CN113381233A - Portable waterproof socket - Google Patents

Abstract

The utility model relates to a portable waterproof socket, including socket ontology, the last main power cord that is used for the socket ontology power supply that is equipped with of socket ontology, the jack has been seted up to socket ontology width direction's both sides side, the last two that are equipped with of socket ontology keeps off the rain piece, and two that keep off the rain pieces are located socket ontology width direction's both sides respectively, it includes first board and two second boards to keep off the rain piece, the both ends of first board set up respectively on two second boards, first board and two second boards all set up on one side of socket ontology width direction, first board is located the jack top, including first board and two second boards surround the jack jointly. The first plate can shield a part of rainwater beaten on the socket body from the top, the rainwater blows through wind and can change the direction of wafing, and the two second plates can shield the rainwater beaten from the two sides of the socket body, so that the probability of rainwater flow to the jack is reduced, and the outdoor use of the socket is safer.

Description

Portable waterproof socket

Technical Field

The application relates to the field of sockets, in particular to a portable waterproof socket.

Background

The socket is also called as a power socket and a switch socket. A socket is a receptacle into which one or more circuit connections can be inserted, through which various connections can be inserted, thus facilitating the connection to other circuits.

The utility model discloses a utility model patent that bulletin number is CN202259899U discloses a portable socket, including the base, be equipped with multilayer supply socket on the base, the supply socket top is equipped with the handle, and every layer of supply socket is equipped with four electrical socket, and every layer of supply socket is equipped with a switch and an pilot lamp, and the supply socket number of piles is 1-4 layers, and base bottom surface both sides are equipped with the mounting hole.

The above-mentioned related technical solutions have the following drawbacks: when placing outdoor use behind the aforesaid socket switch on, the rainwater can directly beat on supply socket, can lead to the rainwater to get into electrical socket seriously, leads to socket inner wall circuit to go wrong, influences the normal use of socket.

Disclosure of Invention

In order to make the outdoor use of socket safer, this application provides a portable waterproof socket.

The application provides a portable waterproof socket adopts following technical scheme:

the utility model provides a portable waterproof socket, includes the base, be equipped with the bracing piece on the base, the bracing piece top is equipped with socket ontology, socket ontology is last to be equipped with the main power cord that is used for the socket ontology power supply, the jack has been seted up to socket ontology width direction's both sides side, the socket ontology top is equipped with the handle, socket ontology is last to be equipped with two rain-proof pieces, and two rain-proof pieces are located socket ontology width direction's both sides respectively, rain-proof piece includes first board and two second boards, the both ends of first board set up respectively on two second boards, first board and two second boards all set up on one side of socket ontology width direction side, first board is located the jack top, including first board and two second boards surround the jack jointly.

Through adopting above-mentioned technical scheme, the first board can shelter from some and beat the rainwater on socket ontology from the top, and the rainwater blows through wind can change the direction that wafts, and two second boards can shelter from the rainwater of beating from socket ontology both sides to reduce rainwater and flow to the probability of jack, make the outdoor use of socket safer.

Preferably, the socket further comprises a first driving part and a rotating shaft, two ends of the rotating shaft are respectively connected to the base and the socket body in a rotating mode, a take-up reel with a containing cavity is arranged on the bottom surface of the socket body, the rotating shaft penetrates through the take-up reel, a wire inlet and a wire outlet which are communicated with the containing cavity are formed in the take-up reel, a main power wire enters from the wire inlet and extends out of the wire outlet, the main power wire is wound on the rotating shaft, and the first driving part drives the rotating shaft to rotate.

Through adopting above-mentioned technical scheme, use driving piece one drive pivot to rotate, when the rotation direction of pivot is opposite with main power cord winding direction, the pivot rotates and can drive main power cord and wind, and when the rotation direction of pivot is the same with main power cord winding direction, the pivot rotates and can make the main power cord of winding in the pivot loosen to realize the automatic rolling of main power cord, under the effect of operating personnel's exogenic action, can realize stretching out of main power cord.

Preferably, still including the piece of keeping to, it includes first bull stick, connecting rod, butt joint piece and return spring to keep to the piece, first bull stick rotates to be connected on the diapire of accomodating the chamber, the axis direction of first bull stick is on a parallel with the axis direction of pivot, the both ends of connecting rod are connected respectively on first bull stick and butt joint piece, the coaxial setting of return spring is on first bull stick, the butt joint piece will be around rolling up in the epaxial main power line of commentaries on classics at the beginning and end to support in the pivot, when no external force is applyed on the butt joint piece, the axis of connecting rod intersects in a bit with the axis of pivot.

