CN211208789U - Plug, socket and plug and socket assembly for intelligent climbing frame - Google Patents

Abstract

The embodiment of the utility model provides a plug for frame is climbed to intelligence, socket and plug and socket assembly, be provided with the separating groove of 4 at least symmetric distributions on the front end of plug, all be provided with the plug hole between two adjacent separating grooves, the socket includes socket shell and establishes 4 at least preceding baffles in socket shell's front end, install a contact pin between two arbitrary adjacent preceding baffles, but 4 at least preceding baffles one-to-one insert 4 at least separating grooves in, all contact pins on the socket can peg graft with all plug hole one-to-ones on the plug, in order to realize the grafting between plug and the socket. And can separate a plurality of contact pins on the socket and a plurality of plug holes on the plug through setting up preceding baffle and separation groove, alright reduce the mutual interference between a plurality of contact pins and a plurality of plug holes like this, increase creepage distance to just reducible plug and socket volume under the electric current of the same size makes the socket mountable outside master control case or branch accuse case, and realizes the wiring operation from the outside of box.

Description

Plug, socket and plug and socket assembly for intelligent climbing frame

Technical Field

The embodiment of the disclosure relates to the field of plugs and sockets, in particular to a plug for an intelligent climbing frame, a socket for the intelligent climbing frame and a plug and socket assembly.

Background

For the intelligent climbing frame for the building, the electric control box mainly comprises a main control box and a plurality of sub control boxes corresponding to the main control box, and the main control box and the plurality of sub control boxes are connected through cables, plugs and sockets. In the existing climbing frame system, the plugs used by the climbing frame system are large, and the climbing frame system occupies a large space when being placed outside a main control box or a sub-control box. Meanwhile, in the existing scheme, when the plug is connected, the box cover is required to be opened to connect the plug in a mode of connecting a wiring terminal crimping line, so that the existing plug can be plugged only by opening the electric box. Therefore, the plug can be plugged only by finding a professional certified electrician, so that the connection between the main control box and the plurality of sub control boxes is time-consuming and labor-consuming, and the standardization degree is low. Meanwhile, after the electric box is opened, the phenomenon of untight sealing is easy to occur, so that the sealing performance of the main control box and the sub-control box can be reduced.

SUMMERY OF THE UTILITY MODEL

The present invention aims at least solving one of the technical problems existing in the prior art or the related art.

The utility model discloses just based on above-mentioned problem, provide an intelligence plug for climbing frame.

Another object of the utility model is to provide a socket is used to intelligence climbing frame.

Still another object of the utility model is to provide a plug and socket assembly of climbing frame with plug and intelligence including above-mentioned intelligence and climbing frame with socket.

The embodiment of the first aspect of the utility model provides a plug for intelligent climbing frame can the electric cabinet of intelligent climbing frame outside with install the socket of electric cabinet bottom is pegged graft, the plug includes:

the plug connector comprises a mounting seat and a plug inserting column arranged on the mounting seat, wherein a ring of annular blocking ribs are arranged on the surface of the mounting seat far away from the plug inserting column;

the plug comprises a plug inserting end outer cylinder, wherein one end of the plug inserting end outer cylinder can be rotatably sleeved on the mounting seat, the other end of the plug inserting end outer cylinder is sleeved outside the plug inserting column, a first annular groove for inserting a socket shell of the socket is formed by the enclosing of the plug inserting end outer cylinder and the plug inserting column, a first internal thread is arranged on the inner side wall of the plug inserting end outer cylinder, and the front end of the plug inserting column extends out of the front end of the plug inserting end outer cylinder;

one end of the wiring end shell is sleeved on the outer side wall of the annular blocking rib;

wherein, at least 4 separating grooves are symmetrically arranged on the plug plugging column along the circumferential direction, the at least 4 separating grooves all extend from one end surface of the plug plugging column to the other end surface of the plug plugging column, a plug hole is arranged on each plug plugging column and between any two adjacent separation grooves, the plug hole runs through the plug inserting column with the mounting seat, the plug inserting column is kept away from correspond at least 4 on one terminal surface of mounting seat the plug hole one-to-one is provided with 4 at least number sign structures according to the order, each be provided with electrically conductive piece in the plug hole, 4 at least all be provided with the gold-plated layer on the surface of electrically conductive piece, 4 at least one divide to have one in the groove for the dysmorphism groove or 4 at least two adjacent separating groove that sets up in the separating groove are the dysmorphism groove, the plug connector spare is the insulating part.

Further preferably, at least 4 of the separation grooves are connected into a whole at the center of the plug inserting column, or an inner hole coinciding with the center of the plug inserting column is arranged on the plug inserting column, and the inner sides of at least 4 of the separation grooves are connected into a whole through the inner hole; wherein at least 4 of the separation grooves are radially distributed with the center of the plug plugging column.

Further preferably, the number of the separation grooves is 4, the number of the plug holes is 4, the 4 separation grooves are distributed in a cross shape, or the number of the separation grooves is 5, and the 5 separation grooves are connected into a whole through the inner hole.

On the basis of any one of the above schemes, the plug holes comprise a first specification plug hole with the diameter of more than or equal to 2.5mm and less than or equal to 4mm and a second specification plug hole with the diameter of more than or equal to 5mm and less than or equal to 7 mm.

On the basis of any one of the above schemes, preferably, the outer side wall of the annular stop rib is provided with a first external thread matched with the thread of the wiring end shell, the wiring end shell is provided with a second internal thread corresponding to the first external thread, and the wiring end shell is sleeved on the outer side wall of the annular stop rib through the matching of the second internal thread and the first external thread.

On the basis of any one of the above schemes, preferably, the special-shaped groove is composed of one separation groove and two grooves arranged on two sides of the separation groove, the two grooves are symmetrically arranged about the separation groove and located at a joint of an outer side wall surface of the plug inserting column and the separation groove, and two end surfaces of the grooves arranged along an axial direction of the plug inserting column are flush with two end surfaces of the plug inserting column arranged along the axial direction in a one-to-one correspondence manner.

On the basis of any one of the above schemes, preferably, the plug connector further includes a first cylinder disposed on the mounting seat and located in the annular blocking rib, and at least 4 first rear partition plates radially distributed with an axis of the first cylinder as a center, each first rear partition plate is correspondingly disposed between two adjacent plug holes, a gap is disposed between one end of each first rear partition plate, which is far away from the first cylinder, and an inner side wall of the annular blocking rib, axes of the first cylinder and the plug plugging column are collinear, a first blind hole is disposed on the first cylinder, and one end of the first blind hole, which is far away from the mounting seat, is open; the plug connector is of an integrated structure.

