CN107634355B - Power distribution network device disconnection connecting piece - Google Patents

Abstract

The disconnection connector of the distribution network device is characterized in that: the connector includes a tightening cavity (01) and clamping devices arranged on both sides of the tightening cavity (01); it realizes plug-and-connection, and the use of the connector It makes the connection of disconnected wires or temporary wiring more convenient and fast, and only needs to pinch the wires and insert them into the connector for fastening, which greatly improves work efficiency and safety.

Description

Distribution network device disconnection connector

technical field

The invention belongs to the technical field of new energy, and in particular relates to a disconnection connector for a distribution network device.

Background technique

In the current power system, it is easy to break the line when the solid line is connected, and it is easy to cause the whole system to fall into a state of paralysis. The exposed wires will also bring safety hazards, and temporary wiring is also required during the experiment, which is currently the most convenient The quick way is to wrap waterproof tape and insulating tape after wiring, and then wait for maintenance. This method is not only inconvenient to operate, but also poor in safety. If solder insulation is used, the requirements for equipment are higher, and the construction is also troublesome.

Contents of the invention

Purpose of the invention:

In order to solve the above problems, the present invention provides a disconnection connector for a distribution network device.

Technical solutions:

The present invention is implemented through the following technical solutions:

Including the tightening cavity (01) and the clamping devices arranged on both sides of the tightening cavity (01);

The clamping device includes a fixed sleeve (02) and a movable ferrule (03). One end of the fixed sleeve (02) is fixed to the clamping cavity (01), and the other end is movably connected to the movable ferrule (03) through the connecting block (04) , both the fixed sleeve (02) and the movable ferrule (03) are provided with a through hole (05) through which the power supply line penetrates, and the through hole of the fixed sleeve (02) is set on the axis and connected to the top tightening cavity (01), The through hole of the movable ferrule (03) is set eccentrically, that is, when the axes of the fixed sleeve (02) and the movable ferrule (03) correspond, the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) The holes are staggered from each other;

One end of the connection block (04) is fixed on the fixed sleeve (02), and the other end is provided with a chute (06) for the movable ferrule (03) to move in the radial direction (the radial direction is the direction of the arrow in the figure). When in use, the movable ferrule The sleeve (03) moves radially along the chute (06) so that the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) are coaxial for the power supply wire to pass through;

In the chute (06), there is a limit rod (07) in the same radial direction as the movable ferrule (03), and the limit rod (07) is inserted into the limit hole (08) on the side wall of the movable ferrule (03). ) to limit the moving direction of the movable ferrule (03), a clamping compression spring (09) is set on the limit rod (07), and the upper end of the clamping compression spring (09) is fixed with the limit rod (07). The lower end of the compression spring (09) touches the outer wall of the movable ferrule (03) to ensure that the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) are staggered;

The clamping cavity (01) is provided with a conductive voltage plate (010) that can move axially along the clamping cavity (01), (the axial direction of the clamping cavity (01) is the same as that of the through hole!) The conductive voltage plate (010 ) are two left and right corresponding to the clamping device. When in use, the moving directions of the two conductive voltage plates (010) are opposite. The inner-thread conductive thread connection shafts (011) are flexibly connected through the outer-thread conductive rod (012), and the two ends of the outer-thread conductive rod (012) respectively extend into the two inner-thread conductive thread connection shafts (011) and connect with them. Thread fit, through the rotation of the external threaded conductive rod (012), the two conductive voltage plates (010) are controlled to move relative to each other or separated from each other; A part of (013) protrudes into the top tightening chamber (01) and fits on the externally threaded conductive rod (012) to fix it with the externally threaded conductive rod (012) (so that the axial direction of the externally threaded conductive rod (012) does not move when rotating !), and control the rotation of the externally threaded conductive rod (012) by rotating the external insulation adjustment dial (013).

The top tight cavity (01) is a transparent structure.

There is a gap between the fixed sleeve (02) and the movable ferrule (03), so that there is space for the wire to be bent.

