CN111146621A - Socket auxiliary device capable of controlling temperature and preventing electric leakage - Google Patents

Abstract

The invention relates to a temperature-control anti-creeping socket auxiliary device, which comprises a socket, wherein a through cavity with a right opening is arranged in the socket, a plug can be placed in the through cavity, a first sliding block is arranged at the left end of the through cavity in a left-right sliding manner, first push blocks are symmetrically arranged at the left end of the first sliding block from top to bottom, and first hydraulic cylinders are symmetrically arranged at the left end of the through cavity from top to bottom.

Description

Socket auxiliary device capable of controlling temperature and preventing electric leakage

Technical Field

The invention relates to the technical field of electric switches, in particular to a temperature-control anti-creeping socket auxiliary device.

Background

When the household electric switch is used, the power supply can be switched on due to the fact that water is adhered to the hand, electric shock is easily caused, the safety of people is threatened, meanwhile, in the process of switching on the power supply, the plug is not firmly plugged, or the voltage is unstable, the plug is loosened, and accidents are easily caused in the process of using an electric appliance.

Disclosure of Invention

Aiming at the technical defects, the invention provides a temperature-control anti-creeping socket auxiliary device which can overcome the defects.

The invention relates to a temperature-control anti-creeping socket auxiliary device, which comprises a socket, wherein a connecting cavity with a right opening is arranged in the socket, a plug can be placed in the connecting cavity, a first slide block is arranged at the left end of the connecting cavity in a left-right sliding manner, first push blocks are symmetrically arranged at the left end of the first slide block from top to bottom, first hydraulic cylinders are symmetrically arranged at the left end of the connecting cavity from top to bottom, first hydraulic rods are fixedly connected with the left ends of the first push blocks at the symmetrical upper ends, first sealing blocks are arranged in the first hydraulic cylinders at the symmetrical upper ends in a left-right sliding manner, the first hydraulic rods are fixedly connected with the first sealing blocks, first spring cavities are symmetrically arranged at the right ends of the connecting cavity from top to bottom, the first spring cavities are communicated with the first hydraulic cylinders through first communicating grooves, a buffer plate is arranged in the first spring cavities in a vertical sliding manner, and first springs are fixedly connected between the buffer plate and the upper end walls of the first spring cavities, the lower end of the buffer plate is fixedly connected with a buffer rod, the lower end of the buffer rod is fixedly connected with a clamping block, a second spring cavity is arranged in the clamping block, a positioning block is arranged in the second spring cavity in a left-right sliding mode, a second spring is fixedly connected between the positioning block and the right end wall of the second spring cavity, when the plug is inserted into the communicating cavity, the plug drives the first sliding block to move leftwards, so that the first push blocks which are symmetrical up and down are driven to move leftwards, the two first push blocks drive the first sealing block to move leftwards through the first hydraulic rod, hydraulic oil in the first hydraulic cylinder is extruded into the first spring cavity through the first communicating groove, so that the buffer plate is driven to move downwards, and the positioning block is driven to fix the plug;

the plug temperature measuring device is characterized in that a switching mechanism is arranged at the left end of the connection cavity and can be used for mode switching, a heat dissipation mechanism is arranged at the rear end of the connection cavity and can be used for dissipating heat of the plug, a temperature measuring mechanism is arranged in the connection cavity and can be used for dissipating heat when the temperature is too high during power utilization.

Further, switching mechanism including fixed set up in the fixed block of first slider left end, the fixed block with fixed connection is equipped with buffer spring between the wall of switching on chamber left end, fixed block left end fixed connection is equipped with the second hydraulic cylinder, switching on chamber left end is equipped with the second hydraulic cylinder, but the horizontal slip is equipped with the second seal block in the second hydraulic cylinder, the second hydraulic cylinder with second seal block fixed connection, second hydraulic cylinder rear end is equipped with the depression bar, the depression bar pass through second intercommunication groove with the second hydraulic cylinder intercommunication, but the horizontal slip is equipped with the buffer block in the depression bar, the rotatable first pivot that is equipped with in the buffer block.

