CN117415293A

CN117415293A - Stainless steel plate continuous casting device

Info

Publication number: CN117415293A
Application number: CN202311437843.3A
Authority: CN
Inventors: 许春华
Original assignee: Jiangsu Huajie Stainless Steel Product Co ltd
Current assignee: Jiangsu Huajie Stainless Steel Product Co ltd
Priority date: 2023-11-01
Filing date: 2023-11-01
Publication date: 2024-01-19

Abstract

The invention discloses a stainless steel plate continuous casting device, which belongs to the technical field of steel plate casting and comprises a frame feeding device placed on the ground, wherein the frame feeding device is provided with a casting device, the frame feeding device is used for placing a die frame for casting into the casting device, the casting device is used for casting stainless steel liquid into the die frame, the frame feeding device is provided with a pushing device, and the pushing device is used for pushing the cast stainless steel liquid communicated with the die frame into a cooling chamber for cooling. The frame feeding device provided by the invention can convey the die frame of the stainless steel plate to the lower part of the casting device for casting, and after casting is finished, the stainless steel liquid and the die frame are conveyed into the cooling box automatically for cooling, so that casting is finished; after the casting weight of the die frame in the casting device reaches a certain weight, the pushing device is started, the feeding mechanism is closed, the cast stainless steel liquid and the die frame are pushed into the cooling box, and the degree of automation is high.

Description

Stainless steel plate continuous casting device

Technical Field

The invention relates to the technical field of steel plate casting, in particular to a stainless steel plate continuous casting device.

Background

The stainless steel plate is a machining material with higher mechanical strength and high processability, a product processed by the stainless steel has the properties of corrosion resistance, high-temperature oxidation resistance and the like, and is generally divided into two main types of chromium stainless steel plates and nickel stainless steel plates, and the conventional stainless steel casting production still depends on manual operation for blanking, so that the process is complicated, the production quantity is low, the safety of people is influenced to a certain extent, and if the stainless steel plate is produced by using a casting mode, the yield and the production efficiency can be improved. The chinese patent publication No. CN105682826B discloses a continuous casting apparatus for casting stainless steel plate in a continuous casting method, in which in order to inject stainless steel in a ladle into a tundish, a long nozzle extending into the tundish is provided in the ladle, and stainless steel is injected into the tundish through the long nozzle while a pouring port of the long nozzle is immersed in stainless steel in the tundish, and stainless steel in the tundish is injected into a mold, so that continuous casting of stainless steel plate is achieved, but this method is not only demanding for processing environment, but also troublesome in process.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a corrosion resistant plate continuous casting device, includes the frame device that advances of placing on ground, frame device that advances include the bottom plate, the bottom plate is placed subaerial, frame device that advances on be provided with casting device, casting device include the feeding frame, feeding frame fixed mounting is on the bottom plate, frame device that advances be arranged in putting casting device with the mould frame of usefulness, casting device be arranged in with the casting of corrosion resistant liquid steel to mould frame, frame device that advances on be provided with ejecting device, ejecting device include the spring plate, spring plate fixed mounting is on the bottom plate, ejecting device be arranged in with the corrosion resistant liquid steel liquid intercommunication mould frame of casting accomplish together push away in the cooling chamber and cool off.

The mold frame is continuously sent into the casting device through the frame feeding device, the mold frame is cast through the casting device, and after casting is completed, the cast stainless steel liquid and the mold are pushed into the cooling device through the pushing device to be cooled.

Further, the frame feeding device comprises a side plate fixedly arranged on the bottom plate, the side plate is rotatably provided with a driven wheel and a driving wheel, a driving belt is wound outside the driven wheel and the driving wheel, a partition block is fixedly arranged on the driving belt, a casting frame is arranged between each partition block on the driving belt, and an upper gear is fixedly arranged on the driving wheel.

A plurality of casting frames are placed between partition blocks on a transmission belt, and the casting device drives an upper gear and a driving wheel to rotate so as to drive the transmission belt to drive the casting frames to advance, and the casting frames are continuously sent into the casting device.

