CN110911903B - Single-control master control integrated mistaken-closing prevention mobile socket - Google Patents

Abstract

The invention discloses a single-control and total-control integrated mistaken-closing prevention mobile socket, which comprises a socket shell, wherein a row of sockets are arranged on the rear side in the socket shell, switch devices are arranged on the front side of the socket, the switch device facing to the front side of each socket is a single-control switch, the switch device positioned on the rightmost side is a total-control switch, the switch devices except the rightmost side can independently control the power-on and power-off of the socket facing to the rear side, and the switch device on the rightmost side can control the turn-off of the other switch devices under the condition of controlling the power-on and power-off of a main circuit. Or the main circuit is powered off through the main switch.

Description

Single-control master control integrated mistaken-closing prevention mobile socket

Technical Field

The invention relates to the technical field of electric switches, in particular to a mistaken-closing prevention mobile socket integrating single control and total control.

Background

The electric switch is an important element for controlling the circuit to be opened and closed in life, the movable socket is also a common tool for prolonging the circuit and controlling the circuit to be opened and closed, the movable socket is divided into various types such as no-switch control, single-switch master control, multi-switch sub control and the like, the multi-switch sub control movable socket can be opened and closed by independently controlling the circuit of each socket, and further can meet the opening and closing requirements of various circuits, but most of the existing movable sockets adopt a toggle type and a self-locking type, the toggle type can directly open and close the circuit when the switch is directly toggled, the self-locking type can be powered on when being pressed down, the power failure can be realized only after hands are released when the switch is pressed down again, the sudden power failure of an electric appliance can be caused by mistakenly touching or pressing the wrong switch in life, further, the trouble can be not small in life can be generated, and simultaneously, the failure phenomenon can occur after, the user directly utilizes the main switch to cut off the power under unknown conditions, and once the main switch cannot cut off the power of the main circuit, the whole socket is still powered on, which is dangerous sometimes. The present invention sets forth a device that solves the above problems.

Disclosure of Invention

The technical problem is as follows:

the conventional electric switch of the mobile socket is easy to be accidentally powered off due to mistaken touch or wrong pressing, and when the main switch cannot close the main circuit, the main switch can be completely failed, so that the conventional electric switch is dangerous under unknown conditions.

In order to solve the problems, the embodiment designs a single-control total control integrated false turn-off prevention mobile socket, which comprises a socket shell, wherein a row of sockets are arranged on the rear side in the socket shell, switch devices are arranged on the front side of the socket, the switch device facing each socket front side is a single-control switch, the switch device positioned on the rightmost side is a total control switch, the switch devices except the rightmost side can independently control the power-on and power-off of the socket facing the rear side, the switch device on the rightmost side can control the switch devices to be turned off under the condition of controlling the power-on and power-off of a total circuit, a control cavity which is uniformly distributed on the left side and the right side in the socket shell is arranged in the switch device, a positioning plate capable of sliding up and down is arranged in the control cavity, and clamping grooves are symmetrically arranged in the left end surface and the right end surface of the positioning plate, the control cavity is provided with clamping rods which can be clamped into the clamping grooves in a symmetrical and slidable manner, the positioning plate is provided with a control plate which can slide up and down in the control cavity and rotate at the upper side, the control cavity is provided with a power-on cavity at the lower side, the positioning plate is fixedly provided with an insulating rod at the lower end, the insulating rod extends into the power-on cavity and is fixedly provided with a power-on plate, the lower wall of the power-on cavity is bilaterally symmetrical and is fixedly provided with a conductive block, when the control plate presses the positioning plate until the power-on plate is abutted against the conductive block and conducts electricity, the clamping rods clamp the positioning plate to realize circuit opening, the front side of the clamping rods is provided with an unlocking device, the unlocking device is internally provided with unlocking blocks which can slide back and forth and drive the clamping rods to be away from each other, when the control plate presses and rotates, the unlocking blocks can be driven to move forward to further, the circuit is turned off.