Further, heat dissipation mechanism including set up in the transmission chamber of depression bar right-hand member, first pivot extends to in the transmission chamber, the fixed first gear that is equipped with in first pivot right end, the meshing of first gear rear end is equipped with the second gear, the rotatable transmission shaft that is equipped with in second gear rear end, the fixed heat dissipation motor that is equipped with in transmission shaft rear end, the meshing of first gear front end is equipped with the third gear, the rotatable second pivot that is equipped with of third gear front end, transmission chamber front end is equipped with the heat dissipation chamber, the second pivot extends to in the heat dissipation chamber, fixed cover that is equipped with in the second pivot, fixed sheatheeing in is fixed and is equipped with the flabellum, the heat dissipation chamber with the fixed first filter screen that is equipped with in switch-on chamber intercommunication department, switch-on chamber front end and the fixed second filter screen that is equipped with in external intercommunication department.

Further, the temperature measuring mechanism comprises a first heat conducting block fixedly arranged at the rear end of the first sliding block, a heat conducting rod is fixedly connected at the rear end of the first heat conducting block, a temperature measuring box is fixedly arranged at the left end of the heat dissipation cavity, a temperature measuring groove is arranged in the temperature measuring box, a second heat conducting block is arranged in the temperature measuring groove and extends to the outer end, a sliding groove is arranged in the second heat conducting block, the heat conducting rod can slide left and right in the sliding groove, a second sliding block can slide up and down in the temperature measuring groove, a fixing rod is fixedly connected at the upper right end of the second sliding block, a sliding cavity is arranged at the upper end of the temperature measuring groove, the fixing rod extends into the sliding cavity, a fourth sliding block can slide up and down in the sliding cavity, the sensor is abutted against the fixing rod, a sensor is fixedly arranged on the top wall of the sliding cavity, and the sensor is electrically connected with the heat, a third spring cavity is arranged at the lower right end of the temperature measuring groove, a pressing plate is arranged in the third spring cavity in a vertically sliding manner, a third spring is fixedly connected and arranged between the pressing plate and the bottom wall of the third spring cavity, the upper left end of the pressing plate is fixedly connected and provided with an ejector rod, the ejector rod extends into the temperature measuring groove, the upper right end of the buffer block is fixedly provided with a fixed rod, the right end of the sliding cavity is provided with a cavity, the fixed rod extends into the cavity, the upper right end of the fixed rod is fixedly connected and provided with a first inclined block, the lower end of the first inclined block is attached and provided with a second inclined block, the right end of the second inclined block is fixedly connected and provided with a third sliding block, the right end of the cavity is provided with a fourth spring cavity, a fourth spring is fixedly connected and arranged between the third sliding block and the right end wall of the fourth spring cavity, a sliding rod is fixedly, locking is performed.

The invention has the beneficial effects that: the electric switch has the advantages that the structure is simple, the operation is convenient, when the electric switch is used, the direct contact between hands and a socket is not needed, the electric shock caused by the water on the hands is prevented, the self safety of people is influenced, the plug is fixed through the positioning blocks which are symmetrical up and down, the situation that the plug is not firmly inserted or the plug is loosened when the voltage is unstable is prevented, the electricity utilization is influenced, and meanwhile, when the temperature is too high in the electricity utilization process, the heat dissipation is carried out on the socket through the fan, and the electricity utilization accident caused by the too high temperature is prevented.

Drawings

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now 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 the drawing itself.

FIG. 1 is a schematic view of an overall structure of a temperature-controlled anti-leakage socket auxiliary device according to the present invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 2;

fig. 4 is a schematic structural diagram at C in fig. 1.

Detailed Description

The present invention will be further described with reference to the following description and examples, which include but are not limited to the following examples.

