CN113193419A - Fireproof flame-retardant glue-pouring socket - Google Patents

Abstract

The invention relates to the technical field of glue filling sockets, in particular to a fireproof flame-retardant glue filling socket which comprises a socket shell, wherein a first jack protection blocking piece, a second jack protection left blocking piece and a second jack protection right blocking piece are arranged to prevent external air from entering the interior of a plug board, further compress the air in the interior of the plug board, ensure that the air cannot enter the plug board in time to react when high temperature occurs in the interior of the plug board, achieve the flame-retardant effect, and prevent external dust and water drops from entering the plug board, thereby solving the problems of the existing socket that the material or the manufacturing process is poor, the socket generates larger high temperature in use in an improper use mode, the plug board burns due to the generation of overhigh temperature, unnecessary economic loss is caused, the socket is easily influenced by external factors due to the lack of protection at the jacks of the socket, and the like, the problem of damage to the socket is solved, and the use of the plug board is safer.

Description

Fireproof flame-retardant glue-pouring socket

Technical Field

The invention relates to the technical field of glue filling sockets, in particular to a fireproof flame-retardant glue filling socket.

Background

The socket is also called a power socket or a switch socket, and the socket is a socket into which one or more circuit wiring can be inserted, various wiring can be inserted through the socket, so that the socket is convenient to be connected with other circuits, and the connection and disconnection between a circuit and a copper piece are realized to finally achieve the connection and disconnection of the partial circuit.

The existing socket has the problems of material or manufacturing process and improper use mode, so that the socket can generate large high temperature in use, the flashboard is burnt due to the generation of the high temperature, unnecessary economic loss is caused, short circuit and the like are easily caused by the influence of external factors due to the lack of protection at the jacks of the socket, and the socket is damaged.

There is therefore a need for a fire resistant and flame retardant glue-filled socket that ameliorates the above problems.

Disclosure of Invention

The invention aims to provide a fireproof flame-retardant glue-pouring socket to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a fire-retardant encapsulating socket of preventing fires, includes socket shell, socket shell's terminal surface is equipped with first jack and second jack, the bottom of first jack is equipped with first jack protection architecture, the bottom of second jack is equipped with second jack protection architecture.

As a preferable scheme of the present invention, the first jack protection structure includes a first jack protection stopper, a jack stopper connecting plate, a limiting spring groove, and a reciprocating spring, the first jack protection stopper is disposed inside the first jack, the bottom of the first jack protection stopper is connected to the jack stopper connecting plate, the limiting spring groove is disposed at the center of the bottom of the jack stopper connecting plate, the reciprocating spring is disposed inside the limiting spring groove, the first jack is a three-hole jack, and the size of the first jack protection stopper is adapted to the size of the first jack.

As a preferable aspect of the present invention, the connection mode between the first jack protection stopper and the first jack is a clearance fit.

As a preferable scheme of the present invention, the second jack protection structure includes a second jack protection left stopper, a second jack protection right stopper, a left limit spring groove, a right limit spring groove, a left reciprocating spring and a right reciprocating spring, the left side inside the second jack is provided with the second jack protection left stopper, the right side inside the second jack is provided with the second jack protection right stopper, the bottom of the second jack protection left stopper is provided with the left limit spring groove, the bottom of the second jack protection right stopper is provided with the right limit spring groove, the left limit spring groove is internally provided with the left reciprocating spring, the right limit spring groove is internally provided with the right reciprocating spring, and the second jack is two-jack.

As a preferable scheme of the present invention, the connection manner between the second jack protection left stopper and the second jack is clearance fit, and the connection manner between the second jack protection right stopper and the second jack is clearance fit.

As a preferable scheme of the present invention, the right side of the socket housing is connected with an electric wire, the other end of the electric wire is connected with a three-hole plug, the end face of the socket housing and the right side close to the socket housing are provided with a control switch, the end face of the socket housing and the left side close to the socket housing are provided with an operating state indicator lamp, the bottom of the socket housing is connected with a socket bottom plate, and the right side inside the socket housing and on the end face of the socket bottom plate is provided with a control electric plate.

As a preferable scheme of the present invention, the control switch and the operating status indicator lamp are both electrically connected to the control electric board through a wire, and the control electric board is electrically connected to the power supply through a connection manner between an electric wire and the power supply.

