CN110176692B - Intelligent socket capable of monitoring power abnormity of electric appliance - Google Patents

Abstract

The invention discloses an intelligent socket capable of monitoring power abnormity of an electric appliance, which comprises a connecting head part connected with a molding press through a cable and a power supply seat body matched with the connecting head part for use, a plug-in cavity is arranged in the left end face of the power supply seat body, a first power connection block is fixedly arranged on the right side wall of the plug-in cavity, a dovetail sliding cavity extends downwards in the left end surface of the power supply seat body on the lower side of the inserting cavity, a dovetail sliding plate is arranged in the dovetail sliding cavity in a sliding fit manner, the top of the left end surface of the dovetail sliding plate is fixedly provided with a pressing plate, the upper and lower side walls of the inserting cavity are symmetrically provided with locking and sliding cavities, a lock sliding block is arranged in the lock sliding cavity in a sliding fit manner, a transmission cavity is arranged in the inner wall of the right side of the lock sliding cavity, a transmission gear is installed in the transmission cavity in a rotating fit mode, and a first rack portion is arranged in the end face of the right side of the lock sliding block and meshed with the transmission gear.

Description

Intelligent socket capable of monitoring power abnormity of electric appliance

Technical Field

The invention relates to the technical field of intelligent sockets, in particular to an intelligent socket capable of monitoring power abnormity of an electric appliance.

Background

The traditional socket can fall off from a power supply base body due to friction to generate the phenomenon of accidental power failure, the power consumption is unstable, and the electric shock accident is easy to happen when a user uses the plug.

Disclosure of Invention

The invention aims to provide a smart socket capable of monitoring power abnormity of an electric appliance, which is used for overcoming the defects in the prior art.

The intelligent socket capable of monitoring the power abnormality of the electric appliance comprises a connecting head part connected with a molding press through a cable and a power supply base body matched with the connecting head part for use, wherein a splicing cavity is arranged in the left end face of the power supply base body, a first power connection block is fixedly arranged on the right side wall of the splicing cavity, a dovetail sliding cavity is arranged in the left end face of the power supply base body on the lower side of the splicing cavity in a downward extending mode, a dovetail sliding plate is arranged in the dovetail sliding cavity in a sliding fit mode, a pressing plate is fixedly arranged at the top of the left end face of the dovetail sliding plate, locking sliding cavities are symmetrically arranged in the upper side wall and the lower side wall of the splicing cavity, a locking sliding block is arranged in the locking sliding cavity in a sliding fit mode, a transmission cavity is arranged in the right inner wall of the locking sliding cavity, a transmission gear is arranged in the, a driving sliding cavity respectively communicated with the transmission cavities on the upper side and the lower side is formed in the power supply seat body on the right side of the splicing cavity in an up-and-down extending mode, two driving sliding blocks are installed in the driving sliding cavity in a sliding fit mode, a second toothed bar portion meshed with the transmission gear is arranged in the end face on the left side of each driving sliding block, a driving screw rod is installed in the driving sliding blocks in a threaded fit mode, the extending tail end of the top of the driving screw rod is connected with the top wall of the driving sliding cavity in a rotating fit mode, a driven bevel gear is fixedly arranged at the extending tail end of the bottom of the driving screw rod, a concave cavity is formed in the bottom wall of the dovetail sliding cavity, a first jacking spring is installed between the bottom wall of the concave cavity and the end face on the bottom of the dovetail sliding block in a jacking fit mode, extend right in the top pressure chamber right side inner wall be equipped with the smooth chamber of leading of the smooth chamber of drive intercommunication each other, lead smooth intracavity sliding fit install with the slide is led to the inclined plane that inclined plane roof pressure piece top press fit set up, slide right side terminal surface is led on the inclined plane has set firmly driving motor, set firmly on the output shaft on driving motor right side be used for with driven bevel gear intermeshing's drive bevel gear, be equipped with spacing chamber in leading the smooth chamber bottom wall, spacing intracavity sliding fit install with the stopper that slide integral type set up is led to the inclined plane, stopper right side terminal surface with the second roof pressure spring is installed in the roof pressure cooperation between the spacing chamber right side wall.