The embodiment of the utility model provides a socket for intelligent climbing frame, be used for installing the bottom of electric cabinet is used for climbing the plug for frame with the intelligence that any embodiment of the first aspect provided and peg graft, socket for intelligent climbing frame includes:

the socket comprises a socket shell, a plurality of connecting rods and a plurality of connecting rods, wherein two ends of the socket shell are opened, and a separating part used for separating two ends of the socket shell is arranged in the socket shell;

wherein, at least 4 front clapboards which are connected with the separating part and are radially distributed by taking the axis of the socket shell as the center are arranged in the front end of the socket shell, a contact pin is arranged between any two adjacent front clapboards, a gold plating layer is arranged on the outer surface of each contact pin, each contact pin is arranged on the separating part and positioned in the front end of the plug connector,

at least 4 one ends of the front partition boards far away from the partition part are flush with the front end opening of the socket shell, at least 4 wiring holes penetrating through the partition part are correspondingly arranged on the partition part in a one-to-one correspondence manner, at least 4 digital identification structures which are arranged in sequence are correspondingly arranged on the face of the partition part provided with at least four front partition boards on which at least 4 wiring holes are arranged in a one-to-one correspondence manner, one of the at least 4 front partition boards is a special-shaped partition board or two adjacent front partition boards in the at least 4 front partition boards are special-shaped partition boards, and the plug connector is an insulating part,

intelligence climb a frame with the socket with when intelligence climb a frame with the plug is pegged graft, socket shell inserts in the first ring channel, at least 4 preceding baffle with intelligence climb at least 4 of frame with the plug separate the groove one-to-one and peg graft, at least 4 the contact pin with intelligence climb at least 4 of frame with the plug hole one-to-one peg graft, on socket shell's the lateral wall socket shell's front end with the junction cover of socket shell's rear end is established and is installed the mounting panel.

Further preferably, on the partition portion, be provided with the second cylinder in the rear end of socket shell, and with the axis of second cylinder is 4 at least second back baffles that radial distribution is for the center, each baffle all corresponds the setting after the second between the adjacent two wiring hole, and at least 4 wiring hole all is located the cylindrical outside of second, each baffle is kept away from behind the second the cylindrical one end of second with be provided with the clearance between the inside wall of the rear end of socket shell, the second cylinder with the axis collineation of socket shell, be provided with the second blind hole on the second cylinder, the second blind hole is kept away from the one end opening of partition portion.

Further preferably, the mounting panel is square, all be provided with the fixed orifices on four angles of mounting panel, or the mounting panel includes two edges two blocks of protruding boards that socket shell's circumference direction symmetry set up, each all be provided with the fixed orifices on the protruding board.

On the basis of any one of the above solutions, preferably, at least 4 of the front partition boards are integrally connected at the center of the front end of the socket housing, or a third cylinder coinciding with the center of the front end of the socket housing is disposed at the center of the front end of the socket housing, and the insides of at least 4 of the front partition boards are integrally connected through the third cylinder; wherein, at least 4 front baffles are radially distributed with the center of the plug plugging column.

An embodiment of the third aspect provides a plug and socket assembly, climb the intelligent that an embodiment provided with plug and an embodiment of the second aspect and climb a socket for the frame including the intelligence that any embodiment of the first aspect provided, just intelligence climb a plug for the frame can with intelligence climb a socket for the frame and peg graft the cooperation, intelligence climb a plurality of plug holes of plug for the frame can with intelligence climb a plurality of contact pin one-to-ones of socket for the frame and peg graft.

The embodiment of the fourth aspect of the utility model provides an intelligent climbing frame, which comprises an electric cabinet; and

the plug for the intelligent climbing frame provided by any embodiment of the first aspect and the socket for the intelligent climbing frame provided by any embodiment of the second aspect are arranged at the bottom of the electric cabinet, the front end of the socket for the intelligent climbing frame is positioned outside the electric cabinet, and the plug for the intelligent climbing frame can be in plug-in fit with the socket for the intelligent climbing frame.

Further preferably, the electric cabinet includes a main control box, a power socket and a first connection socket connected with the sub-control box are provided at the bottom of the main control box, wherein the power socket and the first connection socket are both sockets for intelligent climbing frame provided in any embodiment of the second aspect, the intelligent climbing frame further includes a power socket adapted to the power socket and a first plug adapted to the first connection socket, and the power socket and the first plug are both plugs for intelligent climbing frame provided in any embodiment of the first aspect.

Further preferably, the electric cabinet includes a sub-control box, a second connection socket for connecting with the main control box is arranged at the bottom of the sub-control box, wherein the second connection socket is a socket for intelligent climbing provided in any embodiment of the second aspect, the intelligent climbing frame further includes a second plug adapted to the second connection socket, and the second plug is a plug for intelligent climbing provided in any embodiment of the first aspect.

The utility model provides an intelligence climbs and uses plug, socket and plug and socket assembly, be provided with 4 at least symmetric distribution's branch separating tank on the front end of plug, all be provided with the plug hole between two adjacent branch separating tank, the socket includes socket shell and establishes 4 at least preceding baffles in socket shell's front end, install a contact pin between two arbitrary adjacent preceding baffles, but 4 at least preceding baffles one-to-one insert 4 at least branch separating tank in, on the socket all contact pins can with the plug on all plug hole one-to-ones peg graft, with the grafting between realization plug and the socket. And can separate a plurality of contact pins on the socket and a plurality of plug holes on the plug through setting up preceding baffle and separation groove, like this alright reduce the mutual interference between a plurality of contact pins and a plurality of plug holes, increase creepage distance to just reducible plug and socket volume under the electric current of the same size, make the socket mountable outside master control case or branch control case, and realize the wiring operation from the outside of box

Meanwhile, in the application, the front end of the plug plugging column extends out of the front end of the plugging end outer cylinder, so that when the plug is plugged with the socket, the plug plugging column can extend towards the direction closer to the socket relative to the plugging end outer cylinder of the plug, the outer cylinder of the plug end and the socket shell are abutted and contacted with each other when the plug is plugged, and because the outer cylinder of the plug end and the socket shell are generally made of insulating materials, however, the insulating material generally has a large error during processing, so if the plug and the socket are limited and mounted in the axial direction by abutting contact of the outer cylinder of the plug and the socket shell during plugging, the reliable contact between the plug hole and the contact pin of the socket is related to the processing error of the outer cylinder of the plug and the socket shell, and thus, the reliable contact between the pin and the plug hole after the socket and the plug are plugged cannot be ensured at all. And this application stretches out the plug pin outside the outer section of thick bamboo of grafting end for when plug and socket are pegged graft, the plug hole of plug and contact pin can contact earlier and realize axial positioning, even if there is certain machining error at grafting end urceolus and socket shell like this, also make the contact pin of socket and the plug hole of plug can the in close contact, and can not be qualified for the next round of competitions the wiring not hard up, thereby can ensure the reliability of plug and socket when the plug is pegged graft with the socket, when preventing plug and socket from pegging graft, contact pin and plug hole is not firm and the circumstances such as the wiring is not hard up appear. Wherein, through set up the gold plating layer on the surface of the electrically conductive piece in each plug hole, can further increase the conductivity of plug, thereby can further ensure the electric conduction efficiency between plug and the socket, like this alright further improve the electric current that plug and socket can transmit, just so can be under the condition of transmitting same electric current, reduce the volume of plug and socket, reduce the occupation space behind plug and socket external connection, so that the socket can stretch out outside electric control and can occupy the space that reduces after pegging graft in the outside in the installation, and can not influence other objects.