As a preferable scheme of the present invention, the first jack is provided with three and transversely distributed on the end surface of the socket housing, the second jack is provided with three and correspondingly arranged with the first jack, and the first jack protection blocking member, the second jack protection left blocking member and the second jack protection right blocking member are all made of PC flame retardant plastic.

As a preferable scheme of the invention, the device further comprises a connecting device, wherein the connecting device comprises a first connecting part, a second connecting part and a slide rail, and the first connecting part and the second connecting part are detachably and movably connected;

the first connecting part is positioned on one side of the socket shell, which is far away from the first jack and the second jack, the first connecting part comprises a first fixing block, a fixing column and a lining plate, one side of the lining plate is fixed on the outer side wall of the socket shell, the other side of the lining plate is inwards provided with the first fixing blocks which are symmetrically arranged, the center of each first fixing block is provided with the fixing column, and the first fixing blocks are internally provided with a plurality of clamping grooves which are uniformly distributed by taking the axis of the fixing column as the rotation center circumference;

the second connecting part comprises a second fixed block, a rotating shaft, a shifting fork, a sliding groove, a telescopic rod, a sliding block, a fixed clamping groove and a sliding plate;

the sliding plate is connected in a sliding rail in a sliding mode, the second fixed blocks which are symmetrically arranged are arranged on one side, away from the sliding rail, of the sliding plate, the fixed clamping groove is formed in the center position of each second fixed block, the fixed clamping groove is matched with the fixed column in size, the second fixed blocks are further provided with the shifting forks which are symmetrically arranged about the axis of the fixed clamping groove, one ends of the shifting forks are rotatably connected to the second fixed blocks through the rotating shafts, the sliding grooves are formed in the other ends of the shifting forks, the sliding blocks are connected in the sliding grooves in a sliding mode, the sliding blocks are fixedly connected to one ends of the telescopic rods, and the other ends of the telescopic rods are fixed in the second fixed blocks;

a force sensor is further arranged on one side, away from the second fixed block, of the shifting fork;

the second connecting part is also provided with a solar energy conversion device, an energy storage device, a switch button and a controller;

the solar energy conversion device is electrically connected with the energy storage device, is used for converting solar energy into electric energy and storing the converted electric energy in the energy storage device, and is also provided with a charging interface;

the controller is respectively and electrically connected with the force sensor, the telescopic rod, the switch button and the energy storage device, the energy storage device is used for supplying power to the telescopic rod, and the controller controls the telescopic rod to work according to the detection value of the force sensor and the switch button.

As a preferred scheme of the present invention, the intelligent distribution system further comprises an intelligent distribution module, wherein the intelligent distribution module comprises a detection unit, a timing unit and a control unit;

the detection unit is used for detecting the output power of each first jack, the output power of each second jack and the total output power of the fireproof flame-retardant glue-pouring socket;

the timing unit is used for timing the working time of each first jack, each second jack and the working time of the fireproof flame-retardant glue-pouring socket;

the control unit is electrically connected with the detection unit and the timing unit respectively, and allocates the output power of each first jack and each second jack according to the detection unit and the timing unit;

when the detection unit detects that continuous power supply output exists in the fireproof flame-retardant glue pouring socket, the control unit calculates a power supply output distribution parameter A of the fireproof flame-retardant glue pouring socket within the set time T according to a detection value of the detection unit and a timing value of a timing unit after the fireproof flame-retardant glue pouring socket continuously supplies power and outputs the set time T;

P_{general assembly}The rated total output power of the fireproof flame-retardant glue-pouring socket is obtained;

P_Tsetting the actual total output power of the fireproof flame-retardant glue-pouring socket within a set time T;

m is the number of the first jacks;

P₁theoretical output power for the first jack;

P_xthe actual output power of the xth first jack is 1-m;

T_xthe power supply output time of the xth first jack in a set time T is 1-m;

n is the number of the second jacks;

P₂theoretical output power for the second jack;

P_ythe actual output power of the second jack of the y-th jack is 1-n;

T_ythe power supply output time of the ith second jack within the set time T is 1-n;

ln represents the logarithm based on the natural constant e;

then, the control unit calculates the target output power of each first jack and each second jack according to the calculated power supply output distribution parameter A of the fireproof flame-retardant glue-pouring socket within the set time T;

P_athe target output power of the first jack with the power supply output is the a-th, wherein the a is the number of the first jacks with the power supply output, and the a is 1-g, wherein the g is the total number of the first jacks with the power supply output;

P_bthe target output power of the second jack with the power supply output is the b-th, wherein the b is the number of the second jacks with the power supply output, and the b is 1-h, wherein the h is the total number of the second jacks with the power supply output;

and the control unit adjusts the output power of the first jack and the second jack to the corresponding target output power according to the calculation result.

