CN116780219A - Wire connector suitable for distribution installation - Google Patents

Abstract

The invention discloses a connector suitable for power distribution installation, and relates to the technical field of connectors. The wire connector comprises a wire connector main body, wherein two group of wire grooves and conductive switching cavities positioned between the two group of wire grooves are symmetrically arranged in the wire connector main body, and the number of each group of wire grooves is at least three; binding post, binding post set up in the inside of wiring groove, binding post includes adjusting bolt, cover and locates the drive sleeve on the adjusting bolt, activity set up in the ring gear one on drive sleeve top. Compared with the mode of clamping the electric wire on the market, the electric wire clamping device has the advantages that the wire stripping knife and the wire cutting ring are used for cutting into the electric wire, the contact area between the wire stripping knife and the electric wire can be effectively guaranteed, the electric conductivity stability of the electric wire is guaranteed, the electric copper sheet and the electric copper ring are respectively embedded into the wire stripping knife and the wire cutting ring to increase the electric conductivity, the first toothed ring and the second toothed ring are arranged, the wire stripping knife and the wire cutting ring can be driven by rotating the adjusting bolt, and the electric wire clamping device is more convenient to use.

Description

Wire connector suitable for distribution installation

Technical Field

The invention relates to the technical field of connectors, in particular to a connector suitable for power distribution installation.

Background

The connector is also called a wiring terminal, and the wiring terminal is used for facilitating wiring. It is actually a piece of copper sheet sewn into the insulating layer plastic. Often, holes are provided on both sides to allow insertion of wires, and screws are provided to allow tightening or loosening of, for example, two wires. Sometimes a connection is required and sometimes a disconnection is necessary. At this time, the two can be connected by the terminal and disconnected at will, and welding or coiling is not needed, so that time and labor are saved. And is suitable for multi-wire interconnects. In the construction industry, there are professional terminals, terminal blocks, overhead, single-sided, two-layer, galvanic terminals. A certain riveting pressure is generally required. This area is to ensure a reliable touch and to ensure that sufficient current flows.

The existing wire connector in the market is usually clamped by screws or clamping pieces, wires are required to be stripped before operation, the clamping conductive mode is adopted, in some shaking environments, such as on-vehicle and on-equipment use, vibration is certainly transmitted to the wire connector, the wires are easy to loose and fall off in the clamping mode, the screws and the wires cannot be effectively contacted due to slight loosening, poor-contact faults occur, most and most common power distribution faults seriously affect the equipment using efficiency of the wire connector, the wiring mode of the conventional wire connector is single, when multi-wire and multi-wire wiring is used, the wire connectors with different specifications are required, a plurality of wire connectors with different specifications are required to be carried along with sound when electric power workers overhaul, and the wire connector is relatively troublesome to find during use, so that the installation efficiency is seriously affected.

Disclosure of Invention

In order to achieve the above purpose, the present invention provides the following technical solutions: a connector adapted for power distribution installation, comprising:

the wire connector comprises a wire connector main body, wherein two groups of wire connecting grooves and conductive switching cavities positioned between the two groups of wire connecting grooves are symmetrically formed in the wire connector main body, and the number of each group of wire connecting grooves is at least three;

the wiring terminal comprises an adjusting bolt, a driving sleeve sleeved on the adjusting bolt, a toothed ring I movably arranged at the top end of the driving sleeve, a clamping piece arranged at the bottom end of the driving sleeve, a transmission sleeve positioned at one side of the toothed ring I and fixedly connected with the driving sleeve, and transmission shafts arranged in the transmission sleeve and in transmission connection with the toothed ring I, wherein wire stripping cutters used for penetrating into the inner part of the wire are arranged on two sides of the inner wall of the clamping piece, tangential rings used for cutting into the inner part of the wire are arranged on the transmission shafts, one end of each transmission shaft is connected with a conductive support through a conductive column, one side of each conductive support is provided with an arc-shaped conductive part positioned in a conductive switching cavity, and a push rod is movably arranged in each conductive support;

the conductive switching pin is movably arranged in the conductive switching cavity, a first conductive sheet, a second conductive sheet and a third conductive sheet are sequentially and fixedly arranged in the conductive switching pin, two ends of the first conductive sheet, the second conductive sheet and the third conductive sheet extend to the surface of the conductive switching pin, two groups of arc-shaped conductive parts opposite to the first conductive sheet in the wiring grooves are contacted with the first conductive sheet, the conductive connection of wiring terminals opposite to the first conductive sheet in the two groups of wiring grooves is realized, the conductive switching pin is rotated, the first conductive sheet and the arc-shaped conductive parts are staggered, the second conductive sheet or the third conductive sheet is contacted with the arc-shaped conductive parts, and the conductive connection of wiring terminals opposite to the second conductive sheet or the third conductive sheet in the two groups of wiring grooves is realized;

The first conducting strip is arranged in an L shape, the second conducting strip is arranged in a big H shape, and the third conducting strip is arranged in a small H shape.

As a preferable technical scheme of the invention, one side of the inner wall of the wiring groove is provided with a stabilizing groove and a mounting groove positioned at one side of the stabilizing groove, the top end and the bottom end of the conductive bracket are fixedly connected with the top and the bottom of the inner wall of the mounting groove, one side of the inner wall of the conductive bracket is provided with an arc transition part, the push rods are provided with inclined blocks positioned at one side of the arc transition part, the wiring terminals in each group of wiring grooves share one push rod, and the number of the inclined blocks on the push rods is consistent with that of the wiring terminals in each group;

pushing the push rod to drive the inclined block to abut against the arc-shaped transition part, and enabling the arc-shaped transition part to deform under pressure to drive the arc-shaped conductive part to withdraw from the conductive switching cavity and separate from contact with the first conductive sheet.