According to the technical scheme, a first electricity receiving cavity connected with a first electricity receiving block in an inserting and matching mode is arranged in the end face of the right side of the connecting head, locking ports connected with a locking sliding block in an inserting and matching mode are arranged in the end faces of the upper side and the lower side of the connecting head, a protruding block is fixedly arranged on the end face of the right side of the connecting head, accommodating cavities are arranged in the end faces of the upper side and the lower side of the protruding block, limiting balls are arranged in the accommodating cavities in a rolling mode, abutting plates are installed in the accommodating cavities in a sliding matching mode on the inner sides of the limiting balls, third jacking springs are installed between the end faces of the inner sides of the abutting plates and the side walls of the accommodating cavities in a jacking and matching mode, inserting cavities connected with the protruding blocks in an inserting and matching mode are arranged in the wall of the.

According to the technical scheme, linkage cavities are symmetrically arranged in the right side wall of the driving sliding cavity in an up-and-down mode, a second electricity connection block integrally arranged with the driving sliding block is installed in the linkage cavities in a sliding fit mode, electricity connection pieces are arranged in the far side end faces of the linkage cavities on the upper side and the lower side and connected with mains supply, and the second electricity saving block is electrically connected with the first electricity connection block.

According to the technical scheme, the driving screw is divided into an upper driving screw and a lower driving screw, the upper driving screw is in threaded fit connection with the driving slider on the upper side, the lower driving screw is in threaded fit connection with the driving slider on the lower side, and the threads of the upper driving screw and the threads of the lower driving screw are arranged in a reverse direction.

According to the further technical scheme, a touch sensor is fixedly arranged in the right side wall of the inserting cavity and electrically connected with the driving motor.

The invention has the beneficial effects that:

because when initial condition, because the elasticity of first roof pressure spring is decided pressure, the forked tail slide is stretched into the grafting intracavity completely and is sealed the grafting chamber, because the elasticity of second roof pressure spring is decided pressure, inclined plane guide slide stretches into the roof pressure intracavity and makes initiative bevel gear and driven bevel gear break away from, and the second connects the electric piece to break away from with the electric piece, and first connects the electric piece to be in the outage state to seal the grafting chamber through the forked tail slide and prevent that dust or other article from getting into the grafting intracavity, increase life.

When the die press needs to be electrified for use, the lower end face of the connecting head is placed on the pressing plate and pressed downwards until the dovetail sliding plate slides to the bottom end of the dovetail sliding cavity, at the moment, the inclined plane jacking block jacks the inclined plane guide sliding plate to the right to enable the driving bevel gear to be meshed with the driven bevel gear, the connecting head is aligned with the splicing cavity and pushed into the splicing cavity until the first power connection block is inserted into the first power connection cavity, the limiting ball is clamped into the limiting sliding cavity and the connecting head is contacted with the touch sensor, the touch sensor sends a signal to start the driving motor, the driving motor drives the driving sliding blocks on the upper side and the lower side to slide in the opposite directions to enable the second power connection block to be contacted with the power connection piece, the first power connection block is electrified, namely the die press is in an electrified state, the driving sliding blocks on the upper side and the lower side slide and simultaneously drives the locking sliding blocks to be inserted into the locking holes to firmly lock the connecting head, so that, the accidental power-off phenomenon of the mould pressing machine is effectively avoided, the mould pressing machine is powered on after the connecting head part is completely inserted into the inserting cavity, the power utilization safety is effectively improved, and the accidental electric shock accidents generated when the connecting head part is used in inserting connection are prevented.

Drawings

FIG. 1 is a schematic view of the internal structure of the power supply housing of the present invention;

FIG. 2 is a schematic view of the internal structure of the coupling head according to the present invention;

fig. 3 is an enlarged schematic view of the bump according to the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being 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.