Compared with the prior art, the invention has the beneficial effects that:

in the invention, the first jack protection blocking piece, the second jack protection left blocking piece and the second jack protection right blocking piece prevent external air from entering the plugboard, further compress the air in the plugboard, so that air cannot enter the plugboard in time to react when high temperature occurs in the plugboard, achieve the flame retardant effect, and prevent external dust and water drops from entering the plugboard, thereby solving the problems that the existing socket generates larger high temperature when in use due to material or manufacturing process problems, the plugboard burns due to the generation of overhigh temperature, unnecessary economic loss is caused, short circuit is easily caused by the influence of external factors due to the lack of protection at the jacks of the socket, the socket is damaged, the use of the plugboard is safer, and the service life of the plugboard is prolonged, the practicability of the plug board is improved.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a front sectional view of the present invention;

FIG. 3 is a bottom exploded view of the jack protection structure of the present invention;

FIG. 4 is a bottom view of the jack protection structure of the present invention;

FIG. 5 is a schematic structural diagram of a first connecting portion according to the present invention;

FIG. 6 is a cross-sectional view taken along line A-A of FIG. 5;

FIG. 7 is a schematic structural diagram of a second connecting portion according to the present invention;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 7;

FIG. 9 is a cross-sectional view taken along line C-C of FIG. 7;

FIG. 10 is an enlarged view of the structure of FIG. 7 at D;

FIG. 11 is a schematic view of the operation structure of the first connection portion and the second connection portion of the present invention;

FIG. 12 is an enlarged view of the structure at E in FIG. 11;

FIG. 13 is a schematic view of the operation structure of the first connecting portion and the second connecting portion when they are detached according to the present invention;

fig. 14 is an enlarged view of the structure at F in fig. 13.

In the figure: 1. a socket housing; 2. a first jack; 3. a second jack; 4. a first jack protection structure; 5. a second jack protection structure; 101. a first jack guard; 102. a plug hole stopper connecting plate; 103. a limiting spring groove; 104. a reciprocating spring; 201. the second jack protects the left stopper; 202. the second jack protects the right stopper; 203. a left limit spring groove; 204. a right limit spring slot; 205. a left reciprocating spring; 206. a right reciprocating spring; 301. an electric wire; 302. a three-hole plug; 303. a control switch; 304. a working state indicator light; 305. a receptacle chassis; 306. a control panel; 6. a first connection portion; 61. a first fixed block; 62. fixing a column; 63. a card slot; 64. a liner plate; 7. a second connecting portion; 71. a second fixed block; 72. a rotating shaft; 73. a shifting fork; 74. a sliding groove; 75. a telescopic rod; 76. a slider; 77. fixing the clamping groove; 78. a sliding plate; 8. a slide rail.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, rather than all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without any creative work based on the embodiments of the present invention belong to the protection scope of the present invention.

While several embodiments of the present invention will be described below in order to facilitate an understanding of the invention, with reference to the related description, the invention may be embodied in many different forms and is not limited to the embodiments described herein, but rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present, that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, and that the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-4, the present invention provides a technical solution:

the utility model provides a fire-retardant encapsulating socket of preventing fires, includes socket shell 1, and socket shell 1's terminal surface is equipped with first jack 2 and second jack 3, and the bottom of first jack 2 is equipped with first jack protection architecture 4, and the bottom of second jack 3 is equipped with second jack protection architecture 5.