Further, casting device include fixed mounting cooling tank on the bottom plate, fixed mounting has the feeding case on the feeding frame, fixed mounting has the outside post on the bottom plate, slidable mounting has the inside post in the outside post, be provided with the inner spring between inside post and the outside post, fixed mounting has the lift bracket on the inside post, be provided with the casting frame on, lift bracket bottom fixed mounting has the swivel mount, fixed mounting has well gear and outer driving wheel on the swivel mount, lift bracket bottom fixed mounting has the bottom motor, fixed mounting has the motor wheel on the output shaft of bottom motor, motor wheel and outer winding of outer driving wheel have the motor drive belt, lift bracket bottom is provided with pushing down the mechanism, the feeding mechanism is provided with in the bottom of the case portion.

Further, the pushing mechanism comprises a connecting column fixedly installed at the bottom of the lifting bracket, an outer column is fixedly installed on the bottom plate, an inner column is slidably installed in the outer column, a lower pressing plate is fixedly installed on the inner column, a rebound spring is arranged between the lower pressing plate and the bottom plate, the connecting column is slidably installed with the lower pressing plate, a magnet rod is fixedly installed on the lower pressing plate, and a magnet is fixedly installed below the magnet rod.

Further, feed mechanism include fixed mounting at the inlet pipe of feeding case below, slidable mounting has right picture peg and left picture peg in the inlet pipe, is provided with extension spring between the good inlet pipe of right picture peg, is provided with extension spring between left picture peg and the inlet pipe, all is provided with the stay cord on left picture peg and the right picture peg, stay cord other end fixed mounting is on the holding down plate, rotates on the feeding frame and installs the side runner, is provided with outer wheel carrier and interior wheel carrier on the bottom plate, the stay cord winding is in the side runner, outer wheel carrier and interior wheel carrier outside.

Further, the right inserting plate is provided with a groove, the left inserting plate is provided with a bump, and the two inserting plates are matched in size.

The stretching spring is in an elongation state in the initial state, the pull rope is tensioned between the lower pressing plate and the right inserting plate and the left inserting plate, at the moment, the left inserting plate is not contacted with the right inserting plate, the feeding pipe is not blocked, stainless steel liquid in the feeding box can enter a casting frame on the lifting and lowering bracket through the feeding pipe, the lifting and lowering bracket is driven to descend along with more and more stainless steel liquid in the casting frame, the connecting column slides in the lower pressing plate, the inner square column slides in the outer square column, the inner spring is compressed, after the lifting and lowering bracket is contacted with the lower pressing plate, the lifting and lowering bracket continuously descends to drive the lower pressing plate to descend, the inner column slides in the outer column, the rebound spring is compressed, at the moment, the pull rope is loosened, the stretching spring is recovered, the left inserting plate is driven to be gradually closed with the right inserting plate, when the magnet is contacted with the bottom plate and adsorbed, at the moment, the right inserting plate and the left inserting plate are completely attached, at the moment, the stainless steel liquid cannot flow out from the feeding pipe, but after the casting frame of the stainless steel liquid is pushed into the cooling box, the rebound spring and the inner spring is pulled under the rebound of the rebound spring and the inner inserting plate, the right inserting plate and the left inserting plate are pulled, the stretching spring is elongated and the stretching plate and the inner plate and the stretching plate is opened again.

The bottom motor rotates to drive the motor wheel to rotate, the outer driving wheel and the rotating shaft are driven to rotate through the motor driving belt, so that the middle gear is driven to rotate, when a casting frame is not placed on the lifting bracket, or after the casting frame on the lifting bracket is pushed away, the upper gear and the middle gear are in an engaged state, the middle gear drives the upper gear and the driving wheel to rotate, so that the driving belt is driven to drive the casting frame to advance, the casting frame is sent to the lifting bracket, the lifting bracket is subjected to downward pressure, the middle gear is disengaged from the upper gear, the bottom motor rotates to not drive the upper gear to rotate, after the stainless steel in the casting frame is filled, at the moment, along with the descent of the lifting bracket, the middle gear and the pushing device start to be matched, the pushing device is driven to push the casting frame filled with the stainless steel into the cooling box to be cooled, then the lifting bracket does not have the casting frame, the lifting bracket rebounds to an initial state, the middle gear starts to be engaged with the upper gear, and next entering of the casting frame starts to circulate.

