CN108258544B - Can accomodate row's of inserting structure of power cord - Google Patents

Abstract

The invention relates to the technical field of sockets and discloses a socket row structure capable of containing a power line, which comprises a socket shell, a lower cover plate and an upper cover plate, wherein a circuit board is arranged on the lower cover plate in the socket shell, a plurality of socket modules are fixed on the circuit board, jacks corresponding to the socket modules are arranged on the upper cover plate, the power line is connected to the circuit board, a plug is arranged at the outer end of the power line, the periphery of the upper cover plate extends outwards to form an upper flanging, the periphery of the lower cover plate extends outwards to form a lower flanging, a wire winding groove is formed between the upper flanging and the lower flanging, four corners of the upper cover plate bend downwards to form upper limit lugs, four corners of the lower cover plate bend upwards to form lower limit lugs, and a wire passing gap is formed between the upper limit lugs and the lower limit lugs. Therefore, the length of the power line can be freely adjusted, the power line is prevented from winding and being disordered, and the indoor wiring is kept attractive; when carrying, all the power lines are wound into the winding grooves, and the power strip occupies small space when carrying, so that the carrying is more convenient.

Description

Can accomodate row's of inserting structure of power cord

Technical Field

The invention relates to the technical field of sockets, in particular to a power strip structure capable of accommodating power wires.

Background

The socket is also called as a power socket and a switch socket, the surface of the socket is provided with a plurality of groups of jacks, and copper bars are arranged at positions corresponding to the jacks in the socket. The sockets can be divided into fixed sockets and movable sockets, the fixed sockets are usually directly installed on a wall, the movable sockets are called plug board, patch board, wiring board and the like, and the plug board is a movable multi-hole socket with power lines and plugs. At present, every household appliance is very many, so fixed socket can't satisfy the demand usually, and many places all adopt to insert the row and carry out the switching, but the power cord of present common row of inserting can't roll up, inserts the power cord of row and draws and pull, leads to indoor wiring confusion, occupation space, lack aesthetic feeling, and a plurality of power cords of inserting row are easy intertwining moreover, when carrying the row of inserting, and the power cord is difficult to effectual rolling, occupation space is great.

Disclosure of Invention

The invention aims to solve the problems of the power strip in the prior art, and provides a power strip structure capable of accommodating wires.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a can accomodate row's of inserting structure of power cord, includes socket casing, lower apron, upper cover plate, be located the socket casing and be equipped with the circuit board on the apron down, the circuit board on be fixed with a plurality of socket modules, the upper cover plate on be equipped with the jack that corresponds with the socket module, be connected with the power cord on the circuit board, the outer end of power cord is equipped with the plug, the outer extension all around of upper cover plate forms the turn-ups, the outer extension all around of apron forms the turn-ups down, form the winding groove down between turn-ups, the upper cover plate four angles are gone up the lower limit lug of bending down and extending, the upper limit lug of upper cover plate and lower limit lug between form the line clearance. The power line is wound in the winding groove according to the requirement, so that the length of the power line can be freely adjusted, the power line is prevented from winding and being disordered, and the indoor wiring is kept attractive; when carrying, all the power lines are wound into the winding grooves, and the power strip occupies small space when carrying, so that the carrying is more convenient.

Preferably, the ends of the upper limiting lug and the lower limiting lug are respectively provided with a limiting notch. The limiting notch is used for positioning the outermost power line and preventing the power line from being loosened after being wound.

Preferably, a rectangular hole is formed in the center of the lower cover plate, an avoidance notch is formed in the long side of the rectangular hole, clamping grooves are formed in two sides of the plug, and the ratio of the width of each clamping groove to the wall thickness of the edge of the rectangular hole is 1.05-1.15. When the power strip is carried, all power lines are wound in the winding grooves, and finally the clamping grooves on two sides of the plug are clamped into two sides of the rectangular hole for positioning, so that the notch is avoided, the plug is convenient to clamp and take out, and the use is very convenient.

