CN220797335U - Socket - Google Patents

Abstract

The utility model discloses a socket, which comprises a socket core, a shell, a power line, a cover body, a cooling fan and a temperature control component, wherein the shell is arranged on the socket core; the cooling fan is arranged in the shell, an air inlet and an air outlet are respectively arranged at two ends of the shell, and the air outlet end of the cooling fan is communicated with the air outlet; the temperature sensor is electrically connected with the temperature controller, and the temperature controller is electrically connected with the power line and the cooling fan respectively. The heat dissipation fan is arranged in the shell, and the air inlets and the air outlets are formed in the two ends of the shell, so that the heat dissipation fan can effectively dissipate heat in the shell, and the excessive temperature of the insert core in the shell is avoided; and a temperature control assembly is further arranged in the shell, and the temperature controller controls the start and stop and the air outlet speed of the cooling fan according to a temperature signal sent by the temperature sensor, so that the cooling effect is improved.

Description

Socket

Technical Field

The utility model relates to the field of electrical equipment, in particular to a socket.

Background

A plurality of electric equipment can be through a socket and power switch-on, and the socket wide application is in daily life and industrial production field.

For industrial high-power sockets, when equipment is connected and is in an electrical conduction state for a long time, heat is generated in the socket, and due to high power consumption, the inside of the socket needs to be timely radiated, the radiating measure of the existing high-power sockets is passive radiation, namely, the heat conduction of the shell of the socket is utilized for radiating, and the radiating effect of the socket in the high-power state for a long time is not ideal.

Therefore, how to provide a socket, so that the above problems can be overcome, is a problem that a person skilled in the art needs to solve.

Disclosure of Invention

In view of this, the present utility model provides a socket.

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

the socket comprises a socket core, a shell, a power line and a cover body, wherein the socket core is fixed in the shell, one end of the power line is electrically connected with the socket core after passing through the shell, one side of the shell is provided with an opening and is buckled with the cover body, and the cover body is provided with a plurality of jacks corresponding to the position of the socket core and also comprises a cooling fan and a temperature control assembly; the cooling fan is detachably arranged in the shell, the shell is in a strip shape, an air inlet and an air outlet are respectively arranged at two ends of the shell, and the air outlet end of the cooling fan is communicated with the air outlet; the temperature control assembly comprises a temperature sensor and a temperature controller which are both fixed in the shell, wherein the temperature sensor is electrically connected with the temperature controller, and the temperature controller is respectively electrically connected with the power line and the cooling fan.

Compared with the prior art, the socket provided by the utility model has the advantages that the radiating fan is arranged in the shell, meanwhile, the air inlets and the air outlets are arranged at the two ends of the shell, and the radiating fan can effectively radiate the inside of the shell, so that the excessive temperature of the core of the socket in the shell is avoided; and a temperature control assembly is further arranged in the shell, and the temperature controller controls the start and stop and the air outlet speed of the cooling fan according to a temperature signal sent by the temperature sensor, so that the cooling effect is improved.

Preferably, the shell is provided with two oppositely arranged arc-shaped inner side walls, the socket core is arranged between the two arc-shaped inner side walls, the arc line of the arc-shaped inner side walls is perpendicular to the central line of the shell in the length direction, and the arc line of the arc-shaped inner side walls is back to the socket core. The design accelerates the air flow speed entering the shell, improves the heat exchange efficiency with the socket core, and further improves the heat dissipation effect.

Preferably, the housing is a rectangular body, the power cord is electrically connected with the socket core after passing through an end wall of the housing, and the air inlet and the air outlet are both arranged through an opening side of the housing; the inner side wall of the air inlet is provided with a first limit groove, a door-shaped elastic connecting piece I is embedded in the first limit groove, the inner side of the elastic connecting piece I is provided with a first clamping groove and a second clamping groove, a first mesh plate is closely embedded in each of the first clamping groove and the second clamping groove, the plate surface of the first mesh plate is perpendicular to the length direction of the shell, a first sheet-shaped filter cotton is closely arranged on the inner side of the elastic connecting piece I, and the first sheet-shaped filter cotton is limited between the two first mesh plates; the inside wall of air outlet is equipped with spacing groove two, inlay in the spacing groove two and be equipped with the elastic connection spare of door shape two, elastic connection spare two inboard is equipped with draw-in groove three and draw-in groove four, draw-in groove three with closely inlay respectively in the draw-in groove four and be equipped with a mesh board two, the face of mesh board two with the length direction of casing is perpendicular, elastic connection spare two inboard has closely arranged a slice filter pulp two, slice filter pulp two is spacing between the mesh board two. The first mesh plate, the second mesh plate, the first sheet filter cotton and the second sheet filter cotton can filter air entering the shell.