In addition, in this application, be provided with special-shaped partition plate on the socket, be provided with special-shaped groove on the plug, and just can inject the region between two adjacent special-shaped groove on the plug in the region that two special-shaped partition plates formed through the cooperation in special-shaped partition plate and special-shaped groove, just so can climb the circumferential position of frame with plug and socket when pegging graft to intelligence and carry out accuracy spacing, so that plug and socket can only follow only angle and peg graft, just so make the contact pin on the socket only can correspond and insert a plug downthehole, and the phenomenon that the wrong position was inserted to the contact pin can not appear and take place.

It should be understood that what is described in this summary section is not intended to limit key or critical features of the embodiments of the disclosure, nor is it intended to limit the scope of the disclosure. Other features of the present disclosure will become apparent from the following description.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. In the drawings, like or similar reference characters designate like or similar elements, and wherein:

fig. 1 shows a schematic structural diagram of a plug provided according to an embodiment of the present disclosure;

FIG. 2 illustrates another schematic structural view of a plug provided in accordance with an embodiment of the present disclosure;

FIG. 3 illustrates yet another schematic structural diagram of a plug provided in accordance with an embodiment of the present disclosure;

FIG. 4 illustrates yet another structural schematic of a plug provided in accordance with an embodiment of the present disclosure;

FIG. 5 illustrates a schematic structural diagram of a receptacle provided in accordance with an embodiment of the present disclosure;

FIG. 6 illustrates another schematic structural view of a receptacle provided in accordance with an embodiment of the present disclosure;

FIG. 7 illustrates yet another structural schematic of a receptacle provided in accordance with an embodiment of the present disclosure;

FIG. 8 illustrates yet another structural schematic of a receptacle provided in accordance with an embodiment of the present disclosure;

FIG. 9 illustrates yet another structural schematic of a receptacle provided in accordance with an embodiment of the present disclosure;

FIG. 10 illustrates an assembled structural view of a receptacle and plug provided in accordance with an embodiment of the present disclosure;

fig. 11 shows a schematic structural view of a plug provided according to another embodiment of the present disclosure;

FIG. 12 shows another schematic view of the plug of FIG. 11;

FIG. 13 shows a further schematic view of the plug of FIG. 11;

figure 14 shows a further schematic view of the construction of the plug of figure 11;

FIG. 15 illustrates a schematic structural view of a receptacle provided in accordance with another embodiment of the present disclosure;

FIG. 16 shows another schematic view of the receptacle of FIG. 15;

FIG. 17 shows a further schematic view of the socket of FIG. 15;

fig. 18 shows an assembly structure diagram of a socket and a plug provided according to another embodiment of the present disclosure.

Wherein, the correspondence between the reference numbers and the component names in fig. 1 to 18 is:

1 plug, 10 plug hole, 12 plug connector, 120 mounting seat, 122 plug post, 1222 separating groove, 1222 'special-shaped groove, 1224 groove, 1226 inner hole, 124 annular blocking rib, 1242 first outer thread, 126 first rear partition, 128 first cylinder, 1282 first blind hole, 14 plug end outer cylinder, 142 first inner thread, 16 first annular groove, 18 terminal housing, 182 second inner thread, 2 socket, 20 socket housing, 200 second outer thread, 202 partition, 2022 terminal hole, 204 second cylinder, 2042 second blind hole, 206 second rear partition, 208 third cylinder, 22 front partition, 22' special-shaped partition, 222 bulge, 24 plug pin, 26 mounting plate 262 and fixing hole.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more clearly understood, the present invention will be described in further detail with reference to the accompanying drawings and detailed description. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and therefore the scope of the present invention is not limited by the specific embodiments disclosed below.

The following describes in detail the plug 1, the socket 2 and the plug-socket assembly for smart shelving provided by an embodiment of the present invention with reference to fig. 1 to 18.

As shown in fig. 1 to 4 and fig. 11 to 14, an embodiment of the first aspect of the present invention provides a plug 1 for intelligent climbing frame, which can be plugged into a socket 2 installed at the bottom of an electric cabinet outside the electric cabinet of the intelligent climbing frame, wherein the plug 1 includes a plug connector 12, a plugging end outer cylinder 14 and a terminal housing 18, specifically:

as shown in fig. 1 and 11, the plug connector 12 includes a mounting base 120 and a plug post 122 mounted on the mounting base 120, and as shown in fig. 2, a ring-shaped rib 124 is disposed on a surface of the mounting base 120 away from the plug post 122;

as shown in fig. 1 to 3 and 11 to 13, one end of the external barrel 14 of the plugging end is rotatably sleeved on the mounting seat 120, the other end of the external barrel 14 of the plugging end is sleeved outside the plug plugging post 122, a first annular groove 16 for inserting the socket housing 20 of the socket 2 is defined between the external barrel 14 of the plugging end and the plug plugging post 122, a first internal thread 142 is arranged on the inner side wall of the external barrel 14 of the plugging end, and the front end of the plug plugging post 122 extends out from the front end of the external barrel 14 of the plugging end;

one end of the terminal housing 18 is sleeved on the outer side wall of the annular blocking rib 124;

as shown in fig. 1 to 4 and 11 to 13, at least 4 separation grooves 1222 are symmetrically arranged on the plug post 122 along the circumferential direction, at least 4 separation grooves 1222 extend from one end surface of the plug post 122 to the other end surface of the plug post 122, a plug hole 10 is arranged on the plug post 122 and between any two adjacent separation grooves 1222, the plug hole 10 penetrates through the plug post 122 and the mounting seat 120, at least 4 digital mark structures are arranged on one end surface of the plug post 122 away from the mounting seat 120 corresponding to the at least 4 plug holes 10 in a one-to-one correspondence manner, a conductive member (not shown in the figure) is arranged in each plug hole 10, a gold plating layer is arranged on the outer surface of at least 4 conductive members, one of the at least 4 separation grooves 1222 ' is a special-shaped groove 1222 ' or two adjacent separation grooves 1222 ' are special-shaped grooves 1222 ', 1222 ' among the at least 4 separation grooves, the plug connector 12 is an insulating member.