Further, the pushing device comprises a sliding frame which is slidably arranged on the bottom plate, a return spring is arranged between the sliding frame and the spring plate, two sides of the sliding frame are fixedly provided with a lower sliding frame, the lower sliding frame is slidably arranged on the bottom plate, and a pushing plate is fixedly arranged on the lower sliding frame.

When stainless steel in the casting frame is full, at this moment along with the decline of lift bracket, well gear begins to mesh with lower rack, well gear rotates and can drive rack and push pedal and slide on the bottom plate down, the push pedal is released casting frame on the lift bracket to the cooler bin, in the in-process that the push pedal released casting frame, because the push pedal is in lift bracket top all the time, lift bracket can't rebound spring and the resilience of inner spring down rise again this moment, after the push pedal is released casting frame completely, the bottom motor is reversed and is driven the push pedal and get back initial position, when the push pedal leaves casting frame top, rebound spring and inner spring begin the resilience this moment, thereby let the lift bracket get back to the top, well gear begins to mesh with last gear, begin the action of casting frame to lift bracket next time.

Compared with the prior art, the invention has the beneficial effects that: (1) The frame feeding device provided by the invention can convey the die frame of the stainless steel plate to the lower part of the casting device for casting, and after casting is finished, the stainless steel liquid and the die frame are conveyed into the cooling box automatically for cooling, so that casting is finished; (2) After the casting weight of the die frame in the casting device reaches a certain weight, the pushing device is started, the feeding mechanism is closed, and the cast stainless steel liquid and the die frame I are pushed into the cooling box, so that the degree of automation is high; (3) According to the frame feeding device, after the die frame reaches the lifting bracket, the middle gear is disengaged from the upper gear, so that the frame feeding device stops moving, the casting frame stops moving continuously, and when the weight of the casting frame reaches a certain degree, the pushing device is triggered, casting can be continuously performed, and the efficiency is high.

Drawings

Fig. 1 is a schematic view of the whole structure of the present invention (first view angle).

Fig. 2 is a schematic diagram of the overall structure of the present invention (second view angle).

Fig. 3 is a schematic structural diagram of a frame feeding device according to the present invention.

Fig. 4 is a schematic structural diagram of a frame feeding device according to the present invention.

Fig. 5 is a schematic view of a casting device according to the present invention.

FIG. 6 is a schematic diagram of a casting device according to the second embodiment of the present invention.

FIG. 7 is a schematic view of the feeding mechanism of the present invention.

FIG. 8 is a schematic diagram of a casting apparatus according to the present invention.

Fig. 9 is a schematic view of the internal structure of the outer column according to the present invention.

Fig. 10 is a schematic structural diagram of a pushing device of the present invention.

Reference numerals: 101-a bottom plate; 102-side plates; 103-driven wheel; 104-casting a frame; 105-spacer blocks; 106, a transmission belt; 107-driving wheel; 108-upper gear; 201-a feeding frame; 202-a cooling box; 203-a feed box; 204-feeding pipe; 205-stretching a spring; 206-right plugboard; 207-pulling rope; 208-side wheel; 209-left board; 210-rotating shaft; 211-a middle gear; 212-a rotating shaft bracket; 213-lifting carriage; 214-a bottom motor; 215-motor wheel; 216-motor drive belt; 217-outer drive wheel; 218-connecting columns; 219-inner square column; 220-outer square column; 221-a lower pressing plate; 222-magnet bar; 223-magnet; 224-inner column; 225-an outer column; 226-rebound springs; 227-an outer wheel frame; 228-an inner wheel frame; 229-an inner spring; 301-spring plates; 302-a return spring; 303—a carriage; 304-lower rack; 305-push plate.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1 to 10, a stainless steel plate continuous casting device comprises a frame feeding device placed on the ground, wherein the frame feeding device comprises a bottom plate 101, the bottom plate 101 is placed on the ground, a casting device is arranged on the frame feeding device, the casting device comprises a feeding frame 201, the feeding frame 201 is fixedly arranged on the bottom plate 101, the frame feeding device is used for placing a die frame for casting into the casting device, the casting device is used for casting stainless steel liquid into the die frame, an ejector device is arranged on the frame feeding device and comprises a spring plate 301, the spring plate 301 is fixedly arranged on the bottom plate 101, and the ejector device is used for pushing the cast stainless steel liquid into a cooling chamber together with the die frame for cooling.