Referring to fig. 1-3, an intelligent socket capable of monitoring power abnormality of an electrical appliance according to an embodiment of the present invention includes a coupling head 50 connected to a molding press through a cable 54 and a power supply base 10 used in cooperation with the coupling head 50, a plug cavity 32 is disposed in a left end surface of the power supply base 10, a first power receiving block 27 is fixedly disposed on a right side wall of the plug cavity 32, a dovetail slide cavity 36 is extended downward from the left end surface of the power supply base 10 below the plug cavity 32, a dovetail slide plate 33 is slidably mounted in the dovetail slide cavity 36, a pressing plate 31 is fixedly disposed on a top of a left end surface of the dovetail slide plate 33, lock slide cavities 25 are symmetrically disposed in upper and lower sidewalls of the plug cavity 32, a lock slide block 24 is slidably mounted in the lock slide cavity 25, a transmission cavity 21 is disposed in a right inner wall of the lock slide cavity 25, a transmission gear 22 is rotatably mounted in the transmission cavity 21, a first rack part 23 is arranged in the end face of the right side of the locking sliding block 24 and is meshed with the transmission gear 22, a driving sliding cavity 14 which is respectively communicated with the transmission cavities 21 on the upper side and the lower side is arranged in the power supply base 10 on the right side of the insertion cavity 21 in an up-and-down extending mode, two driving sliding blocks 15 are arranged in the driving sliding cavity 14 in a sliding fit mode, a second rack part 19 meshed with the transmission gear 22 is arranged in the end face of the left side of each driving sliding block 15, a driving screw 13 is arranged in the driving sliding blocks 15 in a thread fit mode, the extending tail end of the top of the driving screw 13 is connected with the top wall of the driving sliding cavity 14 in a rotating fit mode, a driven bevel gear 12 is fixedly arranged at the extending tail end of the bottom of the driving screw 13, a concave cavity 38 is arranged in the bottom wall of the dovetail sliding, a top pressure cavity 35 is arranged in the inner wall of the right side of the dovetail sliding cavity 36 in an up-and-down extending mode, an inclined top pressure block 34 which is integrated with the dovetail sliding block 33 is installed in the top pressure cavity 35 in a sliding fit mode, a slide guide cavity 11 communicated with the drive slide cavity 14 is arranged in the inner wall of the right side of the top pressure cavity 35 in a rightward extending manner, an inclined plane guide sliding plate 44 which is arranged in a pressing and matching way with the inclined plane pressing block 34 is arranged in the guide sliding cavity 11 in a sliding and matching way, a driving motor 45 is fixedly arranged in the end surface at the right side of the inclined plane guide sliding plate 44, a driving bevel gear 46 which is meshed with the driven bevel gear 12 is fixedly arranged on an output shaft at the right side of the driving motor 45, a limiting cavity 43 is arranged in the bottom wall of the slide guiding cavity 11, a limiting block 41 which is integrated with the inclined guide slide plate 44 is arranged in the limiting cavity 43 in a sliding fit manner, and a second jacking spring 42 is arranged between the right end face of the limiting block 41 and the right side wall of the limiting cavity 43 in a jacking and matching manner.

Beneficially or exemplarily, a first electricity receiving cavity 53 connected with the first electricity receiving block 27 in an inserting and matching manner is arranged in a right side end face of the coupling head 50, locking ports 51 connected with the locking slider 24 in an inserting and matching manner are arranged in upper and lower side end faces of the coupling head 50, a protruding block 52 is fixedly arranged on the right side end face of the coupling head 50, accommodating cavities 524 are arranged in upper and lower side end faces of the protruding block 52, limiting balls 523 are arranged in the accommodating cavities 524 in a rolling manner, abutting plates 522 are arranged in the accommodating cavities 524 inside the limiting balls 523 in a sliding and matching manner, third abutting springs 521 are arranged between inner side end faces of the abutting plates 522 and inner side walls of the accommodating cavities 524 in an abutting and matching manner, an inserting cavity 28 connected with the protruding block 52 in an inserting and matching manner is arranged in a right side wall of the inserting cavity 32, and limited slip cavities 29 for the limiting balls 523 to extend into are symmetrically arranged in the upper and lower side walls, thereby facilitating the locking connection and the power-on connection of the coupling head 50, preventing the coupling head 50 from falling off accidentally, and increasing the use stability of the die press.

Beneficially or exemplarily, linkage cavities 17 are symmetrically arranged in the right side wall of the driving sliding cavity 14 from top to bottom, a second power connection block 18 integrally arranged with the driving slider 15 is installed in the linkage cavities 17 in a sliding fit manner, power connection pieces 16 are arranged in the end faces of the linkage cavities 17 at the upper side and the lower side towards the far side, the power connection pieces 16 are connected with a mains supply, and the second power saving block 18 is electrically connected with the first power connection block 27, so that the power utilization safety of the die press is improved, and electric shock accidents are prevented.