The switch device comprises clamping rod cavities which are symmetrically and communicated with each other and are arranged on the left wall and the right wall of the control cavity, the clamping rods can slide left and right in the clamping rod cavities, the lower wall of the control cavity is communicated with the center between the upper walls of the power-on cavities, a conduction opening is formed in the center, the insulating rod penetrates through the conduction opening, the left end and the right end of the lower end face of the positioning plate are arranged to be inclined planes, and the clamping rods can be driven to be away from each other through the inclined planes when the positioning plate descends.

Preferably, a top pressure spring is fixedly connected between the lower end surface of the positioning plate and the lower wall of the control cavity, the top pressure spring can provide power for the positioning plate to ascend and return, a compression spring is fixedly connected between one end of the clamping rod far away from the symmetry center and the inner wall of the clamping rod cavity, and the compression spring can move towards the direction close to the symmetry center for the clamping rod and does not provide power.

Preferably, the lower end of the conductive block is fixedly provided with a wire positioned in the lower wall of the power-on cavity, the wires on the left side and the right side are respectively provided with an electric wire and an electric wire, the wires are electrically connected with the socket, and when the power-on plate abuts against the conductive block, the circuits between the conductive blocks on the left side and the right side are communicated, so that the power-on of the socket is realized. .

Wherein, unlocking device locates including the intercommunication the slide bar chamber of card pole chamber front side, but slide bar intracavity horizontal slip locate fixed connection in the trace of terminal surface before the card pole chamber, the control chamber front side is equipped with the ejector pad chamber, the slidable is equipped with the slurcam around the ejector pad intracavity, the intercommunication of ejector pad chamber left and right sides be equipped with communicate in the oblique chamber of the relative one side inner wall front end in slide bar chamber, both ends symmetry about the slurcam just fixed be equipped with can in gliding inclined plane push rod around in the oblique chamber, the trace front end is fixed to be equipped with and is located the down tube about in the oblique chamber just can be controlled, the antedisplacement of inclined plane push rod accessible inclined plane counterbalance drives the down tube is to keeping away from the removal of symmetry center direction.

Preferably, a compression spring is fixedly connected between the front end of the pushing block and the front wall of the pushing block cavity, and the compression spring can provide power for the pushing block to move backwards and return.

Preferably, a synchronous rod cavity is communicated between the adjacent pushing block cavities, a synchronous push rod which penetrates through the pushing block cavity and is located on the rear side of the pushing block is arranged in the synchronous rod cavity in a front-back sliding mode, the rear end of the pushing block on the rightmost side is fixedly connected with the front end face of the synchronous push rod, and the rear ends of the other pushing blocks are connected with the front end face of the synchronous push rod in an abutting mode.

Preferably, the control chamber is controlled two wall upper end symmetries and the intercommunication and is equipped with and leads smooth chamber, it can be gliding about the control chamber be equipped with fixed connection in the slider that leads of both ends about the control panel, the left side lead smooth chamber antetheca and right side lead smooth chamber back wall ring symmetry and intercommunication be equipped with communicate in the fan-shaped chamber of control chamber, left side front side the outer circular wall front end intercommunication of fan-shaped chamber be equipped with communicate in the slider chamber of ejector pad chamber upper wall, the gliding be equipped with fixed connection around the slider intracavity can be in it is convex circular arc slider to promote piece upper end and rear end.

Preferably, a return spring is fixedly connected between the control panel and the positioning plate, and the return spring can drive the control panel to ascend, rotate and return.

Preferably, the control chamber upper wall intercommunication is equipped with the forward opening chamber of opening, the fixed being equipped with in control panel upper end passes the opening chamber extends to the control button of socket shell upside, through but the manual drive of control button the control panel descends or rotates, the control button up end is equipped with the decorative pattern that is used for increasing frictional force, and the finger of being convenient for passes through frictional force and drives the control button is rotatory.