Through adopting above-mentioned technical scheme, when the pivot rotated and drives main power cord and wind in the pivot, the butt piece can be all the time with wind the main power cord of rolling in the pivot and support in the pivot, can make better the winding of main power cord in the pivot, reduces the main power cord and takes place winding probability in the pivot.

Preferably, still include first spring, be equipped with the slider on the butt piece, the connecting rod has been kept away from and has been seted up the spout on the one end terminal surface of first bull stick, slider along being on a parallel with the length direction sliding connection of connecting rod on the spout, the both ends of first spring set up respectively on spout diapire and slider, and it is different that the pivot turns to, the butt piece removes the both sides to first bull stick respectively under the effect of main power cord.

Through adopting above-mentioned technical scheme, when the number of turns of the main power cord of winding becomes more or less in the pivot, the butt piece can stretch out suitable distance towards the main power cord and continue the butt on main power line under the effect of first spring, can reduce first pivot pivoted range, take place the friction between main power cord and the butt piece simultaneously, the main power cord has two kinds of different directions of motion when rolling and stretching out, the main power cord can drive the opposite both sides rotation of butt piece orientation.

Preferably, the wire winding machine further comprises a second driving piece, the top surface of the base is rotatably connected with a third rotating rod, the axis direction of the third rotating rod is parallel to the axis direction of the rotating shaft, a driving wheel is sleeved on the third rotating rod, a butting wheel is rotatably connected to the take-up reel, the axis direction of the butting wheel is parallel to the axis direction of the rotating shaft, the butting wheel and the driving wheel clamp a main power line extending from the wire outlet, and when the rotating shaft rotates to extend the main power line, the second driving piece drives the third rotating rod to rotate towards one side of the main power line extending.

By adopting the technical scheme, when the main power line extends out, the second driving part drives the third rotating rod to rotate towards the side, extending out of the main power line, of the third rotating rod, the third rotating rod drives the abutting wheels to rotate towards the side, extending out of the main power line, friction exists between the driving wheels and the main power line, and the driving wheels and the abutting wheels transport the main power line outwards together.

Preferably, the second driving part comprises a positioning rod, a second rotating rod and a synchronous belt, the second rotating rod is arranged on the connecting rod, the axis direction of the second rotating rod is parallel to the axis direction of the rotating shaft, an arc-shaped through groove matched with the moving path of the second rotating rod is formed in the bottom wall of the take-up reel, the second rotating rod is connected to the arc-shaped through groove in a sliding mode, the positioning rod is connected to the top surface of the base in a rotating mode, and the axis direction of the positioning rod is parallel to the axis direction of the rotating shaft;

the synchronous pulley that is connected with the hold-in range meshing is connected to coaxial rotation on the second bull stick, all coaxial cover is equipped with the synchronous pulley that can mesh with the hold-in range on pivot, locating lever and the third bull stick, when the pivot rotates along the direction of main power cord rolling, the hold-in range is around rolling up on the synchronous pulley of locating lever, second bull stick and third bull stick, when the pivot rotates along the direction that main power cord stretches out, the hold-in range is around rolling up on the synchronous pulley of pivot, locating lever, second bull stick and third bull stick.

Through adopting above-mentioned technical scheme, main power cord has two kinds of different directions of motion when rolling and stretching out, main power cord can drive the opposite both sides of butt piece orientation and rotate, then the butt piece passes through the connecting rod and drives the third bull stick and use first bull stick to rotate as the axis of rotation, the third bull stick motion drives the hold-in range of rolling up on the third bull stick and carries out the form change, go back and forth between the state that can take place to mesh with the pivot at the hold-in range, after hold-in range and pivot meshing, the pivot drives the hold-in range and rotates, thereby make the hold-in range drive third bull stick rotate, make driving wheel and the butt wheel on the third bull stick outwards transport main power cord jointly.

Preferably, an arc-shaped surface is formed on the side surface of the abutting block, facing the main power line, and the distance from the middle of the arc-shaped surface to the two ends of the arc-shaped surface to the connecting rod is gradually reduced.