According to the utility model discloses an embodiment provides a pair of plug 1 for frame is climbed to intelligence for intelligence climbs the frame, and intelligence climbs the electric cabinet that the frame includes main control box and a plurality of branch control box and installs socket 2 in the electric cabinet bottom, and plug 1 that this application provided is used for being located the outside grafting end of electric cabinet with socket 2 and pegs graft the cooperation. And because plug 1 and socket 2 can peg graft the cooperation in the outside of master control case, just so when making plug 1 and socket 2 peg graft the cooperation, need not open the lid of electric cabinet, therefore do not need professional licence electrician alright realize the wiring operation of electric cabinet, alright reduce the master control case like this, cost of labor when electric cabinets such as branch control case connect, and simultaneously, this kind of mode, the lid of master control case and branch control case need not be opened when the wiring, the problem of sealed not tight after master control case and branch control case uncap the wiring has just been solved like this, thereby can ensure the sealing performance of master control case and branch control case. The plug 1 mainly comprises a plug connector 12, a plug end outer cylinder 14 and a terminal outer shell 18, and the plug connector 12 includes a mounting base 120, a plug connector post 122 at the front end of the mounting base 120 and an annular rib 124 at the rear side of the mounting base 120, wherein, in the present application, a first annular groove 16 for inserting the socket housing 20 of the socket 2 is formed between the outer side of the plug post 122 and the plug end outer cylinder 14, and the plug pin 122 is used for mating with the socket 2, specifically, the plug pin 122 is provided with at least four symmetrically distributed separating slots 1222 for mating with the pins 24 of the plug 1, and at least four plug holes 10 are installed between any adjacent two of the partition slots 1222 in a one-to-one correspondence, this enables the area where two adjacent plug holes 10 are located to be cut by the partition groove 1222, i.e., the area where two adjacent plug holes 10 are located to be cut by the partition groove 1222. In this structure, the plurality of plug holes 10 of the plug 1 are partitioned by the plurality of partition grooves 1222, so that each plug hole 10 is located in a space independent from each other, thus isolating a plurality of plug holes 10 from each other, thereby reducing the mutual interference among the plurality of plug holes 10 of the plug 1, increasing the creepage distance between the plurality of plug holes 10, so that the current of the plug 1 can be increased, so that the whole volume of the plug 1 and the volume of the socket 2 matched with the plug 1 can be reduced under the same current, therefore, the intelligent socket 2 for climbing a shelf can occupy smaller volume outside the main control box or the sub-control box, so that the front end of the socket 2 for the intelligent climbing frame can be arranged outside the main control box or the sub-control box, so that the user can conveniently realize the insertion between the socket 2 for the intelligent climbing frame and the plug 1 for the intelligent climbing frame from the outside of the main control box or the outside of the sub-control box.

Wherein, the front end of the plug pin 122 extends from the front end of the plug end outer cylinder 14, so that when the plug 1 is plugged with the socket 2, the plug pin 122 can extend to a direction closer to the socket 2 relative to the plug end outer cylinder 14 of the plug 1, and the plug end outer cylinder 14 of the plug 1 and the socket housing 20 are butted against each other when plugged, and because the plug end outer cylinder 14 and the socket housing 20 are generally made of insulating materials, and the insulating materials have a larger error when processed, therefore, if the plug 1 and the socket 2 are limited and installed in the axial direction by means of the butting contact between the plug end outer cylinder 14 of the plug 1 and the socket housing 20 when plugged, whether the plug hole 10 and the pin 24 of the socket 2 can be reliably contacted has a large relation with the processing error of the plug end outer cylinder 14 of the plug 1 and the socket housing 20, and thus the socket 2 and the plug 1 can not be ensured after being plugged, the pins 24 and the plug holes 10 can be reliably contacted. In the present application, the plug pin 122 extends out of the plug end outer barrel 14, so that when the plug 1 is plugged with the socket 2, the plug hole 10 of the plug 1 and the plug pin 24 can be contacted first to realize axial positioning, and thus even when a certain processing error exists between the plug end outer barrel 14 and the socket shell 20, the plug pin 24 of the socket 2 and the plug hole 10 of the plug 1 can be in close contact without loosing of the outgoing wire and the connection, so that the reliability of the plug 1 and the socket 2 in the plug-in connection can be ensured, and when the plug 1 is plugged with the socket 2, the plug pin 24 and the plug hole 10 are not contacted firmly, and the situation of loose connection and the like can be prevented. The gold plating layer is arranged on the outer surface of the conductive piece in each plug hole 10, so that the conductivity of the plug 1 can be further increased, the electric conduction efficiency between the plug 1 and the socket 2 can be further ensured, the current which can be transmitted by the plug 1 and the socket 2 can be further improved, the volumes of the plug 1 and the socket 2 can be reduced under the condition of transmitting the same current, the occupied space of the plug 1 and the socket 2 after external connection is reduced, the socket 2 can extend out of an electric control device in an installation mode and can occupy the reduced space after external plugging, and other objects cannot be influenced.

Meanwhile, as shown in fig. 13, one of at least 4 separating grooves 1222 is a profiled groove 1222 'or, as shown in fig. 4, two adjacently disposed separating grooves 1222 of at least 4 separating grooves 1222 are profiled grooves 1222', that is, one or two adjacent ones of the at least 4 separating grooves 1222 are different in shape from the other separating grooves 1222, when the socket 2 for the intelligent climbing frame is inserted with the plug 1 for the intelligent climbing frame, the front partition 22 of the socket 2 for the intelligent climbing frame needs to be inserted with the partition groove 1222 correspondingly arranged on the plug 1 for the intelligent climbing frame, the circumferential positions of the plug 1 and the socket 2 for the intelligent climbing frame can be accurately limited by the difference of the special-shaped grooves 1222' when the plug and the socket are plugged, so that the plug 1 and the socket 2 can be plugged from only a single angle, and thus the pins 24 on the socket 2 can be inserted into one plug hole 10 correspondingly, and the phenomenon that the pins 24 are inserted in wrong positions can not occur.

As shown in fig. 4 and 11, a digital identification structure is provided on the front end surface of the plug post 122 corresponding to each plug hole 10, so that each plug hole 10 can be numbered, and meanwhile, each pin 24 can also be numbered on the socket 2, so that when plugging, a user can quickly and conveniently determine the pin 24 corresponding to each plug hole 10 according to the digital identification structure, so that the pins 24 can be inserted into the plug holes 10 in a one-to-one correspondence manner, and thus the plug 1 can be prevented from being plugged in wrong positions. And the plug 12 is an insulating member such as nylon, which ensures that the current in the plug hole 10 does not leak or decrease through the plug 12.

As shown in fig. 1, 11 and 12, the socket end outer cylinder 14 can be rotatably installed on the installation base 120 in a sleeved manner, and is installed outside the plug inserting column 122 in a sleeved manner, and the inner side wall of the socket end outer cylinder 14 is provided with a first internal thread 142, and meanwhile, a second external thread 200 can be arranged on the outer side wall of the front end of the socket housing 20, so that the front end of the socket housing 20 can be inserted into the front end of the socket end outer cylinder 14 through the matching of the internal and external threads, and thus, the inserting matching between the plug 1 and the socket 2 can be simply and conveniently realized. Of course, the plug 1 and the socket 2 may also be fixed by additional screws.

In one embodiment, as shown in fig. 1 to 4, the plurality of separation grooves 1222 extend from the outer side to the outer side wall of the plug post 122, that is, the plurality of separation grooves 1222 are notches extending from the outer side wall of the plug post 122 to the inner side, so that the plug post 122 can be separated into a plurality of completely independent portions by the plurality of notches, thereby allowing the area where each plug hole 10 is located to be completely independent, and thus further reducing the mutual interference between adjacent plug holes 10, and further increasing the rated current that can be transmitted by the plug 1 and the socket 2, so as to further reduce the volume of the plug 1 and the socket 2. Meanwhile, the arrangement can also increase the contact area of the plug 1 and the socket 2 during plugging, so that the plugging firmness between the plug 1 and the socket 2 is ensured, and the phenomenon that the plug 1 and the socket 2 are loosened in the working process can be prevented.

In another embodiment, as shown in fig. 11 to 13, the outer sides of the plurality of separating grooves 1222 are preferably spaced from the outer side walls of the plug post 122 by a predetermined distance, i.e., the plurality of separating grooves 1222 do not guide the outer side walls of the plug post 122 all the way to the outside, so that the inner regions of the plug post 122 are separated by the plurality of separating grooves 1222, but the edges of the inner portions of the plug post 122 are connected as a whole, thereby increasing the strength of the plug post 122.