As a preferable technical scheme of the invention, a control groove is formed in the conductive switching cavity, one end of the push rod extends to the inside of the control groove, a spring is arranged at the other end of the push rod, and one side of the inner wall of the control groove is provided with at least one positioning groove;

The device comprises a control groove, a push rod, a driving ring, a positioning column, a spring, a limiting ring, a push rod, a positioning column and a pressing plate, wherein the driving groove is formed in one end of the conductive switching pin, the pressing plate is arranged in the driving groove through the spring, the surface of the conductive switching pin is fixedly provided with the limiting ring sleeved with the control groove, the driving ring is movably embedded in the limiting ring, one end of the push rod, which is positioned in the control groove, extends to the inside of the limiting ring and is in contact with the driving ring, one side, which is far away from the push rod, of the driving ring is fixedly provided with the positioning column, one end of the positioning column penetrates through the outside of the limiting ring and extends to the inside of one positioning groove, and two ends of the pressing plate extend to the inside of the limiting ring and are fixedly connected with the inner wall of the driving ring;

through the push plate is pressed to the drive groove, the push plate compresses the spring and promotes the drive ring, the drive ring moves the inside that the reference column breaks away from the constant head tank, simultaneously the drive ring promotes the push rod, realizes to the unblock of electrically conductive switching pin, realizes simultaneously that to two sets of the inside binding post's of wiring groove circuit disconnection, rotates electrically conductive switching pin switches conducting strip one, conducting strip two, conducting strip three, loosens after the switching is accomplished the push plate, drive ring, push rod, arc transition portion, arc conducting portion automatic re-setting realize to two sets of the inside binding post's of wiring groove circuit intercommunication.

As a preferable technical scheme of the invention, a first stop block is fixedly arranged on one side of the inner wall of the control groove, a second stop block positioned on two sides of one side of the stop block is arranged on one side of the limiting ring, so that the rotation range of the conductive switching pin is limited between the two second stop blocks, a plurality of positioning grooves are positioned between the two second stop blocks, and one end of each positioning column and the inside of each positioning groove are in a matched conical shape.

As a preferable technical scheme of the invention, one end of the conductive switching pin is provided with a wiring switching mark, and the wiring switching mark comprises a mark I corresponding to the first conductive sheet, a mark II corresponding to the second conductive sheet and a mark III corresponding to the third conductive sheet.

As a preferable technical scheme of the invention, one end of the L-shaped conducting strip I corresponds to two wiring terminals, the other end corresponds to one wiring terminal, the two ends of the large H-shaped conducting strip II correspond to three wiring terminals, and the two ends of the small H-shaped conducting strip II correspond to one wiring terminal.

As a preferable technical scheme of the invention, the conductive column is fixedly arranged in the stabilizing sleeve, one end of the stabilizing sleeve extends to the inside of the stabilizing groove and is provided with the stabilizing block, one end of the conductive column is provided with the slip ring positioned in the stabilizing sleeve through the spring, the other end of the conductive column is provided with at least one flexible conductive wire, one end of the flexible conductive wire, which is far away from the conductive column, is fixedly connected with the end part of the conductive bracket, and one end of the transmission shaft extends to the inside of the stabilizing sleeve and is in contact with the slip ring.

As a preferable technical scheme of the invention, one end of the transmission shaft far away from the stabilizing sleeve is fixedly provided with a toothed ring II which is in transmission connection with the toothed ring I, the number of teeth of the toothed ring II is less than that of teeth of the toothed ring I, conductive copper sheets are embedded in the wire stripping knife, the number of the wire stripping knife is not less than one, the number of the wire cutting rings is not less than one, conductive copper rings are fixedly embedded in the wire cutting rings, the top of the toothed ring I is fixedly provided with a transmission rod, and the top end of the transmission rod is movably sleeved in a nut of the adjusting bolt.

As a preferable technical scheme of the invention, the top of the wiring groove is fixedly provided with a limit table, the inside of the limit table is fixedly provided with a limit plate, a nut of the adjusting bolt is movably sleeved with the inside of the limit table, the surface of the nut is provided with a limit groove, the limit plate is movably sleeved with the limit groove, the opening part of the limit groove extending to one side of the main body of the wiring device is fixedly provided with a sealing gasket, the inside of the sealing gasket is provided with a through hole, both sides of the inner wall of the wiring groove are also provided with sliding grooves, and both sides of the clamping piece are provided with limiting blocks sleeved with the two sliding grooves.

As a preferable technical scheme of the invention, the connector also comprises a clamping seat rotatably arranged at the bottom of the connector main body and two screw holes formed in the bottom of the connector main body, a clamping groove is formed in the clamping seat, and two sides of the inner wall of the clamping groove are concave and are provided with elastic sheets in concave positions.

Compared with the prior art, the invention provides a connector suitable for power distribution installation, which has the following beneficial effects:

1. this be applicable to connector of distribution installation, compare in the mode of adopting clamp wire on the market, this product cuts into the inside of electric wire through wire stripping sword and tangent line ring, a plurality of wire stripping rings can effectively guarantee the area of contact with the electric wire with wire, guaranteed the conductive stability of electric wire, the inside of wire stripping sword and tangent line ring still imbeds conductive copper sheet and conductive copper ring respectively and increases conductive effect simultaneously, setting of toothed ring one and toothed ring two rotates adjusting bolt and can accomplish the drive of wire stripping sword and tangent line ring simultaneously, it is more convenient to use.

2. This connector suitable for distribution installation can switch the use between conducting strip one, conducting strip two and conducting strip three through rotating conductive switching pin, can satisfy different wiring demands, and when rotating conductive switching pin, the circuit between its both sides binding post breaks off contactless automatically, uses safelyr, switches over the back, automatic switch-on circuit, has further guaranteed the usability of this product.

