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CN-224217907-U - Low-voltage complete switch equipment

CN224217907UCN 224217907 UCN224217907 UCN 224217907UCN-224217907-U

Abstract

The utility model relates to the field of low-voltage complete switch equipment, and discloses low-voltage complete switch equipment which comprises a plurality of upright posts, a bottom plate, a top plate, side plates and a binding sleeve. The stand is equipped with the slot, and the bottom plate has been seted up and has been used for stand male bottom hole, and the roof is equipped with the roof groove that can overlap the stand, and the cover of borduring covers the stand outside and forms the installation side. The side plates are arranged between the adjacent upright posts, the two ends of the side plates extend out to form convex edges for being inserted into the slots, and through passage grooves are formed and detachably connected with the installation side edges. At least one side plate is provided with an installation opening, a cover plate, a wiring board and a travel plate, and the cover plate can slide on the travel plate. Through the structure, the cabinet body is quickly assembled and is normally wired, and the equipment installation convenience and the operation safety are improved.

Inventors

  • LIU YINGJIE
  • SONG ZHANGHUA

Assignees

  • 艾美肯(厦门)电力科技有限公司

Dates

Publication Date
20260508
Application Date
20250506

Claims (10)

  1. 1. A low-voltage complete switch device, characterized by comprising the following steps: a plurality of upright posts (1), wherein slots (11) are formed in the upright posts (1); The end face, close to the upright post (1), of the bottom plate (2) is downwards sunken with a bottom hole (21) for inserting the upright post (1); a top plate (3), one end surface of which is provided with a top groove (31), and the top groove (31) can be sleeved with the other end of the upright post (1); The edge covering sleeve (4) is folded and coated on the outer side of the upright post (1), and the edges of the two sides of the edge covering sleeve form mounting side edges (41); The side plates (5) are arranged between the adjacent upright posts (1), convex edges (51) for being inserted into the slots (11) extend out of two ends of each side plate (5), through channel grooves (52) are formed in the direction of the top plate (3) and the bottom plate (2) and close to one ends of the convex edges (51) of the side plates (5), and the installation side edges (41) are detachably connected with the channel grooves (52); Wherein, one be provided with square installation opening (6) on curb plate (5) and with apron (7) the same with installation opening (6) shape, apron (7) are in detachable be provided with wiring board (8) on the inboard plane of curb plate (5) keep away from on the plane of wiring board (8) articulated have a pair of insulating travel board (9), a pair of travel board (9) set up the both sides edge in the vertical direction of installation opening (6), apron (7) can slide on travel board (9).
  2. 2. A low voltage switchgear assembly according to claim 1, characterized in that the edging sleeve (4) is a rigid plastic protective shell.
  3. 3. A low voltage switchgear assembly according to claim 2, characterized in that the mounting side edges (41) are T-shaped in cross section.
  4. 4. A low voltage switchgear assembly according to claim 1, characterized in that a first travel slot (91) is provided at both ends of the travel plate (9) in a direction away from the cover plate (7), a second travel slot (92) is provided in the travel plate (9) extending in a direction perpendicular to the first travel slot (91), and a slider (71) for sliding between the first travel slot (91) and the second travel slot (92) is provided at both sides of the end surface of the cover plate (7) extending outwards.
  5. 5. A low voltage switchgear assembly according to claim 4, characterized in that flexible protrusions (93) are provided on the side walls of the second travel slot (92) and at the junction with the first travel slot (91).
  6. 6. A low voltage switchgear assembly according to claim 5, characterized in that the flexible protrusions (93) are hemispheric.
  7. 7. A low voltage switchgear assembly according to claim 6, characterized in that the travel plate (9) is provided with a snap-in groove (94).
  8. 8. A low voltage switchgear assembly according to claim 7, characterized in that the travel plates (9) are fitted with damping spindles (95) at both ends.
  9. 9. A low-voltage switchgear assembly according to claim 8, characterized in that the side plates (5) are provided with receiving cavities (53) for receiving the travel plates (9).
  10. 10. A low voltage switchgear assembly according to claim 9, characterized in that the cover plate (7) is fixedly provided with magnetic strips (72) on both sides.

