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CN-224223803-U - Dismounting assembly and cable wind rope dismounting device

CN224223803UCN 224223803 UCN224223803 UCN 224223803UCN-224223803-U

Abstract

The disclosure relates to a dismounting assembly and a cable rope dismounting device, wherein the dismounting assembly comprises a binder, an auxiliary dismounting piece and a connecting piece, the connecting piece comprises a penetrating part and a blocking part, a first end of the penetrating part penetrates through two ends of the binder, a second end of the penetrating part is connected with the auxiliary dismounting piece, the blocking part is connected with the first end of the penetrating part, a preset separating force exists between the blocking part and the penetrating part, and when the separating force of the blocking part and the penetrating part is larger than the preset separating force, the blocking part is separated from the penetrating part so that the penetrating part can be separated from at least one end of the binder. According to the technical scheme, the convenience of disassembly can be improved.

Inventors

  • ZHANG BINBIN
  • HAN LUMING
  • TONG RONGHAI
  • LIU MINGZHE
  • CHEN WENGUANG
  • WANG CHAOLUN

Assignees

  • 远景能源有限公司

Dates

Publication Date
20260512
Application Date
20250427

Claims (12)

  1. 1. A disassembly and assembly comprising a binder (100), an auxiliary disassembly (200) and a connector (300), the connector (300) comprising: -a through-penetration (310), a first end of the through-penetration (310) passing through both ends of the binder (100), a second end of the through-penetration (310) being connected with the auxiliary dismounting (200); A blocking portion (320), the blocking portion (320) being connected to a first end of the through portion (310), and the blocking portion (320) having a predetermined separation force from the through portion (310); Wherein the blocking portion (320) is separated from the penetrating portion (310) when the blocking portion (320) is subjected to a separation force greater than the preset separation force to enable the penetrating portion (310) to be disengaged from at least one end of the binder (100).
  2. 2. The assembly and disassembly component according to claim 1, wherein the first end of the through-penetration (310) is connected to the blocking part (320) by means of a transition section (330), the transition section (330) being provided with a breaking notch (331).
  3. 3. The assembly and disassembly as claimed in claim 2, wherein the through-penetration (310), the transition section (330) and the blocking portion (320) are integrally formed.
  4. 4. A dismounting assembly according to claim 3, wherein the blocking portion (320) has at least one, the blocking portion (320) being configured to open in a radially outward direction of the transition section (330) while extending from an end of the transition section (330) remote from the through-penetration (310) towards the through-penetration (310); The blocking portion (320) has an elastic deformation characteristic such that the blocking portion (320) is deformed inwardly under pressure through both ends of the binder (100) and returns to an original state after the blocking portion (320) passes through both ends of the binder (100) to block the blocking portion (320) from being retracted.
  5. 5. The assembly and disassembly according to claim 2, wherein the blocking portion (320) is detachably connected to the first end of the through-penetration (310) by means of the transition section (330).
  6. 6. The dismounting assembly of any one of claims 1 to 5, wherein both ends of the binder (100) are provided with a first pair of joints (400) and a second pair of joints (500), respectively, and the first end of the penetration (310) passes through the first pair of joints (400) and the second pair of joints (500) to connect both ends of the binder (100).
  7. 7. The assembly and disassembly set according to claim 6, wherein the first pair of joints (400) has a first through hole (410) and the second pair of joints (500) has a second through hole (510), the through part (310) passing through the first through hole (410) and the second through hole (510) to connect the first pair of joints (400) and the second pair of joints (500).
  8. 8. The assembly and disassembly and assembly of claim 7, wherein the first pair of connectors (400) further has a slot (420) in communication with the first through-hole (410); The second butt joint (500) is further provided with a plug tongue (520) matched with the slot (420), and when the plug tongue (520) is inserted into the slot (420), the first through hole (410) and the second through hole (510) are coaxially arranged.
  9. 9. The assembly and disassembly, according to claim 6, characterized in that the second end of the through-going portion (310) is provided with a connection portion (340), the first (400) and the second (500) pair of tabs being clamped between the connection portion (340) and the blocking portion (320), the auxiliary disassembly element (200) being connected with the connection portion (340).
  10. 10. The dismounting assembly of claim 6, wherein at least one of the first pair of connectors (400) and the second pair of connectors (500) is provided with a lacing member (600) for connecting with the binder (100).
  11. 11. A guy rope dismounting device, characterized in that it comprises a dismounting assembly according to any one of claims 1 to 10, said auxiliary dismounting member (200) being a guy rope.
  12. 12. The cable harness dismounting device of claim 11, wherein the dismounting assembly is a non-metallic piece.

