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CN-224227132-U - Quenching furnace ejection of compact auxiliary device

CN224227132UCN 224227132 UCN224227132 UCN 224227132UCN-224227132-U

Abstract

The application discloses a quenching furnace discharging auxiliary device in the technical field of discharging devices, which comprises a fixed column and an auxiliary component, wherein the fixed column is horizontally arranged, the bottom end of the fixed column is connected with a plurality of support columns, the auxiliary component is connected between the fixed column and a discharging hole of the quenching furnace, and the auxiliary component is used for assisting the discharging of an ingot casting in the quenching furnace. Support and direction function when bearing the ingot casting through auxiliary assembly and remove avoids the ingot casting direct impact quenching furnace discharge gate, has reduced the damage risk that the discharge gate leads to because of high temperature collision or friction, simultaneously through the cooperation of fixed column and support column, ensures the stability of whole device, realizes the auxiliary role to the quenching furnace ejection of compact process.

Inventors

  • LIU LEI
  • LIU YANFENG
  • LIU ZIJIAN

Assignees

  • 遵义新利特金属材料科技有限公司

Dates

Publication Date
20260512
Application Date
20250606

Claims (6)

  1. 1. The quenching furnace discharging auxiliary device is characterized by comprising a fixed column and an auxiliary component, wherein the fixed column is horizontally arranged, the bottom end of the fixed column is connected with a plurality of support columns, the auxiliary component is connected between the fixed column and a discharging hole of the quenching furnace, and the auxiliary component is used for assisting in discharging of cast ingots in the quenching furnace.
  2. 2. The quenching furnace discharging auxiliary device according to claim 1, wherein the auxiliary component is a plurality of fixed blocks, the middle parts of the fixed blocks are hollowed out, one ends of the fixed blocks are connected with the fixed columns, and the other ends of the fixed blocks are connected with the discharging hole of the quenching furnace.
  3. 3. The quenching furnace discharging auxiliary device according to claim 2, wherein the middle part of the fixed block is connected with an auxiliary rod, and the auxiliary rod is perpendicular to the fixed column.
  4. 4. The discharge assisting device for the quenching furnace according to claim 3, wherein the height of the fixing column is lower than the height of the discharge hole of the quenching furnace.
  5. 5. The quenching furnace discharging auxiliary device according to claim 4, wherein the plurality of fixing blocks are obliquely arranged, and the oblique bottom ends are positioned at one side of the fixing blocks connected with the fixing columns.
  6. 6. The quenching furnace discharging auxiliary device according to claim 5, wherein gaps are reserved among the fixed blocks.

Description

Quenching furnace ejection of compact auxiliary device Technical Field The utility model relates to the technical field of discharging devices, in particular to a quenching furnace discharging auxiliary device. Background In the quenching processing process of the metal workpiece, after the quenching furnace finishes quenching treatment of the cast ingot, the cast ingot in a high-temperature state is required to be discharged from a discharge hole. In the prior art, the quenched cast ingot is usually directly moved out of the discharge hole through manual assistance or a simple mechanical device, and in the discharge process, the cast ingot with extremely high temperature often directly collides or rubs with structural components of the discharge hole of the quenching furnace. The existing discharging mode has the obvious defects that structural damages such as deformation, abrasion and the like can be caused to the discharge port of the quenching furnace rapidly due to high Wen Zhuding impact and friction of high frequency, normal operation efficiency of equipment is affected, service life of the quenching furnace is greatly shortened, equipment maintenance frequency and overhaul cost can be increased, meanwhile, operators need to closely contact the discharge port in the traditional discharging process due to extremely high ingot casting temperature, scalding safety risks exist, and labor intensity of manual operation is also high. Disclosure of utility model The utility model aims to provide a quenching furnace discharging auxiliary device for solving the problem that the prior quenching furnace is easy to damage a discharging hole due to overhigh temperature of an ingot during discharging. In order to solve the technical problems, the utility model provides the technical scheme that the quenching furnace discharging auxiliary device comprises a fixed column and an auxiliary component, wherein the fixed column is horizontally arranged, the bottom end of the fixed column is connected with a plurality of support columns, the auxiliary component is connected between the fixed column and a discharging hole of the quenching furnace, and the auxiliary component is used for assisting the discharging of an ingot casting in the quenching furnace. When the quenching is completed in the quenching furnace and the quenching is performed at the height Wen Zhuding, the ingot is moved to the fixed column direction from the discharge hole by using a tool, the auxiliary component guides the ingot to slide to the sand stably through the structure of the auxiliary component, and the ingot is moved along the surface of the auxiliary component by means of the gravity or the external force by utilizing the height difference between the fixed column and the discharge hole and the guiding function of the auxiliary component, so that the ingot is guided out from the quenching furnace. The horizontal fixed column and the bottom support column are arranged to form a stable basic supporting structure, and meanwhile, an auxiliary assembly is connected between the fixed column and the discharge port of the quenching furnace, so that when the quenching furnace is discharged at the height Wen Zhuding, the ingot can be guided by the auxiliary assembly to avoid directly striking the discharge port, the deformation and abrasion risks of the discharge port caused by high-temperature friction or collision are reduced, the service life of the quenching furnace is prolonged, the support column and the fixed column are matched to ensure the integral stability of the device, the manual intervention is reduced, the operation safety is improved, the discharge flow is simplified, and the equipment maintenance cost is reduced. Further, the auxiliary assembly is a plurality of fixed blocks, the middle parts of the fixed blocks are hollowed out, one ends of the fixed blocks are connected with the fixed columns, and the other ends of the fixed blocks are connected with a discharge hole of the quenching furnace. Through the setting of fixed block middle part fretwork, can save material, alleviate device weight when guaranteeing support strength, and the heat dissipation under the high temperature environment of being convenient for. Further, the middle part of fixed block is connected with the auxiliary rod, and the auxiliary rod sets up perpendicularly with the fixed column. Through the setting of auxiliary rod, prevent that the fixed block from taking place deformation or displacement under high Wen Zhuding impact, ensure auxiliary assembly's direction function is reliable and stable, further provide the direction function for the ingot casting simultaneously. Further, the height of the fixed column is lower than the height of a discharge hole of the quenching furnace. Through the design that the fixed column height is less than the quenching furnace discharge gate, utilize the difference in height to make the ingot casting can follow auxiliary assemb