CN220984406U - Power distribution switch with locking function - Google Patents

Abstract

The utility model provides a power distribution switch with a locking function, which relates to the technical field of power distribution switches and comprises a switch controller; the hexagonal groove is formed in the middle of the front end of the switch controller, the switch rotating shaft is rotatably connected to the middle of the hexagonal groove of the switch controller, and the limit installation frame with the hexagonal design is inserted into the hexagonal groove of the switch controller. The whole position design of restriction mounting bracket is combined to and the installation of restriction mounting bracket and switch controller position can be with rectifying the distribution rotation type switch that carries originally on the distribution equipment, does not need to dismantle the change and possesses the distribution switch of locking function. The problem of the distribution switch that the distribution apparatus that exists in the existing market carried does not possess the locking function by itself, consequently need dismantle the distribution switch that distribution apparatus carried and change the distribution switch that possesses the locking worker, additional money that consumes is solved.

Description

Power distribution switch with locking function

Technical Field

The utility model belongs to the technical field of power distribution switches, and particularly relates to a power distribution switch with a locking function.

Background

The distribution is directly links to each other and distributes the link of electric energy to the user with the user in electric power system, and distribution system comprises distribution substation, high voltage distribution line, distribution transformer, low voltage distribution line and corresponding control protection equipment, and distribution line switch is the device that provides overload and short-circuit protection for the load of connecting on main distribution equipment, in order to ensure the operation that distribution switch avoids the mistake to touch, needs to set up the locking function on distribution switch's basis, avoids distribution switch's mistake to touch, causes the accident to cause the potential safety hazard.

The application of the existing locking function distribution switch is known: the distribution switch that the distribution apparatus that exists in the existing market carried does not possess the locking function by oneself, therefore need dismantle the distribution switch that the distribution apparatus carried and change the distribution switch that possesses the locking worker, extra money that consumes.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a power distribution switch with a locking function, so as to solve the problem that the existing power distribution switch carried by a power distribution apparatus in the market does not have the locking function, so that the power distribution switch carried by the power distribution apparatus needs to be disassembled to replace the power distribution switch with a locking energy worker, and money is additionally consumed.

The utility model discloses a power distribution switch with a locking function, which is realized by the following specific technical means:

A power distribution switch with a locking function comprises a switch controller; the front end intermediate position of switch control ware has seted up the hexagon recess, and the hexagon recess intermediate position rotation of switch control ware is connected with the switch pivot, peg graft in the hexagon recess of switch control ware has the restriction mounting bracket of hexagon design, the front end position of restriction mounting bracket is the cylinder design, and the intermediate position of restriction mounting bracket is for running through the design, the switch pivot is located the inside intermediate position of restriction mounting bracket, the front end intermediate position fixedly connected with locking alignment jig of restriction mounting bracket, three spout has been seted up to the front end global position of locking alignment jig, and the interval amplitude of every adjacent two spouts of locking alignment jig is the same, sliding connection has a locking claw in every adjacent two locking claw's the three spout respectively, the interval of every adjacent two locking claw is the same, the outside position of switch pivot is all laminated to the inboard position of three locking claw.

Further, the rear end positions of the three locking claws are provided with arc grooves, the middle position of the locking adjusting frame is provided with a through hole, and the switch rotating shaft penetrates through the through hole of the locking adjusting frame.

Further, the outside position rotation of the middle front end of restriction mounting bracket is connected with rotatory adjusting ring, and rotatory adjusting ring's front end position is the spiral design, and rotatory adjusting ring front end position rotation is connected at the inside rear end position of locking alignment jig, and rotatory adjusting ring's front end spiral position meshes with the rear end arc groove position of three locking claw respectively.

Further, the upper position rotation is connected with the locating bolt in the middle of the front end of locking alignment jig, and the rear end position of locating bolt laminates with the upper position in the middle of the front end of rotatory adjusting ring, and when rotating the locating bolt, the rear end position of locating bolt will laminate in the front end top position of rotatory adjusting ring, and rotatory adjusting ring will receive the interference fit of locating bolt can not rotate in this time.

Further, the rear end position of switch controller is provided with the switch butt joint socket, and the upper position is rotated in the inside front end of switch controller and is connected with connection formula stop cock, and the bottom of connection formula stop cock is located the top intermediate position in the hexagonal recess of switch controller, and the bottom position of connection formula stop cock is laminated mutually with restriction mounting bracket top intermediate position.

Further, the hexagonal protruding block is arranged at the front end of the switch rotating shaft, the hexagonal protruding block at the front end of the switch rotating shaft is spliced with the rear end of the switch screwing cap, and the switch screwing cap is positioned right in front of the locking adjusting frame.