Description

Dismounting assembly and cable wind rope dismounting device Technical Field The disclosure relates to the technical field of construction auxiliary equipment, in particular to a dismounting assembly and a cable rope dismounting device. Background In the installation and maintenance process of large-scale engineering equipment, auxiliary equipment such as a cable rope, a warning lamp, a turbulent flow device and the like are temporarily added, so that the auxiliary equipment is an important measure for ensuring the safety and smoothness of operation. However, these auxiliary devices are often located at high altitudes or in locations that are difficult for an operator to reach after installation is complete, resulting in difficult demolition work. Disclosure of utility model The utility model aims at providing a dismouting subassembly and cable rope dismouting device can improve the convenience of dismantling. According to one aspect of the present disclosure, a disassembly and assembly is provided, the disassembly and assembly including a binder, an auxiliary disassembly piece, and a connector including a penetrating portion and a blocking portion, wherein a first end of the penetrating portion passes through both ends of the binder, a second end of the penetrating portion is connected to the auxiliary disassembly piece, the blocking portion is connected to the first end of the penetrating portion, and a preset separation force exists between the blocking portion and the penetrating portion, wherein the blocking portion is separated from the penetrating portion when the separation force of the blocking portion and the penetrating portion is greater than the preset separation force, so that the penetrating portion can be separated from at least one end of the binder. According to the technical scheme, the preset separating force is set between the first end of the penetrating part and the blocking part, and the second end of the penetrating part is connected with the auxiliary dismounting piece. In this way, the second end of the penetrating part can be pulled by the auxiliary dismounting piece, and the pulling force applied to the second end of the penetrating part can be at least partially transmitted to the separating force between the penetrating part and the blocking part to form the penetrating part and the blocking part, so that whether the penetrating part and the blocking part are separated can be controlled according to the magnitude of the pulling force, that is, the dismounting assembly can be automatically dismounted from the part to be mounted by pulling the auxiliary dismounting piece. So, when auxiliary assembly fixes on waiting to install the part through the dismouting subassembly, and wait to install the part and be located the eminence inconvenient dismantlement time, can make the dismouting subassembly automatic dismantlement through pulling from the auxiliary disassembly piece of eminence downwardly extending to need not to climb to the eminence and can realize dismantling auxiliary assembly, convenient dismantlement operation, it is high-efficient convenient. Optionally, the first end of the penetrating part is connected with the blocking part through a transition section, and the transition section is provided with a fracture notch. Through the scheme, the position of the breaking point and the breaking force can be controlled through the breaking notch, so that the controllability of separation of the penetrating part and the blocking part is ensured. Optionally, the penetrating part, the transition section and the blocking part are integrally formed. Through the scheme, the processing production is convenient, the assembly steps are reduced, and the production cost is reduced. Optionally, the blocking portion has at least one, the blocking portion being configured to expand in a radially outward direction of the transition section while extending from an end of the transition section remote from the through-penetration toward the through-penetration, the blocking portion having an elastic deformation characteristic such that the blocking portion is deformed inward by compression across both ends of the binder and returns to an original state after the blocking portion passes across both ends of the binder to block the blocking portion from backing. Through the scheme, the shape structure and the elastic deformation characteristic of the blocking part can be utilized, so that the blocking part can be pressed to deform inwards to penetrate through the two ends of the binder, and the original state is restored after the blocking part penetrates through the two ends of the binder, thereby blocking the back of the blocking part, and the whole installation operation is simple and convenient. Optionally, the blocking portion is detachably connected to the first end of the through portion through the transition section. Through the scheme, after the transition section is broken, the novel b