Through adopting above-mentioned technical scheme, when butt piece butt on main power supply line, no matter which side motion of main power cord, main power cord can both the butt on the arcwall face, and main power cord can not block on the edges and corners of butt piece for the butt piece can be better follow the removal of main power cord and remove.

Preferably, the side face of one side opposite to the two second plates is rotatably connected with a shielding cover, and when the shielding cover rotates to abut against the socket body towards one side of the base, the jack is completely shielded by the shielding cover.

Through adopting above-mentioned technical scheme, the cooperation of shield cover and rain-proof piece can shelter from the rainwater that all directions were hit to further reduce the probability of rainwater to the jack, make the outdoor use of socket safer.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the abutting piece, when the rotating shaft rotates to drive the main power cord to wind on the rotating shaft, the abutting piece can always abut the main power cord wound on the rotating shaft, so that the main power cord can be wound on the rotating shaft better, and the probability of winding of the main power cord in the rotating shaft is reduced;

2. by arranging the arc-shaped surface on the abutting block, when the abutting block abuts against the main power wire, the main power wire can abut against the arc-shaped surface no matter which side the main power wire moves, and the main power wire cannot be clamped on the edge of the abutting block, so that the abutting block can better move along with the movement of the main power wire;

3. through setting up the cover, the cooperation of cover and rain-proof piece can shelter from the rainwater that all directions were hit to further reduce the probability of rainwater to the jack, make the outdoor use of socket safer.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

FIG. 2 is a schematic view of the assembly of the take-up reel and the base.

Fig. 3 is a schematic structural diagram of a main power line when being taken up.

Fig. 4 is a schematic view of the structure when the main power line is extended.

Fig. 5 is a cross-sectional view of the connection of the connecting rod to the slider.

Description of reference numerals: 1. a base; 11. a support bar; 12. a socket body; 121. a jack; 13. a handle; 14. a rain shield; 141. a first plate; 142. a second plate; 15. a shield cover; 151. an opening; 16. a take-up reel; 161. a wire inlet; 162. an outlet; 163. a receiving cavity; 17. a rotating shaft; 18. a first driving part; 181. a motor; 21. an abutting piece; 211. a first rotating lever; 212. a connecting rod; 2121. a chute; 213. a butting block; 2131. an arc-shaped surface; 214. a return spring; 215. a slider; 216. a first spring; 22. an arc-shaped through groove; 23. a driving part II; 231. a second rotating rod; 232. positioning a rod; 233. a third rotating rod; 2331. driving the wheel; 234. a synchronous belt; 235. a synchronizing wheel; 24. a vertical rod; 241. an extension arm; 242. a butting wheel; 243. a torsion spring; 3. a main power line.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses portable waterproof socket.

Referring to fig. 1, the portable waterproof socket of this embodiment includes base 1, and perpendicular four bracing pieces 11 of fixedly connected with on the base 1 top surface, four bracing pieces 11 distribute on the base 1 top surface along the circumferential direction of footstock in proper order, and four bracing pieces 11 are close to the edge setting of base 1. The top surface of the support bar 11 is fixedly connected with a socket body 12. Fixedly connected with handle 13 on the 12 top surfaces of socket body, 12 bottom surface centers fixedly connected with take-up reel 16 of socket body, four bracing pieces 11 are located the 16 outsides of take-up reel, and socket body 12 is inside to be embedded to have main power cord 3, and main power cord 3 is accomodate in take-up reel 16, has seted up a plurality of jacks 121 on the both sides side of socket body 12 width direction respectively.

The main power line 3 has a certain length, the main power line 3 is drawn out from the take-up reel 16, then a plug on the main power line 3 is inserted into the fixed plug to be connected with an external power supply, then an operator carries the handle 13 to lift the portable waterproof socket to any position allowed by the length of the main power line 3 outdoors or indoors, and then the plug of the external electric appliance is inserted into the jack 121, so that power can be supplied to the external electric appliance.

Referring to fig. 1, two rain-shielding members 14 are fixedly connected to the socket body 12, the two rain-shielding members 14 are respectively located on two sides of the width direction of the socket body 12, each rain-shielding member 14 includes a first plate 141 and two second plates 142, two ends of the first plate 141 are respectively vertically and fixedly connected to ends of the two second plates 142 in the length direction, the two second plates 142 are arranged opposite to each other, one side surfaces of the first plate 141 and the second plates 142 in the width direction are fixedly connected to one side surface of the width direction of the socket body 12, the top surface of the first plate 141 is flush with the top surface of the socket body 12, and one side surface of the two second plates 142 away from each other is flush with two side surfaces of the length direction of the socket body 12 in the vertical direction. The first plate 141 and the two second plates 142 enclose the insertion hole 121 therein.