In an embodiment, referring to fig. 1, 2, and 3, the first jack protection structure 4 includes a first jack protection stopper 101, a jack stopper connecting plate 102, a limiting spring groove 103, and a reciprocating spring 104, the first jack 2 is internally provided with the first jack protection stopper 101, the bottom of the first jack protection stopper 101 is connected to the jack stopper connecting plate 102, the center of the bottom of the jack stopper connecting plate 102 is provided with the limiting spring groove 103, the limiting spring groove 103 is internally provided with the reciprocating spring 104, the first jack 2 is a three-hole jack, the size of the first jack protection stopper 101 is adapted to the size of the first jack 2, the first jack protection stopper 101 is in clearance fit with the first jack 2, and the second jack protection structure 5 includes a second jack protection left stopper 201, a second jack protection right stopper 202, a left limiting spring groove 203, a right limiting spring groove 204, a left limiting spring groove 204, a right spring groove, A left reciprocating spring 205 and a right reciprocating spring 206, a left side of the inside of the second jack 3 is provided with a second jack protection left stopper 201, a right side of the inside of the second jack 3 is provided with a second jack protection right stopper 202, the bottom of the second jack protection left stopper 201 is provided with a left limit spring groove 203, the bottom of the second jack protection right stopper 202 is provided with a right limit spring groove 204, the inside of the left limit spring groove 203 is provided with a left reciprocating spring 205, the inside of the right limit spring groove 204 is provided with a right reciprocating spring 206, the second jack 3 is in a two-hole jack type, the connection mode between the second jack protection left stopper 201 and the second jack 3 is in clearance fit, the connection mode between the second jack protection right stopper 202 and the second jack 3 is in clearance fit, and external air is prevented from entering the inside of the insert plate by the arranged first jack protection stopper 101, the second jack protection left stopper 201 and the second jack protection right stopper 202, further compress the inside air of picture peg, make the inside high temperature that takes place of picture peg air can not in time get into and take place the reaction, reach flame retardant efficiency, and can prevent external dust and water droplet entering picture peg, thereby solved current socket because material or manufacturing process problem, and under improper using-way, lead to socket in use can produce great high temperature, the production of excess temperature makes the picture peg take place the burning, unnecessary economic loss has been caused, and because the jack department of socket lacks the protection, make the socket easily cause the short circuit scheduling problem by the influence of external factor, make the socket take place the problem of damage, and then make the use of picture peg safer and phase change the life who has increased the picture peg, make the practicality of picture peg promote.

The working process of the invention is as follows: under the effect that control electroplax 306 is electric connection through the connected mode between electric wire 301 and the power, for the picture peg circular telegram, control switch 303 and operating condition pilot lamp 304 are all opened control switch 303 through the wire with the effect of control electroplax 306, operating condition pilot lamp 304 lights, the picture peg normally works, insert the jack with the plug, under the connected mode between first jack protection fender 101 and first jack 2 is clearance fit's effect, with first jack protection fender 101 down-pressing, use, after extracting the plug, make first jack protection fender 101 restore to the throne through reciprocating spring, thereby continue to protect the picture peg, prevent air and dust entering plug, cause the damage to the picture peg.

Referring to fig. 5-14, the present invention provides a technical solution: the fireproof flame-retardant glue-pouring socket further comprises a connecting device, wherein the connecting device comprises a first connecting part 6, a second connecting part 7 and a slide rail 8, and the first connecting part 6 is detachably and movably connected with the second connecting part 7;

the first connecting portion 6 is located on one side of the socket housing 1 departing from the first jack 2 and the second jack 3, the first connecting portion 6 includes a first fixing block 61, a fixing column 62 and a lining plate 64, one side of the lining plate 64 is fixed on the outer side wall of the socket housing 1, the other side of the lining plate 64 is provided with the first fixing blocks 61 which are symmetrically arranged inwards, the center of each first fixing block 61 is provided with the fixing column 62, and a plurality of clamping grooves 63 which are uniformly distributed with the axis of the fixing column 62 as the rotation center circumference are arranged in the first fixing block 61;

the second connecting part 7 comprises a second fixed block 71, a rotating shaft 72, a shifting fork 73, a sliding groove 74, an expansion link 75, a sliding block 76, a fixed clamping groove 77 and a sliding plate 78;

the sliding plate 78 is slidably connected in the sliding rail 8, the sliding rail 8 can be made of plastic, rubber, titanium alloy, aerogel or other light materials of the same type, the sliding plate 78 is provided with the second fixed blocks 71 symmetrically arranged on one side away from the sliding rail 8, the center of each second fixed block 71 is provided with the fixed slot 77, the fixed slot 77 is matched with the fixed column 62 in size, the second fixed block 71 is further provided with the shifting fork 73 symmetrically arranged about the axis of the fixed slot 77, one end of the shifting fork 73 is rotatably connected to the second fixed block 71 through the rotating shaft 72, the other end of the shifting fork 73 is provided with the sliding groove 74, the sliding block 76 is connected in the sliding groove 74 in a sliding way, the sliding block 76 is fixedly connected to one end of the telescopic rod 75, and the other end of the telescopic rod 75 is fixed in the second fixed block 71;

a force sensor is further arranged on one side, away from the second fixed block 71, of the shifting fork 73;

the second connecting part 7 is also provided with a solar energy conversion device, an energy storage device, a switch button and a controller;

the solar energy conversion device is electrically connected with the energy storage device, is used for converting solar energy into electric energy and storing the converted electric energy in the energy storage device, and is also provided with a charging interface;

the controller is respectively electrically connected with the force sensor, the telescopic rod 75, the switch button and the energy storage device, the energy storage device is used for supplying power to the telescopic rod 75, and the controller controls the telescopic rod 75 to work according to the detection value of the force sensor and the switch button.