In one embodiment, as shown in fig. 1 to 4, preferably, the plug post 122 is provided with an inner hole 1226 coinciding with the center of the plug post 122, and the inner sides of at least 4 separating grooves 1222 are integrally connected by the inner hole 1226; at least 4 of the separating slots 1222 radiate from the center of the plug post 122. The inner hole 1226 can further increase the insertion space on the plug post 122, thereby ensuring the reliability of the plug 1 and the receptacle 2 during insertion. Of course, in another embodiment, as shown in fig. 11-14, at least 4 separation slots 1222 may be integrally connected at the center of the plug post 122.

In one embodiment, the number of the separation grooves 1222 is 4, the number of the plug holes 10 is 4, and the 4 separation grooves 1222 are distributed in a cross shape. In another embodiment, the number of the separating grooves 1222 is 5, and the 5 separating grooves 1222 are integrally connected by an inner hole 1226.

On the basis of any one of the above schemes, the plug holes 10 include a first specification plug hole 10 with a diameter of 2.5mm or more and 4mm or less, and a second specification plug hole 10 with a diameter of 5mm or more and 7mm or less.

In this embodiment, the diameter of the plug hole 10 can be set according to the current required in practice, for example, different specifications of different diameters can be set, and according to the working characteristics of the intelligent climbing frame, plugs 1 of two specifications can be set, for example, a small specification plug 1 with a diameter of 2.5mm-4mm, and a large specification plug 1 with a diameter of 5mm-7 mm.

On the basis of any of the above solutions, preferably, as shown in fig. 2 and fig. 12, a first external thread 1242 that is in threaded fit with the terminal housing 18 is provided on an outer side wall of the annular rib 124, a second internal thread 182 is provided on the terminal housing 18 corresponding to the first external thread 1242, and the terminal housing 18 is installed on an outer side wall of the annular rib 124 through a fit-over arrangement of the second internal thread 182 and the first external thread 1242.

In these embodiments, the annular rib 124 at the rear end of the plug connector 12 can be screwed with the terminal housing 18 by the engagement of the first external thread 1242 and the second internal thread 182, and the space enclosed by the terminal housing 18 and the annular rib 124 at the rear end of the plug connector 12 is used for the installation of the cable and the contact installation of the cable with each conductive member at each plug hole 10.

On the basis of any of the above solutions, preferably, as shown in fig. 4 and 13, the shaped groove 1222' is composed of a separation groove 1222 and grooves 1224 arranged on both sides of the separation groove 1222, the number of the grooves 1224 is two, the two grooves 1224 are symmetrically arranged with respect to the separation groove 1222 and located at the junction of the outer wall surface of the plug post 122 and the separation groove 1222, and both end surfaces of the grooves 1224 arranged in the axial direction of the plug post 122 are flush with both end surfaces of the plug post 122 arranged in the axial direction in a one-to-one correspondence.

In such embodiments, two grooves 1224 may be symmetrically disposed on both sides of the normal separation groove 1222 to form a profiled groove 1222', and the grooves 1224 are preferably disposed at the outer end starts of the separation groove 1222, and two end faces of the grooves 1224 disposed along the axial direction of the plug post 122 are flush with two end faces of the separation groove 1222 disposed along the axial direction of the plug post 122 in a one-to-one correspondence, that is, the length of the grooves 1224 in the front-to-rear direction coincides with the length of the separation groove 1222 in the front-to-rear direction. It is further preferred that the front faces of the recesses 1224, the separating slots 1222 and the plug posts 122 are flush, so that the front end of the plug 12 is relatively flat and thus better mates and conforms to the receptacle 2. While the circumferential thickness and radial width of the grooves 1224 may be set as desired.

On the basis of any of the above solutions, preferably, as shown in fig. 2, the plug connector 12 further includes a first cylinder 128 disposed on the mounting seat 120 and located in the annular rib 124, and at least 4 first rear partitions 126 radially distributed with an axis of the first cylinder 128 as a center, each first rear partition 126 is correspondingly disposed between two adjacent plug holes 10, a gap is disposed between one end of each first rear partition 126 away from the first cylinder 128 and an inner side wall of the annular rib 124, axes of the first cylinder 128 and the plug connecting column 122 are collinear, a first blind hole 1282 is disposed on the first cylinder 128, and one end of the first blind hole 1282 away from the mounting seat 120 is open; wherein, the plug connector 12 is an integrated structure.

In these embodiments, the rear end of the plug-in connector 12 is used for wiring so that an external electric wire or the like can be electrically connected to the conductive member of the plug hole 10. The first rear partition 126 enables each electric wire corresponding to the contact pin 24 to be isolated from each other, so that interference between each electric wire can be further reduced, and thus current of the plug 1 is increased, and further current of the plug 1 and the socket 2 corresponding to the plug 1 is increased. And a gap is arranged between one end of each first rear partition 126 far away from the first cylinder 128 and the inner side wall of the rear end of the annular blocking rib 124, so that the area between two adjacent first rear partitions 126 is not completely broken, and thus, routing can be realized through the gap between the first rear partitions 126 and the rear end of the annular blocking rib 124, and each wire can wind around the corresponding plug hole 10 along the outer side of the plurality of first rear partitions 126, so as to realize connection between each wire and the conductive member in the corresponding plug hole 10.

In another embodiment, as shown in fig. 12, the first cylinder 128 and the first rear partition 126 are not provided, and at this time, the rear end of the plug connector 12 is not divided into a plurality of cavities, but is a larger cavity, so that although the sub-cavity connection cannot be realized, the structure of the rear end of the plug connector 12 can be simplified, thereby facilitating the processing of the plug 1.

For the climbing frame, the power plug 1 on the main control box can be set to be 4-core, and at the moment, the rear end of the 4-core plug 1 can be not provided with a cylinder and a rear clapboard, so that the structure of the plug 1 is simplified. The plug 1 for connecting the main control box and the sub-control box is preferably provided with a five-core plug, and a cylinder and a rear partition plate are provided at the rear end of the five-core plug 1.