Referring to fig. 1, the shielding cover 15 is rotatably connected to a side surface of the two second plates 142 opposite to each other, a length direction of the shielding cover 15 is parallel to a length direction of the socket body 12, one end of the shielding cover 15 in a width direction is rotatably connected to the two second plates 142, and a rotation axis direction of the shielding cover 15 is parallel to a length direction of the first plate 141. The side of the shielding cover 15 facing the insertion hole 121 is provided with a receiving groove for receiving an external plug, and the side of the shielding cover 15 facing the insertion hole 121 is recessed with an opening 151 for extending out an electric wire on the external plug. The shield cover 15 is made of a transparent material, and the shield cover 15 may be made of a transparent plastic or the like.

When the shielding cover 15 rotates to abut against the socket body 12 toward the side of the insertion hole 121, the insertion hole 121 is completely covered in the accommodating groove by the matching of the rain blocking member 14 and the shielding cover 15, and rainwater cannot enter the insertion hole 121 completely when the socket is used outdoors.

Referring to fig. 1 and 2, the socket body 12 is rotatably connected with a rotating shaft 17, the rotating shaft 17 is vertically arranged, two ends of the rotating shaft 17 are respectively rotatably connected to the bottom surface of the socket body 12 and the top surface of the base 1, the rotating shaft 17 is arranged on the take-up reel 16 in a penetrating manner, the take-up reel 16 is internally provided with a containing cavity 163 for containing the main power line 3, the take-up reel 16 is arranged in a disc shape, and the take-up reel 16 and the rotating shaft 17 are coaxially arranged. An inlet 161 communicated with the accommodating cavity 163 is formed in the top surface of the take-up reel 16, an outlet 162 communicated with the accommodating cavity 163 is formed in the circumferential outer side wall of the take-up reel 16, and the main power cord 3 enters from the inlet 161, is wound on the rotating shaft 17 and then extends out of the outlet 162.

Referring to fig. 1 and 2, a storage battery and a first driving part 18 are fixed in the socket body 12, the first driving part 18 drives the rotating shaft 17 to rotate, the first driving part 18 is a motor 181, the motor 181 is embedded in the socket body 12, and an output shaft of the motor 181 extends vertically downward and is coaxially and fixedly connected with the top end of the rotating shaft 17. When the main power line 3 is connected with a circuit, the main power line 3 can automatically charge the storage battery, and the electricity in the storage battery is used for driving the motor 181 to work.

Referring to fig. 2 and 3, in order to make the rotating shaft 17 better drive the main power cord 3 to wind around the rotating shaft 17, the holding plate is connected with a holding member 21, and the holding member 21 is located in the holding cavity 163 and always holds the main power cord 3 wound around the rotating shaft 17 against the rotating shaft 17.

Referring to fig. 3 and 4, the abutting member 21 includes a first rotating rod 211, an abutting block 213, a return spring 214, and two connecting rods 212, two ends of the first rotating rod 211 are rotatably connected to the upper and lower end walls of the accommodating cavity 163, an axial direction of the first rotating rod 211 is parallel to an axial direction of the rotating shaft 17, ends of the two connecting rods 212 are respectively and vertically fixedly connected to an outer wall of the first rotating rod 211, and the two connecting rods 212 are respectively located at two ends of the first rotating rod 211 in a length direction. The return spring 214 is fixedly connected to the first rotating shaft 211, the return spring 214 is located between the two connecting rods 212, and when no external force is applied to the connecting rods 212, the axis of the connecting rods 212 intersects with the axis of the rotating shaft 17 at a point.

Referring to fig. 5, a sliding block 215 is vertically and fixedly connected to a side center of one side of the abutting block 213, a sliding slot 2121 is formed in an end surface of the connecting rod 212, which is away from the first rotating rod 211, a length direction of the sliding slot 2121 is parallel to a length direction of the connecting rod 212, the sliding block 215 is slidably connected to the sliding slot 2121 along the length of the sliding slot 2121, a first spring 216 is connected to the sliding block 215, two ends of the first spring 216 are respectively and fixedly connected to a bottom wall of the sliding slot 2121, and an end surface of the sliding block 215, which faces the bottom wall of the sliding slot 2121.