The through holes of the fixed sleeve (02) and the through holes of the movable ferrule (03) are not completely staggered (to avoid damage to the transitional bending of the wires!).

The diameter of the through hole (05) is just enough to allow the wire to pass through. So that the clamping effect is better!

Advantages and effects:

The invention provides a disconnection connector for a distribution network device, which realizes plug-and-play connection. The use of the connector makes the connection of the disconnection or temporary connection more convenient and quick, and only needs to cut the head of the wire and extend it into the connection. It can be fastened inside the parts, which greatly improves work efficiency and safety.

Description of drawings

Fig. 1 is the structural schematic diagram of electric wire fast connector of the present invention;

Fig. 2 is the state diagram before ready to use;

Figure 3 is a diagram of the state of use.

Detailed ways

The present invention is described in detail below in conjunction with accompanying drawing:

The invention provides a disconnection connector for a distribution network device, which includes a clamping cavity (01) and wire clamping devices arranged on both sides of the clamping cavity (01);

The clamping device includes a fixed sleeve (02) and a movable ferrule (03). One end of the fixed sleeve (02) is fixed to the clamping cavity (01), and the other end is movably connected to the movable ferrule (03) through the connecting block (04) , both the fixed sleeve (02) and the movable ferrule (03) are provided with a through hole (05) through which the power supply line penetrates, and the through hole of the fixed sleeve (02) is set on the axis and connected to the top tightening cavity (01), The through hole of the movable ferrule (03) is set eccentrically, that is, when the axes of the fixed sleeve (02) and the movable ferrule (03) correspond, the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) The holes are staggered from each other;

One end of the connection block (04) is fixed on the fixed sleeve (02), and the other end is provided with a chute (06) for the movable ferrule (03) to move in the radial direction (the radial direction is the direction of the arrow in the figure). When in use, the movable ferrule The sleeve (03) moves radially along the chute (06) so that the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) are coaxial for the power supply wire to pass through;

In the chute (06), there is a limit rod (07) in the same radial direction as the movable ferrule (03), and the limit rod (07) is inserted into the limit hole (08) on the side wall of the movable ferrule (03). ) to limit the moving direction of the movable ferrule (03), a clamping compression spring (09) is set on the limit rod (07), and the upper end of the clamping compression spring (09) is fixed with the limit rod (07). The lower end of the compression spring (09) touches the outer wall of the movable ferrule (03) to ensure that the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) are staggered;

The clamping cavity (01) is provided with a conductive voltage plate (010) that can move axially along the clamping cavity (01), (the axial direction of the clamping cavity (01) is the same as that of the through hole!) The conductive voltage plate (010 ) are two left and right corresponding to the clamping device. When in use, the moving directions of the two conductive voltage plates (010) are opposite. The inner-thread conductive thread connection shafts (011) are flexibly connected through the outer-thread conductive rod (012), and the two ends of the outer-thread conductive rod (012) respectively extend into the two inner-thread conductive thread connection shafts (011) and connect with them. Thread fit, through the rotation of the external threaded conductive rod (012), the two conductive voltage plates (010) are controlled to move relative to each other or separated from each other; A part of (013) protrudes into the top tightening chamber (01) and fits on the externally threaded conductive rod (012) to fix it with the externally threaded conductive rod (012) (so that the axial direction of the externally threaded conductive rod (012) does not move when rotating !), and control the rotation of the externally threaded conductive rod (012) by rotating the external insulation adjustment dial (013).

The top tight cavity (01) is a transparent structure.

There is a gap between the fixed sleeve (02) and the movable ferrule (03), so that there is space for the wire to be bent.

The through holes of the fixed sleeve (02) and the through holes of the movable ferrule (03) are not completely staggered (to avoid damage to the transitional bending of the wires!).

