CN219106766U - Power distribution cabinet with wire arranging function inside - Google Patents

Abstract

The utility model discloses a power distribution cabinet with a wire arranging function inside, which comprises a cabinet body, a fixing unit and a wire arranging unit, wherein the fixing unit is arranged on the cabinet body; the cabinet body: the lower surface of the cabinet body is provided with a wire through hole, the front side surface of the cabinet body is hinged with a cabinet door, and the rear side wall of the cabinet body is symmetrically provided with fixed sliding rails; a fixing unit: the array is connected between the two fixed slide rails in a threaded manner; wire arrangement unit: including reason line, second square nut, second bolt and reason wire casing, the both ends of reason line all have second square nut through second bolt threaded connection, and left second square nut all is located inside the left fixed slide rail, and right second square nut all is located inside the fixed slide rail on right side, and reason line all is located the leading flank of fixed slide rail, and reason wire casing has all been seted up to the front end of reason line, and this inside switch board of taking reason line function can carry out single fixedly to inside electric wire, has reduced the probability of trouble emergence to the maintenance in the facilitate the use.

Description

Power distribution cabinet with wire arranging function inside

Technical Field

The utility model relates to the technical field of power distribution cabinets, in particular to a power distribution cabinet with an internal wire arrangement function.

Background

The power distribution system is a power network system which is formed by converting voltage of various power distribution equipment (or elements) and power distribution facilities and directly distributing electric energy to end users, and can transmit the electric energy of the power generation equipment to us, wherein the final equipment of the power distribution system is a power distribution cabinet, electric appliances in the power distribution cabinet are generally connected by using DIN (DIN) guide rails, but before the DIN guide rails are fixed, the DIN guide rails are generally required to be fixed by punching holes in the power distribution cabinet, although the positions of the DIN guide rails can be determined according to requirements, the fixing is troublesome, and the inside of the power distribution cabinet is generally not provided with a wire arranging unit.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides the power distribution cabinet with the internal wire arranging function, which is convenient to install and is provided with the wire arranging unit, so that wires can be fixed singly, and the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a power distribution cabinet with a wire arranging function inside comprises a cabinet body, a fixing unit and a wire arranging unit;

the cabinet body: the lower surface of the cabinet body is provided with a wire through hole, the front side surface of the cabinet body is hinged with a cabinet door, and the rear side wall of the cabinet body is symmetrically provided with fixed sliding rails;

a fixing unit: the array is connected between the two fixed slide rails in a threaded manner;

wire arrangement unit: including reason line, second square nut, second bolt and reason wire casing, the both ends of reason line all have the second square nut through second bolt threaded connection, left second square nut all is located inside the left fixed slide rail, right second square nut all is located inside the fixed slide rail on right side, reason line all is located the leading flank of fixed slide rail, reason line's front end has all been seted up reason wire casing, can adjust the position of main DIN guide rail according to the demand of using when using, it is convenient and simple to adjust, help promoting the packaging efficiency of switch board, and can guarantee mutual insulation between main DIN guide rail and the box, the security when having improved the switch board and used, can also fix the electric wire of inside, the heat dispersion of electric wire has been promoted, help reducing the incidence of trouble, and overhaul after convenient.

Further, the wire arranging unit further comprises a first wire clip, and the first wire clips are respectively arranged on the lower surface of the upper end of the wire arranging wire in a staggered mode, so that the fixed wires of Fang Bai can be fixed.

Further, the wire arranging unit further comprises second wire clamps, the second wire clamps are arranged on the front side surfaces of the lower ends of the wire arranging lines in a staggered mode respectively, and the wire fixing capacity is improved.

Further, the fixed unit includes first square nut, first bolt and main DIN guide rail, the both ends of main DIN guide rail all have first square nut through first bolt threaded connection, and left first square nut all is located inside the left fixed slide rail, and right first square nut all is located inside the fixed slide rail on right side, and main DIN guide rail all is located the leading flank of fixed slide rail, makes things convenient for electrical components's installation.

Further, the fixing unit further comprises a bushing and a liner, the bushing is movably sleeved at the front end of the first bolt respectively, the liner is movably sleeved at the rear end of the bushing, the liner is located between the rear side face of the main DIN guide rail and the front side face of the fixing sliding rail, and the use safety of the power distribution cabinet is improved.