Referring to fig. 3 and 4, the length direction of the abutting block 213 is parallel to the length direction of the first rotating rod 211, in order to ensure that the abutting block 213 can always abut to the main power line 3, two ends of the abutting block 213 are respectively close to the upper end wall and the lower end wall of the accommodating cavity 163, an arc surface 2131 is provided on the side surface of the abutting block 213 away from the sliding block 215, two ends of the arc surface 2131 are located at two ends of the abutting block 213 in the width direction, and the distance from the middle of the arc surface 2131 to the two ends to the connecting rod 212 gradually decreases.

When the rotation direction of the rotating shaft 17 is opposite to the winding direction of the main power cord 3, the rotating shaft 17 rotates to drive the main power cord 3 to wind, the main power cord 3 continuously rubs against the abutting block 213 in the winding process, and the abutting block 213 is driven to rotate by taking the first rotating rod 211 as an axis facing the moving direction of the winding of the main power supply. When the rotating direction of the rotating shaft 17 is the same as the winding direction of the main power cord 3, the rotating shaft 17 rotates to enable the main power cord 3 wound on the rotating shaft 17 to be loosened, an operator pulls the main power cord 3 all the time, the main power cord 3 can stretch out, and in the process that the main power cord 3 continuously stretches out of the outlet 162, the main power cord 3 and the abutting block 213 rub to drive the abutting block 213 to rotate by taking the first rotating rod 211 as an axis facing the moving direction in which the main power cord 3 stretches out.

Referring to fig. 3 and 4, a second rotating rod 231 is fixedly connected to the outer wall of the lower connecting rod 212 along the vertical direction, the second rotating rod 231 is located below the connecting rod 212, the arc-shaped through groove 22 is formed in the bottom wall of the accommodating cavity 163, the second rotating rod 231 rotates by taking the first rotating rod 211 as a shaft, and the second rotating rod 231 vertically extends downwards out of the arc-shaped through groove 22 and is connected to the arc-shaped through groove 22 along the moving path in a sliding manner.

The main power cord 3 has two different moving directions when being wound and extended, the main power cord 3 drives the abutting blocks 213 to rotate towards two opposite sides, and at the moment, the second rotating rods 231 abut against the end walls at two ends of the arc-shaped through groove 22 respectively.

Referring to fig. 2 and 3, the top surface of the base 1 is rotatably connected with a third rotating rod 233, the axial direction of the third rotating rod 233 is parallel to the axial direction of the rotating shaft 17, the third rotating rod 233 vertically extends upward to a position close to the outlet 162, the top end of the third rotating rod 233 is sleeved with a driving wheel 2331, and the driving wheel 2331 is located at one side of the outlet 162 close to the second rotating rod 231. The upper end wall and the lower end wall of the wire outlet 162 are rotatably connected with a vertical rod 24, the axis direction of the rotation of the vertical rod 24 is parallel to the axis direction of the rotating shaft 17, two extension arms 241 are fixed on the vertical rod 24, the two extension arms 241 are respectively located at two ends of the vertical rod 24, the side face, opposite to each other, of each extension arm 241 is rotatably connected with a butting wheel 242, and the axis direction of the rotation of the butting wheel 242 is parallel to the axis direction of the vertical rod 24. A torsion spring 243 is coaxially and fixedly connected to the vertical rod 24, and the torsion spring 243 drives the contact roller 242 to rotate toward the driving roller 2331. The abutting wheel 242 and the driving wheel 2331 abut against the outer walls of the two sides of the main power line 3 extending from the outlet 162, the base 1 is provided with a second driving part 23, and when the rotating shaft 17 drives the main power line 3 to extend, the second driving part 23 drives the third rotating rod 233 to rotate towards the side where the main power line 3 extends.

Referring to fig. 3 and 4, the second driving unit 23 includes a positioning rod 232 and a timing belt 234, and a second rotating rod 231 is also included in the second driving unit 23. The bottom end of the second rotating rod 231 is disposed near the top surface of the base 1. The bottom end of the positioning rod 232 is rotatably connected to the top surface of the base 1, and the axial direction of the positioning rod 232 is parallel to the axial direction of the rotating shaft 17. The bottom ends of the rotating shaft 17, the positioning rod 232 and the third rotating rod 233 are coaxially sleeved with a synchronizing wheel 235 capable of being meshed and connected with a synchronizing belt 234, and the bottom end of the second rotating rod 231 is coaxially rotatably connected with the synchronizing wheel 235 capable of being meshed and connected with the synchronizing belt 234.