As shown in fig. 3 and 4, the frame feeding device comprises a side plate 102 fixedly mounted on a bottom plate 101, a driven wheel 103 and a driving wheel 107 are rotatably mounted on the side plate 102, a driving belt 106 is wound outside the driven wheel 103 and the driving wheel 107, a partition block 105 is fixedly mounted on the driving belt 106, a casting frame 104 is placed between each partition block 105 on the driving belt 106, and an upper gear 108 is fixedly mounted on the driving wheel 107.

A plurality of casting frames 104 are placed between the partition blocks 105 on the driving belt 106, and the casting device drives the upper gear 108 and the driving wheel 107 to rotate so as to drive the driving belt 106 to drive the casting frames 104 to advance, and the casting frames 104 are continuously sent into the casting device.

As shown in fig. 5 to 9, the casting device comprises a cooling tank 202 fixedly mounted on a base plate 101, a feeding tank 203 fixedly mounted on a feeding frame 201, an outer square column 220 fixedly mounted on the base plate 101, an inner square column 219 slidably mounted in the outer square column 220, an inner spring 229 arranged between the inner square column 219 and the outer square column 220, a lifting bracket 213 fixedly mounted on the inner square column 219, a casting frame 104 arranged on the 123, a rotating shaft bracket 212 fixedly mounted on the bottom of the lifting bracket 213, a middle gear 211 and an outer driving wheel 217 fixedly mounted on the rotating shaft bracket 212, a bottom motor 214 fixedly mounted on the bottom of the lifting bracket 213, a motor wheel 215 fixedly mounted on an output shaft of the bottom motor 214, a motor driving belt 216 wound outside the motor wheel 215 and the outer driving wheel 217, a pressing mechanism arranged on the bottom of the lifting bracket 213, and a feeding mechanism arranged on the bottom of the feeding tank 203.

As shown in fig. 5 to 9, the pressing mechanism includes a connecting column 218 fixedly installed at the bottom of the lifting bracket 213, an outer column 225 fixedly installed on the bottom plate 101, an inner column 224 slidably installed on the outer column 225, a pressing plate 221 fixedly installed on the inner column 224, a rebound spring 226 provided between the pressing plate 221 and the bottom plate 101, a magnet rod 222 fixedly installed on the pressing plate 221, and a magnet 223 fixedly installed below the magnet rod 222.

As shown in fig. 7, the feeding mechanism comprises a feeding pipe 204 fixedly installed below a feeding box 203, a right inserting plate 206 and a left inserting plate 209 are slidably installed in the feeding pipe 204, an extension spring 205 is arranged between the right inserting plate 206 and the feeding pipe 204, an extension spring 205 is arranged between the left inserting plate 209 and the feeding pipe 204, pull ropes 207 are arranged on the left inserting plate 209 and the right inserting plate 206, the other ends of the pull ropes 207 are fixedly installed on a lower pressing plate 221, a side rotating wheel 208 is rotatably installed on a feeding frame 201, an outer wheel frame 227 and an inner wheel frame 228 are arranged on the bottom plate 101, and the pull ropes 207 are wound on the outer sides of the side rotating wheel 208, the outer wheel frame 227 and the inner wheel frame 228.