The rear side of first square nut all is equipped with magnet, and left magnet all adsorbs with left fixed slide rail magnetism, and the magnet on right side all adsorbs with the fixed slide rail magnetism on right side, makes things convenient for the regulation after fixed unit loosens.

The radiating holes are formed in the left side face and the right side face of the cabinet body in an array mode, fixing feet are symmetrically arranged at the rear ends of the left side face and the right side face of the cabinet body, fixing of the cabinet body is facilitated, and circulation of air in the cabinet body is guaranteed.

The left side wall and the right side wall of the cabinet body are symmetrically provided with auxiliary DIN guide rails through the fixing blocks, so that the fixing of the wiring terminal is facilitated.

Compared with the prior art, the utility model has the beneficial effects that: this inside switch board of taking reason line function has following benefit:

1. when the novel DIN electric power distribution cabinet is used, first bolts at two ends of a main DIN guide rail are loosened, then according to the drawing requirement, the main DIN guide rail is moved to a proper position through measurement of a measuring tool, the main DIN guide rail can be pushed to move through a lining, the lower end of the lining is square, square holes of the lining and the main DIN guide rail are movably inserted and are in sliding connection with an opening groove of a fixed sliding rail, the vertical state of the main DIN guide rail and the fixed sliding rail is guaranteed all the time, the first bolts drive the first square nuts to slide in the fixed sliding rail, when pushing is stopped, the rear side of the first square nuts is provided with a magnet, the magnet and the fixed sliding rail are magnetically adsorbed to further limit the first square nuts to move, the first square nuts can keep the main DIN guide rail in a static state, measurement and correction of the position of the main DIN guide rail are facilitated, the first bolts are fastened after the position meets the requirement, the first bolts and the first square nuts are locked, the first bolts and the first square nuts are used for limiting the movement of the main DIN guide rail, the lining is an insulating lining, the lining is the insulating box, the insulating box is always in a vertical state, the insulating box is arranged, the first square nuts and the DIN guide rail and the DIN electric power distribution cabinet can be easily assembled with the main DIN electric power distribution cabinet can be adjusted by the aid of the main electric power distribution cabinet, and the electric power distribution cabinet can be conveniently and conveniently adjusted by the user.

2. Loosening the second bolt, second bolt and second square nut remove reason line restriction, then adjust the position of reason line back, lock the second bolt can, binding post's one end and electrical components are connected, intercept the electric wire of suitable length earlier, then be connected with electrical components, then in vertical joint of fixed one end electric wire to reason wire casing, then bend and joint to the inside of second ply-yarn drill, when the joint, the diameter of electric wire is greater than the opening diameter of second ply-yarn drill, and then can order the middle part of second ply-yarn drill to take place elastic deformation at the in-process of joint, the second ply-yarn drill's middle part resumes the completion when the electric wire arrives the inside of second ply-yarn drill and fixes the electric wire, and with the second joint in proper order, then be connected with binding post on the vice DIN guide rail, connect gradually the connecting wire, after the transverse channel card of second ply-yarn drill is full, in can be with the cable joint first ply-yarn drill, when electric wire and first ply-yarn drill, the inside of wire joint line drill can be greater than the opening between first ply-yarn drill and the first ply-yarn drill, the diameter of electric wire can be greater than the opening between first ply-yarn drill and the second ply-yarn drill, and the opening between the first ply-yarn drill, and the elastic wire can take place in proper order the inside of wire joint line wire joint, the first ply-yarn drill is convenient to take place in proper order after the first wire joint, the wire joint is arranged to take place the first wire line, and the line joint is convenient to take place in proper order, and the line has been arranged to take place the line, and the first wire line has been convenient to take place the line.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the cabinet of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of the present utility model at A;

FIG. 4 is an enlarged schematic view of the structure of the present utility model at B;

fig. 5 is an enlarged schematic view of the structure of the present utility model at C.

