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CN-224218014-U - Cross-over prevention structure for conducting wire for electromagnetic device

CN224218014UCN 224218014 UCN224218014 UCN 224218014UCN-224218014-U

Abstract

The utility model discloses a wire crossing prevention structure for an electromagnetic device, and relates to the technical field of electromagnetic devices. The utility model comprises a positioning block, wherein notches are formed in the middle positions of the left side wall and the right side wall of the positioning block, limiting ports are formed in the left side wall of the positioning block, which is positioned above and below the notches, assembly ports are formed in the right side wall of the positioning block, which corresponds to the limiting ports, assembly blocks are arranged in the limiting ports, an I-shaped port is formed in the side wall of the positioning block, which is positioned in the middle position between the two notches, a T-shaped column which is embedded with the I-shaped port is arranged at the rear part of the I-shaped port, a tooth port is formed in the front part of the I-shaped port, a ring plate is arranged at the front wide port position of the I-shaped port, and a toothed ring plate meshed with the tooth port is fixed on the rear end surface of the ring plate. According to the utility model, the assembly blocks are inserted into the assembly ports, so that the rapid assembly among the positioning blocks is realized, and meanwhile, the toothed ring plate moves out of the toothed ports, so that the positions of the notches are adjusted.

Inventors

  • XING HAITAO

Assignees

  • 深圳市联泰兴电子科技有限公司

Dates

Publication Date
20260508
Application Date
20250512

Claims (7)

  1. 1. A wire crossing prevention structure for an electromagnetic device comprises a positioning block (1) and is characterized in that notches (101) are formed in the middle positions of the left side wall and the right side wall of the positioning block (1), limiting ports (105) are formed in the left side wall of the positioning block (1) which is located above and below the notches (101), assembly ports (103) are formed in the right side wall of the positioning block (1) which corresponds to the positions of the limiting ports (105), assembly blocks (3) are arranged in the limiting ports (105), an I-shaped port (107) is formed in the side wall of the positioning block (1) which is located in the middle between the two notches (101), T-shaped columns (4) which are embedded with the I-shaped ports are arranged in the rear portion of the I-shaped port (107), tooth ports (108) are formed in the front portion of the I-shaped port (107), a circular ring plate (2) is arranged in the front wide port position, and a toothed ring plate (201) meshed with the tooth ports (108) is fixed on the rear end face of the circular ring plate (2).
  2. 2. The structure for preventing the wire from crossing for the electromagnetic device according to claim 1, wherein the inner end surfaces of the limiting ports (105) are provided with moving ports (106), and two movable rods (102) which are arranged in a front-back symmetrical manner are fixed between the inner end surfaces of the moving ports (106) positioned in front of and behind the limiting ports (105).
  3. 3. The structure for preventing the cross of the wires for the electromagnetic device according to claim 2, wherein one end of the assembly block (3) is fixedly provided with a strip-shaped plate (302) sliding in the inner position of the moving opening (106), the strip-shaped plate (302) is sleeved on the movable rod (102) through a movable hole (308) formed in the end part, and a plurality of pushing springs (303) respectively sleeved on the movable rod (102) are fixedly arranged on the end face of the strip-shaped plate (302) corresponding to the limiting opening (105).
  4. 4. The structure for preventing the cross of the wires for the electromagnetic device according to claim 1, wherein the front ends of the assembly blocks (3) are provided with through holes (307) in a penetrating manner, the front and rear parts inside the through holes (307) are provided with inserting rods (301), and the front and rear surfaces inside the assembly openings (103) are provided with inserting holes (104).
  5. 5. The structure for preventing the cross of the wires for the electromagnetic device according to claim 2, wherein a reset spring (305) is fixed between two plugging rods (301) in each through hole (307), square openings (306) communicated with the inside of the through holes (307) are formed in the upper end faces of the assembly blocks (3), and movable strips (304) fixedly connected with the adjacent plugging rods (301) are arranged at the front and rear positions in each square opening (306).
  6. 6. The wire crossing prevention structure for an electromagnetic device according to claim 1, wherein a polygonal ring (202) connected with the inner side wall of the I-shaped opening (107) is arranged right behind the toothed ring plate (201), and a plurality of connecting strips (203) which are uniformly distributed in a ring shape are fixed between the polygonal ring (202) and the toothed ring plate (201).
  7. 7. The structure for preventing the cross of the wires for the electromagnetic device according to claim 5, wherein a polygonal rod (401) penetrating through the inner position of the polygonal ring (202) is fixed on the end face of the T-shaped column (4), a round blocking block (402) connected with the polygonal rod (401) through bolts is arranged at the inner position of the circular ring plate (2), a compression spring (204) abutting against the end face of the round blocking block (402) is fixed on the end face of the polygonal ring (202), and the polygonal ring (202) and the polygonal rod (401) are matched for use.