Preferably, the temperature controller is fixed on an inner side wall of the shell opposite to the opening side of the shell, and the temperature sensors are provided with a plurality of temperature sensors and are equally fixed on two inner end walls of the shell. The temperature sensor can effectively monitor the temperature inside the shell.

Preferably, the shell is provided with two baffles parallel to each other, the plate surface of the baffle is perpendicular to the plate surface of the second mesh plate, the second mesh plate is arranged between the two baffles, the cooling fan is an axial fan and is close to the arrangement of the baffles, the air outlet end of the cooling fan is arranged between the two baffles, and the temperature controller corresponds to the air inlet end of the cooling fan. The air exhausted by the cooling fan can be effectively exhausted from the air outlet.

Preferably, a side wall of the shell, which is opposite to the opening side of the shell, is opened and can be detachably plugged with a mounting plate, a connecting piece III is fixed on a side plate surface of the mounting plate, and the cooling fan is fixed with the connecting piece III. The cooling fan can be independently detached from the shell, so that the cooling fan is convenient to maintain and replace.

Preferably, the device further comprises an overload protector and a warning lamp, wherein the overload protector is fixed on an inner side wall of the shell, which is opposite to the opening side of the shell, the overload protector is respectively electrically connected with the warning lamp and the power line, and the warning lamp is embedded in the opening of the cover body. When the socket is overloaded, the socket core can be timely powered off.

Preferably, a guide plate is fixed on the shell and on an inner side wall opposite to the opening side of the shell, the length direction of the guide plate is the same as the length direction of the shell, the guide plate is arranged between the two arc inner side walls in the middle, two side plate surfaces of the guide plate are convex arc surfaces, two corresponding arc lines are perpendicular to the length direction of the shell, and the socket core is provided with a plurality of guide plates and is equally arranged on two sides of the guide plate. The design can improve the contact effect of the external air and the socket core.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a front view of a receptacle;

FIG. 2 is a front view of the receptacle with the cover removed;

FIG. 3 is an overall isometric view of a socket;

FIG. 4 is a partial isometric view of a receptacle;

FIG. 5 is an enlarged view of a portion of FIG. 4 at A;

FIG. 6 is a partial enlarged view at B in FIG. 4;

fig. 7 is a partial isometric view of a receptacle.

In the figure:

01 is the socket core, 02 is the casing, 020 is the air intake, 021 is the air outlet, 022 is the arc inside wall, 03 is the power cord, 04 is the lid, 040 is the jack, 05 is radiator fan, 06 is temperature sensor, 07 is temperature controller, 08 is elastic connection spare one, 09 is mesh board one, 10 is slice filter cotton one, 11 is elastic connection spare two, 12 is mesh board two, 13 is slice filter cotton two, 14 is the baffle, 15 is the mounting panel, 16 is the connecting piece three, 17 is overload protector, 18 is the warning light, 19 is the guide plate.

Detailed Description

The following description of the technical solutions in the embodiments of the present utility model will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model discloses a socket, wherein a cooling fan 05 is arranged in a shell 02, meanwhile, an air inlet 020 and an air outlet 021 are arranged at two ends of the shell 02, the cooling fan 05 can effectively dissipate heat in the shell 02, and the excessive temperature of a socket core 01 in the shell 02 is avoided;

a temperature control component is further arranged in the shell 02, and the temperature controller 07 controls the start and stop of the cooling fan 05 and the air outlet speed according to a temperature signal sent by the temperature sensor 06, so that the cooling effect is improved;

by arranging the arc-shaped inner side wall 022, the design accelerates the air flow entering the shell 02, improves the heat exchange efficiency with the socket core 01, and further improves the heat dissipation effect;

by arranging the first mesh plate 09, the second mesh plate 12, the first sheet filter cotton 10 and the second sheet filter cotton 13, the design ensures that external air can enter the shell 02 only by filtering through the components, and ensures that dust cannot adhere to the components such as the socket core 01, the cooling fan 05 and the like;

by arranging the overload protector 17, when the socket is overloaded, the socket core 01 can be timely powered off, so that the electricity safety is ensured, and the warning lamp 18 is on when the socket is overloaded, so that workers are prompted to timely power off and overhaul;

by designing the mounting plate 15 and the third connecting piece 16, the cooling fan 05 can be independently detached from the housing 02 without opening the cover 04, and the design is convenient for maintenance and replacement of the cooling fan 05;

by designing the baffle 19, the design can improve the contact effect of the external air and the socket core 01, and improve the heat dissipation effect.