Drawings

Fig. 1 is a schematic structural diagram of a connector suitable for power distribution installation according to the present invention;

fig. 2 is a schematic diagram of a wiring slot structure of a wiring device suitable for power distribution installation according to the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2;

fig. 4 is a schematic view of a connection terminal structure of a connector suitable for power distribution installation according to the present invention;

fig. 5 is a schematic diagram of a card holder structure of a connector suitable for power distribution installation according to the present invention;

fig. 6 is a schematic diagram of a conductive switching cavity structure of a connector suitable for power distribution installation according to the present invention

Fig. 7 is a schematic view of a side structure of an inner wall of a control slot of a wire connector suitable for power distribution installation;

fig. 8 is a schematic diagram of another side structure of the inner wall of a control slot of a wire connector suitable for power distribution installation;

fig. 9 is a schematic diagram of a conductive switching pin structure of a connector suitable for power distribution installation according to the present invention;

fig. 10 is a rear view of a conductive switching pin structure of a wire connector adapted for power distribution installation in accordance with the present invention;

fig. 11 is a schematic diagram of a conductive sheet of a connector suitable for power distribution installation according to the present invention;

Fig. 12 is a schematic diagram of a second conductive sheet of a connector suitable for power distribution installation according to the present invention;

fig. 13 is a schematic view of a three-structure conductive sheet of a connector suitable for power distribution installation according to the present invention;

FIG. 14 is a cross-sectional view of a wiring trough structure of a connector adapted for electrical distribution installation in accordance with the present invention;

FIG. 15 is a cross-sectional view of a wiring trough structure of a connector adapted for electrical distribution installation in accordance with the present invention;

fig. 16 is a schematic diagram of a wiring identifier structure of a wiring device suitable for power distribution installation according to the present invention;

fig. 17 is a schematic diagram of a conductive strip-to-wire switching of a wire connector suitable for power distribution installation according to the present invention;

fig. 18 is a schematic diagram of a two-wire switching of a conductive strip of a wire connector suitable for power distribution installation according to the present invention;

fig. 19 is a schematic diagram of three-wire switching of a conductive sheet of a wire connector suitable for power distribution installation according to the present invention;

fig. 20 is a schematic view showing a screw hole structure of a connector suitable for power distribution installation according to the present invention.

In the figure: 1. a wire connector body; 11. wiring grooves; 12. a limiting table; 13. a limiting plate; 14. a sealing gasket; 15. sealing grooves; 16. a cover plate; 17. a stabilizing groove; 18. a mounting groove; 19. a conductive switching cavity; 191. a control groove; 192. a positioning groove; 193. a first stop block; 2. a connection terminal; 21. an adjusting bolt; 211. a limit groove; 22. a drive sleeve; 221. a first toothed ring; 222. a clamping member; 223. a wire stripping knife; 224. a conductive copper sheet; 225. a limiting block; 23. a transmission sleeve; 24. a transmission shaft; 241. a second toothed ring; 242. a wire cutting ring; 243. a conductive copper ring; 25. a stabilizing sleeve; 251. a stabilizing block; 26. a conductive post; 261. a slip ring; 262. a flexible conductive wire; 27. a conductive support; 271. an arc-shaped conductive part; 272. an arc-shaped transition portion; 28. a push rod; 281. a sloping block; 3. a conductive switching pin; 31. a first conductive sheet; 32. a second conductive sheet; 33. a third conductive sheet; 34. a wiring switching identifier; 341. identifying one; 342. identification II; 343. identification III; 35. a driving groove; 351. a pressing plate; 36. a limiting ring; 361. a drive ring; 362. positioning columns; 363. a second stop block; 4. a clamping seat; 41. a clamping groove; 42. a spring plate; 43. screw holes.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-20, a connector suitable for power distribution installation includes a connector body 1, two sets of wire slots 11 and a conductive switching cavity 19 between the two sets of wire slots 11 are symmetrically arranged in the connector body 1, and the number of each set of wire slots 11 is at least three.

The wiring terminal 2, wiring terminal 2 sets up in the inside of wiring groove 11, wiring terminal 2 includes adjusting bolt 21, the cover is located the drive sleeve 22 on the adjusting bolt 21, the activity sets up in the first 221 of ring gear on drive sleeve 22 top, set up in the holder 222 of drive sleeve 22 bottom, be located first 221 one side of ring gear and with drive sleeve 22 fixed connection's transmission cover 23, set up in the transmission cover 23 inside and with the transmission shaft 24 that ring gear one 221 transmission is connected, all be provided with on the both sides of holder 222 inner wall and be used for penetrating the inside wire stripping sword 223 of electric wire, be provided with on the transmission shaft 24 and be used for cutting into the inside tangent ring 242 of electric wire, the one end of transmission shaft 24 is connected with electrically conductive support 27 through electrically conductive post 26, one side of electrically conductive support 27 is provided with the arc conductive portion 271 that is located electrically conductive switching chamber 19 inside, the inside activity of electrically conductive support 27 is provided with push rod 28.

The conductive switching pin 3, the conductive switching pin 3 activity sets up in the inside of conductive switching cavity 19, the inside of conductive switching pin 3 is fixed in proper order and is provided with conducting strip 31, conducting strip two 32 and conducting strip three 33, the both ends of conducting strip 31, conducting strip two 32 and conducting strip three 33 all extend to the surface of conductive switching pin 3, two sets of the arc conductive part 271 that the inside of wiring groove 11 is opposite with conducting strip 31 contacts with conducting strip 31, realizes two sets of the conductive connection of terminal 2 that is opposite with conducting strip 31 in the wiring groove 11, rotates conductive switching pin 3 makes conducting strip 31 stagger with arc conductive part 271 and make conducting strip two 32 or conducting strip three 33 contact with arc conductive part 271, realizes two sets of the conductive connection of terminal 2 that is opposite with conducting strip two 32 or conducting strip three 33 in the wiring groove 11, the inside of wiring device main part 1 has seted up the seal groove 15 that is located two sets of wiring groove 11 top, the inside of wiring device main part 1 still articulates has the wire groove 16 that is located two sets of joint groove 16 that are located two sets of apron 16, the apron is set up with the apron 15.

