CN217545055U - Waterproof socket of generator - Google Patents

Abstract

The utility model provides a waterproof socket of a generator, which comprises a generator body, a socket body, a water blocking block, a sealing plate, a pushing assembly, a transmission assembly and a pulling assembly; the socket body is arranged on the generator body; the water blocking block is arranged on the generator body and is provided with a pushing groove, a communication hole and a pulling groove, the pushing groove is communicated with the pulling groove through the communication hole, and the socket body is arranged in the communication hole; the closing plate is connected in the pulling groove in a sliding manner and is abutted against each inner wall of the communicating hole; the pushing assembly is connected in the pushing groove in a sliding manner and can abut against the inner side surface of the pushing groove; one end of the transmission component is rotatably arranged in the pushing groove, the other end of the transmission component is rotatably arranged in the pulling groove, and the sliding pushing component can enable the transmission component to rotate; the pulling assembly is connected in the pulling groove in a sliding mode and connected with the closing plate, and the rotating transmission assembly enables the pulling assembly to slide. The waterproof generator socket can seal the passage entering the socket body again after the plug is pulled out.

Description

Waterproof socket of generator

Technical Field

The utility model relates to a generator technical field, concretely relates to waterproof socket of generator.

Background

The generator is used as a supply mode of electric energy, has wide application in industrial and agricultural production, national defense, science and technology and daily life, has various forms, is complex and diversified in use environment, and has important safety when an output socket of the generator is used as a key component of an output power supply. The existing common waterproof device for the generator socket is a waterproof cover which is hinged to the socket, the waterproof cover is pulled up when the power equipment is connected, and the waterproof cover is buckled down after the power equipment is used.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides a waterproof socket of generator to solve the technical problem who forgets easily and close the buckler after the used up consumer who mentions in the above-mentioned background art.

For solving the technical problem, the utility model discloses the technical scheme who adopts is:

a waterproof socket of a generator comprises a generator body, a socket body, a water retaining block, a sealing plate, a pushing assembly, a transmission assembly and a pulling assembly;

the socket body is arranged on the generator body;

the water blocking block is arranged on the generator body and is provided with a pushing groove, a communicating hole and a pulling groove, the pushing groove is communicated with the pulling groove through the communicating hole, and the socket body is arranged in the communicating hole;

the closing plate is connected in the pulling groove in a sliding mode and abutted against each inner wall of the communication hole, and the closing plate can slide into the pulling groove from the communication hole;

the pushing assembly is connected in the pushing groove in a sliding mode and can abut against the inner side face of the pushing groove;

one end of the transmission assembly is rotatably arranged in the pushing groove, the other end of the transmission assembly is rotatably arranged in the pulling groove, and the transmission assembly can rotate by sliding the pushing assembly; the pulling assembly is connected in the pulling groove in a sliding mode and is connected with the closing plate, and the rotating transmission assembly enables the pulling assembly to slide.

As described above, the socket body is disposed in the communication hole, that is, the plug of the electric device can be inserted into the socket body through the communication hole. Each inner wall of closing plate butt intercommunicating pore, and promote the inner wall that the subassembly can the butt promotes the groove, the lateral wall that will promote the recommendation sets to each medial surface of butt promotion groove when initial condition, and one end is located the below of closing plate, can realize the isolation to water.

The plug of the electric equipment gradually penetrating through the communication hole pushes the pushing assembly to slide a little by a little, so that the pushing assembly drives the transmission assembly to rotate, the rotation of the transmission assembly further drives the pulling assembly to slide, the pulling assembly finally drives the sealing block to slide into the pulling groove and to be far away from the socket body, and the plug of the motor can be inserted into the socket body; when the plug is pulled out, the sealing block falls again under the action of gravity, and finally the pushing assembly resets together, so that water is isolated again.

Further, the pushing assembly comprises a rack plate, a pushing block and a spring; the side surface of the rack plate is abutted and slidably connected in the pushing groove and is connected with the pushing groove through the spring; the pushing block is arranged on the rack plate and positioned in the communicating hole, and the rack plate slides to drive the transmission assembly to rotate. The plug of the electric equipment is abutted against the pushing block in the process of being inserted into the socket body, thereby conveniently driving the rack plate to slide; after the plug is pulled out, the spring can push the rack plate back to the original position again, and then the water is isolated again.

Further, the transmission assembly comprises a first gear, a rotating shaft and a second gear; one end of the rotating shaft is rotatably connected in the pushing groove, the other end of the pull rod penetrates through the push groove and is rotationally connected into the pull groove; the first gear and the second gear are respectively and fixedly arranged on the rotating shaft coaxially, and the first gear is positioned in the pushing groove and meshed with the rack plate; the second gear is located in the pulling groove and can drive the transmission assembly to slide. Through this structure, can make the slip of rack board make first gear drive the second gear rotation through the pivot conveniently, and then drive the pulling subassembly and slide.