The invention has the beneficial effects that: the invention realizes the closing of the circuit switch by pressing and rotating the button, avoids the circuit power failure caused by accidentally pressing the switch, further avoids the accident generation caused by the accidental power failure of the electric appliance, is simultaneously provided with the main switch and the branch control switches, can carry out the independent socket power failure through the branch control, or realizes the main circuit power failure through the main switch, can simultaneously close all the branch control switches by closing the main switch, can press the main switch to simultaneously close all the branch control switches when the main circuit cannot be disconnected due to the damage of the circuit of the main switch, still can realize the total control power closing, and has higher safety and reliability.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic view of an overall structure of an anti-false-turn-off mobile socket of the present invention, which integrates a single-control main control;

FIG. 2 is an enlarged schematic view of a single "switch gear" of FIG. 1;

FIG. 3 is a schematic view of the structure in the direction "A-A" in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "B-B" in FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "C-C" in FIG. 1;

FIG. 6 is a schematic view of the structure in the direction "D-D" in FIG. 5.

Detailed Description

The invention will now be described in detail with reference to fig. 1-6, for ease of description, the orientations described below will now be defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a single-control and total-control integrated mistaken-closing prevention mobile socket, which is mainly applied to the switch control of a mobile socket circuit, and the invention is further explained by combining the attached drawings of the invention as follows:

the invention relates to a single-control and total-control integrated mistaken-closing prevention mobile socket, which comprises a socket shell 11, wherein a row of sockets 12 are arranged on the rear side in the socket shell 11, switch devices 101 are arranged on the front side of the sockets 12, the switch device 101 facing the front side of each socket 12 is a single-control switch, the switch device 101 positioned on the rightmost side is a total-control switch, the switch devices 101 except the rightmost side can independently control the power-on and power-off of the socket 12 facing the rear side, the switch device 101 on the rightmost side can control the power-off of the rest switch devices 101 under the condition of controlling the power-on and power-off of a total circuit, a control cavity 13 which is uniformly distributed on the left side and the right side in the front side in the socket shell 11 is arranged in the switch cavity 13, a positioning plate 14 capable of sliding up and down is arranged in the control cavity 13, clamping grooves 15 are symmetrically arranged, the left wall and the right wall of the control cavity 13 are symmetrically and slidably provided with clamping rods 16 which can be clamped into the clamping grooves 15, the upper side of the positioning plate 14 is provided with control plates 17 which can slide up and down and rotate in the control cavity 13, the lower side of the control cavity 13 is provided with a power-on cavity 18, the lower end of the positioning plate 14 is fixedly provided with an insulating rod 19, the lower end of the insulating rod 19 extends into the power-on cavity 18 and is fixedly provided with a power-on plate 20, the lower wall of the power-on cavity 18 is bilaterally and symmetrically and is fixedly provided with conductive blocks 21, when the control plate 17 presses down the positioning plate 14 until the power-on plate 20 abuts against the conductive blocks 21 and is conductive, the clamping rods 16 clamp the positioning plate 14 to realize circuit opening, the front side of the clamping rods 16 is provided with an unlocking device 102, the unlocking block 22 which can slide back and forth and can drive the clamping rods 16 to be far away from each other is arranged in the unlocking device 102, and when the control plates 17 press down and, thereby realizing the unlocking of the clamping rod 16 and the circuit closing.

According to an embodiment, the switching device 101 is described in detail below, the switching device 101 includes two symmetrical clamping rod cavities 25 that are communicated with the left wall and the right wall of the control cavity 13, the clamping rods 16 are slidably disposed in the clamping rod cavities 25, a conducting opening 26 is communicated with the center between the lower wall of the control cavity 13 and the upper wall of the conducting cavity 18, the insulating rod 19 passes through the conducting opening 26, the left end and the right end of the lower end surface of the positioning plate 14 are inclined surfaces, and the positioning plate 14 can drive the clamping rods 16 to move away from each other through the inclined surfaces when descending.

Advantageously, a top pressure spring 27 is fixedly connected between the lower end surface of the positioning plate 14 and the lower wall of the control chamber 13, the top pressure spring 27 can provide power for the lifting and resetting of the positioning plate 14, a compression spring 28 is fixedly connected between one end of the clamping rod 16 far away from the symmetry center and the inner wall of the clamping rod chamber 25, and the compression spring 28 can provide no power for the clamping rod 16 to move towards the symmetry center.