When the rotating shaft 17 rotates in the winding direction of the main power cord 3, the second rotating rod 231 moves to abut against the end wall of the arc-shaped through groove 22 away from the third rotating rod 233, the timing belt 234 is wound around the positioning rod 232, the second rotating rod 231 and the timing pulley 235 of the third rotating rod 233, the timing belt 234 surrounds the rotating shaft 17, and the rotating shaft 17 does not contact the timing belt 234.

When the rotating shaft 17 rotates along the extending direction of the main power cord 3, the second rotating rod 231 moves to abut against the end wall of the arc-shaped through groove 22 close to one end of the third rotating rod 233, at this time, by changing the position of the second rotating rod 231, the synchronous belt 234 can be wound around the rotating shaft 17, the positioning rod 232, the second rotating rod 231 and the synchronous wheel 235 of the third rotating rod 233, at this time, the rotating shaft 17 rotates to drive the synchronous belt 234 to rotate, the synchronous belt 234 rotates to drive the driving wheel 2331 on the third rotating rod 233 to rotate, the rotation direction of the driving wheel 2331 is the same as that of the rotating shaft 17, the driving wheel 2331 rubs against the main power cord 3, the driving wheel 2331 and the abutting wheel 242 jointly provide a force for outwards conveying the main power cord 3, and therefore the main power cord 3 can automatically extend outwards.

Referring to fig. 3 and 4, a magnetic sheet is fixed on an end wall of the arc-shaped through groove 22 close to one end of the third rotating rod 233, a magnet matched with the magnetic sheet is fixedly connected to an outer wall of the second rotating rod 231, when the second rotating rod 231 moves towards one side of the third rotating rod 233 to be close to the magnetic chip, the magnet adsorbs the magnetic sheet, and the adsorption force between the magnet and the magnetic sheet is smaller than the friction force between the abutting block 213 and the main power line 3.

The implementation principle of the portable waterproof socket in the embodiment of the application is as follows: an operator uses the motor 181 to drive the rotating shaft 17 to rotate, so that the main power line 3 automatically extends out of the take-up reel 16 under the matching of the driving wheel 2331 and the abutting wheel 242, then the main power line 3 is communicated with a power supply, the socket body 12 is moved to a place where the length of any main power line 3 is allowed outdoors or indoors by the aid of the lifting handle 13, then a plug of an external electric appliance is inserted into the jack 121, and the external electric appliance can be powered. Then, the shielding cover 15 is turned over toward the side of the base 1 until the shielding cover abuts against the socket body 12, and at this time, the shielding cover 15 and the rain shielding member 14 together abut against the rainwater hitting the insertion hole 121.

After the use, the operator disconnects the main power cord 3, and drives the rotating shaft 17 to rotate towards the other direction by using the motor 181, and at this time, under the matching of the rotating shaft 17 and the abutting block 213, the main power cord 3 can be automatically wound on the rotating shaft 17, so that the winding of the main power cord 3 is realized.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a portable waterproof socket, includes base (1), be equipped with bracing piece (11) on base (1), bracing piece (11) top is equipped with socket ontology (12), be equipped with main power cord (3) that are used for supplying power for socket ontology (12) on socket ontology (12), jack (121) have been seted up to socket ontology (12) width direction's both sides side, socket ontology (12) top is equipped with handle (13), its characterized in that: be equipped with two rain-proof pieces (14) on socket ontology (12), two rain-proof pieces (14) are located socket ontology (12) width direction's both sides respectively, rain-proof piece (14) include first board (141) and two second board (142), the both ends of first board (141) set up respectively on two second board (142), first board (141) and two second board (142) all set up on one side of socket ontology (12) width direction, first board (141) are located jack (121) top, including jack (121) are enclosed jointly to first board (141) and two second board (142).

2. A portable water resistant socket as claimed in claim 1, wherein: the socket is characterized by further comprising a first driving piece (18) and a rotating shaft (17), two ends of the rotating shaft (17) are respectively connected to the base (1) and the socket body (12) in a rotating mode, a take-up reel (16) with a containing cavity (163) is arranged on the bottom surface of the socket body (12), the rotating shaft (17) penetrates through the take-up reel (16), a wire inlet (161) and a wire outlet (162) communicated with the containing cavity (163) are formed in the take-up reel (16), a main power wire (3) enters from the wire inlet (161) and extends out of the wire outlet (162), the main power wire (3) is wound on the rotating shaft (17), and the first driving piece (18) drives the rotating shaft (17) to rotate.