Further, the pulling assembly comprises a transmission rack and a connecting rod; the transmission rack is connected in the pulling groove in a sliding mode and meshed with the second gear; and two ends of the connecting rod are respectively connected with the closing plate and the transmission rack. The structure can conveniently drive the transmission rack to slide by the transmission component, and further drive the sealing block to slide.

Further, a placing groove is formed in the socket body, and the pushing block can be inserted into the placing groove. Through setting up the standing groove, can reduce and promote the piece butt socket body when promoting the end to make the condition appearance that the plug can not all insert socket body.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings used in the embodiments will be briefly described below. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

Fig. 1 is a schematic view of a waterproof socket for a generator according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a waterproof socket of the generator shown in FIG. 1;

fig. 3 is a schematic cross-sectional view of another angle of the waterproof socket of the generator shown in fig. 1.

Reference numerals:

1-a motor body; 11-a push groove; 12-a communication hole; 13-pulling the groove;

2-a socket body; 21-placing a groove;

3-water retaining blocks;

4-a closing plate;

5-a pushing assembly; 51-a rack plate; 52-a pushing block; 53-a spring;

6-a transmission assembly; 61-a first gear; 62-a rotating shaft; 63-a second gear;

7-a pulling assembly; 71-a drive rack; 72-connecting rod.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1-3 together, the present embodiment provides a waterproof socket for a generator, which includes a generator body 1, a socket body 2, a water blocking block 3, a sealing plate 4, a pushing assembly 5, a transmission assembly 6, and a pulling assembly 7.

The socket body 2 is provided on the generator body 1.

The water blocking block 3 is arranged on the generator body 1 and is provided with a pushing groove 11, a communication hole 12 and a pulling groove 13, the pushing groove 11 is communicated with the pulling groove 13 through the communication hole 12, and the socket body 2 is arranged in the communication hole 12. It should be understood that the communication hole 12 extends from the front side to the back side of the water deflector 3, in which the socket body 2 is located, and the pushing groove 11 is provided on one side of the communication hole 12, the opening of which is smaller than the width of the communication hole 12; the pulling groove 13 is provided on the other side surface, and the opening width of the pulling groove 13 is the same as the opening width of the communication hole 12.

The closing plate 4 is slidably attached in the pulling groove 13 and abuts against the respective inner walls of the communicating hole 12, and the closing plate 4 can be slid into the pulling groove 13 from the communicating hole 12. It will be understood that in the initial state, one end of the closing plate 4 is located in the pulling groove 13 and abuts against the respective inner walls of the pulling groove 13, and the remaining side surfaces of the closing plate 4 abut against the respective inner walls of the communication hole 12, respectively.

The pushing assembly 5 is slidably connected in the pushing groove 11 and can abut against the inner side surface of the pushing groove 11. It will be appreciated that the pusher assembly 5 is in its initial state with one end located below the closure plate 4 and the other three sides abutting the inner walls of the pusher slot 11 respectively.

In other solutions, the pushing assembly 5 comprises a rack plate 51, a pushing block 52 and a spring 53; the side surface of the rack plate 51 is abutted and slidably connected in the pushing groove 11 and is connected with the pushing groove 11 through a spring 53; the pushing block 52 is arranged on the rack plate 51 and positioned in the communication hole 12, and slides the rack plate 51 to drive the transmission assembly 6 to rotate. The plug of the electric equipment is abutted against the pushing block 52 in the process of being inserted into the socket body 2, so that the rack plate 51 is conveniently driven to slide; after the plug is pulled out, the spring 53 can push the rack plate 51 back into place again, thereby achieving re-isolation of the water. It will be appreciated that the plug of the electrical consumer comprises a plug tip and a base plate which, when inserted, abuts and carries the push block 52 to slide and the closure plate 4 slides fully into the pull slot 13 before the plug abuts the closure plate 4. In addition, the top surface of the pushing block 52 is at the same level with the side surface of the communicating hole 12, when the plug is inserted into the socket body 2, the pushing block 52 does not interfere with the socket body 2, and the spring 53 is difficult to push the plug to reset.

One end of the transmission component 6 is rotatably arranged in the pushing groove 11, the other end of the transmission component is rotatably arranged in the pulling groove 13, and the sliding pushing component 5 can enable the transmission component 6 to rotate; the pulling assembly 7 is slidably connected in the pulling groove 13 and is connected to the closing plate 4, and the rotating transmission assembly 6 enables the pulling assembly 7 to slide.