Advantageously or exemplarily, the driving screw 13 is divided into an upper driving screw and a lower driving screw, the upper driving screw is in thread fit connection with the upper driving slider 15, the lower driving screw is in thread fit connection with the lower driving slider 15, and the upper driving screw and the lower driving screw are oppositely arranged, so that the driving sliders 15 on the upper side and the lower side are automatically controlled to slide in opposite directions, that is, the locking sliders 24 on the upper side and the lower side are automatically controlled to simultaneously slide into the locking openings 51 to lock the coupling head 50.

Beneficially or exemplarily, a touch sensor 26 is fixedly arranged in the right side wall of the plugging cavity 32, and the touch sensor 26 is electrically connected with the driving motor 45, so as to automatically control the driving motor 45 to start.

In the initial state, due to the elastic constant pressure of the first jacking spring 37, the dovetail sliding plate 33 completely extends into the plugging cavity 32 to close the plugging cavity 32, and due to the elastic constant pressure of the second jacking spring 42, the inclined guide sliding plate 44 extends into the jacking cavity 35 to separate the driving bevel gear 46 from the driven bevel gear 12, the second power connection block 18 is separated from the power connection piece 16, and the first power connection block 27 is in the power-off state.

When the die press needs to be electrified for use, the lower side end face of the coupling head 50 is placed on the pressing plate 31 and pressed downwards until the dovetail sliding plate 33 slides to the bottom end of the dovetail sliding cavity 36, at this time, the inclined plane jacking block 34 jacks the inclined plane guide sliding plate 44 towards the right to enable the driving bevel gear 46 to be meshed with the driven bevel gear 12, the coupling head 50 is aligned with the plugging cavity 32, the coupling head 50 is pushed into the plugging cavity 32 until the first power connection block 27 is inserted into the first power connection cavity 53, the limiting ball 523 is clamped into the limiting sliding cavity 29, the coupling head 50 is contacted with the touch sensor 26, the touch sensor 26 sends a signal to start the driving motor 45, the driving motor 45 drives the driving sliders 15 on the upper side and the lower side to slide towards the reverse direction, the second power connection block 18 is contacted with the power connection piece 16, the first power connection block 27 is electrified, namely, the die press is in an electrified state, and the driving sliders 15 on the upper side and the lower side slide, the lock slider 24 is inserted into the lock opening 51 to lock the coupling head 50 firmly.

The invention has the beneficial effects that: because when initial condition, because the elasticity of first roof pressure spring is decided pressure, the forked tail slide is stretched into the grafting intracavity completely and is sealed the grafting chamber, because the elasticity of second roof pressure spring is decided pressure, inclined plane guide slide stretches into the roof pressure intracavity and makes initiative bevel gear and driven bevel gear break away from, and the second connects the electric piece to break away from with the electric piece, and first connects the electric piece to be in the outage state to seal the grafting chamber through the forked tail slide and prevent that dust or other article from getting into the grafting intracavity, increase life.

When the die press needs to be electrified for use, the lower end face of the connecting head is placed on the pressing plate and pressed downwards until the dovetail sliding plate slides to the bottom end of the dovetail sliding cavity, at the moment, the inclined plane jacking block jacks the inclined plane guide sliding plate to the right to enable the driving bevel gear to be meshed with the driven bevel gear, the connecting head is aligned with the splicing cavity and pushed into the splicing cavity until the first power connection block is inserted into the first power connection cavity, the limiting ball is clamped into the limiting sliding cavity and the connecting head is contacted with the touch sensor, the touch sensor sends a signal to start the driving motor, the driving motor drives the driving sliding blocks on the upper side and the lower side to slide in the opposite directions to enable the second power connection block to be contacted with the power connection piece, the first power connection block is electrified, namely the die press is in an electrified state, the driving sliding blocks on the upper side and the lower side slide and simultaneously drives the locking sliding blocks to be inserted into the locking holes to firmly lock the connecting head, so that, the accidental power-off phenomenon of the mould pressing machine is effectively avoided, the mould pressing machine is powered on after the connecting head part is completely inserted into the inserting cavity, the power utilization safety is effectively improved, and the accidental electric shock accidents generated when the connecting head part is used in inserting connection are prevented.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims (1)