Preferably, the socket module is a network control socket module, and the circuit board is also provided with a voltage reduction controller, a WIFI signal amplifier, a manual switch and a USB interface module; the high-voltage input end of the socket module is connected with a power line; the input end of the step-down controller is connected with the power line, and the output end of the step-down controller is respectively connected with the WIFI signal amplifier, the low-voltage input end of the socket module and the USB interface module. The network control socket module is internally provided with a network control chip, so that a user can wirelessly control the power on and power off of the network control socket module through a mobile phone, and the network control socket module is convenient and safe to use; the WIFI signal amplifier can enhance indoor WIFI signals and provide wireless signals; the USB interface module can provide power for the mobile phone, the tablet personal computer and other piezoelectric devices.

Preferably, two parallel first sliding rails are arranged on one side of the inner side surface of the upper cover plate, which is positioned on two jacks, first sliding blocks are arranged on the first sliding rails, first pin shafts perpendicular to the first sliding rails are arranged on two sides of the front end of each first sliding block, first baffle plates are arranged on the first pin shafts, the first baffle is rotationally connected with the pin shaft, the first pin shaft is provided with a first torsion spring for driving the first baffle to rotate upwards, a first baffle bar is arranged at the outer end of the first sliding rail on the inner side surface of the upper cover plate, and a first pressure spring is arranged between the first baffle bar and the rear end of the first sliding block. When the jack is two holes, in order to improve the safety performance, when the jack is not connected with a plug, under the action of the first pressure spring, the first baffle plates are positioned at the inner sides of the jacks, the two first baffle plates shield and seal the two jacks one by one under the action of the first torsion spring, the upper side surface of the first baffle plates are attached and sealed with the lower end surface of the jack on the upper cover plate, the sealing effect is good, and therefore external dust, metal particles and the like are effectively prevented from entering the socket module from the jack, and certain waterproof performance is achieved; when the plug is inserted, the metal pins on the plug are pressed on the first baffle plates, so that the first baffle plates incline, the pressure of the pins acts on the inclined surfaces to generate horizontal component force, the component force overcomes the acting force of the first pressure spring to push the first sliding blocks to move outwards, the first baffle plates move away from the jack, and the pins pass through the jack and are electrically connected with the jack on the socket module; after the plug is pulled out, the first sliding block resets under the action of the first pressure spring, and the jack is sealed again.

Preferably, the side of the first baffle plate is provided with a limiting pin, a limiting block is arranged on the inner side surface of the upper cover body and positioned at the front side of the limiting pin, a guide bar is arranged on the inner side surface of the upper cover body and positioned at the rear side of the limiting pin, a limiting groove is formed between the limiting block and the guide bar, and the bottom surface of the guide bar is an inclined surface. The two limit grooves limit the limit pins on the two first baffle plates in a one-to-one correspondence manner, and only when the two pins are simultaneously inserted into the jack, the two first baffle plates simultaneously rotate by an angle, and after the two limit pins are simultaneously separated from the limit grooves, the first slide block can slide, so that when the plug is inserted into the jack, the first slide block can slide smoothly, and after the pins are pulled out, the limit pins automatically enter the limit grooves along the inclined planes on the guide bars; when a child inserts foreign matters such as iron wires into one of the two jacks, the first baffle corresponding to the jack rotates by an angle, the limiting pin on the first baffle is separated from the limiting groove, but the limiting pin on the other first baffle is still positioned in the limiting groove, so that the first sliding block cannot slide, and the foreign matters such as the iron wires cannot be inserted into the socket module, thereby playing a role in safety protection. The first slider can be pushed to move only when a child inserts two iron wires into two insertion holes at the same time and applies a certain amount of pressure at the same time, and obviously, the possibility is almost not existed, so that the use is very safe.