3. A portable water resistant socket as claimed in claim 2, wherein: still include and support the piece (21), support the piece (21) and include first bull stick (211), connecting rod (212), butt piece (213) and return spring (214), first bull stick (211) rotate to be connected on the diapire of accomodating chamber (163), the axis direction of first bull stick (211) is on a parallel with the axis direction of pivot (17), the both ends of connecting rod (212) are connected respectively on first bull stick (211) and butt piece (213), return spring (214) coaxial setting is on first bull stick (211), butt piece (213) will support on pivot (17) around main source line (3) on pivot (17) all the time, when no external force is exerted on butt piece (213), the axis of connecting rod (212) intersects in a bit with the axis of pivot (17).

4. A portable water resistant socket as claimed in claim 3, wherein: the connecting rod (212) is far away from one end face of the first rotating rod (211), a sliding groove (2121) is formed in the end face of the end, parallel to the connecting rod (212), of the connecting rod (212), the sliding block (215) is connected to the sliding groove (2121) in a sliding mode along the length direction of the connecting rod (212), two ends of the first spring (216) are arranged on the bottom wall of the sliding groove (2121) and the sliding block (215) respectively, and when the rotating shaft (17) is not rotated simultaneously, the abutting blocks (213) move to two sides of the first rotating rod (211) under the effect of the main power line (3) respectively.

5. A portable water resistant socket as claimed in claim 4, wherein: still include driving piece two (23), base (1) top surface is rotated and is connected with third bull stick (233), the axis direction of third bull stick (233) is on a parallel with the axis direction of pivot (17), the cover is equipped with driving wheel (2331) on third bull stick (233), it is connected with butt wheel (242) to rotate on take-up reel (16), butt wheel (242) pivoted axis direction is on a parallel with the axis direction of pivot (17), butt wheel (242) will follow main power cord (3) centre gripping that outlet (162) locate to stretch out jointly with driving wheel (2331), when pivot (17) rotate to main power cord (3) and stretch out, driving piece two (23) drive third bull stick (233) meet to the one side rotation that main power cord (3) stretched out.

6. A portable water resistant socket as claimed in claim 5, wherein: the second driving piece (23) comprises a positioning rod (232), a second rotating rod (231) and a synchronous belt (234), the second rotating rod (231) is arranged on the connecting rod (212), the axis direction of the second rotating rod (231) is parallel to the axis direction of the rotating shaft (17), an arc-shaped through groove (22) matched with the moving path of the second rotating rod (231) is formed in the bottom wall of the take-up reel (16), the second rotating rod (231) is connected to the arc-shaped through groove (22) in a sliding mode, the positioning rod (232) is connected to the top surface of the base (1) in a rotating mode, and the axis direction of the positioning rod (232) is parallel to the axis direction of the rotating shaft (17);

coaxial rotation is connected with synchronizing wheel (235) with hold-in range (234) meshing on second bull stick (231), all coaxial cover is equipped with synchronizing wheel (235) that can mesh with hold-in range (234) on pivot (17), locating lever (232) and third bull stick (233), when pivot (17) rotated along the direction of main power cord (3) rolling, hold-in range (234) were around rolling up on locating lever (232), second bull stick (231) and third bull stick (233) synchronizing wheel (235), when pivot (17) rotated along the direction that main power cord (3) stretched out, hold-in range (234) were around rolling up on synchronizing wheel (235) of pivot (17), locating lever (232), second bull stick (231) and third bull stick (233).

7. A portable water resistant socket as claimed in claim 3, wherein: an arc-shaped surface (2131) is arranged on one side surface of the abutting block (213) facing the main power line (3), and the distance from the middle to two ends of the arc-shaped surface (2131) to the connecting rod (212) is gradually reduced.

8. A portable water resistant socket as claimed in claim 1, wherein: the side faces, opposite to the two second plates (142), of the two second plates are connected with the shielding cover (15) in a rotating mode, when the shielding cover (15) rotates towards one side of the base (1) to abut against the socket body (12), the jack (121) is completely shielded by the shielding cover (15).

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