), and the fixed side water outlet through hole (32) is communicated with the lower area of a fixed side water outlet tank partition plate (33) arranged in the fixed side water outlet tank (3); a fixed side water inlet through hole (22) is transversely formed in the joint of the fixed side water inlet tank (2) and the movable side water inlet tank (5), and the fixed side water inlet through hole (22) is communicated with the lower area of a fixed side water inlet tank partition plate (23) arranged in the fixed side water inlet tank (2); the movable side water inlet (51) is vertically formed in the joint of the movable side water inlet box (5) and the fixed plate (111), the movable side water inlet (51) is externally connected with a water source, and the movable side water outlet (61) is vertically formed in the joint of the movable side water outlet box (6) and the fixed plate (111).

6. The novel slab crystallizer of claim 1, wherein: the movable side of the crystallizer (4) is connected with the movable side water inlet tank (5) through a movable side water inlet tank connecting groove (52) in clamping connection and a movable side water inlet tank connecting block (53), the movable side water inlet tank connecting groove (52) is fixedly arranged on the outer side surface of the movable side water inlet tank (5), and the movable side water inlet tank connecting block (53) is fixedly arranged on the outer side surface of the movable side of the crystallizer (4); the crystallizer activity side (4) and activity side go out water tank connecting groove (62) and activity side that are connected through the block between water tank (6) are connected with activity side play water tank connecting block (63), activity side play water tank connecting groove (62) fixed mounting is on activity side play water tank (6) lateral surface, activity side play water tank connecting block (63) fixed mounting is on the lateral surface of crystallizer activity side (4).

7. The novel slab crystallizer of claim 6, wherein: the crystallizer activity side (4) comprises a movable frame body (41), the movable frame body (41) comprises a movable frame body upper water tank (411) and a movable frame body lower water tank (412) which are arranged at an upper interval and a lower interval, a plurality of groups of upper water tank inlets (415) are transversely and equidistantly arranged on the upper portion of the movable frame body upper water tank (411), and a plurality of groups of lower water tank outlets (416) are transversely and equidistantly arranged on the lower portion of the movable frame body lower water tank (412).

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