Preferably, one side of the inner side surface of the upper cover plate, which is located at the third jack, is provided with two parallel second sliding rails, the second sliding rails are provided with second sliding blocks, the front ends of the second sliding blocks are provided with two connecting lugs, second pin shafts are arranged between the connecting lugs, second baffle plates are arranged on the second pin shafts and are rotationally connected with the second pin shafts, second torsion springs for driving the second baffle plates to rotate upwards are arranged on the second pin shafts, second baffle bars are arranged at the outer ends of the second sliding rails on the inner side surface of the upper cover plate, and second pressure springs are arranged between the second baffle bars and the rear ends of the second sliding blocks. For the jack with three holes, the third hole is a ground wire hole, and is shielded by the third baffle plate, so that external dust, metal particles and the like are effectively prevented from entering the socket module from the jack, the socket module has certain waterproof performance, and the second baffle plate can be automatically pushed away when the pin is inserted into the third ground wire hole.

Preferably, the two sides of the front end of the first sliding block extend to form connection convex blocks, a supporting rod is arranged between the connection convex blocks, two ends of the supporting rod extend to the lower side of the first baffle plate, and when the first baffle plate is pressed to rotate for an angle, the lower side surface of the first baffle plate is in contact with the supporting rod for supporting. The support rod can limit the rotation angle of the first baffle plate, and when the first baffle plate is contacted with the support rod, the horizontal component force is transferred to the first sliding block through the support rod, so that the first sliding block can be pushed away more stably.

Preferably, the lower side of the front end of the second sliding block extends to form a supporting plate, the top surface of the supporting plate is provided with a supporting column, and when the second baffle plate is pressed to rotate for an angle, the lower side surface of the second baffle plate contacts with the upper side surface of the supporting column to be supported. The supporting plate and the supporting column can limit the corner of the second baffle, meanwhile, the horizontal component force on the second baffle plate is also beneficial to being transferred to the second sliding block, so that the second sliding block is ensured to stably slide.

Preferably, the top surfaces of the first baffle plate and the second baffle plate are respectively provided with an annular groove, and annular sealing strips are embedded in the annular grooves. The annular sealing strip can be further enhanced waterproof performance at the jack.

Therefore, the invention has the following beneficial effects: (1) When the power strip is used, the power wire which grows out is wound in the winding groove, so that the power wire is prevented from winding and messing; (2) When the socket is carried, all power lines are wound in the winding grooves, then two sides of rectangular holes of the clamping grooves at two sides of the plug are clamped and positioned, the occupied space is small, and the socket is convenient to carry; (3) When the power strip is not connected with the electric appliance plug, the first baffle plate seals the inner end of the jack in a fitting way under the action of the first torsion spring and the second baffle plate seals the inner end of the jack under the action of the second torsion spring, so that good dustproof and waterproof performances are achieved; (4) The safety protection effect is achieved on children, when the children insert foreign matters such as iron wires into one of the zero line jack and the fire wire jack, the two first baffle plates are independently limited, so that the first sliding block cannot slide, the iron wires are prevented from being inserted into the zero line jack and the fire wire jack, and the children are prevented from electric shock; when the electric appliance plug is inserted into the jack, the first sliding block and the second sliding block can be smoothly moved away, so that the pins and the socket are ensured to be stably and electrically connected.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the back structure of fig. 1.

Fig. 3 is a schematic structural view of the upper cover plate.

Fig. 4 is a schematic structural view of the lower cover plate.

Fig. 5 is a schematic view showing a state of sealing the inner side of the insertion hole on the upper cover plate.

Fig. 6 is a top view of fig. 5 with the upper cover plate removed.

Fig. 7 is a schematic view of the state of the pin inserted in fig. 5.

Fig. 8 is a partially enlarged schematic view of fig. 5 at a.

Fig. 9 is a partially enlarged schematic view of fig. 7 at B.