In the figure: 1 cabinet body, 2 wire holes, 3 cabinet doors, 4 fixed feet, 5 radiating holes, 6 fixed sliding rails, 7 fixed units, 71 first square nuts, 72 first bolts, 73 main DIN guide rails, 74 bushings, 75 gaskets, 8 wire arranging units, 81 wire arranging lines, 82 second square nuts, 83 second bolts, 84 wire arranging grooves, 85 first line clamps, 86 second line clamps, 9 pairs of DIN guide rails and 10 magnets.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present embodiment provides a technical solution: a power distribution cabinet with a wire arranging function inside comprises a cabinet body 1, a fixing unit 7 and a wire arranging unit 8;

cabinet 1: the front side surface of the cabinet body 1 is hinged with the cabinet door 3, the cabinet door 3 and the cabinet body 1 provide protection for internal electric elements, the rear side wall of the cabinet body 1 is symmetrically provided with the fixing sliding rails 6, the left side surface and the right side surface of the cabinet body 1 are respectively provided with the radiating holes 5 in an array manner, the radiating holes 5 ensure the circulation of air in the cabinet body 1 to radiate the interior of the cabinet body 1, the rear ends of the left side surface and the right side surface of the cabinet body 1 are symmetrically provided with the fixing feet 4, the fixed installation of the cabinet body 1 is facilitated, the left side wall and the right side wall of the cabinet body 1 are symmetrically provided with the auxiliary DIN guide rails 9 through the fixing blocks, the wiring terminals are sequentially clamped to the auxiliary DIN guide rails 9, and after the internal electric wire connection is completed, the external electric wires penetrate through the fixing feet 4 and the other ends of the wiring terminals on the auxiliary DIN guide rails 9 to be connected;

fixing unit 7: the array is connected between the two fixed slide rails 6 in a threaded manner, the fixed unit 7 comprises a first square nut 71, a first bolt 72 and a main DIN guide rail 73, the first square nuts 71 are connected at two ends of the main DIN guide rail 73 through the first bolt 72 in a threaded manner, the first square nuts 71 on the left side are all positioned in the fixed slide rails 6 on the left side, the first square nuts 71 on the right side are all positioned in the fixed slide rails 6 on the right side, the main DIN guide rail 73 is all positioned on the front side surface of the fixed slide rails 6, the fixed unit 7 further comprises a bushing 74 and a gasket 75, the bushing 74 is movably sleeved at the front end of the first bolt 72, the gasket 75 is movably sleeved between the rear side surface of the main DIN guide rail 73 and the front side surface of the fixed slide rails 6, the rear side surface of the first square nuts 71 is provided with magnets 10, the magnets 10 on the left side are magnetically adsorbed with the fixed slide rails 6 on the left side, the magnet 10 on the right side is magnetically adsorbed with the fixed slide rail 6 on the right side, when in use, the first bolts 72 at the two ends of the main DIN guide rail 73 are firstly loosened, then the main DIN guide rail 73 is moved to a proper position according to the drawing requirement through measurement of a measuring tool, the main DIN guide rail 73 can be pushed when in movement, the main DIN guide rail 73 drives the gasket 75 and the first bolts 72 to move through the bushing 74, the shape of the lower end of the bushing 74 is square, the square holes of the bushing 74 and the main DIN guide rail 73 are movably inserted and are in sliding connection with the opening grooves of the fixed slide rail 6, the main DIN guide rail 73 and the fixed slide rail 6 are ensured to always ensure the vertical state, the first bolts 72 drive the first square nuts 71 to slide in the fixed slide rail 6, when pushing is stopped, because the magnet 10 is arranged on the rear side surface of the first square nuts 71, the magnet 10 and the fixed slide rail 6 are magnetically adsorbed and then limited to move, similarly, the first square nut 71 will keep the main DIN rail 73 in a static state, so that the position of the main DIN rail 73 can be conveniently measured and checked, the first bolt 72 is tightened after the position meets the requirement, the first bolt 72 and the first square nut 71 are locked, the first bolt 72 and the first square nut 71 limit the movement of the main DIN rail 73, the bushing 74 is an insulating bushing, the bushing 75 is an insulating bushing, the main DIN rail 73 and the box 1 are insulated from each other, and the installed electrical element is clamped to the main DIN rail 73;