Beneficially, the lower end of the conductive block 21 is fixedly provided with a wire 30 located in the lower wall of the conductive cavity 18, the wires 30 on the left and right sides enter and exit the electric wire, respectively, and the wire 30 is electrically connected to the socket 12, so that when the conductive plate 20 abuts against the conductive block 21, the conductive blocks 21 on the left and right sides are electrically connected, and the socket 12 is powered on.

According to an embodiment, the unlocking device 102 is described in detail below, the unlocking device 102 includes a slide rod cavity 31 disposed in communication with the front side of the clamping rod cavity 25, the slide bar cavity 31 is internally provided with a linkage bar 32 which can slide left and right and is fixedly connected with the front end surface of the clamping bar cavity 25, a push block cavity 33 is arranged at the front side of the control cavity 13, a push block 34 is arranged in the push block cavity 33 in a sliding way, the left side and the right side of the push block cavity 33 are communicated with an inclined push cavity 35 communicated with the front end of the inner wall at the opposite side of the slide rod cavity 31, the left end and the right end of the pushing block 34 are symmetrical and fixedly provided with inclined push rods 36 which can slide back and forth in the inclined push cavity 35, the front end of the linkage rod 32 is fixedly provided with an inclined rod 37 which is positioned in the inclined pushing cavity 35 and can be arranged on the left and the right, the inclined push rod 36 moves forward to drive the inclined rod 37 to move away from the symmetrical center through the inclined push rod.

Advantageously, a compression spring 38 is fixedly connected between the front end of the pushing block 34 and the front wall of the pushing block cavity 33, and the compression spring 38 can provide power for the backward movement of the pushing block 34.

Beneficially, a synchronizing rod cavity 40 is communicated between the adjacent pushing block cavities 33, a synchronizing push rod 41 which penetrates through the pushing block cavity 33 and is located at the rear side of the pushing block 34 is slidably arranged in the synchronizing rod cavity 40 back and forth, the rear end of the pushing block 34 at the rightmost side is fixedly connected with the front end face of the synchronizing push rod 41, and the rear ends of the other pushing blocks 34 are abutted to the front end face of the synchronizing push rod 41.

Beneficially, the upper ends of the left and right walls of the control cavity 13 are symmetrically and communicatively provided with a sliding guide cavity 42, a sliding guide block 43 fixedly connected to the left and right ends of the control plate 17 is slidably provided in the sliding guide cavity 42, the front wall of the sliding guide cavity 42 on the left side and the rear wall of the sliding guide cavity 42 on the right side are circularly symmetric and communicatively provided with a sector cavity 44 communicated with the control cavity 13, the front end of the outer circular wall of the sector cavity 44 on the left front side is communicatively provided with a sliding block cavity 45 communicated with the upper wall of the push block cavity 33, and an arc sliding block 46 fixedly connected to the upper end of the push block 34 and having a circular arc-shaped rear end is slidably provided in the sliding block cavity 45.

Advantageously, a return spring 47 is fixedly connected between the control plate 17 and the positioning plate 14, and the return spring 47 can drive the control plate 17 to ascend and rotate and return.

Advantageously, the upper wall of the control cavity 13 is communicated with an open cavity 50 with a forward opening, the upper end of the control panel 17 is fixedly provided with a control knob 51 which penetrates through the open cavity 50 and extends to the upper side of the socket housing 11, the control panel 17 can be manually driven to descend or rotate by the control knob 51, and the upper end face of the control knob 51 is provided with patterns for increasing friction force, so that the control knob 51 can be driven to rotate by fingers through friction force.

The following will describe in detail the use steps of the anti-false-off mobile socket integrated with single control and master control in this document with reference to fig. 1 to 6:

in the initial state, the control plate 17 and the positioning plate 14 are at the upper limit position, the top pressure spring 27 and the return spring 47 are in the relaxed state, the power-on plate 20 is at the upper limit position, the opposite end of the clamping rod 16 extends into the control cavity 13, the pressure-resistant spring 28 is in the relaxed state, the pushing block 34 is at the rear limit position, the synchronous push rod 41 is at the rear limit position, and the arc slider 46 is at the rear limit position and extends into the left front sector cavity 44.