In the figure: socket shell 1, lower cover plate 2, upper cover plate 3, circuit board 4, socket module 5, step-down controller 6, WIFI signal amplifier 7, manual switch 8, USB interface module 9, jack 10, power cord 11, plug 12, first slider 13, connection lug 130, first round pin axle 14, first separation blade 15, spacer pin 150, first torsional spring 16, first pressure spring 17, bracing piece 18, second slider 19, bracing plate 190 support column 191, second round pin axle 20, second separation blade 21, second torsional spring 22, second pressure spring 23, annular sealing strip 24, first slide rail 30, first blend stop 31, stopper 32, guide bar 33, spacing groove 34, second slide rail 35, second blend stop 36, draw-in groove 120, lower turn-up edge 200, lower spacing tab 201, spacing breach 202, rectangular hole 203, dodge breach 204, upper turn-up edge 300, upper spacing tab 301.

Detailed Description

The invention is further described with reference to the drawings and detailed description which follow:

the power strip structure capable of accommodating the power line as shown in fig. 1, fig. 2, fig. 3 and fig. 4 comprises a socket shell 1, a lower cover plate 2 and an upper cover plate 3, wherein a circuit board 4 is arranged on the lower cover plate in the socket shell, a plurality of socket modules 5 are fixed on the circuit board, the socket modules in the embodiment are network control socket modules, a voltage reduction controller 6, a WIFI signal amplifier 7, a manual switch 8 and a USB interface module 9 are further arranged on the circuit board, jacks 10 corresponding to the socket modules are arranged on the upper cover plate, a power line 11 is connected on the circuit board, a plug 12 is arranged at the outer end of the power line, the high-voltage input end of the socket modules is connected with the power line, the input end of the voltage reduction controller is connected with the power line, and the output end of the voltage reduction controller is respectively connected with the WIFI signal amplifier 7, the low-voltage input end of the socket modules 5 and the USB interface module 9.

As shown in fig. 3 and 4, the periphery of the upper cover plate 3 extends outwards to form an upper flange 300, the periphery of the lower cover plate 2 extends outwards to form a lower flange 200, a wire winding groove is formed between the upper flange and the lower flange, the wire winding groove is annular,

the four corners of the upper cover plate 3 are bent downwards to form upper limit lugs 301, the four corners of the lower cover plate 2 are bent upwards to form lower limit lugs 201, and a clearance is formed between the upper limit lugs and the lower limit lugs; the ends of the upper limit lug and the lower limit lug are respectively provided with a limit notch 202; the center of the lower cover plate 2 is provided with a rectangular hole 203, the long side of the rectangular hole is provided with a avoiding notch 204, two sides of the plug 12 are provided with clamping grooves 120, and the ratio of the width of the clamping grooves to the wall thickness at the edge of the rectangular hole is 1.05-1.15.

As shown in fig. 5 and 6, two parallel first sliding rails 30 are arranged on one side, located at two jacks, of the inner side surface of the upper cover plate 3, a first sliding block 13 is arranged on the first sliding rail, first pin shafts 14 perpendicular to the first sliding rails are arranged on two sides of the front end of the first sliding block, first baffle plates 15 are arranged on the first pin shafts and are rotationally connected with the pin shafts, first torsion springs 16 for driving the first baffle plates to rotate upwards are arranged on the first pin shafts, first baffle bars 31 are arranged on the inner side surface of the upper cover plate, located at the outer ends of the first sliding rails, first pressure springs 17 are arranged between the first baffle bars and the rear ends of the first sliding blocks, and three dotted line rectangles in fig. 6 are positions of the three jacks on the upper cover plate; the two sides of the front end of the first sliding block 13 extend to form a connecting lug 130, a supporting rod 18 is arranged between the connecting lugs, two ends of the supporting rod extend to the lower part of the first baffle, and when the first baffle is pressed to rotate for an angle, the lower side surface of the first baffle is contacted with the supporting rod for supporting; as shown in fig. 8 and 9, a limiting pin 150 is disposed on a side surface of the first blocking piece 15, a limiting block 32 is disposed on a front side of the limiting pin on an inner side surface of the upper cover body 3, a guiding strip 33 is disposed on a rear side of the limiting pin on the inner side surface of the upper cover body, a limiting groove 34 is formed between the limiting block and the guiding strip, and a bottom surface of the guiding strip is an inclined surface.