The working principle is as follows: arranging a connecting device, wherein the connecting device comprises a first connecting part 6, a second connecting part 7 and a slide rail 8, the second connecting part 7 is connected in the slide rail 8 in a sliding manner, and the first connecting part 6 is detachably connected with the second connecting part 7;

when the socket is used, the fixing columns 62 in the first connecting part 6 are aligned with the fixing clamping grooves 7763 in the second connecting part 7, the fixing clamping grooves 7763 also play a role of guiding, then the second connecting part 7 slides along the fixing clamping grooves 7763 through the fixing columns 62, so that the second fixing block 71 enters the first connecting part 6, the shifting fork 73 in the second connecting part 7 is contacted with the first connecting part 6 after entering the first connecting part 6, the force sensor on the shifting fork 73 is stressed to send a signal, and when the controller receives the signal of the force sensor, the controller controls the extension of the telescopic rod 75 to push the end, which is not fixed on the second fixing block 71, of the shifting fork 73 away from the second fixing block 71, and the pushed away end of the shifting fork 73 abuts against the clamping grooves 63 in the first connecting part 6, so that the first connecting part 6 is clamped with the second connecting part 7, and the socket shell 1 is fixed on the sliding plate 78;

when the first connecting part 6 and the second connecting part 7 need to be separated, the switch button is pressed, the controller receives a control signal, the telescopic rod 75 is controlled to be shortened, the telescopic rod 75 is shortened, and meanwhile, one end, which is not fixed on the second fixed block 71, of the shifting fork 73 is driven to be close to the second fixed block 71, so that the shifting fork 73 is separated from the clamping groove 63, and at the moment, the first connecting part 6 is separated from the second connecting part 7;

the sliding plate 78 can be connected in the sliding rail 8 in a sliding manner, when the fireproof flame-retardant glue-pouring socket needs to be fixed at a certain position, the sliding rail 8 is fixed on a mounting surface through bolts or traceless nanometer double-sided adhesive tapes, when the mounting position of the fireproof flame-retardant glue-pouring socket is fixed for a long time and is used by electric appliances with fixed positions such as televisions, refrigerators, air conditioners and the like, the sliding rail 8 can be fixed by selectively using the bolts to ensure stable mounting, the position of the fireproof flame-retardant glue-pouring socket can be finely adjusted through the sliding of the sliding plate 78 in the sliding rail 8, when the length of an electric wire 301 of the electric appliance is changed due to the replacement of a new electric appliance at the same position so that the position of the electric wire is changed earlier, a new electric appliance plug cannot be inserted into the fireproof flame-retardant glue-pouring socket at the original position, and at the moment, the position of the fireproof flame-retardant glue-pouring socket can be changed through the sliding of the sliding plate 78 in the sliding rail 8, the device can adapt to the position of an electric appliance, and is more convenient to use;

when the installation position of the fireproof flame-retardant glue-pouring socket needs to be changed frequently, the traceless nano double-sided adhesive tape can be selected to fix the slide rail 8, when the position of the fireproof flame-retardant glue-pouring socket needs to be changed, the fireproof flame-retardant glue-pouring socket is detached, the previously used traceless nano double-sided adhesive tape is removed, a new traceless nano adhesive tape is replaced and installed to the needed position, compared with bolt fixing, the traceless nano double-sided adhesive tape is used for fixing the slide rail 8, the installation surface cannot be damaged, and the traceless nano double-sided adhesive tape is suitable for being used when the installation position is frequently replaced;

the solar energy conversion device is arranged to convert solar energy into electric energy and store the electric energy into the energy storage device, the telescopic rod 75 is powered by the electric energy stored in the energy storage device, the use is convenient, and the energy storage device is further provided with a charging interface;

to sum up, make the mounted position of fire-retardant encapsulating socket of preventing fires more nimble through setting up connecting device, convenient to use more.