The first conductive sheet 31 is L-shaped, the second conductive sheet 32 is large H-shaped, the third conductive sheet 33 is small H-shaped, one end of the first conductive switching pin 3 is provided with a wire switching mark 34, the wire switching mark 34 includes a mark one 341 corresponding to the first conductive sheet 31, a mark two 342 corresponding to the second conductive sheet 32 and a mark three 343 corresponding to the third conductive sheet 33, referring to fig. 11, one end of the first conductive sheet 31 corresponds to two wire connecting terminals 2 and the other end corresponds to one wire connecting terminal 2, the specific wire connection mode can refer to fig. 17, when the number of the wire connecting grooves 11 is two groups and the number of each wire connecting groove 11 is six, the two conductive switching pins 3 respectively control the conductive connection of the three wire connecting terminals 2 at two sides, when the wire switching is switched to the first conductive sheet 31 wire connection mode, the mark one 341 is two round grooves opposite to one round groove, the corresponding meaning that one side of the conductive switching pin 3 is provided with two wire connecting grooves 11 from outside to inside to the other side, the other side is provided with three wire connecting grooves 11 from outside to inside, and the two wire connecting grooves 11 are connected to each other, so that the two wire connecting pins 11 are connected to each other, and the two wire connecting grooves 11 are connected to each other, and the two connecting pins are connected to each other, and the wire connecting pins 1; referring to fig. 12, two ends of the large H-shaped second conductive sheet 32 correspond to three connection terminals 2, and referring to fig. 18, when the second conductive sheet 32 is switched to use, three connection grooves 11 on two sides of the conductive switching pin 3 are mutually communicated, so that the connector main body 1 can be connected by a single-path multi-wire; referring to fig. 13, two ends of the second conductive sheet 32 of the small H-shape correspond to one connection terminal 2, the specific connection mode may refer to fig. 19, when the switch is switched to the third conductive sheet 33 for use, the three wire grooves 11 on two sides of the conductive switch pin 3 correspond to each other one by one, so that the connector main body 1 may be used by six paths of single wires, when two wires are inserted into the one wire groove 11, the two wires may be used by six paths of multiple wires, when two wires are inserted, the wires need to be peeled in advance, the conductive contact effect between the two wires is ensured, and the product has a plurality of circuit connection modes.

As a specific technical scheme of this embodiment, the mounting groove 18 that stabilizes groove 17 and be located stable groove 17 one side has been seted up to one side of wiring groove 11 inner wall, the top and the bottom of electrically conductive support 27 all with the top and the bottom fixed connection of mounting groove 18 inner wall, be provided with arc transition portion 272 on one side of electrically conductive support 27 inner wall, be provided with the sloping block 281 that is located arc transition portion 272 one side on the push rod 28, every group wiring terminal 2 inside wiring groove 11 shares a push rod 28, the sloping block 281 quantity on the push rod 28 is unanimous with the binding terminal 2 quantity in every group.

Pushing push rod 28 drives sloping block 281 and contradicts arc transition portion 272, arc transition portion 272 pressurized deformation drives arc conductive portion 271 and withdraws from the inside of electrically conductive switching chamber 19 and break away from the contact with conducting strip one 31, the setting of arc transition portion 272, make sloping block 281 and its more smooth of contradicting, reduce wearing and tearing and the condition of blocking appear, every push rod 28 corresponds a conductive switching pin 3 and uses, when the quantity of every group wire casing 11 is six, see fig. 2 and fig. 3, then every three wire casing 11 corresponds a push rod 28, need two push rods 28, promote push rod 28 can drive three electrically conductive support 27 of its one side simultaneously, make three arc conductive portion 271 break away from with conducting strip one 31 or conducting strip two 32, the contact of conducting strip three 33, when making to rotate conductive switching pin 3, this kind of design mode, only need keep away from the one end adjustment of terminal 2 with the electric wire, just can realize switching pin 3 through rotating conductive switching wire 3, compared with the conventional wire terminal 2 has just been realized, the shape is more difficult to the spanner has been guaranteed to the improvement in the shape of the terminal, the spanner has been used for the L has been reduced the condition that the end has been used to the more difficult to the key, the spanner has been guaranteed to the improvement in the shape of the L-shaped space, can be more convenient for the spanner has been used for the end to the spanner, can be reduced more convenient for the end to the spanner has been used for the end to the L.

As a specific technical scheme of this embodiment, the inside of the conductive switching cavity 19 is provided with a control slot 191, one end of the push rod 28 extends to the inside of the control slot 191, the other end is provided with a spring, one side of the inner wall of the control slot 191 is provided with a number of positioning slots 192 not less than one, when the push rod 28 is pushed by the driving ring 361, the push rod 28 compresses the spring, and when the push rod 28 loses thrust, the spring rebounds to push rod 28 to reset, so that the push rod 28 drives the inclined block 281 to separate from the collision to the arc transition portion 272, thereby the arc transition portion 272 drives the conductive bracket 27 to reset, and meanwhile, the conductive bracket 27 drives the arc conductive portion 271 to reset to reenter the inside of the conductive switching cavity 19.

The driving groove 35 is provided at one end of the conductive switching pin 3, the pressing plate 351 is provided in the driving groove 35 by a spring, the limiting ring 36 sleeved with the control groove 191 is fixedly provided on the surface of the conductive switching pin 3, the driving ring 361 is movably embedded in the limiting ring 36, one end of the push rod 28 positioned in the control groove 191 extends to the inside of the limiting ring 36 and is in contact with the driving ring 361, one side of the driving ring 361 away from the push rod 28 is fixedly provided with a positioning column 362 with one end penetrating to the outside of the limiting ring 36 and extending to the inside of one of the positioning grooves 192, two ends of the pressing plate 351 extend to the inside of the limiting ring 36 and are fixedly connected with the inner wall of the driving ring 361, referring to fig. 8, the number of the positioning grooves 192 in the embodiment is three, corresponding to the mark one 341, the mark two 342 and the mark three 343 respectively, with continued reference to fig. 8 and 9, when the conductive sheet 31 is switched to be used, the positioning groove 192 corresponding to the third mark 343 is inserted into the positioning column 362, and the first stop 193 is close to the second stop 363 at one side of the first stop and limited by the second stop, so that the conductive switching pin 3 cannot rotate clockwise and can only rotate anticlockwise to be switched to the second conductive sheet 32 or the third conductive sheet 33 for use.