As shown in fig. 5 to 9 and fig. 15 to 17, an embodiment of the second aspect of the present invention provides a socket 2 for a smart rack, for being installed at the bottom of an electric cabinet, and for being plugged into a plug 1 for a smart rack provided in any embodiment of the first aspect, the socket 2 for a smart rack includes:

a socket housing 20, both ends of the socket housing 20 being open, a partition portion 202 for partitioning both ends of the socket housing 20 being provided in the socket housing 20;

wherein, at least 4 front clapboards 22 which are connected with the separating part 202 and are radially distributed by taking the axis of the socket shell 20 as the center are arranged in the front end of the socket shell 20, a pin 24 is arranged between any two adjacent front clapboards 22, the outer surface of each pin 24 is provided with a gold plating layer, each pin 24 is arranged on the separating part 202 and is positioned in the front end of the plug connector 12,

one end of at least 4 front partitions 22 far away from the partition 202 is flush with the front opening of the socket housing 20, at least 4 wiring holes 2022 penetrating through the partition 202 are correspondingly arranged on the partition 202 corresponding to at least 4 pins 24, at least 4 digital identification structures arranged in sequence are correspondingly arranged on the face of the partition 202 where at least four front partitions 22 are installed corresponding to at least 4 pins 24, one of the at least 4 front partitions 22 is a special-shaped partition 22 'or two adjacent front partitions 22 of the at least 4 front partitions 22 are special-shaped partitions 22', the plug connector 12 is an insulating part, when the socket 2 for the intelligent climbing frame and the plug 1 for the intelligent climbing frame are plugged, the socket housing 20 is inserted into the first annular groove 16, the at least 4 front partitions 22 are plugged with at least 4 partition grooves 1222 of the plug 1 for the intelligent climbing frame in a one-to-one correspondence manner, the at least 4 pins 24 are plugged with at least 4 plug holes 10 of the plug 1 for the intelligent climbing frame in a one-to-one correspondence manner, a mounting plate 26 is mounted to a junction between the outer side wall of the receptacle housing 20 and the front end of the receptacle housing 20 and the rear end of the receptacle housing 20.

According to the utility model discloses an embodiment provides an intelligence climbs frame and uses socket 2 for install the bottom at the electric cabinet of intelligence climbs frame, and intelligence climbs the electric cabinet that the frame includes main control box and a plurality of branch control box and constitutes, and install socket 2 in main control box bottom and carry out the plug 1 of pegging graft with socket 2, and the socket 2 that this application provided installs the bottom at the electric cabinet, and the front end is located the outside of main control box, and socket 2 in this application can specifically be the power plug 1 of being connected with the power cord of main control box, also can be the setting in main control box bottom, with the first connection socket 2 of the connecting wire connection between main control box and the branch control box, of course, also can be the setting in branch control box bottom, with the second connection socket 2 of the connecting wire connection between main control box and the branch control box. And this kind of setting, because the front end of socket 2 can install in the outside of electric cabinet, therefore plug 1 can be outside the electric cabinet and install socket 2 in the electric cabinet bottom and peg graft the cooperation. And because plug 1 and socket 2 can peg graft the cooperation in the outside of master control case, just so when making plug 1 and socket 2 peg graft the cooperation, need not open the lid of electric cabinet, therefore do not need professional licence electrician alright realize the wiring operation of electric cabinet, alright reduce the master control case like this, cost of labor when electric cabinets such as branch control case connect, and simultaneously, this kind of mode, the lid of master control case and branch control case need not be opened when the wiring, like this alright solve master control case and branch control case and uncap the wiring back problem of not being tight, thereby can ensure the sealing performance of master control case and branch control case. The socket 2 mainly includes a socket housing 20, and the socket housing 20 is open at two ends, one end is a plug end and the other end is a terminal, and the plug end and the terminal are separated by a separating portion 202, and the front end of the socket housing 20, i.e. the plug end, is provided with a front separating plate therein, and the front separating plates are used for correspondingly inserting into the separating grooves 1222 of the plug 1. The socket 2 with the structure can be correspondingly plugged with the plug 1 provided by any one of the embodiments of the first aspect, after the socket 2 is plugged with the plug 1, the plug holes 10 of the plug 1 are separated by the separating grooves 1222, the pins 24 of the socket 2 are separated from each other by the front separating plates 22, so that each pin 24 and each plug hole 10 are located in mutually independent spaces, so that the pins 24 and the plug holes 10 can be separated from each other, mutual interference between the pins 24 and the plug holes 10 can be reduced, creepage distance between the pins 24 and the plug holes 10 can be increased, so that currents of the plug 1 and the socket 2 can be increased, the whole volume of the plug 1 and the volume of the socket 2 matched with the plug 1 can be reduced under the same current, and the intelligent climbing frame socket 2 can occupy smaller volume outside the main control box or outside the sub control box, therefore, the front end of the intelligent socket 2 for the climbing frame can be arranged outside the main control box or outside the sub control box, so that a user can conveniently realize the insertion between the intelligent socket 2 for the climbing frame and the intelligent plug 1 for the climbing frame from the outside of the main control box or the outside of the sub control box.

Meanwhile, the special-shaped partition plate 22 ' can be matched with the special-shaped groove 1222 ' in an inserting manner, so that when the plug 1 and the socket 2 are inserted, an area between two adjacent special-shaped grooves 1222 ' on the plug 1 can be limited in an area formed by two special-shaped front partition plates 22, and thus, the circumferential positions of the plug 1 and the socket 2 for the intelligent climbing frame during the inserting can be accurately limited, so that the plug 1 and the socket 2 can be inserted only from a unique angle, and thus, the pin 24 on the socket 2 can be correspondingly inserted into one plug hole 10, and the phenomenon that the pin 24 is inserted in a wrong position can not occur.

Wherein, through numbering each contact pin 24 on socket 2, when pegging graft plug 1 and socket 2 like this, make the user can confirm the plug hole 10 that every contact pin 24 corresponds according to the digital identification structure fast conveniently to insert a plurality of contact pins 24 one-to-one in a plurality of plug holes 10, alright prevent like this that plug 1 from inserting the wrong position. And the receptacle housing 20 and the front bulkhead 22 are preferably dielectric members such as nylon.

As shown in fig. 8 and 15, the outer side wall of the front end of the socket housing 20 is provided with a second external thread 200, while as shown in fig. 2 and 12, the inner side wall of the plug end outer cylinder 14 is provided with a first internal thread 142, so that the front end of the socket housing 20 can be inserted into the plug end outer cylinder 14 through the matching of the internal and external threads, and thus the plug-in matching between the plug 1 and the socket 2 can be simply and conveniently realized. Of course, the plug 1 and the socket 2 may also be fixed by additional screws.

Further preferably, as shown in fig. 7 to 9, a second cylinder 204 is disposed on the partition portion 202 and in the rear end of the socket housing 20, and at least 4 second rear partition plates 206 radially distributed with an axis of the second cylinder 204 as a center are disposed, each second rear partition plate 206 is correspondingly disposed between two adjacent wiring holes 2022, and at least 4 wiring holes 2022 are located outside the second cylinder 204, a gap is disposed between one end of each second rear partition plate 206, which is far away from the second cylinder 204, and an inner side wall of the rear end of the socket housing 20, the axes of the second cylinder 204 and the socket housing 20 are collinear, a second blind hole 2042 is disposed on the second cylinder 204, and one end of the second blind hole 2042, which is far away from the partition portion 202, is open.

In these embodiments, the second rear partition 206 is disposed to isolate each wire corresponding to the wire connection hole 2022 from each other, so as to further reduce interference between each wire, thereby increasing the current of the socket 2, and further increasing the current of the socket 2 and the plug 1 corresponding thereto. And a gap is formed between one end of each second rear partition 206, which is far away from the second cylinder 204, and the inner side wall of the rear end of the socket housing 20, so that the area between two adjacent second rear partitions 206 is not completely broken, and thus, routing can be realized through the gap between the second rear partitions 206 and the rear end of the socket housing 20, and each wire can be wound to the corresponding wiring hole 2022 along the outer sides of the plurality of second rear partitions 206, so as to realize the installation of the corresponding wiring hole 2022 of each wire.