As shown in fig. 1-4, a temperature-controlled anti-leakage socket auxiliary device includes a socket 10, a through cavity 33 with a right opening is provided in the socket 10, a plug 22 can be placed in the through cavity 33, a first slider 16 is provided at the left end of the through cavity 33 and can slide left and right, a first push block 15 is provided at the left end of the first slider 16 and can be vertically symmetric, a first hydraulic cylinder 12 is provided at the left end of the through cavity 33 and can be vertically symmetric, a first hydraulic rod 14 is fixedly connected to the left end of the first push block 15 and can slide left and right, a first sealing block 11 is provided in the first hydraulic cylinder 12 and can slide left and right, the first hydraulic rod 14 is fixedly connected to the first sealing block 11, a first spring cavity 61 is provided at the right end of the through cavity 33 and can be vertically symmetric, the first spring cavity 61 is communicated to the first hydraulic cylinder 12 through a first connecting groove 13, a buffer plate 63 is provided in the first spring cavity 61 and can slide up and down, a first spring 62 is fixedly connected between the buffer plate 63 and the upper end wall of the first spring cavity 61, a buffer rod 64 is fixedly connected at the lower end of the buffer plate 63, a clamping block 65 is fixedly connected at the lower end of the buffer rod 64, a second spring cavity 66 is arranged in the clamping block 65, a positioning block 68 is arranged in the second spring cavity 66 in a left-right sliding manner, a second spring 67 is fixedly connected between the positioning block 68 and the right end wall of the second spring cavity 66, when the plug 22 is inserted into the communicating cavity 33, the plug 22 drives the first slider 16 to move leftward, so as to drive the first push blocks 15 which are vertically symmetrical to move leftward, the two first push blocks 15 drive the first sealing block 11 to move leftward through the first hydraulic rod 14, so as to extrude the hydraulic oil in the first hydraulic cylinder 12 into the first spring cavity 61 through the first connecting groove 13, thereby driving the buffer plate 63 to move downward, and thus driving the positioning block 68 to fix the plug 22;

the left end of the connection cavity 33 is provided with a switching mechanism 80, the switching mechanism 80 can perform mode switching, the rear end of the connection cavity 33 is provided with a heat dissipation mechanism 81, the heat dissipation mechanism 81 can dissipate heat of the plug 22, the connection cavity 33 is internally provided with a temperature measurement mechanism 82, and the temperature measurement mechanism 82 can dissipate heat when the temperature is too high during power utilization.

Beneficially, the switching mechanism 80 includes a fixed block 21 fixedly disposed at the left end of the first slider 16, a buffer spring 20 is fixedly connected between the fixed block 21 and the left end wall of the communicating cavity 33, a second hydraulic rod 19 is fixedly connected at the left end of the fixed block 21, a second hydraulic cylinder 18 is disposed at the left end of the communicating cavity 33, a second sealing block 17 is slidably disposed in the second hydraulic cylinder 18 from left to right, the second hydraulic rod 19 is fixedly connected with the second sealing block 17, a pressure rod 45 is disposed at the rear end of the second hydraulic cylinder 18, the pressure rod 45 is communicated with the second hydraulic cylinder 18 through a second communicating groove 35, a buffer block 46 is slidably disposed in the pressure rod 45 from left to right, and a first rotating shaft 47 is rotatably disposed in the buffer block 46.

Advantageously, the heat dissipating mechanism 81 comprises a transmission chamber 26 arranged at the right end of the strut 45, the first rotating shaft 47 extends into the transmission cavity 26, a first gear 48 is fixedly arranged at the right end of the first rotating shaft 47, the rear end of the first gear 48 is engaged with a second gear 25, the rear end of the second gear 25 is rotatably provided with a transmission shaft 24, the rear end of the transmission shaft 24 is fixedly provided with a heat dissipation motor 23, the front end of the first gear 48 is engaged with a third gear 27, a second rotating shaft 28 is rotatably arranged at the front end of the third gear 27, a heat dissipation cavity 31 is arranged at the front end of the transmission cavity 26, the second shaft 28 extends into the heat dissipation cavity 31, a fixing sleeve 29 is fixedly arranged on the second shaft 28, the fan blades 30 are fixedly arranged on the fixed sleeve 29, a first filter screen 32 is fixedly arranged at the communication position of the heat dissipation cavity 31 and the communication cavity 33, and a second filter screen 34 is fixedly arranged at the communication position of the front end of the communication cavity 33 and the outside.