wire arranging unit 8: comprises a wire arranging line 81, a second square nut 82, a second bolt 83 and a wire arranging groove 84, wherein the two ends of the wire arranging line 81 are respectively connected with the second square nut 82 through the second bolt 83 in a threaded manner, the wire arranging line 81 provides a position for fixing a wire, the second square nut 82 on the left side is positioned in the left side of the fixed slide rail 6, the second square nut 82 on the right side is positioned in the right side of the fixed slide rail 6, the wire arranging line 81 is positioned on the front side of the fixed slide rail 6, the wire arranging groove 84 is respectively arranged at the front end of the wire arranging line 81, the wire arranging unit 8 further comprises a first wire clamp 85, the first wire clamp 85 is respectively arranged on the lower surface of the upper end of the wire arranging line 81 in a staggered manner, the wire arranging unit 8 further comprises a second wire clamp 86, the second wire clamp 86 is respectively arranged on the front side of the lower end of the wire arranging line 81 in a staggered manner, the second bolt 83 is loosened, the second bolt 83 and the second square nut 82 are released from the limitation of the wire arranging line 81, then the position of the wire arranging line 81 is adjusted, after the position of the wire arranging line 81 is adjusted, the second bolt 83 is locked, one end of the wiring terminal is connected with the electrical component, wires with proper lengths are cut off, then the wires are connected with the electrical component, then the fixed end of the wires are vertically clamped into the wire arranging groove 84, then the wires are bent and clamped into the second wire clamp 86, when the wires are clamped, the diameter of the wires is larger than the opening diameter of the second wire clamp 86, and then the middle part of the second wire clamp 86 is driven to elastically deform in the clamping process, when the wires reach the inside of the second wire clamp 86, the middle part of the second wire clamp 86 is restored to complete the fixation of the wires, the wires are sequentially clamped with the second wire clamp 86 corresponding to the transverse direction, then the wires are connected with the wiring terminal on the auxiliary DIN guide rail 9, the connecting wires are sequentially connected in the same way, after the transverse channel of the second wire clamp 86 is clamped, can with cable joint in first ply-yarn drill 85, when electric wire and first ply-yarn drill 85, the opening between first ply-yarn drill 85 and reason line 81 will be greater than to the straight of electric wire, and the electric wire can order about the one end of the connection reason line 81 of first ply-yarn drill 85 to take place elastic deformation, and then the inside of electric wire joint first ply-yarn drill 85, at the in-process of reason line, the electric wire earlier with the second ply-yarn drill 86 joint of below, the electric wire upwards arranges in proper order, then uses the first ply-yarn drill 85 of rear side, then forward arrangement electric wire in proper order, and then can guarantee that the single of electric wire is fixed.

The utility model provides a power distribution cabinet with a wire arranging function, which has the following working principle: when in use, the first bolts 72 at the two ends of the main DIN rail 73 are loosened firstly, then the main DIN rail 73 is moved to a proper position according to the drawing requirement through measurement of a measuring tool, the main DIN rail 73 can be pushed to move when in movement, the main DIN rail 73 drives the liner 75 and the first bolts 72 to move through the liner 74, the shape of the lower end of the liner 74 is square, the square holes of the liner 74 and the main DIN rail 73 are movably inserted and are in sliding connection with the opening grooves of the fixed slide rail 6, the main DIN rail 73 and the fixed slide rail 6 are ensured to always ensure the vertical state, the first bolts 72 drive the first square nuts 71 to slide in the fixed slide rail 6, when the pushing is stopped, because the magnet 10 is arranged on the rear side surface of the first square nuts 71, the magnet 10 and the fixed slide rail 6 are magnetically adsorbed, and the first square nuts 71 can be limited, the first square nut 71 is kept in a static state by the same principle, the measurement and correction of the position of the main DIN rail 73 are facilitated, the first bolt 72 is tightened after the position meets the requirement, the first bolt 72 and the first square nut 71 are locked, the first bolt 72 and the first square nut 71 limit the movement of the main DIN rail 73, the bushing 74 is an insulating bushing, the bushing 75 is an insulating bushing, the main DIN rail 73 and the box 1 are insulated from each other, an installed electrical element is clamped to the main DIN rail 73, after the installation of the electrical element is completed, the second bolt 83 is loosened, the second bolt 83 and the second square nut 82 are released from the limitation of the line arrangement 81, the position of the line arrangement 81 is adjusted, the second bolt 83 is locked after the position of the line arrangement 81 is adjusted, then the connecting terminal is sequentially clamped to the auxiliary DIN rail 9, one end of the connecting terminal is connected with the electrical element, intercepting wires with proper length, then connecting with electrical components, then vertically clamping the fixed one-end wires into the wire arranging groove 84, then bending and clamping the inside of the second wire clamp 86, when in clamping, the diameter of the wires is larger than the opening diameter of the second wire clamp 86, and then elastic deformation can be driven to occur in the middle of the second wire clamp 86 in the clamping process, when the wires reach the inside of the second wire clamp 86, the middle of the second wire clamp 86 is restored to complete the fixing of the wires, and the wires and the transversely corresponding second wire clamp 86 are sequentially clamped, then the wires are sequentially connected with the connecting terminals on the auxiliary DIN guide rail 9, the same principle is adopted to sequentially connect the connecting wires, after the transverse channels of the second wire clamp 86 are clamped, the wires can be clamped into the first wire clamp 85, when the wires and the first wire clamp 85 are clamped, the wires are directly larger than the opening between the first wire clamp 85 and the wire clamp 81, the wires can drive one ends of the connecting wire clamp 81 of the first wire clamp 85 to elastically deform, and then the wires are clamped into the inside of the first wire clamp 85, then the wire clamp 85 is clamped into the first wire clamp, the wire clamp and the transversely corresponding first wire clamp 85 is clamped with the corresponding first wire clamp 85, then the wires are sequentially connected with the connecting terminals on the side of the first wire clamp 85, the wire clamp 1 and the wire clamp side of the wire clamp 9 sequentially pass through the connecting terminals on the side of the wire clamp 9, and the wire clamp side of the wire clamp 9 sequentially, and then the connecting wires sequentially pass through the wire clamp side of the connecting terminals and the wire clamp side of the wire clamp 9 and the wire clamp side sequentially after the connecting wire clamp side is sequentially passes through the wire clamp side connecting wire clamp side and the wire clamp side 9.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (8)