Of course, in other embodiments, the structure in the rear end of the receptacle housing 20 may be configured as desired. For example, for an electrical outlet, the configuration shown in fig. 17 may be provided.

Further preferably, as shown in fig. 15 to 17, the mounting plate 26 is square, and the four corners of the mounting plate 26 are provided with fixing holes 262, or as shown in fig. 5 to 9, the mounting plate 26 includes two protruding plates symmetrically arranged along the circumferential direction of the socket housing 20, and each protruding plate is provided with a fixing hole 262. In this embodiment, the shape of the mounting plate 26 may be appropriately set according to the actual position and the actual use of the socket 2 mounted on the electric cabinet, for example, the mounting plate may be set to a square shape or other shapes. Here, the specific shape of the mounting plate 26 is not limited, and the mounting plate 26 may be mounted on an inner sidewall of the bottom of the electric cabinet when the socket 2 is mounted.

On the basis of any of the above solutions, preferably, as shown in fig. 15 to 17, at least 4 front partition plates 22 are integrally connected at the center position of the front end of the receptacle housing 20, or as shown in fig. 5 to 7, a third cylinder 208 coinciding with the center of the front end of the receptacle housing 20 is provided at the center position of the front end of the receptacle housing 20, and the insides of at least 4 front partition plates 22 are integrally connected by the third cylinder 208; at least 4 of the front spacers 22 are radially spaced from the center of the plug posts 122.

In these embodiments, the inner sides of at least 4 front partitions 22 may be integrally connected to each other, for example, 4 front partitions 22 may be connected in a cross shape, or the inner sides of 5 front partitions 22 may be connected together. Of course, it is also possible to provide a third cylinder 208 inside the plurality of front partitions 22, and then to connect the insides of the plurality of front partitions 22 by means of the third cylinder 208. The plurality of front partitions 22 are preferably radially spaced, but may be radially-like.

On the basis of any of the above solutions, preferably, as shown in fig. 6, 15 and 16, the irregular partition 22' is composed of a front partition 22 and two protrusions 222 arranged on both sides of the front partition 22, the number of the protrusions 222 is two, the two protrusions 222 are symmetrically arranged with respect to the front partition 22 and located at the connection between the inner side wall surface of the socket housing 20 and the front partition 22, and two end surfaces of the protrusions 222 arranged along the axial direction of the socket housing 20 are flush with two end surfaces of the front partition 22 arranged along the axial direction in a one-to-one correspondence manner.

In these embodiments, two protrusions 222 may be symmetrically disposed on both sides of the normal front partition 22 to form the irregular partition 22', and the protrusions 222 are preferably disposed at the beginning of the outer end of the front partition 22, and two end faces of the protrusions 222 disposed along the axial direction of the socket housing 20 are flush with two end faces of the front partition 22 disposed along the axial direction of the socket housing 20, that is, the length of the protrusions 222 along the front-back direction is identical to the length of the front partition 22 along the front-back direction. It is further preferred that the front faces of the protrusions 222, the front face of the front partition 22 and the front face of the plug post 122 are flush, so that the front end of the plug 12 is flat and can be better plugged into and attached to the receptacle 2. And the circumferential thickness and radial width of the protrusion 222 may be set according to actual needs.

As shown in fig. 10 and fig. 18, an embodiment of the third aspect of the present invention provides a plug and socket assembly, including the plug 1 for intelligent climbing rack provided in any embodiment of the first aspect and the socket 2 for intelligent climbing rack provided in any embodiment of the second aspect, and the plug 1 for intelligent climbing rack can be plugged with the socket 2 for intelligent climbing rack, and a plurality of plug holes 10 of the plug 1 for intelligent climbing rack can be plugged with a plurality of pins 24 of the socket 2 for intelligent climbing rack one-to-one.

According to the utility model discloses a plug and socket assembly, climb the intelligent socket 2 for the frame that the frame used plug 1 and the intelligent that any embodiment of second aspect provided including the intelligent that any embodiment of first aspect provided and climb the frame, consequently, the embodiment of the utility model provides a plug and socket assembly has the intelligent that any embodiment of first aspect provided and climbs the frame and use plug 1 and the intelligent that any embodiment of second aspect provided and climb the frame and use socket 2's whole beneficial effects, no longer redundantly here.

The embodiment of the fourth aspect of the utility model provides an intelligent climbing frame, which comprises an electric cabinet (not shown in the figure); and the intelligence that any embodiment of the first aspect provided climbs the frame with plug 1 and the intelligence that any embodiment of the second aspect provided climbs the frame with socket 2, wherein, the intelligence climbs the frame with socket 2 and installs in the bottom of electric cabinet, the intelligence climbs the frame with socket 2's front end be located the electric cabinet outside, intelligence climb the frame with plug 1 can climb with the intelligence and carry out the cooperation of pegging graft with socket 2.

According to the utility model discloses the intelligence of fourth aspect embodiment provides climbs the frame, climb the frame with plug 1 and the intelligence that any embodiment of second aspect provided with the intelligence including electric cabinet and any embodiment of first aspect and climb the frame with socket 2, consequently, the embodiment of the utility model provides an intelligence climbs the frame has the intelligence that any embodiment of first aspect provided and climbs the frame with plug 1 and the intelligence that any embodiment of second aspect provided and climb all beneficial effects of frame with socket 2, no longer describe herein.

Further preferably, the electric cabinet includes a main control box, the bottom of the main control box is provided with a power socket 2 and a first connection socket 2 connected with the sub-control box, wherein the power socket 2 and the first connection socket 2 are both the socket 2 for the intelligent climbing frame provided by any one of the embodiments of the second aspect, the intelligent climbing frame further includes the power socket 2 adapted to the power socket 2 and a first plug 1 adapted to the first connection socket 2, and the power socket 2 and the first plug 1 are both the plug 1 for the intelligent climbing frame provided by any one of the embodiments of the first aspect.

Further preferably, the electric cabinet includes the branch control box, and the bottom of branch control box is provided with the second connection socket 2 of being connected usefulness with the master control box, and wherein, second connection socket 2 is the intelligent socket 2 of climbing the frame that any embodiment of second aspect provided, and the frame is climbed to intelligence still includes the second plug 1 with second connection socket 2 adaptation, and second plug 1 is the intelligent plug 1 of climbing the frame that any embodiment of first aspect provided.