The intelligent distribution system further comprises an intelligent distribution module, wherein the intelligent distribution module comprises a detection unit, a timing unit and a control unit;

the detection unit is used for detecting the output power of each first jack 2, the output power of each second jack 3 and the total output power of the fireproof flame-retardant glue-pouring socket;

the timing unit is used for timing the working time of each first jack 2 and each second jack 3 and the working time of the fireproof flame-retardant glue-pouring socket;

the control unit is electrically connected with the detection unit and the timing unit respectively, and allocates the output power of each first jack 2 and each second jack 3 according to the detection unit and the timing unit;

when the detection unit detects that continuous power supply output exists in the fireproof flame-retardant glue pouring socket, the control unit calculates a power supply output distribution parameter A of the fireproof flame-retardant glue pouring socket within the set time T according to a detection value of the detection unit and a timing value of a timing unit after the fireproof flame-retardant glue pouring socket continuously supplies power and outputs the set time T;

P_{general assembly}The rated total output power of the fireproof flame-retardant glue-pouring socket is obtained;

P_Tsetting the actual total output power of the fireproof flame-retardant glue-pouring socket within a set time T;

m is the number of the first jacks 2;

P₁theoretical output power for the first jack 2;

P_xthe actual output power of the xth first jack 2, x is 1-m;

T_xthe power supply output time of the xth first jack 2 in the set time T is 1-m;

n is the number of the second jacks 3;

P₂is the theoretical output power of the second jack 3;

P_ythe actual output power of the second jack 3 of the y-th jack, wherein y is 1-n;

T_ythe power supply output time of the yth second jack 3 in the set time T is 1-n;

ln represents the logarithm based on the natural constant e;

then, the control unit calculates the target output power of each first jack 2 and each second jack 3 according to the calculated power supply output distribution parameter A of the fireproof flame-retardant glue-pouring socket within the set time T;

P_atarget output power of the first jack 2 with the power supply output for the a-th, wherein a is the number of the first jacks 2 with the power supply output, and a is 1-g, wherein g is the total number of the first jacks 2 with the power supply output;

P_btarget output power of the second jack 3 with power supply output for the b-th, wherein b is the number of the second jacks 3 with power supply output, and b is 1-h, wherein h is the total number of the second jacks 3 with power supply output;

and the control unit adjusts the output power of the first jack 2 and the second jack 3 to the corresponding target output power according to the calculation result.

The working principle is as follows: when the fireproof flame-retardant glue-pouring socket is normally used, part of the first jacks 2 and the second jacks 3 do not work, and the condition of power output does not exist, so that the power supply output of the fireproof flame-retardant glue-pouring socket can be redistributed under the condition, and the output power of the first jacks 2 and the second jacks 3 which are used can better meet the use requirement; the output power of each first jack 2, the output power of each second jack 3 and the total output power of the fireproof flame-retardant glue-pouring socket are detected by arranging a detection unit, the working time of each first jack 2, each second jack 3 and the working time of the fireproof flame-retardant glue-pouring socket are timed by arranging a timing unit, and the working state of the fireproof flame-retardant glue-pouring socket can be detected by the detection unit and the timely unit; when the detection unit detects that the fireproof flame-retardant glue-pouring socket has continuous power supply output, the control unit outputs the continuous power supply output for the set timeThen, calculating power supply output distribution parameters of the fireproof flame-retardant glue-pouring socket within set time according to the detection value of the detection unit and the timing value of the timing unit, wherein the power supply output distribution parameters represent the distribution condition of the power supply output power of the first jack 2 and the second jack 3 which have power supply output within the set time and the total output power of the fireproof flame-retardant glue-pouring socket within the set time and the comprehensive judgment parameter of the rated total output power of the fireproof flame-retardant glue-pouring socket, wherein,

indicating the power supply output condition of the first jack 2 within a set time T,

indicating the power supply output condition of the second jack 3 within the set time T,

the ratio of the total power supply output power of the fireproof flame-retardant glue-pouring socket within the set time T to the rated total output power of the fireproof flame-retardant glue-pouring socket is represented, the power supply output power of the first jack 2 and the power supply output power of the second jack 3 which have power supply output currently are allocated according to the calculated power supply output distribution parameters within the set time, and therefore the fireproof flame-retardant glue-pouring socket can intelligently allocate the power supply output power of the first jack 2 and the power supply output power of the second jack 3 which are in use according to actual use conditions, so that the power supply output is more reasonable, and the service performance of the fireproof flame-retardant glue-pouring socket is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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. The utility model provides a fire-retardant encapsulating socket of preventing fires, includes socket shell (1), its characterized in that: the terminal surface of socket shell (1) is equipped with first jack (2) and second jack (3), the bottom of first jack (2) is equipped with first jack protection architecture (4), the bottom of second jack (3) is equipped with second jack protection architecture (5).