1. Inside area reason line function's switch board, its characterized in that: comprises a cabinet body (1), a fixing unit (7) and a wire arranging unit (8);

cabinet body (1): the lower surface of the cabinet body is provided with a wire through hole (2), the front side surface of the cabinet body (1) is hinged with a cabinet door (3), and the rear side wall of the cabinet body (1) is symmetrically provided with a fixed sliding rail (6);

fixing unit (7): the array is connected between the two fixed slide rails (6) through threads;

wire arranging unit (8): including reason line (81), second square nut (82), second bolt (83) and reason wire casing (84), the both ends of reason line (81) all have second square nut (82) through second bolt (83) threaded connection, and left second square nut (82) all are located inside the fixed slide rail (6) of left side, and right second square nut (82) all are located inside fixed slide rail (6) of right side, and reason line (81) all are located the leading flank of fixed slide rail (6), and reason wire casing (84) have all been seted up to the front end of reason line (81).

2. The power distribution cabinet with wire management function according to claim 1, wherein: the wire arranging unit (8) further comprises first wire cards (85), and the first wire cards (85) are respectively arranged on the lower surface of the upper end of the wire arranging wire (81) in a staggered mode.

3. The power distribution cabinet with wire management function according to claim 1, wherein: the wire arranging unit (8) further comprises second wire cards (86), and the second wire cards (86) are respectively arranged on the front side face of the lower end of the wire arranging line (81) in a staggered mode.

4. The power distribution cabinet with wire management function according to claim 1, wherein: the fixing unit (7) comprises a first square nut (71), a first bolt (72) and a main DIN guide rail (73), wherein the first square nut (71) is connected to the two ends of the main DIN guide rail (73) through the first bolt (72) in a threaded mode, the first square nut (71) on the left side is located inside the fixing slide rail (6) on the left side, the first square nut (71) on the right side is located inside the fixing slide rail (6) on the right side, and the main DIN guide rail (73) is located on the front side face of the fixing slide rail (6).

5. The power distribution cabinet with wire management function according to claim 4, wherein: the fixing unit (7) further comprises a bushing (74) and a liner (75), the bushing (74) is movably sleeved at the front end of the first bolt (72) respectively, the liner (75) is movably sleeved at the rear end of the bushing (74), and the liner (75) is located between the rear side face of the main DIN guide rail (73) and the front side face of the fixing slide rail (6).

6. The power distribution cabinet with wire management function according to claim 4, wherein: the rear side of first square nut (71) all is equipped with magnet (10), and magnet (10) on left side all adsorbs with fixed slide rail (6) magnetism on left side, and magnet (10) on right side all adsorbs with fixed slide rail (6) magnetism on right side.

7. The power distribution cabinet with wire management function according to claim 1, wherein: the heat dissipation holes (5) are formed in the left side face and the right side face of the cabinet body (1) in an array mode, and fixing feet (4) are symmetrically arranged at the rear ends of the left side face and the right side face of the cabinet body (1).

8. The power distribution cabinet with wire management function according to claim 1, wherein: the left side wall and the right side wall of the cabinet body (1) are symmetrically provided with auxiliary DIN guide rails (9) through fixing blocks.

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