In other solutions, the transmission assembly 6 comprises a first gear 61, a rotating shaft 62 and a second gear 63; one end of the rotating shaft 62 is rotatably connected in the pushing groove 11, and the other end of the rotating shaft passes through the pushing groove 11 and is rotatably connected in the pulling groove 13; the first gear 61 and the second gear 63 are respectively and fixedly arranged on the rotating shaft 62 coaxially, the first gear 61 is positioned in the pushing groove 11 and meshed with the rack plate 51; the second gear 63 is located in the pulling groove 13 and can drive the transmission assembly 6 to slide. Through this structure, the sliding of the rack plate 51 can be conveniently made to make the first gear 61 drive the second gear 63 to rotate through the rotating shaft 62, and then drive the pulling assembly 7 to slide.

In other solutions, the pulling assembly 7 comprises a driving rack 71 and a connecting rod 72; the transmission rack 71 is slidably connected in the pulling groove 13 and meshed with the second gear 63; the two ends of the connecting rod 72 are respectively connected with the closing plate 4 and the transmission rack 71. The structure can conveniently drive the transmission assembly 6 to drive the transmission rack 71 to slide, and further drive the sealing block to slide.

The socket body 2 is disposed in the communication hole 12, that is, a plug of the electric device can be inserted into the socket body 2 through the communication hole 12. Each inner wall of closing plate 4 butt intercommunicating pore 12, and promote subassembly 5 ability butt push tank 11's inner wall, set the lateral wall that will promote the recommendation to each medial surface of butt push tank 11 when initial condition, and one end is located the below of closing plate 4, can realize the isolation to water.

The plug of the electric equipment gradually penetrating through the communication hole 12 pushes the pushing component 5 to slide a little, so that the pushing component 5 drives the transmission component 6 to rotate, the transmission component 6 rotates to drive the pulling component 7 to slide, the pulling component 7 finally drives the sealing block to slide into the pulling groove 13 and keep away from the socket body 2, and the plug of the motor can be inserted into the socket body 2; when the plug is pulled out, the sealing block falls again under the action of gravity, and finally the pushing assembly 5 resets together, so that water is isolated again.

In other embodiments, the socket body 2 further has a placement slot 21, and the pushing block 52 can be inserted into the placement slot 21. By providing the placement groove 21, it is possible to reduce the occurrence of the situation in which the pushing block 52 abuts the socket body 2 when pushed to the tip, thereby making it impossible to insert the plug into the socket body 2 entirely.

The waterproof socket for the generator can close the passage entering the socket body 2 again after the plug is pulled out, so that the possibility that the generator body 1 is water-in due to the fact that the waterproof cover is forgotten to be closed again is reduced.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (5)

1. A waterproof socket of a generator is characterized by comprising a generator body, a socket body, a water blocking block, a sealing plate, a pushing assembly, a transmission assembly and a pulling assembly;

the socket body is arranged on the generator body;

the water blocking block is arranged on the generator body and is provided with a pushing groove, a communication hole and a pulling groove, the pushing groove is communicated with the pulling groove through the communication hole, and the socket body is arranged in the communication hole;

the closing plate is connected in the pulling groove in a sliding mode and abutted against each inner wall of the communication hole, and the closing plate can slide into the pulling groove from the communication hole;

the pushing assembly is connected in the pushing groove in a sliding mode and can abut against the inner side face of the pushing groove;

one end of the transmission assembly is rotatably arranged in the pushing groove, the other end of the transmission assembly is rotatably arranged in the pulling groove, and the transmission assembly can rotate by sliding the pushing assembly; the pulling assembly is connected in the pulling groove in a sliding mode and connected with the closing plate, and the rotating transmission assembly enables the pulling assembly to slide.

2. The waterproof generator socket as claimed in claim 1, wherein the pushing assembly comprises a rack plate, a pushing block and a spring; the side surface of the rack plate is abutted and slidably connected in the pushing groove and is connected with the pushing groove through the spring; the pushing block is arranged on the rack plate and positioned in the communicating hole, and the rack plate slides and can drive the transmission assembly to rotate.

3. The waterproof generator socket as claimed in claim 2, wherein the transmission assembly comprises a first gear, a rotating shaft and a second gear; one end of the rotating shaft is rotatably connected into the pushing groove, and the other end of the rotating shaft penetrates through the pushing groove and is rotatably connected into the pulling groove; the first gear and the second gear are respectively and coaxially fixedly arranged on the rotating shaft, and the first gear is positioned in the pushing groove and meshed with the rack plate; the second gear is located in the pulling groove and can drive the transmission assembly to slide.

4. The waterproof generator socket of claim 3, wherein the pulling assembly comprises a driving rack and a connecting rod; the transmission rack is connected in the pulling groove in a sliding mode and meshed with the second gear; and two ends of the connecting rod are respectively connected with the sealing plate and the transmission rack.

5. The waterproof socket for generator as claimed in claim 4, wherein the socket body is further provided with a placement groove, and the pushing block can be inserted into the placement groove.

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