Compared with the prior art, the utility model has the following beneficial effects:

1. The rotary adjusting ring is rotated, the screw position at the front end of the rotary adjusting ring is in meshed transmission with the positions of the rear arc-shaped grooves of the three locking claws, the rear arc-shaped grooves of the three locking claws move in the synchronous completion position, when the three locking claws approach, the three locking claws are respectively attached to the switch rotating shaft, the rotation of the switch rotating shaft is limited, and further the situation that the switch is screwed up and the stress is mistakenly touched to drive the switch rotating shaft to rotate is avoided.

2. When the locating bolt is rotated, the rear end position of the locating bolt is attached to the position above the front end of the rotary adjusting ring, and the rotary adjusting ring cannot rotate due to interference fit of the locating bolt, so that the rotary adjusting ring is limited.

3. The whole position design of restriction mounting bracket is combined to and the installation of restriction mounting bracket and switch controller position can be with rectifying the distribution rotary switch who carries originally on the distribution equipment, does not need to dismantle the change and possess the distribution switch of locking function, reduce cost, and dismantle the spacing locking that the convenience was applicable to rotary distribution switch on the present market.

Drawings

Fig. 1 is a schematic left-view structure of a power distribution switch with a locking function according to the present utility model.

Fig. 2 is a schematic side view of a power distribution switch with a locking function according to the present utility model.

Fig. 3 is a schematic diagram of a split side view structure of the power distribution switch with locking function of the present utility model.

Fig. 4 is a schematic diagram showing a split side view structure of the distribution switch with a locking function.

In the figure, the correspondence between the component names and the drawing numbers is:

1. A switch controller; 101. a switch butt joint socket; 102. a connecting limiting bolt; 103. a switch rotating shaft; 104. opening and closing a screw cap; 2. limiting the mounting frame; 201. locking the adjusting frame; 202. rotating the adjusting ring; 203. a positioning bolt; 204. and a locking claw.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Embodiment one:

As shown in fig. 1 to 4:

The utility model provides a power distribution switch with a locking function, which comprises a switch controller 1; the front end intermediate position of switch controller 1 has seted up the hexagon recess, and the hexagon recess intermediate position rotation of switch controller 1 is connected with switch pivot 103, the restriction mounting bracket 2 of hexagon design has been pegged graft in the hexagon recess of switch controller 1, the front end position of restriction mounting bracket 2 is the cylinder design, and the intermediate position of restriction mounting bracket 2 is for running through the design, switch pivot 103 is located the inside intermediate position of restriction mounting bracket 2, the front end intermediate position fixedly connected with locking adjustment frame 201 of restriction mounting bracket 2, three spout has been seted up to the front end global position of locking adjustment frame 201, and the interval range of every adjacent two spouts of locking adjustment frame 201 is the same, sliding connection has a locking claw 204 in the three spout of locking adjustment frame 201 respectively, the interval of every adjacent two locking claws 204 is the same, the inboard position of three locking claw 204 all laminates switch pivot 103, combine the shape design of switch controller 1 front end recess, when restriction mounting bracket 2 installs, avoid restriction mounting bracket 2 to appear the condition, restriction mounting bracket 2's whole can's unable effect of playing spacing to switch pivot 103.

Wherein, the rear end position of three locking claw 204 all is provided with the arc wall, and the perforation has been seted up to the intermediate position of locking alignment jig 201, and in the perforation of locking alignment jig 201 was passed to switch pivot 103, when switch pivot 103 rotated, the condition that restriction mounting bracket 2 integral part can not cause it to interfere took place.

The outer side position of the middle front end of the limiting installation frame 2 is rotationally connected with a rotary adjusting ring 202, the front end position of the rotary adjusting ring 202 is in a spiral design, the front end position of the rotary adjusting ring 202 is rotationally connected with the inner rear end position of the locking adjusting frame 201, the front end spiral position of the rotary adjusting ring 202 is respectively meshed with the rear end arc-shaped groove positions of the three locking claws 204, the upper position of the middle front end of the locking adjusting frame 201 is rotationally connected with a positioning bolt 203, and the rear end position of the positioning bolt 203 is attached to the upper position of the middle front end of the rotary adjusting ring 202.

Wherein, the rear end position of switch controller 1 is provided with switch butt joint socket 101, the inside front end upper position rotation of switch controller 1 is connected with connection formula stop cock 102, the bottom of connection formula stop cock 102 is located the interior top intermediate position of switch controller 1 hexagon recess, and the bottom position of connection formula stop cock 102 is laminated mutually with restriction mounting bracket 2 top intermediate position, switch pivot 103 front end position is provided with the hexagon lug, the hexagon lug of switch pivot 103 front end is pegged graft mutually with switch screw cap 104 rear end position, switch screw cap 104 is located locking alignment jig 201's place ahead position.