The pressing plate 351 is pressed by the driving groove 35, the pressing plate 351 compresses a spring and pushes the driving ring 361, the driving ring 361 drives the positioning column 362 to be separated from the inside of the positioning groove 192, meanwhile, the driving ring 361 pushes the push rod 28 to unlock the conductive switching pin 3, meanwhile, the circuit disconnection of the connecting terminals 2 inside the two groups of wiring grooves 11 is realized, the conductive switching pin 3 is rotated to switch the first 31, the second 32 and the third 33 conductive sheets, the pressing plate 351 is released after the switching is finished, the driving ring 361, the push rod 28, the arc transition part 272 and the arc conductive part 271 are automatically reset to realize the circuit connection of the connecting terminals 2 inside the two groups of wiring grooves 11, referring to fig. 2 and 3, in this embodiment, when the number of the wiring slots 11 in each group is three, the number of the conductive switching cavities 19 is one, and when the number of the wiring slots 11 in each group is six, the number of the conductive switching cavities 19 is two, two conductive switching pins 3 are symmetrically arranged, each conductive switching pin 3 controls three wiring terminals 2 on two sides thereof, and when the conductive switching pin is specifically applied, the length of the conductive switching pin 3 and the sizes of the first conductive sheet 31, the second conductive sheet 32 and the third conductive sheet 33 are increased, and a single conductive switching pin 3 can correspond to more than three wiring terminals 2, so as to meet the user requirement.

As a specific technical solution of this embodiment, a first stop block 193 is fixedly disposed on one side of the inner wall of the control slot 191, a second stop block 363 disposed on two sides of the first stop block 193 is disposed on one side of the stop collar 36, so that the rotation range of the conductive switching pin 3 is limited between the two second stop blocks 363, a plurality of positioning slots 192 are disposed between the two second stop blocks 363, one end of the positioning column 362 and the inside of the positioning slot 192 are in a matched conical shape, and referring to fig. 9, the positioning column 362 is in a conical shape, and when the positioning column 362 and the positioning slot 192 are slightly offset, the positioning column 362 disposed in a conical shape automatically aligns the position after entering the inside of the positioning slot 192, thereby realizing accurate positioning operation and ensuring the contact areas of the first conductive sheet 31, the second conductive sheet 32, the third conductive sheet 33 and the arc conductive portion 271.

As a specific technical scheme of this embodiment, the conductive post 26 is fixedly disposed in the stabilizing sleeve 25, one end of the stabilizing sleeve 25 extends to the inside of the stabilizing slot 17 and is provided with the stabilizing block 251, one end of the conductive post 26 is provided with the slip ring 261 located in the stabilizing sleeve 25 through the conductive spring, the other end is provided with the flexible conductive wires 262 with the number not less than one, one end of the flexible conductive wires 262 far away from the conductive post 26 is fixedly connected with the end of the conductive bracket 27, one end of the transmission shaft 24 extends to the inside of the stabilizing sleeve 25 and contacts with the slip ring 261, the setting of the stabilizing block 251 is performed along with the up-down movement of the stabilizing sleeve 25 and slides in the inside of the stabilizing slot 17, the stability of one end of the transmission shaft 24 is ensured, the transmission shaft 24 drives the cutting wire ring 242 to rotate more stably, meanwhile, the slip ring 261 always contacts with the transmission shaft 24 through the rebound of the conductive spring, the conductive stability of the product is ensured, the setting of the flexible conductive wires 262 can be folded and deformed along with the up-down movement of the stabilizing block 251, the conductive stability of the conductive post 26 and the conductive bracket 27 is ensured, the conductive switching pin 3, the push rod 28, the stabilizing sleeve 25, and the stabilizing block 25 are all insulated and the insulator are all adjusted.

As a specific technical solution of this embodiment, one end of the transmission shaft 24 away from the stabilizing sleeve 25 is fixedly provided with a toothed ring two 241 in transmission connection with the toothed ring one 221, the number of teeth of the toothed ring two 241 is smaller than that of teeth of the toothed ring one 221, the inside of the wire stripping knife 223 is embedded with a conductive copper sheet 224, the number of the wire stripping knives 223 is not smaller than one, the number of the wire cutting rings 242 is not smaller than one, the inside of the wire cutting ring 242 is fixedly embedded with a conductive copper ring 243, the top of the toothed ring one 221 is fixedly provided with a transmission rod with a number not smaller than one, referring to fig. 3 and 4, the top of the transmission rod is movably sleeved in the nut of the adjusting bolt 21, the top of the wire connecting groove 11 is fixedly provided with a limiting table 12, the inside of the limiting table 12 is fixedly provided with a limiting plate 13, the nut of the adjusting bolt 21 is movably sleeved in the inside of the limiting table 12 and the surface of the nut is provided with a limiting groove 211, the limiting plate 13 is movably sleeved with the limiting groove 211, the opening part of the limiting groove 211 extending to one side of the connector main body 1 is fixedly provided with a sealing gasket 14, the inside of the sealing gasket 14 is provided with a through hole, when an electric wire penetrates into the inside of the wiring groove 11, the sealing gasket 14 is sleeved with the through hole, the tightness of the wiring groove 11 is ensured, dust and water are not easy to enter, both sides of the inner wall of the wiring groove 11 are also provided with sliding grooves, both sides of the clamping piece 222 are provided with limiting blocks 225 sleeved with the two sliding grooves, referring to fig. 1 and 2, the electric wire is inserted into the inside of the wiring groove 11, when the number of the electric wires is one, the wire is not required to be stripped, when the number of the electric wires is two, the electric wires are required to be stripped and placed up and down, the cover plate 16 is opened to rotate the adjusting bolt 21 through a screwdriver, and the adjusting bolt 21 is limited by the limiting plate 13 and cannot move up and down, the electric wire cutting device is capable of rotating only, and the clamping piece 222 is limited by the limit block 225 matched with the sliding groove and can not rotate, and can only move up and down, so that the driving sleeve 22 is extruded to descend on the surface of the electric wire cutting device when the adjusting bolt 21 rotates, the adjusting bolt 21 is reversed to drive the driving sleeve 22 to ascend, the first toothed ring 221 is in transmission connection with the driving sleeve 22 through a bearing, the adjusting bolt 21 rotates and simultaneously drives the transmission rod and the first toothed ring 221 to rotate, the transmission rod is driven to descend in the nut by the transmission rod when the driving sleeve 22 descends, the edge rotating edge of the first toothed ring 221 moves up and down along with the driving sleeve 22, the driving sleeve 22 descends, the clamping piece 222 descends, the U-shaped groove is formed in the inside of the clamping piece 222, the bottom opening of the U-shaped groove gradually becomes larger, the wire stripping knife 223 and the cutting ring 242 on the inner wall of the U-shaped groove penetrate into the inner side of the electric wire, the copper alloy material with hardness being larger than that of the copper is adopted, the copper sheet 224 and the copper sheet are arranged on the inner wall, the first toothed ring 243 is driven to descend, the first toothed ring 241 is driven to rotate along with the first toothed ring 241, the second toothed ring is driven to rotate along with the driving sleeve 22, the first toothed ring 241 is driven to rotate along with the driving sleeve 2, the second toothed ring is driven to rotate, the first toothed ring is driven to rotate, the second toothed ring is driven to rotate, the wire cutting ring 242 is driven to rotate, and the wire cutting ring is more easily rotates, and the wire cutting ring is driven and stable is driven and the wire ring is driven to rotate, and the wire is driven to rotate, and wire ring is cut down.