Beneficially, the temperature measuring mechanism 82 includes a first heat conducting block 38 fixedly disposed at the rear end of the first sliding block 16, a heat conducting rod 39 is fixedly connected to the rear end of the first heat conducting block 38, a temperature measuring box 42 is fixedly disposed at the left end of the heat dissipation cavity 31, a temperature measuring groove 43 is disposed in the temperature measuring box 42, a second heat conducting block 41 is disposed in the temperature measuring groove 43, the second heat conducting block 41 extends to the outer end, a sliding groove 40 is disposed in the second heat conducting block 41, the heat conducting rod 39 can slide left and right in the sliding groove 40, a second sliding block 44 is slidably disposed in the temperature measuring groove 43 up and down, a fixing rod 57 is fixedly connected to the right upper end of the second sliding block 44, a sliding cavity 60 is disposed at the upper end of the temperature measuring groove 43, the fixing rod 57 extends into the sliding cavity 60, a fourth sliding block 59 is slidably disposed in the sliding cavity 60 up and down, and the sensor 58 is abutted to the fixing rod 57, the top wall of the sliding cavity 60 is fixedly provided with a sensor 58, the sensor 58 is electrically connected with the heat dissipation motor 23, the right lower end of the temperature measuring groove 43 is provided with a third spring cavity 72, the third spring cavity 72 is internally provided with a pressing plate 70 capable of sliding up and down, a third spring 71 is fixedly connected between the pressing plate 70 and the bottom wall of the third spring cavity 72, the left upper end of the pressing plate 70 is fixedly connected with a mandril 69, the mandril 69 extends into the temperature measuring groove 43, the right upper end of the buffer block 46 is fixedly provided with a fixed rod 49, the right end of the sliding cavity 60 is provided with a cavity 56, the fixed rod 49 extends into the cavity 56, the right upper end of the fixed rod 49 is fixedly connected with a first inclined block 50, the lower end of the first inclined block 50 is provided with a second inclined block 51 in an attaching manner, the right end of the second inclined block 51 is fixedly connected with a third slide block 54, and the right, a fourth spring 53 is fixedly connected between the third slider 54 and the right end wall of the fourth spring cavity 52, a sliding rod 55 is fixedly arranged at the upper end of the third slider 54, and the sliding rod 55 can be inserted into the fourth slider 59 for locking.

The implementation method of the temperature-control anti-creeping socket auxiliary device comprises the following steps:

in the initial state of the present invention, the first gear 48 is engaged with the second gear 25 and the third gear 27, and the slide rod 55 is inserted into the fourth slider 59 to be locked;

1. the plug 22 is inserted into the connection cavity 33, the plug 22 drives the first slider 16 to move leftwards, the first slider 16 drives the first push block 15 which is symmetrical up and down to move leftwards, the first push block 15 drives the first sealing block 11 to move leftwards through the first hydraulic rod 14, therefore, hydraulic oil in the first hydraulic cylinder 12 is squeezed into the first spring cavity 61 through the first connection groove 13, the buffer plate 63 moves downwards, and the plug 22 is fixed through the positioning blocks 68 which are symmetrical up and down;

2. the first sliding block 16 drives the fixed block 21 to move leftwards, the fixed block 21 drives the second sealing block 17 to move leftwards through the second hydraulic rod 19, hydraulic oil in the second hydraulic cylinder 18 is extruded into the pressure rod 45 through the second communicating groove 35, and the buffer block 46 moves rightwards, so that the first gear 48 is meshed with the second gear 25 and the third gear 27;