Examples

Referring to fig. 1-7, which are schematic views of the whole and part of the structure of an embodiment of the present utility model, the present utility model specifically discloses a socket, which is a high-power socket, and generates heat when in use, and the use environment is dry without considering water resistance and moisture resistance;

the socket comprises a socket core 01, a shell 02, a power line 03 and a cover body 04, wherein the socket core 01 is provided with a plurality of holes which are all fixed in the shell 02, the socket core 01 is in the prior art, the socket core 01 is provided with holes which can be inserted with plugs, the plugs can be inserted with the socket core 01 and are electrically conducted, one end of the power line 03 passes through the shell 02 and is electrically connected with the plurality of socket cores 01, one side of the shell 02 is opened and buckled with the cover body 04, the cover body 04 is fixedly connected with the shell 02 through screws, the cover body 04 is provided with a plurality of jacks 040 which correspond to the positions of the socket cores 01, and the jacks 040 are opposite to the holes on the socket core 01;

the socket also comprises a cooling fan 05 and a temperature control component; the cooling fan 05 is detachably arranged in the shell 02, the shell 02 is in a strip shape, an air inlet 020 and an air outlet 021 are respectively arranged at two ends of the shell 02, the air outlet end of the cooling fan 05 is communicated with the air outlet 021, the air inlet end of the cooling fan 05 is arranged in the shell 02, when the cooling fan 05 works, the air outlet 021 is used for exhausting air outwards, and external air enters the shell 02 from the air inlet 020 so as to dissipate heat of a structure in the shell 02;

the shell 02 is provided with two arc-shaped inner side walls 022 which are arranged oppositely, a socket core 01 is arranged between the two arc-shaped inner side walls 022, the arc-shaped core line of the arc-shaped inner side walls 022 is perpendicular to the central line of the shell 02 in the length direction, the arc-shaped core line of the arc-shaped inner side walls 022 is arranged back to the socket core 01, when the air flow entering the shell 02 from the air inlet 020 reaches the minimum distance position between the two arc-shaped inner side walls 022, namely, the cross-sectional area of the air flow is greatly reduced, the air flow speed in the shell 02 is increased, and the heat dissipation efficiency of the socket core 01 is improved;

the temperature control component includes temperature sensor 06 and temperature controller 07 all fixed in casing 02, temperature sensor 06 is connected with temperature controller 07 electricity, temperature sensor 06 can monitor the temperature in the casing 02 and give temperature controller 07 with temperature data transmission, temperature sensor 06 in this embodiment is infrared temperature sensor, temperature controller 07 is connected with power cord 03 and radiator fan 05 electricity respectively, temperature controller 07 can control radiator fan 05 start-stop and blast volume according to the signal of received temperature sensor 06.

The casing 02 in this embodiment is a rectangular body, the power cord 03 is electrically connected with the socket core 01 after passing through one end wall of the casing 02, the air inlet 020 and the air outlet 021 are both rectangular, and the air inlet 020 and the air outlet 021 are both arranged through the opening side of the casing 02;

the inner side wall of the air inlet 020 is provided with a limiting groove I, a door-shaped elastic connecting piece I08 is tightly embedded in the limiting groove I, the inner side of the elastic connecting piece I08 is provided with a clamping groove I and a clamping groove II, a rectangular mesh plate I09 is tightly embedded in each of the clamping groove I and the clamping groove II, the plate surface of the mesh plate I09 is perpendicular to the length direction of the shell 02, a rectangular sheet filter cotton I10 is tightly arranged on the inner side of the elastic connecting piece I08, and the sheet filter cotton I10 is tightly limited between the two mesh plates I09; the elastic connecting piece I08 can ensure the sealing between the mesh plate I09 and the sheet filter cotton I10 and the air inlet 020, and external air can enter the shell 02 after being filtered by the mesh plate I09 and the sheet filter cotton I10;