As a specific technical scheme of this embodiment, still include the rotation set up in the cassette 4 of connector main part 1 bottom and offer two screw 43 with connector main part 1 bottom, draw-in groove 41 has been seted up to the inside of cassette 4, the both sides of draw-in groove 41 inner wall are concave and interior concave to be provided with shell fragment 42, refer to fig. 5 and 20, can install connector main part 1 on the inside electric track of block terminal through cassette 4, and rotatable cassette 4 can adapt to different track directions, can expose screw 43 after rotating cassette 4, also can fix this product on the object through the bolt.

When in use, wires are inserted into the wiring groove 11 through the sealing gasket 14, referring to fig. 1 and 2, when the number of wires is one, wire stripping is not needed, when the number of wires is two, wire stripping and up-down placement are needed, the opening cover plate 16 rotates the adjusting bolt 21 through a screwdriver, the adjusting bolt 21 cannot move up and down and can only rotate due to the limitation of the limiting plate 13, the clamping piece 222 cannot rotate due to the limitation of the limiting block 225 matched with the sliding groove and can only move up and down, so that the driving sleeve 22 is extruded to descend on the surface of the adjusting bolt 21 when the adjusting bolt 21 rotates, the driving sleeve 22 is driven to ascend by reversing the adjusting bolt 21, the toothed ring one 221 is connected with the driving sleeve 22 in a transmission way through a bearing, the driving rod and the toothed ring one 221 are driven to rotate when the adjusting bolt 21 is driven to descend by the driving rod and the nut of the adjusting bolt 21 in a movable connection way, the first toothed ring 221 drives the transmission rod to descend in the nut to realize the up-down lifting movement of the first toothed ring 221 along with the driving sleeve 22 while rotating, the driving sleeve 22 descends to drive the clamping piece 222 to descend, the clamping piece 222 descends to drive the wire stripping knife 223 on the inner wall of the U-shaped groove to pierce into the two sides of the wire, the first toothed ring 221 rotates and drives the second toothed ring 241 to rotate, the second toothed ring 241 drives the transmission shaft 24 to drive the wire cutting ring 242 to rotate, the number of teeth of the second toothed ring 241 is smaller than that of the first toothed ring 221, the first toothed ring 221 rotates for one circle to drive the second toothed ring 241 to rotate for a plurality of circles, the transmission shaft 24 can easily drive the wire cutting ring 242 to cut into the wire, the plurality of wire cutting rings 242 are arranged to enable the wire part between two adjacent wire cutting rings 242 to be compressed, and the cuts of the plurality of wire cutting rings 242 on the wire can be kept stable even if the wire is pulled, the gap between the conductive switching pin and the tangent ring 242 is avoided, good conductive stability is maintained, the pressing plate 351 is pressed through the driving groove 35, the pressing plate 351 compresses a spring and pushes the driving ring 361, the driving ring 361 drives the positioning column 362 to separate from the inside of the positioning groove 192, meanwhile, the driving ring 361 pushes the push rod 28, the push rod 28 drives the inclined block 281 to abut against the arc-shaped transition part 272, the arc-shaped transition part 272 is pressed and deformed to drive the arc-shaped conductive part 271 to withdraw from the inside of the conductive switching cavity 19 and separate from contact with the first conductive sheet 31, unlocking of the conductive switching pin 3 is realized, simultaneously, circuit disconnection of two groups of connecting terminals 2 inside the wiring groove 11 is realized, the conductive switching pin 3 is rotated to switch the first conductive sheet 31, the second conductive sheet 32 and the third conductive sheet 33, the pressing plate 351 is released after switching is finished, the driving ring 361, the push rod 28, the arc-shaped transition part 272 and the arc-shaped conductive part 271 are automatically reset, the circuit connection of the internal connection terminals 2 of the two groups of connection slots 11 is realized, referring to fig. 11, one end of the L-shaped conductive sheet 31 corresponds to two connection terminals 2, the other end corresponds to one connection terminal 2, the specific connection mode can refer to fig. 17, when the number of the connection slots 11 is two groups and the number of each group of connection slots 11 is six, the two conductive switching pins 3 respectively control the conductive connection of the three connection terminals 2 on two sides, when the connection mode is switched to the connection mode of the conductive sheet 31, reference sign one 341 indicates that the two round slots are opposite to one round slot, correspondingly, that is, one side of the conductive switching pin 3 is communicated with one connection slot 11 from outside to inside, the other side is communicated with one connection slot 11 from outside to inside, the three connection slots 11 forming the L-shaped connection slot are communicated with each other, and the three connection slots 11 left on one side of the conductive switching pin 3 are also communicated with each other, so that the connector body 1 can be connected in four ways with multiple wires; referring to fig. 12, two ends of the large H-shaped second conductive sheet 32 correspond to three connection terminals 2, and referring to fig. 18, when the second conductive sheet 32 is switched to use, three connection grooves 11 on two sides of the conductive switching pin 3 are mutually communicated, so that the connector main body 1 can be connected by a single-path multi-wire; referring to fig. 13, two ends of the second conductive sheet 32 of the small H-shape correspond to one connecting terminal 2, and the specific connection mode may refer to fig. 19, when the switch is switched to the third conductive sheet 33, the three wire grooves 11 on two sides of the conductive switch pin 3 correspond to each other one by one, so that the connector main body 1 may be used with six single wires.