As shown in fig. 7, the right insert 206 is provided with a groove, and the left insert 209 is provided with a projection, which are sized to mate.

In the initial state, the tension spring 205 is in an elongated state, the pull rope 207 is tensioned between the lower pressing plate 221 and the right inserting plate 206 and the left inserting plate 209, at this time, the left inserting plate 209 and the right inserting plate 206 are not contacted, the feed pipe 204 is not blocked, stainless steel liquid in the feed box 203 can enter the casting frame 104 on the lifting and lowering bracket 213 through the feed pipe 204, as the stainless steel liquid in the casting frame 104 is increased, the lifting and lowering bracket 213 is driven to descend, the connecting column 218 slides in the lower pressing plate 221, the inner square column 219 slides in the outer square column 220, the inner spring 229 is compressed, after the lifting and lowering bracket 213 is contacted with the lower pressing plate 221, the lifting and lowering bracket 213 continuously descends, the inner column 224 slides in the outer column 225, the rebound spring 226 is compressed, at this time, the pull rope 207 is loosened, the tension spring 205 is recovered, the left inserting plate 209 is driven to be gradually closed with the right inserting plate 206, at this time, the magnet 223 is contacted with the bottom plate 101, at this time, the stainless steel liquid can not flow out from the feed pipe 204, the inner inserting plate 219 is completely attached, but after the full casting frame 202 is pushed into the cooling box 205, the cooling and the left inserting plate 206 is pulled again, the rebound spring 209 is opened, the left rebound spring 209 is pulled, and the rebound spring is opened, and the left is opened, and the rebound spring is pushed.

The bottom motor 214 rotates to drive the motor wheel 215 to rotate, the outer driving wheel 217 and the rotating shaft 210 are driven to rotate by the motor driving belt 216, so that the middle gear 211 is driven to rotate, when the casting frame 104 is not placed on the lifting bracket 213, or after the casting frame 104 on the lifting bracket 213 is pushed away, the upper gear 108 and the middle gear 211 are in a meshed state, the middle gear 211 rotates to drive the upper gear 108 and the driving wheel 107 to rotate, so that the driving belt 106 is driven to drive the casting frame 104 to advance, the casting frame 104 is sent to the lifting bracket 213, at the moment, the lifting bracket 213 is subjected to downward pressure, the middle gear 211 is disengaged from the upper gear 108, the bottom motor 214 rotates to no longer drive the upper gear 108 to rotate, when the stainless steel in the casting frame 104 is full, at the moment, along with the descending of the lifting bracket 213, the middle gear 211 is matched with the pushing device, the casting frame 104 filled with the stainless steel is pushed out into the cooling box 202 to be cooled, then the lifting bracket 213 is not provided with the casting frame 104, the lifting bracket 213 is driven to advance to an initial state, the middle gear 211 is meshed with the upper gear 108 again, and next time, and the cycle is started.

As shown in fig. 10, the ejector device includes a carriage 303 slidably mounted on the base plate 101, a return spring 302 is provided between the carriage 303 and the spring plate 301, a lower carriage 304 is fixedly mounted on both sides of the carriage 303, the lower carriage 304 is slidably mounted on the base plate 101, and a push plate 305 is fixedly mounted on the lower carriage 304.

When the stainless steel in the casting frame 104 is full, at this time, along with the descent of the lifting bracket 213, the middle gear 211 starts to be meshed with the lower rack 304, the middle gear 211 rotates to drive the lower rack 304 and the push plate 305 to slide on the bottom plate 101, the push plate 305 pushes the casting frame 104 on the lifting bracket 213 out into the cooling box 202, during the process of pushing the push plate 305 out of the casting frame 104, as the push plate 305 is always above the lifting bracket 213, the lifting bracket 213 cannot lift under the resilience of the resilience springs 226 and the inner springs 229, when the push plate 305 pushes the casting frame 104 completely, the bottom motor 214 reversely drives the push plate 305 to return to the initial position, and when the push plate 305 leaves above the casting frame 104, the resilience springs 226 and the inner springs 229 start to rebound, so that the lifting bracket 213 returns to the uppermost position, the middle gear 211 starts to be meshed with the upper gear 108, and the next action of the casting frame 104 onto the lifting bracket 213 starts.