When the socket 12 needs to be used, the control button 51 at the front side of the socket 12 to be used is pressed down, the electrifying plate 20 at the position is communicated with the conductive block 21, and the plug can be inserted into the socket 12 for use at the moment;

when the power is off, when only one of the sockets 12 needs to be closed, the control button 51 facing the front side of the secondary socket 12 can be pressed down, so as to drive the guide slider 43 to descend to the lower limit position, at this time, the guide slider 43 is opposite to the sector cavity 44, the control button 51 is driven to rotate by the rotation of the fingers and the friction force, so as to drive the control panel 17 to rotate, so as to drive the guide slider 43 to rotate along the sector cavity 44, at this time, the left guide slider 43 rotates to the front side and pushes the arc slider 46 to move forward, so as to drive the push block 34 to move forward and disengage from the synchronous push rod 41, at the same time, the push block 34 drives the inclined plane push rod 36 to move forward, so as to drive the inclined rods 37 to move away from each other by the inclined plane engagement, so as to drive the clamping rods 16 to move away from the clamping grooves 15 by the linkage rod 32, at this time, the positioning plate 14 rises under the elastic force of the, realize single-control unblock this moment, when needing to close whole power, press rightmost side control button 51 and rotate, and then drive the rightmost side and promote piece 34 antedisplacement, and drive synchronous push rod 41 antedisplacement through fixed connection, synchronous push rod 41 drives all and promotes synchronous antedisplacement of piece 34 this moment, and then shifts out draw-in groove 15 with the kelly 16 of all electrified sockets 12 front sides, after releasing the hand this moment, all locating plates 14 realize resetting, control the circuit disconnection of all single-control switches when cutting off the power supply to the main circuit, ensure that the circuit breaks off completely.

The invention has the beneficial effects that: the invention realizes the closing of the circuit switch by pressing and rotating the button, avoids the circuit power failure caused by accidentally pressing the switch, further avoids the accident generation caused by the accidental power failure of the electric appliance, is simultaneously provided with the main switch and the branch control switches, can carry out the independent socket power failure through the branch control, or realizes the main circuit power failure through the main switch, can simultaneously close all the branch control switches by closing the main switch, can press the main switch to simultaneously close all the branch control switches when the main circuit cannot be disconnected due to the damage of the circuit of the main switch, still can realize the total control power closing, and has higher safety and reliability.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims (5)

1. The utility model provides a collection single control is always controlled in the mistake of an organic whole and is closed mobile socket, includes socket shell, its characterized in that: a row of sockets are arranged on the rear side in the socket shell, switch devices are arranged on the front sides of the sockets, the switch device facing each socket front side is a single-control switch, the switch device positioned on the rightmost side is a master control switch, the switch devices except the rightmost side can independently control the power-on and power-off of the socket facing the rear side, and the switch device on the rightmost side can control the other switch devices to be turned off under the condition of controlling the power-on and power-off of a master circuit;

the switch device is internally provided with a control cavity which is evenly distributed at the left side and the right side and is positioned at the front side in the socket shell, a positioning plate capable of sliding up and down is arranged in the control cavity, clamping grooves are symmetrically arranged in the left end surface and the right end surface of the positioning plate, clamping rods capable of being clamped into the clamping grooves are symmetrically and slidably arranged in the left wall and the right wall of the control cavity, a control plate capable of sliding up and down and rotating in the control cavity is arranged on the upper side of the positioning plate, a power-on cavity is arranged on the lower side of the control cavity, an insulating rod is fixedly arranged at the lower end of the positioning plate, the lower end of the insulating rod extends into the power-on cavity and is fixedly provided with a power-on plate, conductive blocks are symmetrically and fixedly arranged on the lower wall of the power-on cavity, and when the control plate presses the positioning;