Description

Low-voltage complete switch equipment Technical Field The utility model relates to the technical field of light-opening equipment, in particular to low-voltage complete switch equipment. Background The low-voltage complete switch equipment is widely applied to various building, industrial and infrastructure fields and is used for realizing the distribution, control and protection functions of electric energy. The traditional low-voltage complete switch cabinet body usually adopts an integral welding or bolting mode to form a cabinet body frame, and various electric components and circuits are installed inside the cabinet body frame. With the increasing complexity of electrical system functions, higher demands are placed on modular arrangement, flexible installation and later maintenance of the equipment. In the installation process of the existing low-voltage switch cabinet, complicated measurement, positioning and fixing operations are often required, the installation efficiency of components is low, and unified standards are lacking among different modules, so that adjustment and replacement are very inconvenient. Meanwhile, the cable is laid by adopting free wiring or simple binding, and a standard wiring channel is lacked, so that the neatness of the inside of the cabinet body is reduced, the electrical interference and the potential safety hazard are easily caused, and the difficulty of maintenance and overhaul during the operation of equipment is increased. Especially in actual engineering application, because on-site wiring is complicated, space is limited, equipment is carried frequently, the traditional cabinet body lacks flexibility and humanization in structural design, leads to construction cycle extension, and maintenance cost rises, and easily appears because of wiring is disordered, binding post is not hard up and causes the trouble. The above problems have become an important factor limiting the reliability and competitiveness of low-voltage switchgear products. In view of this, the present inventors have specifically devised a low-voltage switchgear assembly, which results therefrom. Disclosure of utility model (One) solving the technical problems The application aims to provide low-voltage complete switch equipment, which at least solves the problems of complicated installation, inconvenient cable wiring and potential safety hazard of the existing low-voltage complete switch equipment cabinet. (II) technical scheme In order to solve the technical problems, the utility model provides the following technical scheme: the application provides a low-voltage switchgear assembly, which is characterized by comprising: the upright posts are provided with slots; the end face, close to the upright post, of the bottom plate is downwards sunken with a bottom hole for the insertion of the upright post; A top plate, one end face of which is provided with a top groove, and the top groove can be sleeved with the other end of the upright post; The edge covering sleeve is folded and coated on the outer side of the upright post, and the edges of the two sides of the edge covering sleeve form mounting side edges; The side plates are arranged between the adjacent upright posts, convex edges for inserting the slots extend out of two ends of the side plates, a through channel groove is formed in the direction from the top plate to the bottom plate, which is close to one end of the convex edge, and the installation side edges are detachably connected with the channel groove; The side plates are provided with square mounting openings and cover plates with the same shape as the mounting openings, wiring boards are detachably arranged on the planes of the inner sides of the side plates, a pair of insulating travel plates are hinged to the planes of the side plates away from the wiring boards, the pair of travel plates are arranged at the edges of the two sides of the mounting openings in the vertical direction, and the cover plates can slide on the travel plates. In a further scheme, the wrapping sleeve is a hard plastic protective shell. In a further scheme, the section of the installation side edge is T-shaped. In a further scheme, a first travel groove is formed in the two ends of the travel plate along the direction away from the cover plate, a second travel groove is formed in the travel plate in a penetrating mode in the direction perpendicular to the first travel groove, and sliding blocks used for sliding in the first travel groove and the second travel groove extend outwards on the two sides of the end face of the cover plate. In a further aspect, a flexible protrusion is provided on the second travel slot sidewall and at the intersection with the first travel slot. In a further aspect, the flexible protrusions are hemispherically shaped. In a further scheme, a buckle groove is formed in the travel plate. In a further scheme, damping rotating shafts are arranged at two ends of the travel plate. In a further