CN-122007067-A - Slag scraping equipment

Abstract

The application discloses slag scraping equipment which comprises a frame and a plurality of slag scraping mechanisms. The frame is provided with a material conveying channel. The plurality of slag scraping mechanisms can be connected to the frame in a floating mode, and the plurality of slag scraping mechanisms are sequentially distributed along the width direction of the material conveying channel. Therefore, the slag scraping mechanisms are sequentially arranged along the width direction of the material conveying channel and are respectively connected to the frame in a floating manner, so that each slag scraping mechanism can independently respond to the fluctuation of the local surface of the material plate. When the material plate has plate-shaped defects such as wave shape, sickle bend or local bulge, the contact height of each slag scraping mechanism can be adjusted in a follow-up manner, so that the slag scraping surface is ensured to be always and effectively attached to the surface of the material plate, slag scraping dead angles caused by the integral rigid structure are avoided, and the slag clearance is obviously improved.

Inventors

• TIAN LI
• LIU PENGPENG
• LIU SHUAI
• YAO XIONG
• WANG JUNJUN
• LIU FU

Assignees

• 衡阳镭目科技有限责任公司

Dates

Publication Date

20260512

Application Date

20260127

Claims (10)

1. 1. A slag scraping apparatus, comprising: a frame provided with a material conveying passage, and The slag scraping mechanisms are connected to the frame in a floating mode, and the slag scraping mechanisms are sequentially distributed along the width direction of the material conveying channel.
2. 2. The slag scraping apparatus of claim 1, wherein each of the slag scraping mechanisms includes a slag scraping assembly and a multi-link float assembly, the slag scraping assembly being floatably coupled to the frame by the multi-link float assembly.
3. 3. The slag scraping apparatus of claim 2, wherein each of the slag scraping assemblies includes a connector and a scraper mounted to the connector, the connector being connected to the frame by the multi-link float assembly.
4. 4. A slag scraping apparatus as claimed in claim 3, wherein the scraper is a flexible scraper.
5. 5. The slag scraping apparatus of claim 2, wherein the multi-link floating assembly is a four-link floating assembly, each of the four-link floating assemblies comprising a first link, a second link, a third link, and a fourth link hinged in sequence, the first link being disposed in parallel with the third link, the second link being disposed in parallel with the fourth link, the second link further being connected to the frame, the fourth link being connected to the corresponding slag scraping assembly.
6. 6. The slag scraping apparatus of claim 1, further comprising a plurality of driving members and a synchronizing support, wherein the synchronizing support is rotatably connected to the frame and drivingly connected to the plurality of slag scraping mechanisms, and wherein the plurality of driving members are rotatably connected to the frame and the synchronizing support to rotate the synchronizing support and to move the plurality of slag scraping mechanisms toward and away from the material conveying path.
7. 7. The slag scraping apparatus of claim 5, further comprising a plurality of return elastic members, one end of each return elastic member being connected to the frame, and the other end of each return elastic member being connected to the synchronization bracket.
8. 8. The slag scraping apparatus of claim 7, wherein one end of each of the return elastic members is rotatably coupled to the frame, and the other end of each of the return elastic members is rotatably coupled to the synchronization bracket.
9. 9. The slag scraping apparatus of claim 6 wherein the driving members are telescoping members having a fixed end and a telescoping end, the telescoping end being telescopically coupled to the fixed end, the fixed end of each driving member being rotatably coupled to the frame, the telescoping end of each driving member being rotatably coupled to the synchronizing support.
10. 10. The slag scraping apparatus of claim 6, further comprising a detection unit and a control unit, wherein the detection unit is disposed on the frame, the detection unit and the driving member are both electrically connected to the control unit, the detection unit is configured to detect a position of the material sheet located in the material conveying channel, and the control unit is configured to control the driving member to operate according to a detection result of the detection unit.

Description

Slag scraping equipment Technical Field The application relates to the technical field of slag scraping, in particular to slag scraping equipment. Background In metallurgical, foundry, glass manufacturing and continuous material processing systems, efficient removal of dross, scale, or films of impurities from a panel of material (e.g., steel or glass panel) is often desired. However, the existing general integral scraping plate mechanism is of a whole rigid structure, so that uneven material plate surfaces are difficult to attach, and slag scraping is incomplete. Disclosure of Invention The embodiment of the application provides slag scraping equipment, which can improve at least one technical problem. The embodiment of the application provides slag scraping equipment, which comprises: a frame provided with a material conveying passage, and The slag scraping mechanisms are connected to the frame in a floating mode, and the slag scraping mechanisms are sequentially distributed along the width direction of the material conveying channel. In some embodiments, each of the slag scraping mechanisms includes a slag scraping assembly and a multi-link floating assembly through which the slag scraping assembly is floatably connected to the frame. In some embodiments, each of the slag scraping assemblies includes a connector and a scraper mounted to the connector, the connector being connected to the frame by the multi-link floating assembly. In some embodiments, the blade is a flexible blade. In some embodiments, the multi-link floating assembly is a four-link floating assembly, each of the four-link floating assemblies includes a first link, a second link, a third link, and a fourth link that are sequentially hinged, the first link and the third link are arranged in parallel, the second link and the fourth link are arranged in parallel, the second link is further connected to the frame, and the fourth link is connected to the corresponding slag scraping assembly. In some embodiments, the slag scraping device further includes a plurality of driving members and a synchronous support, the synchronous support is rotatably connected to the frame and is in transmission connection with a plurality of slag scraping mechanisms, and the driving members are rotatably arranged on the frame and are connected to the synchronous support so as to drive the synchronous support to rotate and drive the slag scraping mechanisms to be close to or far away from the material conveying channel. In some embodiments, the slag scraping device further comprises a plurality of reset elastic pieces, one end of each reset elastic piece is connected to the frame, and the other end of each reset elastic piece is connected to the synchronous support. In some embodiments, one end of each return elastic member is rotatably connected to the frame, and the other end of each return elastic member is rotatably connected to the synchronization bracket. In some embodiments, the driving members are telescopic members having a fixed end and a telescopic end, the telescopic end being telescopically coupled to the fixed end, each of the fixed ends of the driving members being rotatably coupled to the frame, each of the telescopic ends of the driving members being rotatably coupled to the synchronization bracket. In some embodiments, the slag scraping device further comprises a detection unit and a control unit, the detection unit is arranged on the frame, the detection unit and the driving piece are both electrically connected to the control unit, the detection unit is configured to detect the position of the material plate positioned in the material conveying channel, and the control unit is configured to control the driving piece to work according to the detection result of the detection unit. In the slag scraping equipment provided by the embodiment of the application, the slag scraping equipment comprises a frame and a plurality of slag scraping mechanisms. The frame is provided with a material conveying channel. The plurality of slag scraping mechanisms can be connected to the frame in a floating mode, and the plurality of slag scraping mechanisms are sequentially distributed along the width direction of the material conveying channel. Therefore, the slag scraping mechanisms are sequentially arranged along the width direction of the material conveying channel and are respectively connected to the frame in a floating manner, so that each slag scraping mechanism can independently respond to the fluctuation of the local surface of the material plate. When the material plate has plate-shaped defects such as wave shape, sickle bend or local bulge, the contact height of each slag scraping mechanism can be adjusted in a follow-up manner, so that the slag scraping surface is ensured to be always and effectively attached to the surface of the material plate, slag scraping dead angles caused by the integral rigid structure are avoided, and the slag clearance is obv