2. The fire-proof and flame-retardant glue-pouring socket according to claim 1, characterized in that: the first jack protection structure (4) comprises a first jack protection stopper (101), a jack stopper connecting plate (102), a limiting spring groove (103) and a reciprocating spring (104), the first jack protection stopper (101) is arranged inside the first jack (2), the bottom of the first jack protection stopper (101) is connected with the jack stopper connecting plate (102), the limiting spring groove (103) is formed in the center of the bottom of the jack stopper connecting plate (102), the reciprocating spring (104) is arranged inside the limiting spring groove (103), the first jack (2) is a three-hole jack, and the size of the first jack protection stopper (101) is matched with that of the first jack (2).

3. The fire-proof and flame-retardant glue-pouring socket according to claim 2, characterized in that: the first jack protection stopper (101) is in clearance fit with the first jack (2).

4. The fire-proof and flame-retardant glue-pouring socket according to claim 1, characterized in that: the second jack protection structure (5) comprises a second jack protection left stopper (201), a second jack protection right stopper (202), a left limit spring groove (203), a right limit spring groove (204), a left reciprocating spring (205) and a right reciprocating spring (206), a second jack protection left stopper (201) is arranged at the left side inside the second jack (3), a second jack protection right stopper (202) is arranged at the right side inside the second jack (3), the bottom of the second jack protecting the left stopper (201) is provided with a left limit spring groove (203), the bottom of the second jack protection right stopper (202) is provided with a right limit spring groove (204), a left reciprocating spring (205) is arranged inside the left limit spring groove (203), a right reciprocating spring (206) is arranged inside the right limiting spring groove (204), and the second jack (3) is a two-hole jack.

5. The fire-proof and flame-retardant glue-pouring socket according to claim 4, characterized in that: the connection mode between the second jack protection left stopper (201) and the second jack (3) is clearance fit, and the connection mode between the second jack protection right stopper (202) and the second jack (3) is clearance fit.

6. The fire-proof and flame-retardant glue-pouring socket according to claim 1, characterized in that: the right side of the socket shell (1) is connected with an electric wire (301), the other end of the electric wire (301) is connected with a three-hole plug (302), a control switch (303) is arranged on the end face of the socket shell (1) and close to the right side of the socket shell (1), a working state indicator lamp (304) is arranged on the end face of the socket shell (1) and close to the left side of the socket shell (1), the bottom of the socket shell (1) is connected with a socket bottom plate (305), and a control electric plate (306) is arranged inside the socket shell (1) and on the right side of the end face of the socket bottom plate (305);

the control switch (303) and the working state indicator lamp (304) are both connected with the control electric board (306) through wires, and the control electric board (306) is electrically connected with a power supply through a connection mode between the electric wire (301).

7. A fire-proof and fire-retardant glue-pouring socket according to claim 2 or 3, characterized in that: the socket comprises a socket shell (1), a first jack (2), a second jack (3), a first jack protection blocking piece (101), a second jack protection left blocking piece (201) and a second jack protection right blocking piece (202), wherein the first jack (2) is three and transversely distributed on the end face of the socket shell (1), the second jack (3) is three and is arranged corresponding to the first jack (2), and the first jack protection blocking piece, the second jack protection left blocking piece and the second jack protection right blocking piece are all made of PC flame-retardant plastic.

8. The fire-proof and flame-retardant glue-pouring socket according to claim 1, characterized in that:

the connecting device comprises a first connecting part (6), a second connecting part (7) and a sliding rail (8), wherein the first connecting part (6) is detachably and movably connected with the second connecting part (7);

the first connecting portion (6) is located on one side, away from the first jack (2) and the second jack (3), of the socket shell (1), the first connecting portion (6) comprises a first fixing block (61), fixing columns (62) and a lining plate (64), one side of the lining plate (64) is fixed to the outer side wall of the socket shell (1), the first fixing blocks (61) are symmetrically arranged on the other side of the lining plate (64) in an inward mode, the fixing columns (62) are arranged at the center of each first fixing block (61), and a plurality of clamping grooves (63) which are uniformly distributed with the axis of each fixing column (62) as a rotation center and in a circumferential mode are formed in each first fixing block (61);