an unlocking device is arranged on the front side of the clamping rod, an unlocking block which can slide back and forth and drive the clamping rod to be away from each other is arranged in the unlocking device, and when the control panel is pressed down and rotated, the unlocking block can be driven to move forwards, so that the clamping rod is unlocked, and the circuit is switched off;

the switch device comprises clamping rod cavities which are symmetrically communicated with the left wall and the right wall of the control cavity, the clamping rods can be arranged in the clamping rod cavities in a left-right sliding mode, a conduction opening is formed in the center between the lower wall of the control cavity and the upper wall of the power-on cavity in a communicating mode, the insulating rod penetrates through the conduction opening, the left end and the right end of the lower end face of the positioning plate are arranged to be inclined planes, and the positioning plate can drive the clamping rods to be away from each other through the inclined planes when descending;

the unlocking device comprises a slide rod cavity communicated with the front side of the clamping rod cavity, a linkage rod which is arranged in the slide rod cavity and can slide left and right and is fixedly connected with the front end surface of the clamping rod cavity, a push block cavity is arranged on the front side of the control cavity, a push block is arranged in the push block cavity and can slide front and back, inclined push cavities communicated with the front end of the inner wall of the opposite side of the slide rod cavity are communicated with the left and right sides of the push block cavity, inclined push rods which can slide front and back in the inclined push cavities are symmetrically arranged at the left and right ends of the push block, inclined rods which can slide left and right in the inclined push cavities are fixedly arranged at the front end of the linkage rod, and the inclined push rods can move forwards to the direction away from the symmetrical center by being pressed by the inclined;

the method is characterized in that: a compression spring is fixedly connected between the front end of the pushing block and the front wall of the pushing block cavity;

a synchronous rod cavity is communicated between the adjacent pushing block cavities, a synchronous push rod which penetrates through the pushing block cavity and is positioned at the rear side of the pushing block is arranged in the synchronous rod cavity in a front-back sliding manner, the rear end of the pushing block at the rightmost side is fixedly connected with the front end face of the synchronous push rod, and the rear ends of the other pushing blocks are abutted to the front end face of the synchronous push rod;

two wall upper end symmetries and the intercommunication are equipped with and lead smooth chamber about the control chamber, it can be gliding from top to bottom in the smooth chamber to lead be equipped with fixed connection in the slider of leading of both ends about the control panel, the left side lead smooth chamber antetheca and right side lead smooth chamber back wall ring symmetry and intercommunication be equipped with communicate in the fan-shaped chamber of control chamber, left front side the outer circular wall front end intercommunication in fan-shaped chamber be equipped with communicate in the slider chamber of ejector pad chamber upper wall, gliding being equipped with fixed connection around the slider intracavity can be in it is convex circular arc slider to promote piece upper end and rear end.

2. The single-control-master-integrated false-turn-off prevention mobile socket as claimed in claim 1, wherein: and a jacking spring is fixedly connected between the lower end surface of the positioning plate and the lower wall of the control cavity, and a compression spring is fixedly connected between one end of the clamping rod, which is far away from the symmetric center, and the inner wall of the clamping rod cavity.

3. The single-control-master-integrated false-turn-off prevention mobile socket as claimed in claim 1, wherein: the lower end of the conductive block is fixedly provided with a lead positioned in the lower wall of the power-on cavity, the leads on the left side and the right side are respectively provided with an electric wire and an electric wire, and the leads are electrically connected with the socket.

4. The single-control-master-integrated false-turn-off prevention mobile socket as claimed in claim 1, wherein: and a return spring is fixedly connected between the control panel and the positioning plate.

5. The anti-false-turn-off mobile socket integrating single control and master control as claimed in claim 1, wherein: control chamber upper wall intercommunication is equipped with the opening chamber that the opening is preceding, the fixed being equipped with in control panel upper end passes the opening chamber extends to the control button of socket shell upside, through but control button manual drive the control panel descends or rotates, control button up end is equipped with the decorative pattern that is used for increasing frictional force, and the finger of being convenient for passes through frictional force and drives the control button is rotatory.

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