When using this connector, as shown in Figure 3, move the movable ferrule (03) radially so that the through hole of the fixed sleeve (02) and the through hole of the movable ferrule (03) are coaxially connected, and then connect the wires After pinching the head, go through the through hole and extend into the tightening chamber (01), then loosen the movable ferrule (03), and under the action of the tightening compression spring (09), the movable ferrule (03) resets, as shown in Figure 3 In the direction of the arrow in the middle, then clamp the wire, then turn the outer insulation adjustment dial (013), control the conductive voltage plate (010) to move separately to both sides, until the conductive voltage plate (010) tightly withstands the pinch head of the wire , of course, as shown in Figure 3, the state where the wire is pinched and bent over the top is the most ideal, at this time it will ensure tight contact, and its use is very convenient and quick.

Claims (5)

1. Join in marriage power grid device broken string connecting piece, its characterized in that: the connecting piece comprises a jacking cavity (01) and wire clamping devices arranged on two sides of the jacking cavity (01);

the wire clamping device comprises a fixed sleeve (02) and a movable clamping sleeve (03), one end of the fixed sleeve (02) is fixed with a jacking cavity (01), the other end of the fixed sleeve is movably connected with the movable clamping sleeve (03) through a connecting block (04), the fixed sleeve (02) and the movable clamping sleeve (03) are both provided with through holes (05) through which power supply wires penetrate, the through holes of the fixed sleeve (02) are arranged in the axis and communicated into the jacking cavity (01), the through holes of the movable clamping sleeve (03) are eccentrically arranged, namely, when the axes of the fixed sleeve (02) and the movable clamping sleeve (03) correspond, the through holes of the fixed sleeve (02) and the through holes of the movable clamping sleeve (03) are staggered;

one end of the connecting block (04) is fixed on the fixed sleeve (02), the other end of the connecting block is provided with a sliding groove (06) for the movable clamping sleeve (03) to move along the radial direction, and when the connecting block is used, the movable clamping sleeve (03) moves along the radial direction of the sliding groove (06) so that the through hole of the fixed sleeve (02) and the through hole of the movable clamping sleeve (03) are coaxial and penetrate through with a power supply line;

a limiting rod (07) which is in the same direction as the movable clamping sleeve (03) in the radial direction is arranged in the sliding groove (06), the limiting rod (07) is inserted into a limiting hole (08) in the side wall of the movable clamping sleeve (03), a jacking pressure spring (09) is sleeved on the limiting rod (07), the upper end of the jacking pressure spring (09) is fixed with the limiting rod (07), and the lower end of the jacking pressure spring (09) is in jacking contact with the outer wall of the movable clamping sleeve (03);

the wire clamping device is characterized in that conductive pressure plates (010) capable of moving axially along the jacking cavity (01) are arranged in the jacking cavity (01), the conductive pressure plates (010) are arranged on the left and right sides corresponding to the wire clamping device, in use, the moving directions of the two conductive pressure plates (010) are opposite, each conductive pressure plate (010) is provided with an inner threaded conductive connecting shaft (011), the two inner threaded conductive connecting shafts (011) are movably connected through an outer threaded conductive rod (012), two ends of the outer threaded conductive rod (012) respectively extend into the two inner threaded conductive connecting shafts (011) and are in threaded fit with the inner threaded conductive connecting shafts, and the two conductive pressure plates (010) are controlled to move relatively or separately through rotation of the outer threaded conductive rod (012); the outer cover in tight chamber in top (01) has outer insulating adjusting disk (013), and the partly of outer insulating adjusting disk (013) stretches into in the tight chamber in top (01) and overlaps on external screw thread conducting rod (012) with external screw thread conducting rod (012) fixed fit, through the rotation of rotatory outer insulating adjusting disk (013) control external screw thread conducting rod (012).

2. The power distribution network device disconnection connector of claim 1, wherein: the tightening cavity (01) is of a transparent structure.

3. The power distribution network device disconnect connection of claim 1, wherein: a gap is reserved between the fixed sleeve (02) and the movable cutting sleeve (03).

4. The power distribution network device disconnection connector of claim 1 or 3, wherein: the through hole of the fixed sleeve (02) and the through hole of the movable clamping sleeve (03) are not completely staggered.

5. The power distribution network device disconnection connector of claim 1, wherein: the diameter of the through hole (05) is enough to just accommodate the electric wire to pass through.

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