1. The utility model provides a but unusual smart jack of monitoring electrical apparatus power, includes the coupling head portion of being connected through cable and moulding press and with the power supply pedestal that coupling head portion cooperation was used which characterized in that: the power supply seat is characterized in that a splicing cavity is arranged in the end face of the left side of the power supply seat body, a first power receiving block is fixedly arranged on the right side wall of the splicing cavity, a dovetail sliding cavity is formed in the left side end face of the power supply seat body on the lower side of the splicing cavity in a downward extending mode, a dovetail sliding plate is installed in the dovetail sliding cavity in a sliding fit mode, a pressing plate is fixedly arranged at the top of the left side end face of the dovetail sliding plate, locking sliding cavities are symmetrically formed in the upper side wall and the lower side wall of the splicing cavity, a locking sliding block is installed in the locking sliding cavity in a sliding fit mode, a transmission gear is installed in the transmission cavity in a rotating fit mode, a first rack portion is arranged in the end face of the right side of the locking sliding block and meshed with the transmission gear, driving sliding cavities respectively communicated with the transmission cavities on, a second rack part meshed with the transmission gear is arranged in the end face of the left side of the driving slide block, a driving screw is arranged in the driving slide block in a matched manner, the extending tail end of the top of the driving screw is connected with the top wall of the driving slide cavity in a rotating and matched manner, a driven bevel gear is fixedly arranged at the extending tail end of the bottom of the driving screw, a concave cavity is arranged in the bottom wall of the dovetail slide cavity, a first jacking spring is arranged between the bottom wall of the concave cavity and the end face of the bottom of the dovetail slide block in a jacking and matched manner, a jacking cavity is arranged in the inner wall of the right side of the dovetail slide cavity in an up-and-down extending manner, an inclined plane jacking block integrally arranged with the dovetail slide block is arranged in the jacking and matched manner, a sliding guide cavity communicated with the driving slide cavity is arranged in the inner wall of the right side of the, a driving motor is fixedly arranged in the end face of the right side of the inclined surface guide sliding plate, a driving bevel gear which is meshed with the driven bevel gear is fixedly arranged on an output shaft on the right side of the driving motor, a limiting cavity is arranged in the bottom wall of the guide sliding cavity, a limiting block which is integrated with the inclined surface guide sliding plate is installed in the limiting cavity in a sliding fit mode, and a second jacking spring is installed between the end face of the right side of the limiting block and the right side wall of the limiting cavity in a jacking fit mode; a first power receiving cavity connected with the first power receiving block in an inserting and matching mode is arranged in the end face of the right side of the connecting head, locking ports connected with the locking sliding blocks in an inserting and matching mode are arranged in the end faces of the upper side and the lower side of the connecting head, a convex block is fixedly arranged on the end face of the right side of the connecting head, accommodating cavities are arranged in the end faces of the upper side and the lower side of the convex block, limiting balls are arranged in the accommodating cavities in a rolling mode, abutting plates are installed in the accommodating cavities on the inner sides of the limiting balls in a sliding and matching mode, a third jacking spring is installed between the end face of the inner side of each abutting plate and the side wall of the accommodating cavity in a jacking and matching mode, inserting cavities connected with the convex blocks in an inserting and matching mode are arranged in the right; linkage cavities are symmetrically arranged in the right side wall of the driving sliding cavity from top to bottom, second power connection blocks which are integrally arranged with the driving sliding block are arranged in the linkage cavities in a sliding fit mode, power connection pieces are arranged in the end faces, far away, of the linkage cavities on the upper side and the lower side, the power connection pieces are connected with mains supply, and the second power connection blocks are electrically connected with the first power connection blocks; the driving screw is divided into an upper driving screw and a lower driving screw, the upper driving screw is in threaded fit connection with the driving slider on the upper side, the lower driving screw is in threaded fit connection with the driving slider on the lower side, and the threads of the upper driving screw and the lower driving screw are arranged in a reverse direction; and a touch sensor is fixedly arranged in the right side wall of the inserting cavity and electrically connected with the driving motor.

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