the inner side wall of the air outlet 021 is provided with a limiting groove II, a door-shaped elastic connecting piece II 11 is tightly embedded in the limiting groove II, the inner side of the elastic connecting piece II 11 is provided with a clamping groove III and a clamping groove IV, a rectangular mesh plate II 12 is tightly embedded in each of the clamping groove III and the clamping groove IV, the plate surface of the mesh plate II 12 is perpendicular to the length direction of the shell 02, a rectangular sheet filter cotton II 13 is tightly arranged on the inner side of the elastic connecting piece II 11, and the sheet filter cotton II 13 is tightly limited between the two mesh plates II 12; the elastic connecting piece II 11 can ensure the sealing between the mesh plate II 12, the sheet filter cotton II 13 and the air outlet 021, and when the cooling fan 05 is stopped, the outside air can enter the shell 02 after being filtered by the mesh plate II 12 and the sheet filter cotton II 13.

A temperature controller 07 is fixed to an inner side wall of the housing 02 opposite to the opening side thereof, and a plurality of temperature sensors 06 are provided and equally fixed to both inner end walls of the housing 02, wherein the temperature sensors 06 can effectively monitor temperatures at different positions in the housing 02.

The inner end wall of the shell 02 is provided with an air outlet 021, two parallel and rectangular baffles 14 are fixed on the inner end wall of the air outlet 021, the surface of each baffle 14 is perpendicular to the surface of each mesh plate 12, each mesh plate 12 is arranged between the two baffles 14, the cooling fan 05 is an axial flow fan and is arranged close to the corresponding baffle 14, the air outlet end of the cooling fan 05 is arranged between the two baffles 14, and the temperature controller 07 corresponds to the air inlet end position of the cooling fan 05; the two baffles 14 can limit the air flow blown out by the cooling fan 05, ensure that the air flow blown out by the cooling fan 05 can be discharged from the air outlet 021, and the temperature controller 07 can also effectively dissipate heat in time.

A rectangular mounting plate 15 is detachably plugged on the shell 02, a side wall opposite to the opening side of the mounting plate 15 is opened, a connecting piece III 16 is fixed on a side plate surface of the mounting plate 15, the radiator fan 05 and the connecting piece III 16 are fixed in a bolt connection mode, the radiator fan 05 can be independently disassembled and assembled, namely, the radiator fan 05 can be disassembled from the shell 02 under the condition that the cover 04 is not opened, and the radiator fan 05 is convenient to clean and maintain or replace.

Further specifically, the overload protection device comprises an overload protector 17 and a warning lamp 18, wherein the overload protector 17 is fixed on the inner side wall of the shell 02 opposite to the opening side of the overload protection device, the overload protector 17 is electrically connected between the power line 03 and the socket core 01 in series, the warning lamp 18 is electrically connected with the overload protector 17, the cover 04 is opened and embedded with the warning lamp 18, when the socket is overloaded, the overload protector 17 works, the warning lamp 18 is on, and the socket core 01 is electrically disconnected from the power line 03.

Further specifically, a baffle 19 may be vertically fixed on the casing 02 and an inner side wall opposite to the opening side thereof, the length direction of the baffle 19 is the same as the length direction of the casing 02, the baffle 19 is centrally arranged between the two arc inner side walls 022, two side faces of the baffle 19 are convex arc faces, and two corresponding arc axes are perpendicular to the length direction of the casing 02, the radian of the arc faces of the baffle 19, which are convex, is the same as the radian of the arc inner side walls 022 of the casing 02, the socket core 01 is provided with a plurality of air flow channels and is equally arranged on two sides of the baffle 19, the baffle 19 can divide the casing 02 into two air flow channels, the socket core 01 is positioned in the air flow channels, and when the air flow velocity flowing through the socket core 01 is ensured, the contact and heat exchange efficiency of external air and the socket core 01 is improved.