The invention discloses a stainless steel plate continuous casting device, which has the working principle that: a plurality of casting frames 104 are placed between the partition blocks 105 on the driving belt 106, the bottom motor 214 rotates to drive the motor wheel 215 to rotate, the motor driving belt 216 drives the outer driving wheel 217 and the rotating shaft 210 to rotate, thereby driving the middle gear 211 to rotate, the upper gear 108 and the middle gear 211 are in an engaged state initially, the middle gear 211 rotates to drive the upper gear 108 and the driving wheel 107 to rotate, thereby driving the driving belt 106 to drive the casting frames 104 to advance, the casting frames 104 are sent to the lifting bracket 213, the lifting bracket 213 is pressed downwards, the middle gear 211 is disengaged from the upper gear 108, the bottom motor 214 rotates to no longer drive the upper gear 108 to rotate, the tension spring 205 is in an elongated state in an initial state, the pull rope 207 is tensioned between the lower pressing plate 221 and the right inserting plate 206 and the left inserting plate 209, the left inserting plate 209 is not contacted with the right inserting plate 206, the feeding pipe 204 is not blocked, stainless steel in the feed tank 203 can enter the casting frame 104 on the lifting bracket 213 through the feed pipe 204, as the stainless steel in the casting frame 104 increases, the lifting bracket 213 is driven to descend, so that the connecting column 218 slides in the lower pressure plate 221, the inner square column 219 slides in the outer square column 220, the inner spring 229 is compressed, after the lifting bracket 213 contacts with the lower pressure plate 221, the lifting bracket 213 continuously descends, the lower pressure plate 221 is driven to descend, so that the inner column 224 slides in the outer column 225, the rebound spring 226 is compressed, the pull rope 207 is relaxed, the tension spring 205 is recovered, the left inserting plate 209 is driven to gradually close to the right inserting plate 206, when the magnet 223 contacts with the bottom plate 101 and absorbs, the right inserting plate 206 and the left inserting plate 209 are completely attached, at this time, the stainless steel cannot flow out from the feed pipe 204, after the stainless steel in the casting frame 104 is full, as the lifting bracket 213 descends, the middle gear 211 starts to be meshed with the lower rack 304, the middle gear 211 rotates to drive the lower rack 304 and the push plate 305 to slide on the bottom plate 101, the push plate 305 pushes the casting frame 104 on the lifting bracket 213 out into the cooling box 202, during the process that the push plate 305 pushes out the casting frame 104, the lifting bracket 213 cannot rebound under the rebound of the rebound springs 226 and the inner springs 229 because the push plate 305 is always above the lifting bracket 213, after the push plate 305 pushes out the casting frame 104 completely, the bottom motor 214 reversely drives the push plate 305 to return to the initial position, when the push plate 305 leaves above the casting frame 104, the rebound springs 226 and the inner springs 229 start to rebound, so that the lifting bracket 213 returns to the uppermost side, the middle gear 211 starts to be meshed with the upper gear 108 again, and the next time the casting frame 104 enters, so that the cycle is started, meanwhile, under the rebound of the rebound springs 226 and the inner springs 229, the right insert plate 206 and the left insert plate 209 are pulled, the extension spring 205 is lengthened, and the feed pipe 204 is reopened, so that the cycle is completed.

Claims

1. The utility model provides a corrosion resistant plate continuous casting device, includes the frame device that advances of placing on ground, its characterized in that: the frame feeding device comprises a bottom plate (101), the bottom plate (101) is placed on the ground, the frame feeding device is provided with a casting device, the casting device comprises a feeding frame (201), the feeding frame (201) is fixedly installed on the bottom plate (101), the frame feeding device is used for placing a casting mold frame into the casting device, the casting device is used for casting stainless steel liquid into the mold frame, the frame feeding device is provided with a pushing device, the pushing device comprises a spring plate (301), the spring plate (301) is fixedly installed on the bottom plate (101), and the pushing device is used for pushing the cast stainless steel liquid communicated mold frame into a cooling chamber together for cooling.