To sum up, this connector suitable for distribution installation, compare in the mode of clamping electric wire that adopts on the market, this product cuts into the inside of electric wire through wire stripping sword 223 and tangent ring 242, a plurality of tangent rings 242 and wire stripping sword 223 can effectively guarantee the area of contact with the electric wire, the conductive stability of electric wire has been guaranteed, the inside of wire stripping sword 223 and tangent ring 242 still imbeds conductive copper sheet 224 and conductive copper ring 243 respectively simultaneously and increases conductive effect, the setting of tooth ring one 221 and tooth ring two 241, rotate adjusting bolt 21 can accomplish the drive of wire stripping sword 223 and tangent ring 242 simultaneously, it is more convenient to use.

This connector suitable for distribution installation through rotating conductive switching pin 3, can switch the use between conducting strip one 31, conducting strip two 32 and conducting strip three 33, can satisfy different wiring demands, and when rotating conductive switching pin 3, the circuit between its both sides binding post 2 is automatic to break off and is contactless, uses safelyr, switches the back, automatic switch-on circuit, has further guaranteed the usability of this product.

It should be noted that in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. A connector adapted for power distribution installation, comprising:

the wire connector comprises a wire connector main body (1), wherein two groups of wire connecting grooves (11) and conductive switching cavities (19) positioned between the two groups of wire connecting grooves (11) are symmetrically formed in the wire connector main body (1), and the number of each group of wire connecting grooves (11) is at least three;

the wiring terminal (2), wiring terminal (2) sets up in the inside of wiring groove (11), wiring terminal (2) include adjusting bolt (21), movable sleeve locate drive sleeve (22) on adjusting bolt (21), set up in first gear ring (221) on drive sleeve (22) top, set up holder (222) in drive sleeve (22) bottom, be located first gear ring (221) one side and with drive sleeve (22) fixed connection's transmission cover (23), set up in transmission sleeve (23) inside and with first gear ring (221) transmission connection's transmission shaft (24), all be provided with on the both sides of holder (222) inner wall be used for penetrating inside wire stripping sword (223), be provided with on transmission shaft (24) be used for cutting into inside tangent ring (242) of electric wire, one end of transmission shaft (24) is connected with electrically conductive support (27) through electrically conductive post (26), one side of electrically conductive support (27) is provided with and is located the inside arc electrically conductive portion (271) of electrically conductive switching chamber (19), the inside activity of electrically conductive support (27) is provided with push rod (28).

The conductive switching pin (3), the conductive switching pin (3) is movably arranged in the conductive switching cavity (19), a first conductive sheet (31), a second conductive sheet (32) and a third conductive sheet (33) are sequentially and fixedly arranged in the conductive switching pin (3), two ends of the first conductive sheet (31), the second conductive sheet (32) and the third conductive sheet (33) extend to the surface of the conductive switching pin (3), arc-shaped conductive parts (271) in the two groups of wiring grooves (11) opposite to the first conductive sheet (31) are in contact with the first conductive sheet (31), conductive connection of wiring terminals (2) in the two groups of wiring grooves (11) opposite to the first conductive sheet (31) is achieved, the conductive switching pin (3) is rotated, the first conductive sheet (31) is staggered with the arc-shaped conductive parts (271), and the second conductive sheet (32) or the third conductive sheet (33) is in contact with the arc-shaped conductive parts (271), so that the wiring terminals (2) opposite to the second conductive sheet (32) or the third conductive sheet (33) in the two groups of wiring grooves (11) are in contact with the first conductive sheet (31);

the first conducting strip (31) is arranged in an L shape, the second conducting strip (32) is arranged in a large H shape, and the third conducting strip (33) is arranged in a small H shape.

2. A connector adapted for power distribution installation as claimed in claim 1, wherein: a stabilizing groove (17) and a mounting groove (18) positioned on one side of the stabilizing groove (17) are formed in one side of the inner wall of the wiring groove (11), the top end and the bottom end of the conductive support (27) are fixedly connected with the top and the bottom of the inner wall of the mounting groove (18), an arc transition part (272) is arranged on one side of the inner wall of the conductive support (27), inclined blocks (281) positioned on one side of the arc transition part (272) are arranged on the push rod (28), one push rod (28) is shared by the wiring terminals (2) in each wiring groove (11), and the number of the inclined blocks (281) on the push rod (28) is consistent with the number of the wiring terminals (2) in each wiring groove;

Pushing the push rod (28) to drive the inclined block (281) to abut against the arc-shaped transition part (272), and the arc-shaped transition part (272) is pressed and deformed to drive the arc-shaped conductive part (271) to withdraw from the conductive switching cavity (19) and separate from contact with the conductive sheet I (31).