When the socket is used, the temperature sensor 06 monitors the temperature in the shell 02 and the socket core 01, and the temperature controller 07 controls the start and stop of the cooling fan 05 and the air output according to the temperature signal transmitted by the temperature sensor 06; when the socket is overloaded, the overload protector 17 works, the warning lamp 18 is on, the socket core 01 is electrically disconnected from the power line 03, and the socket core 01, the cooling fan 05, the temperature sensor 06 and the temperature controller 07 are all powered off.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. The utility model provides a socket, includes socket core (01), casing (02), power cord (03) and lid (04), socket core (01) are fixed in casing (02), the one end of power cord (03) pass behind casing (02) with socket core (01) electricity is connected, casing (02) one side opening is buckled and is equipped with lid (04), offer a plurality of jack (040) that correspond with socket core (01) position on lid (04), its characterized in that still includes radiator fan (05) and control by temperature change subassembly; the cooling fan (05) is detachably arranged in the shell (02), the shell (02) is in a strip shape, an air inlet (020) and an air outlet (021) are respectively arranged at two ends of the shell, and the air outlet end of the cooling fan (05) is communicated with the air outlet (021); the temperature control assembly comprises a temperature sensor (06) and a temperature controller (07) which are both fixed in the shell (02), wherein the temperature sensor (06) is electrically connected with the temperature controller (07), and the temperature controller (07) is electrically connected with the power line (03) and the cooling fan (05) respectively.

2. A socket according to claim 1, wherein the housing (02) has two oppositely arranged arc-shaped inner side walls (022), the socket core (01) being arranged between the two arc-shaped inner side walls (022), an arc-shaped core line of the arc-shaped inner side walls (022) being perpendicular to a center line of the housing (02) in a length direction, and an arc-shaped core line of the arc-shaped inner side walls (022) being arranged facing away from the socket core (01).

3. A socket according to claim 1, wherein the housing (02) is a rectangular body, the power cord (03) is electrically connected to the socket core (01) after passing through an end wall of the housing (02), and the air inlet (020) and the air outlet (021) are both disposed through an opening side of the housing (02); the inner side wall of the air inlet (020) is provided with a first limit groove, a door-shaped elastic connecting piece I (08) is embedded in the first limit groove, a first clamping groove and a second clamping groove are formed in the inner side of the first elastic connecting piece I (08), a first mesh plate (09) is tightly embedded in each of the first clamping groove and the second clamping groove, the plate surface of the first mesh plate (09) is perpendicular to the length direction of the shell (02), a first sheet filter cotton (10) is tightly arranged in the inner side of the first elastic connecting piece I (08), and the first sheet filter cotton (10) is limited between the two first mesh plates (09); the inside wall of air outlet (021) is equipped with spacing groove two, inlay in the spacing groove two and be equipped with the second (11) of elastic connection spare of door shape, the second (11) inboard of elastic connection spare is equipped with draw-in groove three and draw-in groove four, draw-in groove three with each closely inlay in the draw-in groove four and be equipped with a mesh board two (12), the face of mesh board two (12) with the length direction of casing (02) is perpendicular, the second (11) inboard of elastic connection spare has closely arranged a slice filter pulp two (13), slice filter pulp two (13) are spacing between two mesh board two (12).

4. A socket according to claim 3, wherein said temperature controller (07) is fixed to an inner wall of said housing (02) opposite to an opening side thereof, and said temperature sensor (06) is provided in plural and equally fixed to both inner end walls of said housing (02).

5. A socket according to claim 4, wherein the housing (02) is provided with two baffles (14) parallel to each other fixed to the inner end wall of the air outlet (021), the plate surface of the baffles (14) is perpendicular to the plate surface of the second mesh plate (12), the second mesh plate (12) is arranged between the two baffles (14), the cooling fan (05) is an axial fan and is arranged close to the baffles (14), the air outlet end of the cooling fan (05) is arranged between the two baffles (14), and the temperature controller (07) corresponds to the air inlet end position of the cooling fan (05).

6. A socket according to claim 3, wherein a side wall of the housing (02) opposite to the opening side thereof is opened and is detachably plugged with a mounting plate (15), a connecting member three (16) is fixed to a side plate surface of the mounting plate (15), and the heat radiation fan (05) is fixed to the connecting member three (16).

7. A socket according to claim 3, further comprising an overload protector (17) and a warning lamp (18), wherein the overload protector (17) is fixed to an inner wall of the housing (02) opposite to an opening side thereof, the overload protector (17) is electrically connected to the warning lamp (18) and the power cord (03), respectively, and the cover (04) is opened and fitted with the warning lamp (18).

8. A socket according to claim 2, wherein a baffle (19) is fixed to an inner side wall of the housing (02) opposite to the opening side thereof, the length direction of the baffle (19) is the same as that of the housing (02), the baffle (19) is centrally disposed between the two arc inner side walls (022), two side surfaces of the baffle (19) are convex arc surfaces, and two corresponding arc surfaces are perpendicular to the length direction of the housing (02), and the socket core (01) is provided with a plurality of equal baffle (19) disposed on two sides.