2. A stainless steel plate continuous casting apparatus according to claim 1, characterized in that: the frame feeding device comprises a side plate (102) fixedly arranged on a bottom plate (101), a driven wheel (103) and a driving wheel (107) are rotatably arranged on the side plate (102), a driving belt (106) is wound outside the driven wheel (103) and the driving wheel (107), a separation block (105) is fixedly arranged on the driving belt (106), a casting frame (104) is arranged between each separation block (105) on the driving belt (106), and an upper gear (108) is fixedly arranged on the driving wheel (107).

3. A stainless steel plate continuous casting apparatus according to claim 1, characterized in that: the casting device comprises a cooling box (202) fixedly mounted on a bottom plate (101), a feeding box (203) is fixedly mounted on a feeding frame (201), an outer square column (220) is fixedly mounted on the bottom plate (101), an inner square column (219) is mounted in the outer square column (220), an inner spring (229) is arranged between the inner square column (219) and the outer square column (220), a lifting bracket (213) is fixedly mounted on the inner square column (219), a casting frame (104) is arranged on the 123, a rotating shaft bracket (212) is fixedly mounted at the bottom of the lifting bracket (213), a middle gear (211) and an outer driving wheel (217) are fixedly mounted at the bottom of the lifting bracket (213), a motor wheel (215) is fixedly mounted on an output shaft of the bottom motor (214), a motor driving belt (216) is wound outside the motor wheel (215), a pressing mechanism is arranged at the bottom of the lifting bracket (213), and a feeding mechanism is arranged at the bottom of the box (203).

4. A stainless steel plate continuous casting apparatus according to claim 3, characterized in that: the pushing mechanism comprises a connecting column (218) fixedly arranged at the bottom of a lifting bracket (213), an outer column (225) is fixedly arranged on a bottom plate (101), an inner column (224) is slidably arranged in the outer column (225), a lower pressing plate (221) is fixedly arranged on the inner column (224), a rebound spring (226) is arranged between the lower pressing plate (221) and the bottom plate (101), the connecting column (218) and the lower pressing plate (221) are slidably arranged, a magnet rod (222) is fixedly arranged on the lower pressing plate (221), and a magnet (223) is fixedly arranged below the magnet rod (222).

5. A stainless steel plate continuous casting apparatus according to claim 4, characterized in that: the feeding mechanism comprises a feeding pipe (204) fixedly arranged below a feeding box (203), a right inserting plate (206) and a left inserting plate (209) are slidably arranged in the feeding pipe (204), an extension spring (205) is arranged between the right inserting plate (206) and the feeding pipe (204), an extension spring (205) is arranged between the left inserting plate (209) and the feeding pipe (204), pull ropes (207) are arranged on the left inserting plate (209) and the right inserting plate (206), the other ends of the pull ropes (207) are fixedly arranged on a lower pressing plate (221), a side rotating wheel (208) is rotatably arranged on the feeding frame (201), an outer wheel frame (227) and an inner wheel frame (228) are arranged on the bottom plate (101), and the pull ropes (207) are wound on the outer sides of the side rotating wheel (208), the outer wheel frame (227) and the inner wheel frame (228).

6. A stainless steel plate continuous casting apparatus according to claim 5, characterized in that: the right plugboard (206) is provided with a groove, the left plugboard (209) is provided with a bump, and the two plugboards are matched in size.

7. A stainless steel plate continuous casting apparatus according to claim 1, characterized in that: the pushing device comprises a sliding frame (303) which is slidably arranged on the bottom plate (101), a return spring (302) is arranged between the sliding frame (303) and the spring plate (301), lower sliding frames (304) are fixedly arranged on two sides of the sliding frame (303), the lower sliding frames (304) are slidably arranged on the bottom plate (101), and a pushing plate (305) is fixedly arranged on the lower sliding frames (304).