In the description of the present specification, the terms "connect", "mount", "fix", and the like are to be understood in a broad sense, for example, "connect" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the description of the present specification, the description of the terms "one embodiment," "some embodiments," "specific embodiments," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a plug for frame is climbed to intelligence, a serial communication port, plug for frame is climbed to intelligence can the electric cabinet outside of frame is climbed to intelligence is installed the socket of electric cabinet bottom is pegged graft, the plug includes:

the plug connector comprises a mounting seat and a plug inserting column arranged on the mounting seat, wherein a ring of annular blocking ribs are arranged on the surface of the mounting seat far away from the plug inserting column;

the plug comprises a plug inserting end outer cylinder, wherein one end of the plug inserting end outer cylinder can be rotatably sleeved on the mounting seat, the other end of the plug inserting end outer cylinder is sleeved outside the plug inserting column, a first annular groove for inserting a socket shell of the socket is formed by the enclosing of the plug inserting end outer cylinder and the plug inserting column, a first internal thread is arranged on the inner side wall of the plug inserting end outer cylinder, and the front end of the plug inserting column extends out of the front end of the plug inserting end outer cylinder;

one end of the wiring end shell is sleeved on the outer side wall of the annular blocking rib;

wherein, at least 4 separating grooves are symmetrically arranged on the plug plugging column along the circumferential direction, at least 4 separating grooves all extend from one end surface of the plug plugging column to the other end surface of the plug plugging column, a plug hole is arranged on the plug plugging column and between any two adjacent separating grooves, the plug hole penetrates through the plug plugging column and the mounting seat, at least 4 digital identification structures which are arranged in sequence are correspondingly arranged on one end surface of the plug plugging column far away from the mounting seat corresponding to at least 4 plug holes,

each downthehole electrically conductive piece that is provided with of plug, at least 4 all be provided with the gold coating layer on the surface of electrically conductive piece, at least 4 divide in the groove one for the dysmorphism groove or at least 4 divide the groove to have two adjacent separating groove that set up to be the dysmorphism groove, plug connector clip is the insulating part.

2. The plug for intelligent climbing frame according to claim 1,

at least 4 separating grooves are connected into a whole at the center of the plug inserting column, or an inner hole which is superposed with the center of the plug inserting column is arranged on the plug inserting column, and the inner sides of at least 4 separating grooves are connected into a whole through the inner hole;

wherein at least 4 of the separation grooves are radially distributed with the center of the plug plugging column.

3. The plug for intelligent climbing frame according to claim 2,

the number of the separation grooves is 4, the number of the plug holes is 4, the 4 separation grooves are distributed in a cross shape, or the number of the separation grooves is 5, and the 5 separation grooves are connected into a whole through the inner hole.

4. The plug for intelligent climbing frame according to claim 1,

the plug holes comprise first specification plug holes with the diameter of more than or equal to 2.5mm and less than or equal to 4mm and second specification plug holes with the diameter of more than or equal to 5mm and less than or equal to 7 mm; and/or

The outer side wall of the annular stop rib is provided with a first external thread matched with the thread of the wiring end shell, the wiring end shell is provided with a second internal thread corresponding to the first external thread, and the wiring end shell is sleeved on the outer side wall of the annular stop rib through the matching of the second internal thread and the first external thread; and/or

The special-shaped groove is composed of one separation groove and two grooves arranged on two sides of the separation groove, the two grooves are symmetrically arranged relative to the separation groove and are positioned at the joint of the outer side wall surface of the plug-in post and the separation groove, and two end surfaces of the grooves arranged along the axial direction of the plug-in post and two end surfaces of the plug-in post arranged along the axial direction are in one-to-one correspondence parallel and level.

5. The plug for smart shelving according to any one of claims 1 to 4, wherein,

the plug connector further comprises a first cylinder arranged on the mounting seat and positioned in the annular blocking rib, and at least 4 first rear partition plates radially distributed with the axis of the first cylinder as the center, each first rear partition plate is correspondingly arranged between two adjacent plug holes, a gap is formed between one end of each first rear partition plate, which is far away from the first cylinder, and the inner side wall of the annular blocking rib, a gap is formed between the first cylinder and the inner side wall of the plug inserting column, the axes of the first cylinder and the plug inserting column are collinear, a first blind hole is formed in the first cylinder, and one end, which is far away from the mounting seat, of the first blind hole is open;

the plug connector is of an integrated structure.

6. An intelligent socket for a climbing frame, which is used for being installed at the bottom of an electric cabinet of the intelligent climbing frame and being plugged with the intelligent plug for a climbing frame according to any one of claims 1 to 5, and the intelligent socket for a climbing frame comprises:

the socket comprises a socket shell, a plurality of connecting rods and a plurality of connecting rods, wherein two ends of the socket shell are opened, and a separating part used for separating two ends of the socket shell is arranged in the socket shell;

wherein, at least 4 front clapboards which are connected with the separating part and are radially distributed by taking the axis of the socket shell as the center are arranged in the front end of the socket shell, a contact pin is arranged between any two adjacent front clapboards, a gold plating layer is arranged on the outer surface of each contact pin, each contact pin is arranged on the separating part and positioned in the front end of the plug connector,

at least 4 one ends of the front partition boards far away from the partition part are flush with the front end opening of the socket shell, at least 4 wiring holes penetrating through the partition part are correspondingly arranged on the partition part in a one-to-one correspondence manner, at least 4 digital identification structures which are arranged in sequence are correspondingly arranged on the face of the partition part provided with at least four front partition boards on which at least 4 wiring holes are arranged in a one-to-one correspondence manner, one of the at least 4 front partition boards is a special-shaped partition board or two adjacent front partition boards in the at least 4 front partition boards are special-shaped partition boards, and the plug connector is an insulating part,

intelligence climb a frame with the socket with when intelligence climb a frame with the plug is pegged graft, socket shell inserts in the first ring channel, at least 4 preceding baffle with intelligence climb at least 4 of frame with the plug separate the groove one-to-one and peg graft, at least 4 the contact pin with intelligence climb at least 4 of frame with the plug hole one-to-one peg graft, on socket shell's the lateral wall socket shell's front end with the junction cover of socket shell's rear end is established and is installed the mounting panel.

7. The intelligent climbing frame socket according to claim 6,

on the partition portion be provided with the second cylinder in socket shell's the rear end, and with the cylindrical axis of second is radial distribution's 4 at least second after-baffles for the center, each the baffle all corresponds the setting adjacent two behind the second between the wiring hole, and at least 4 the wiring hole all is located the cylindrical outside of second, each the baffle is kept away from behind the second the cylindrical one end of second with be provided with the clearance between the inside wall of socket shell's rear end, the second cylinder with socket shell's axis collineation, be provided with the second blind hole on the second cylinder, the second blind hole is kept away from the one end opening of partition portion.

8. The intelligent climbing frame socket according to claim 6,

the mounting panel is square, all be provided with the fixed orifices on four angles of mounting panel, or the mounting panel includes two edges two blocks of protrusion boards that socket shell's circumference direction symmetry set up, each all be provided with the fixed orifices on the protrusion board.

9. The intelligent climbing rack socket according to any one of claims 6 to 8,

at least 4 front clapboards are connected into a whole at the center of the front end of the socket shell, or a third cylinder which is superposed with the center of the front end of the socket shell is arranged at the center of the front end of the socket shell, and the inner sides of the at least 4 front clapboards are connected into a whole through the third cylinder;

wherein, at least 4 front baffles are radially distributed with the center of the plug plugging column.

10. A plug and socket assembly, characterized in that,

the intelligent climbing rack comprises the plug for the intelligent climbing rack as claimed in any one of claims 1 to 5 and the socket for the intelligent climbing rack as claimed in any one of claims 6 to 9, wherein the plug for the intelligent climbing rack can be matched with the socket for the intelligent climbing rack in an inserting manner, and a plurality of plug holes of the plug for the intelligent climbing rack can be correspondingly inserted with a plurality of inserting pins of the socket for the intelligent climbing rack.

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