the second connecting part (7) comprises a second fixed block (71), a rotating shaft (72), a shifting fork (73), a sliding groove (74), an expansion rod (75), a sliding block (76), a fixed clamping groove (77) and a sliding plate (78);

the sliding plate (78) is connected in a sliding rail (8) in a sliding manner, the second fixing blocks (71) which are symmetrically arranged are arranged on one side, away from the sliding rail (8), of the sliding plate (78), the fixing clamping groove (77) is formed in the center position of each second fixing block (71), the fixing clamping groove (77) is matched with the fixing column (62) in size, the second fixing blocks (71) are further provided with shifting forks (73) which are symmetrically arranged about the axis of the fixing clamping groove (77), one end of each shifting fork (73) is rotatably connected to the second fixing blocks (71) through the rotating shaft (72), the sliding groove (74) is formed in the other end of each shifting fork (73), the sliding block (76) is connected in the sliding groove (74) in a sliding manner, and the sliding block (76) is fixedly connected to one end of the telescopic rod (75), the other end of the telescopic rod (75) is fixed in the second fixing block (71);

and a force sensor is further arranged on one side, far away from the second fixed block (71), of the shifting fork (73).

9. The fire-proof and flame-retardant glue-pouring socket according to claim 8, characterized in that:

the second connecting part (7) is also provided with a solar energy conversion device, an energy storage device, a switch button and a controller;

the solar energy conversion device is electrically connected with the energy storage device, is used for converting solar energy into electric energy and storing the converted electric energy in the energy storage device, and is also provided with a charging interface;

the controller is respectively and electrically connected with the force sensor, the telescopic rod (75), the switch button and the energy storage device, the energy storage device is used for supplying power to the telescopic rod (75), and the controller controls the telescopic rod (75) to work according to the detection value of the force sensor and the switch button.

10. The fire-proof and flame-retardant glue-pouring socket according to claim 1, characterized in that:

the intelligent distribution module comprises a detection unit, a timing unit and a control unit;

the detection unit is used for detecting the output power of each first jack (2), the output power of each second jack (3) and the total output power of the fireproof flame-retardant glue pouring socket;

the timing unit is used for timing the working time of each first jack (2), each second jack (3) and the working time of the fireproof flame-retardant glue pouring socket;

the control unit is electrically connected with the detection unit and the timing unit respectively, and allocates the output power of each first jack (2) and each second jack (3) according to the detection unit and the timing unit;

when the detection unit detects that continuous power supply output exists in the fireproof flame-retardant glue pouring socket, the control unit calculates a power supply output distribution parameter A of the fireproof flame-retardant glue pouring socket within the set time T according to a detection value of the detection unit and a timing value of a timing unit after the fireproof flame-retardant glue pouring socket continuously supplies power and outputs the set time T;

P_{general assembly}Is against fireRated total output power of the flame-retardant glue-pouring socket;

P_Tsetting the actual total output power of the fireproof flame-retardant glue-pouring socket within a set time T;

m is the number of the first jacks (2);

P₁-theoretical output power for the first jack (2);

P_xthe actual output power of the xth first jack (2) is 1-m;

T_xthe power supply output time of the xth first jack (2) in a set time T is 1-m;

n is the number of the second jacks (3);

P₂-theoretical output power for the second jack (3);

P_ythe actual output power of the second jack (3) of the y-th jack is 1-n;

T_ythe power supply output time of the yth second jack (3) in the set time T is 1-n;

ln represents the logarithm based on the natural constant e;

then, the control unit calculates the target output power of each first jack (2) and each second jack (3) according to the calculated power supply output distribution parameter A of the fireproof flame-retardant glue-pouring socket within the set time T;

P_aa target output power of the first jack (2) for the a-th existing power supply output, wherein a is the number of the first jacks (2) for which power supply outputs exist, and a is 1-g, wherein g is the total number of the first jacks (2) for which power supply outputs exist;

P_bis the b thA target output power of the second jacks (3) with power supply outputs, wherein b is the number of the second jacks (3) with power supply outputs, and b is 1-h, wherein h is the total number of the second jacks (3) with power supply outputs;

and the control unit adjusts the output power of the first jack (2) and the second jack (3) to the corresponding target output power according to the calculation result.

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