3. A connector adapted for power distribution installation as claimed in claim 2, wherein: a control groove (191) is formed in the conductive switching cavity (19), one end of the push rod (28) extends to the inside of the control groove (191), a spring is arranged at the other end of the push rod, and one side of the inner wall of the control groove (191) is provided with at least one positioning groove (192);

the novel electric power switch is characterized in that a driving groove (35) is formed in one end of the electric conduction switch pin (3), a pressing plate (351) is arranged in the driving groove (35) through a spring, a limiting ring (36) sleeved with the control groove (191) is fixedly arranged on the surface of the electric conduction switch pin (3), a driving ring (361) is movably embedded in the limiting ring (36), one end of the push rod (28) positioned in the control groove (191) extends to the inside of the limiting ring (36) and is abutted against the driving ring (361), a positioning column (362) with one end penetrating through the outside of the limiting ring (36) and extending to the inside of one positioning groove (192) is fixedly arranged on one side, far away from the push rod (28), of the driving ring (361), and two ends of the pressing plate (351) extend to the inside of the limiting ring (36) and are fixedly connected with the inner wall of the driving ring (361);

Through push plate (351) is pressed to drive groove (35), clamp plate (351) compression spring promotes drive ring (361), drive ring (361) drives the inside that reference column (362) breaks away from constant head tank (192), simultaneously drive ring (361) promotes push rod (28), realizes to the unblock of electrically conductive switching pin (3), realizes simultaneously to two sets of the circuit disconnection of wiring terminal (2) inside wiring groove (11), rotates electrically conductive switching pin (3) switches conducting strip one (31), conducting strip two (32), conducting strip three (33), loosens after the switching is accomplished clamp plate (351), drive ring (361), push rod (28), arc transition portion (272), arc conductive portion (271) automatic re-setting realize to the circuit intercommunication of two sets of inside wiring terminal (2) of wiring groove (11).

4. A connector adapted for power distribution installation as claimed in claim 3, wherein: a first stop block (193) is fixedly arranged on one side of the inner wall of the control groove (191), second stop blocks (363) which are positioned on two sides of the first stop block (193) are arranged on one side of the limiting ring (36), so that the rotation range of the conductive switching pin (3) is limited between the two second stop blocks (363), a plurality of positioning grooves (192) are respectively positioned between the two second stop blocks (363), and one end of each positioning column (362) and the inside of each positioning groove (192) are respectively in a matched conical shape.

5. A connector adapted for power distribution installation as claimed in claim 1, wherein: one end of the conductive switching pin (3) is provided with a wiring switching mark (34), and the wiring switching mark (34) comprises a mark one (341) corresponding to a conductive sheet one (31), a mark two (342) corresponding to a conductive sheet two (32) and a mark three (343) corresponding to a conductive sheet three (33).

6. A connector adapted for power distribution installation as claimed in claim 1, wherein: one end of the first conductive sheet (31) in the L shape corresponds to two wiring terminals (2), the other end corresponds to one wiring terminal (2), two ends of the second conductive sheet (32) in the large H shape correspond to three wiring terminals (2), and two ends of the second conductive sheet (32) in the small H shape correspond to one wiring terminal (2).

7. A connector adapted for power distribution installation as claimed in claim 1, wherein: the utility model discloses a stable electric power transmission device, including stable cover (25), conductive post (26), spring, transmission shaft (24), flexible conductive wire (262) are fixed to be set up in the inside of stable cover (25), the one end of stable cover (25) extends to the inside of stable groove (17) and is provided with stable piece (251), the one end of conductive post (26) is provided with through the spring and is located inside sliding ring (261) of stable cover (25), and the other end is provided with flexible conductive wire (262) that quantity is not less than one, the one end that conductive post (26) was kept away from to flexible conductive wire (262) and the tip fixed connection of electrically conductive support (27), the one end of transmission shaft (24) extends to the inside of stable cover (25) and contacts with sliding ring (261).

8. A connector adapted for power distribution installation as claimed in claim 1, wherein: the utility model discloses a stable cover of wire stripping, including stable cover (25) and wire stripping sword, transmission shaft (24), fixed being provided with of one end of keeping away from stable cover (25) with toothed ring one (221) transmission is two (241), the number of teeth of toothed ring two (241) is less than the number of teeth of toothed ring one (221), the inside of wire stripping sword (223) is inlayed and is equipped with electrically conductive copper sheet (224), the quantity of wire stripping sword (223) is not less than one, the quantity of wire cutting ring (242) is not less than one, the inside fixed inlay of wire cutting ring (242) is equipped with electrically conductive copper ring (243), the fixed transfer line that is provided with of top of toothed ring one (221) is not less than one, the nut inside of adjusting bolt (21) is located to the top movable sleeve of transfer line.

9. A connector adapted for power distribution installation as claimed in claim 1, wherein: the utility model discloses a wire connector, including wiring groove (11), nut, clamping piece, locating plate (211), through-hole has been seted up to the fixed limit table (12) that is provided with in top of wiring groove (11), the fixed limiting plate (13) that is provided with in inside of limit table (12), the nut movable sleeve of adjusting bolt (21) establish with the inside of limit table (12) and the surface of nut has seted up spacing groove (211), limiting plate (13) and spacing groove (211) activity cup joint, spacing groove (211) extend to the opening part of wiring connector main part (1) one side still fixedly be provided with sealed pad (14) and sealed pad (14) the inside has seted up the through-hole, the spout has still been seted up to the both sides of wiring groove (11) inner wall, both sides of clamping piece (222) all are provided with stopper (225) that cup joint mutually with two spouts.

10. A connector adapted for power distribution installation as claimed in claim 1, wherein: still including rotating cassette (4) that set up in connector main part (1) bottom and offer two screw (43) with connector main part (1) bottom, draw-in groove (41) have been seted up to the inside of cassette (4), the both sides of draw-in groove (41) inner wall are concave shape and concave recess are provided with shell fragment (42).