Two parallel second slide rails 35 are arranged on one side of the inner side surface of the upper cover plate 3, which is positioned on the third jack, a second slide block 19 is arranged on the second slide rails, two connecting lugs are arranged at the front end of the second slide block, a second pin shaft 20 is arranged between the connecting lugs, a second baffle piece 21 is arranged on the second pin shaft and is rotationally connected with the second pin shaft, a second torsion spring 22 for driving the second baffle piece to rotate upwards is arranged on the second pin shaft, a second baffle bar 36 is arranged on the inner side surface of the upper cover plate, which is positioned at the outer end of the second slide rail, and a second pressure spring 23 is arranged between the second baffle bar and the rear end of the second slide block; the front end underside of the second slider 19 extends to form a support plate 190, the top surface of which is provided with a support column 191, and when the second baffle is pressed to rotate by an angle, the underside of the second baffle contacts with the upper surface of the support column to support. The top surfaces of the first baffle 15 and the second baffle 21 are respectively provided with an annular groove, and an annular sealing strip 24 is embedded in the annular grooves.

The application method of the invention is as follows, with reference to the accompanying drawings: when the power strip shown in fig. 1 is used, the power wire which is grown out is wound in a winding groove; as shown in fig. 2, when the power strip needs to be carried, all the power wires are wound in the winding grooves, and then two sides of rectangular holes of the clamping grooves on two sides of the plug are clamped and positioned, so that the power strip is convenient to carry; as shown in fig. 5 and 6, when the power strip is not connected with an electrical appliance plug for use, two jacks (a live wire jack and a zero wire jack) of each group of jacks on the upper cover plate are blocked and sealed by the first blocking piece, and the other third jacks (ground wire jacks) are blocked and sealed by the second blocking piece, so that good dustproof and waterproof effects are achieved; when the power strip is connected with an electric appliance plug for use, three pins are inserted into the jack 10, the three pins respectively correspond to a zero line, a fire wire and a ground wire, the zero line, the fire wire and the zero wire are simultaneously pressed on the first baffle plate, the underground pins are pressed on the second baffle plate, as shown in figure 7, the first baffle plate is pressed and then rotated by an angle and then obliquely pressed on the supporting rod, meanwhile, the limiting pin on the side surface of the first baffle plate is separated from the limiting groove, the inclined surface of the first baffle plate is pressed to generate a horizontal component force, the component force drives the first sliding block to move leftwards, the first baffle slides along with the first sliding block, the second baffle slides along with the second sliding block, and the three pins are stably inserted into the socket module to realize electric connection; when the plug of the electrical appliance is pulled out, the pins are pulled out of the jacks, at the moment, the first sliding block moves rightwards under the action of the first pressure spring, the limiting pins on the side surfaces of the first baffle plates enter the limiting grooves, the first baffle plates seal the two jacks, and similarly, the second baffle plates seal the ground wire jacks; when a child inserts foreign matters such as iron wires into one jack of the two jacks, the first baffle corresponding to the jack rotates by an angle, the limiting pin on the first baffle is separated from the limiting groove, but the limiting pin on the other first baffle is still positioned in the limiting groove, so that the first sliding block cannot slide, the foreign matters such as the iron wires cannot be inserted into the socket module, and the safety protection effect is achieved; the first sliding block can be pushed to move only when a child inserts two iron wires into two insertion holes at the same time and applies a certain amount of pressure at the same time, the coordination requirement on the two hands is extremely high, obviously, the possibility is almost not existed for the child, and the use is very safe.