Description

Cross-over prevention structure for conducting wire for electromagnetic device Technical Field The utility model belongs to the technical field related to electromagnetic devices, and particularly relates to a wire crossing prevention structure for an electromagnetic device. Background The magnetic component in the circuit means a device capable of performing circuit control and signal processing by utilizing a magnetic effect, and includes a transformer, an inductor, a magnetic memory, an electromagnetic relay, and the like. The magnetic component has wide application in the fields of power supply, amplifier, filter, sensor, computer memory, etc. because of the need of using several wires to connect with other components in the electromagnetic device, the wires are easy to cross-wind and interfere with each other, so that the corresponding cross-preventing structure can be used. However, when the conventional crossing prevention structure is used, the conventional crossing prevention structure does not have a function of facilitating rapid assembly, so that the conventional crossing prevention structure does not have a function of distributing and assembling according to the number of wires, so that a plurality of wires cannot be separated, and meanwhile, the conventional crossing prevention structure does not have a function of rotating, so that the conventional crossing prevention structure cannot be adjusted in position according to the positions of the wires when the conventional crossing prevention structure is mounted on an electromagnetic device. Therefore, we provide a wire crossover preventing structure for electromagnetic devices to solve the above problems. Disclosure of utility model The utility model aims to provide a lead anti-crossing structure for an electromagnetic device, which is characterized in that an assembly block is inserted into an assembly port to realize rapid assembly among a plurality of positioning blocks, and meanwhile, a toothed ring plate moves out of the tooth port to realize adjustment of the position of a notch. In order to solve the technical problems, the utility model is realized by the following technical scheme: The utility model relates to a wire crossing prevention structure for an electromagnetic device, which comprises a positioning block, wherein notches are formed in the middle positions of the left side wall and the right side wall of the positioning block, limiting ports are formed in the left side wall of the positioning block, which is positioned above and below the notches, assembly ports are formed in the right side wall of the positioning block, which corresponds to the limiting ports, the assembly blocks are arranged in the limiting ports, I-shaped ports are formed in the side wall of the positioning block, which is positioned in the middle position between the two notches, T-shaped columns which are embedded with the I-shaped ports, tooth ports are formed in the front part of the I-shaped ports, a circular plate is arranged in the front wide port position of the I-shaped ports, and a toothed ring plate meshed with the tooth ports is fixed on the rear end surface of the circular plate. The utility model is further arranged that the inner end surfaces of the limiting ports are respectively provided with a moving port, and two movable rods which are arranged in a front-back symmetrical way are fixed between the inner end surfaces of the moving ports positioned at the front and back sides of the limiting ports. The utility model is further arranged that one end of the assembly block is fixedly provided with a strip-shaped plate which slides in the inner position of the moving opening, the strip-shaped plate is sleeved on the movable rod through a movable hole formed in the end part, and a plurality of pushing springs which are respectively sleeved on the movable rod are fixedly arranged on the end surface of the strip-shaped plate corresponding to the limiting opening. The utility model is further arranged that the front ends of the assembly blocks are respectively provided with a through hole in a penetrating way, the front and rear parts inside the through holes are respectively provided with a plug rod, and the front and rear surfaces inside the assembly ports are respectively provided with a jack. The utility model is further arranged that a reset spring is fixed between the two plug-in rods in each through hole, square openings communicated with the inside of the through holes are formed in the upper end faces of the assembly blocks, and movable strips fixedly connected with the adjacent plug-in rods respectively are arranged at the front and rear positions in each square opening. The utility model is further characterized in that a polygonal ring connected with the inner side wall of the I-shaped opening is arranged right behind the toothed ring plate, and a plurality of connecting strips which are uniformly distributed in a ring shape are fixed be