3. the first slide block 16 drives the first heat-conducting block 38 to move leftwards, the first heat-conducting block 38 drives the heat-conducting rod 39 to move leftwards, but the heat-conducting rod 39 is always in the chute 40, but in the power utilization process, the temperature is too high, heat is conducted into the temperature measuring groove 43 through the second heat-conducting block 41, so that the thermoplastic material in the temperature measuring groove 43 expands, the second slide block 44 is driven to move upwards, the fixing rod 57 drives the fourth slide block 59 to move upwards, the sensor 58 is touched, and the heat-radiating motor 23 is started;

4. meanwhile, the ejector rod 69 moves upwards, the ejector rod 69 drives the pressing plate 70 to move upwards, the pressing plate 70 drives the fixing rod 49 to move upwards, the fixing rod 49 drives the second inclined block 51 to move leftwards through the first inclined block 50, the second inclined block 51 drives the third sliding block 54 to move leftwards, the third sliding block 54 drives the sliding rod 55 to move leftwards, the sliding rod is inserted into the fourth sliding block 59 to be locked, and the heat dissipation device is prevented from stopping when the temperature is not reduced to the normal temperature;

5. the heat dissipation motor 23 drives the transmission shaft 24 to rotate, the transmission shaft 24 drives the second gear 25 to rotate, the second gear 25 drives the first gear 48 to rotate, the first gear 48 drives the third gear 27 to rotate, the third gear 27 drives the second rotating shaft 28 to rotate, and the second rotating shaft 28 drives the fixing sleeve 29 to rotate, so that the fan blades 30 are driven to rotate, and the heat dissipation of the plug 22 is realized;

6. when the temperature of the plug 22 is reduced, the thermoplastic material in the temperature measuring groove 43 contracts to drive the second slide block 44 to move downwards, the second slide block 44 drives the pressure rod 45 to move downwards, the pressure rod 45 drives the buffer block 46 to move downwards, the buffer block 46 drives the fixed rod 49 to move downwards, so that the first inclined block 50 drives the second inclined block 51 to move rightwards, the second inclined block 51 drives the third slide block 54 to move rightwards, and the third slide block 54 drives the slide rod 55 to move rightwards, so that the fourth slide block 59 is unlocked;

7. when the plug 22 needs to be taken out, the buffer rods 64 which are symmetrical up and down are moved outwards, so that the plug 22 is taken out, and resetting is realized.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (4)

1. The utility model provides a socket auxiliary device of anticreep of accuse temperature, includes the socket, its characterized in that: a connecting cavity with a right opening is arranged in the socket, a plug can be placed in the connecting cavity, a first slide block is arranged at the left end of the connecting cavity in a left-right sliding mode, first push blocks are symmetrically arranged at the left end of the first slide block in an up-down mode, first hydraulic cylinders are symmetrically arranged at the left end of the connecting cavity in an up-down mode, a first hydraulic rod is fixedly connected to the left end of the first push block with the symmetrical upper end, a first sealing block is arranged in the first hydraulic cylinder with the symmetrical upper end in a left-right sliding mode, the first hydraulic rod is fixedly connected with the first sealing block, a first spring cavity is symmetrically arranged at the right end of the connecting cavity in an up-down mode, the first spring cavity is communicated with the first hydraulic cylinder through a first communicating groove, a buffer plate is arranged in the first spring cavity in an up-down sliding mode, a first spring is fixedly connected between the buffer plate and the upper end wall of the first spring cavity, and a buffer rod is fixedly connected to the lower end, the lower end of the buffer rod is fixedly connected with a clamping block, a second spring cavity is arranged in the clamping block, a positioning block is arranged in the second spring cavity in a left-right sliding mode, a second spring is fixedly connected between the positioning block and the right end wall of the second spring cavity, when the plug is inserted into the communicating cavity, the plug drives the first sliding block to move leftwards, so that the first push blocks which are symmetrical up and down are driven to move leftwards, the two first push blocks drive the first sealing block to move leftwards through the first hydraulic rod, hydraulic oil in the first hydraulic cylinder is extruded into the first spring cavity through the first connecting groove, so that the buffer plate is driven to move downwards, and the positioning block is driven to fix the plug;

the plug temperature measuring device is characterized in that a switching mechanism is arranged at the left end of the connection cavity and can be used for mode switching, a heat dissipation mechanism is arranged at the rear end of the connection cavity and can be used for dissipating heat of the plug, a temperature measuring mechanism is arranged in the connection cavity and can be used for dissipating heat when the temperature is too high during power utilization.