Claims (7)

1. The utility model provides a can accomodate row's of inserting structure of power cord, includes socket casing, lower apron, upper cover plate, be equipped with the circuit board on being located the lower apron in the socket casing, the circuit board on be fixed with a plurality of socket modules, upper cover plate on be equipped with the jack that corresponds with the socket module, be connected with the power cord on the circuit board, the outer end of power cord is equipped with the plug, its characterized in that, the outer extension in periphery of upper cover plate forms the upper flanging, the outer extension in periphery of lower apron forms the lower flanging, form the wire winding groove between upper flanging, lower flanging, the upper limit tab of lower cover plate is formed to the upper bending extension in four angles, form the line clearance between upper limit tab and the lower limit tab of upper bending extension in four angles of upper cover plate;

the inner side surface of the upper cover plate is provided with two parallel first sliding rails on one side of the two jacks, a first sliding block is arranged on the first sliding rails, first pin shafts perpendicular to the first sliding rails are arranged on two sides of the front end of the first sliding block, first baffle plates are arranged on the first pin shafts and are rotationally connected with the pin shafts, the first pin shafts are provided with first torsion springs for driving the first baffle plates to rotate upwards, first baffle bars are arranged on the inner side surface of the upper cover plate at the outer ends of the first sliding rails, and first pressure springs are arranged between the first baffle bars and the rear ends of the first sliding blocks; the side face of the first baffle plate is provided with a limiting pin, the inner side face of the upper cover plate is provided with a limiting block positioned at the front side of the limiting pin, the inner side face of the upper cover plate is provided with a guide bar positioned at the rear side of the limiting pin, a limiting groove is formed between the limiting block and the guide bar, and the bottom face of the guide bar is an inclined plane; the upper limit lug plate the end parts of the lower limiting lugs are provided with limiting notches.

2. The power line-storable power strip structure according to claim 1, wherein a rectangular hole is provided in the center of the lower cover plate, a clearance gap is provided at the long side of the rectangular hole, clamping grooves are provided at both sides of the plug, and the ratio of the width of the clamping groove to the wall thickness at the edge of the rectangular hole is 1.05-1.15.

3. The power strip structure capable of containing power lines according to claim 1, wherein the socket module is a network control socket module, and the circuit board is further provided with a step-down controller, a WIFI signal amplifier, a manual switch and a USB interface module; the high-voltage input end of the socket module is connected with a power line; the input end of the step-down controller is connected with the power line, and the output end of the step-down controller is respectively connected with the WIFI signal amplifier, the low-voltage input end of the socket module and the USB interface module.

4. The power line-storable power strip structure according to claim 1, wherein two parallel second sliding rails are arranged on one side, located on the third insertion hole, of the inner side face of the upper cover plate, second sliding blocks are arranged on the second sliding rails, two connecting lugs are arranged at the front ends of the second sliding blocks, second pin shafts are arranged between the connecting lugs, second blocking pieces are arranged on the second pin shafts and are in rotary connection with the second pin shafts, second torsion springs for driving the second blocking pieces to rotate upwards are arranged on the second pin shafts, second blocking bars are arranged on the inner side face of the upper cover plate, located at the outer ends of the second sliding rails, and second compression springs are arranged between the second blocking bars and the rear ends of the second sliding blocks.

5. The power strip structure capable of containing power lines according to claim 1, wherein two sides of the front end of the first sliding block extend to form connection protruding blocks, supporting rods are arranged between the connection protruding blocks, two ends of each supporting rod extend to the lower portion of the corresponding first baffle, and when the corresponding first baffle is pressed to rotate for an angle, the lower side face of the corresponding first baffle is in contact with the supporting rods for supporting.

6. The power strip structure according to claim 4, wherein the front end lower side of the second slider extends to form a support plate, the top surface of backup pad is equipped with the support column, and after the second separation blade was pressed and rotated an angle, the downside of second separation blade contacted the support with the upper end of support column.

7. The power strip structure capable of containing power lines according to claim 4, wherein annular grooves are formed in the top surfaces of the first baffle plate and the second baffle plate, and annular sealing strips are embedded in the annular grooves.