When in use, the utility model is characterized in that: firstly, the device is assembled, then the switch controller 1 is installed on a power distribution facility, the switch butt joint socket 101 is connected with the power distribution facility, the desired control capability is provided for the switch controller 1, the switch screw cap 104 is rotated to drive the switch rotating shaft 103 to rotate in position, and the opening and closing steps of the switch controller 1 are completed.

When the switch rotating shaft 103 needs to be limited to rotate, the rotary adjusting ring 202 is rotated at the outer side position of the front end of the limiting installation frame 2, the front end spiral position of the rotary adjusting ring 202 is in meshed transmission with the rear end arc-shaped groove positions of the three locking claws 204, the rear end arc-shaped grooves of the three locking claws 204 move synchronously, when the three locking claws 204 approach, the three locking claws 204 are respectively attached to the switch rotating shaft 103 to clamp the switch rotating shaft 103, rotation of the switch rotating shaft 103 is limited, and further the situation that the switch screwing cover 104 is stressed to be in error contact with drive the switch rotating shaft 103 to rotate is avoided.

When the positioning bolt 203 is rotated, the rear end position of the positioning bolt 203 is attached to the position above the front end of the rotation adjusting ring 202, and at this time, the rotation adjusting ring 202 cannot be rotated by the interference fit of the positioning bolt 203, so that the limitation processing is performed on the rotation adjusting ring 202.

Embodiment two:

Based on the first embodiment, when the connection type limit bolt 102 is rotated, the bottom position of the connection type limit bolt 102 is not attached to the top position of the limit mounting frame 2, the switch screw cover 104 is detached from the front end position of the switch rotating shaft 103, the whole of the limit mounting frame 2 can be detached from the hexagonal groove at the front end of the switch controller 1, the disassembly and assembly effect of the limit mounting frame 2 can be achieved through the steps, the power distribution switch without the locking function is additionally installed and used, the cost is reduced, and the power distribution switch without the locking energy supply is ensured to be used.

Claims (6)

1. A power distribution switch with a locking function, which comprises a switch controller (1); the hexagonal groove is set up in front end intermediate position of switch controller (1), and the hexagonal groove intermediate position rotation of switch controller (1) is connected with switch pivot (103), peg graft in the hexagonal groove of switch controller (1) have restriction mounting bracket (2) of hexagonal design, its characterized in that: the front end position of restriction mounting bracket (2) is the cylinder design, and the intermediate position of restriction mounting bracket (2) is for running through the design, switch pivot (103) are located the inside intermediate position of restriction mounting bracket (2), the front end intermediate position fixedly connected with locking alignment jig (201) of restriction mounting bracket (2), three spout has been seted up to the front end global position of locking alignment jig (201), and the interval range of every adjacent two spouts of locking alignment jig (201) is the same, sliding connection has a locking claw (204) in the three spouts of locking alignment jig (201) respectively, the interval of every adjacent two locking claws (204) is the same, the outside position of switch pivot (103) is all laminated to the inboard position of three locking claw (204).

2. The power distribution switch with locking function as claimed in claim 1, wherein: the rear end positions of the three locking claws (204) are respectively provided with an arc-shaped groove, a through hole is formed in the middle position of the locking adjusting frame (201), and the switch rotating shaft (103) penetrates through the through holes of the locking adjusting frame (201).

3. The power distribution switch with locking function as claimed in claim 1, wherein: the outer side position rotation of the middle front end of restriction mounting bracket (2) is connected with rotatory adjusting ring (202), and the front end position of rotatory adjusting ring (202) is spiral design, and rotatory adjusting ring (202) front end position rotation is connected in the inside rear end position of locking alignment jig (201), and the front end spiral position of rotatory adjusting ring (202) meshes with the rear end arc groove position of three locking claw (204) respectively.

4. The power distribution switch with locking function as claimed in claim 1, wherein: the upper position in the middle of the front end of the locking adjusting frame (201) is rotationally connected with a positioning bolt (203), and the rear end position of the positioning bolt (203) is attached to the upper position in the middle of the front end of the rotating adjusting ring (202).

5. The power distribution switch with locking function as claimed in claim 1, wherein: the rear end position of switch controller (1) is provided with switch butt joint socket (101), and the inside front end upper position rotation of switch controller (1) is connected with connection formula stop cock (102), and the bottom of connection formula stop cock (102) is located the upper middle position in switch controller (1) hexagon recess, and the bottom position of connection formula stop cock (102) is laminated mutually with restriction mounting bracket (2) top intermediate position.

6. The power distribution switch with locking function as claimed in claim 1, wherein: the front end position of the switch rotating shaft (103) is provided with a hexagonal lug, the hexagonal lug at the front end of the switch rotating shaft (103) is spliced with the rear end position of the switch screwing cap (104), and the switch screwing cap (104) is positioned right in front of the locking adjusting frame (201).