2. The socket auxiliary device of claim 1, wherein: switching mechanism including fixed set up in the fixed block of first slider left end, the fixed block with fixed connection is equipped with buffer spring between the wall of switching on chamber left end, fixed block left end fixed connection is equipped with the second hydraulic cylinder, switching on chamber left end is equipped with the second hydraulic cylinder, but horizontal slip is equipped with the second seal block in the second hydraulic cylinder, the second hydraulic cylinder with second seal block fixed connection, second hydraulic cylinder rear end is equipped with the depression bar, the depression bar pass through second intercommunication groove with the second hydraulic cylinder intercommunication, but horizontal slip is equipped with the buffer block in the depression bar, the rotatable first pivot that is equipped with in the buffer block.

3. The socket auxiliary device of claim 2, wherein: the heat dissipation mechanism is including setting up in the transmission chamber of depression bar right-hand member, first pivot extends to in the transmission chamber, the fixed first gear that is equipped with in first pivot right-hand member, the meshing of first gear rear end is equipped with the second gear, the rotatable transmission shaft that is equipped with in second gear rear end, the fixed heat dissipation motor that is equipped with in transmission shaft rear end, the meshing of first gear front end is equipped with the third gear, the rotatable second pivot that is equipped with of third gear front end, transmission chamber front end is equipped with the heat dissipation chamber, the second pivot extends to in the heat dissipation chamber, the fixed cover that is equipped with in the second pivot, the fixed flabellum that is equipped with on the fixed, the heat dissipation chamber with the fixed first filter screen that is equipped with in switch-on chamber intercommunication department, the fixed second filter screen that is equipped with in switch-on chamber front end and external.

4. The socket auxiliary device of claim 3, wherein: the temperature measuring mechanism comprises a first heat conducting block fixedly arranged at the rear end of the first sliding block, a heat conducting rod is fixedly connected at the rear end of the first heat conducting block, a temperature measuring box is fixedly arranged at the left end of the heat dissipation cavity, a temperature measuring groove is arranged in the temperature measuring box, a second heat conducting block is arranged in the temperature measuring groove and extends to the outer end, a sliding groove is arranged in the second heat conducting block, the heat conducting rod can slide left and right in the sliding groove, a second sliding block can slide up and down in the temperature measuring groove, a fixing rod is fixedly connected at the upper right end of the second sliding block, a sliding cavity is arranged at the upper end of the temperature measuring groove, the fixing rod extends into the sliding cavity, a fourth sliding block can slide up and down in the sliding cavity, the sensor is abutted against the fixing rod, a sensor is fixedly arranged on the top wall of the sliding cavity, and is electrically connected with the heat, a third spring cavity is arranged at the lower right end of the temperature measuring groove, a pressing plate is arranged in the third spring cavity in a vertically sliding manner, a third spring is fixedly connected and arranged between the pressing plate and the bottom wall of the third spring cavity, the upper left end of the pressing plate is fixedly connected and provided with an ejector rod, the ejector rod extends into the temperature measuring groove, the upper right end of the buffer block is fixedly provided with a fixed rod, the right end of the sliding cavity is provided with a cavity, the fixed rod extends into the cavity, the upper right end of the fixed rod is fixedly connected and provided with a first inclined block, the lower end of the first inclined block is attached and provided with a second inclined block, the right end of the second inclined block is fixedly connected and provided with a third sliding block, the right end of the cavity is provided with a fourth spring cavity, a fourth spring is fixedly connected and arranged between the third sliding block and the right end wall of the fourth spring cavity, a sliding rod is fixedly, locking is performed.

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