CN209993778U - Multinational converter - Google Patents
Multinational converter Download PDFInfo
- Publication number
- CN209993778U CN209993778U CN201920805968.XU CN201920805968U CN209993778U CN 209993778 U CN209993778 U CN 209993778U CN 201920805968 U CN201920805968 U CN 201920805968U CN 209993778 U CN209993778 U CN 209993778U
- Authority
- CN
- China
- Prior art keywords
- self
- bolt
- locking plate
- shell
- matching surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Images
Landscapes
- Details Of Connecting Devices For Male And Female Coupling (AREA)
Abstract
The utility model is suitable for the field of converters, and provides a multinational converter, which comprises a shell; the bolt components can extend and retract along the vertical direction of the shell and can be accommodated in the shell or extend out relative to the shell; the self-locking plates are arranged in the shell along the telescopic direction of the bolt component, and the self-locking plates are arranged adjacent to each other and can move along the left and right directions of the shell; when one of the bolt components extends out relative to the shell, the bolt component pushes the corresponding self-locking plate to move so as to open the bolt component, and the bolt component simultaneously drives the other self-locking plates to move, so that the other self-locking plates respectively support the other bolt components to extend out relative to the shell. The utility model provides a multinational converter is through setting up a plurality of from the jam plate, when using one of them bolt subassembly, this bolt subassembly can drive all the other from the jam plate removal and stop other bolt subassemblies, prevents that other bolt subassemblies from stretching out the casing and have the user potential safety hazard of electrocuting, and the security performance is good.
Description
Technical Field
The utility model relates to a converter especially relates to a multinational converter.
Background
A converter is a receptacle that converts one form of receptacle to another form or forms. If conversion between a plurality of different national and national standard outlets is required, a multinational converter is required. For example, the european standard socket is converted into a national standard socket, and the american standard socket is converted into a national standard socket, so that power can be supplied to an electric appliance of a national standard plug through a multinational converter on the european standard socket and the american standard socket, for example, a power supply is provided to a mobile phone charger, a notebook computer power supply and the like of the national standard plug.
In the prior art, a multi-country converter is usually provided with a plurality of plug pin assemblies of different national standards, and each plug pin assembly corresponds to an independent toggle button. When the user uses the multinational converter, a toggle button is toggled to drive the pins of the corresponding plug pin assemblies to extend out of the shell, so that the socket standard of a plurality of countries is adapted. However, because the existing multinational converter is not usually provided with a blocking structure for blocking the pin assemblies, when one of the pin assemblies is used, if the other pin assemblies are not blocked, a user can mistakenly stir the toggle buttons of the other pin assemblies to cause the pins of the other pin assemblies to extend out of the shell, so that the potential safety hazard that the user is easy to get an electric shock exists, and the safety performance is poor.
SUMMERY OF THE UTILITY MODEL
The utility model provides a multinational converter aims at solving the multinational converter of prior art and has the potential safety hazard that the user easily electrocuted, the poor problem of security performance.
The present application is embodied as a multi-country converter, comprising:
a housing;
the bolt components are movably arranged in the shell, can stretch out and draw back along the vertical direction of the shell, and can be accommodated in the shell or extend out relative to the shell; and
the self-locking plates are arranged in the shell along the telescopic direction of the bolt component, are arranged adjacent to each other and can move along the left and right direction of the shell;
when one of the bolt assemblies extends out relative to the shell, the bolt assemblies push the self-locking plates corresponding to the bolt assemblies to move so as to open the bolt assemblies, and the bolt assemblies simultaneously drive the other self-locking plates to move so that the other self-locking plates respectively resist the other bolt assemblies to extend out relative to the shell.
Preferably, each of the latch assemblies includes a fixing seat, a toggle button connected to the fixing seat, and a pin fixed to the fixing seat; each self-locking plate is arranged between the fixing seats of two adjacent bolt assemblies, and the fixing seats of the bolt assemblies are matched with the self-locking plates and can drive the self-locking plates to move between the two adjacent fixing seats.
Preferably, two opposite sides of each self-locking plate are respectively provided with a protrusion, and the upper part of each protrusion is provided with a matching surface; when one of the bolt assemblies extends out relative to the shell, the fixing seat of the bolt assembly is in matched contact with the matching surface corresponding to the self-locking plate and pushes the self-locking plate to move, and the bolt assembly drives the rest of the self-locking plates to move, so that the protrusions of the rest of the self-locking plates respectively abut against the fixing seats of the rest of the bolt assemblies.
Preferably, a positioning salient point is formed on the top of each self-locking plate in a protruding mode, and each positioning salient point is movably arranged between the two fixing seats of the two adjacent plug pin assemblies.
Preferably, the plurality of self-locking plates are arranged in a coplanar manner.
Preferably, the bolt assembly comprises a first bolt assembly, a second bolt assembly and a third bolt assembly; the self-locking plate comprises a first self-locking plate and a second self-locking plate, the first self-locking plate is arranged between a first fixed seat of the first bolt assembly and a second fixed seat of the second bolt assembly, and the second self-locking plate is arranged between a second fixed seat of the second bolt assembly and a third fixed seat of the third bolt assembly; the first self-locking plate can move between the first fixed seat of the first bolt component and the second fixed seat of the second bolt component and resist against the first fixed seat of the first bolt component or the second fixed seat of the second bolt component; the second self-locking plate can move between the second fixed seat of the second bolt component and the third fixed seat of the third bolt component and is abutted against the second fixed seat of the second bolt component or the third fixed seat of the third bolt component.
Preferably, a first protrusion and a second protrusion are respectively arranged on two opposite sides of the first self-locking plate, a first matching surface is arranged on the upper portion of the first protrusion, and a second matching surface is arranged on the upper portion of the second protrusion; a third bulge and a fourth bulge are respectively arranged on two opposite sides of the second self-locking plate, a third matching surface is arranged on the upper portion of the third bulge, and a fourth matching surface is arranged on the upper portion of the fourth bulge;
the first fixing seat of the first bolt assembly is arranged on one side of the first matching surface and can be in sliding contact with the first matching surface, the second fixing seat of the second bolt assembly is arranged between the second matching surface and the third matching surface and can be in sliding contact with the second matching surface and the third matching surface, and the third fixing seat of the third bolt assembly is arranged on one side of the fourth matching surface and can be in sliding contact with the fourth matching surface.
Preferably, the bolt assembly further comprises a fourth bolt assembly; the self-locking plate further comprises a third self-locking plate, the third self-locking plate is arranged between a third fixing seat of the third bolt component and a fourth fixing seat of the fourth bolt component, the third self-locking plate can move between the third fixing seat of the third bolt component and the fourth fixing seat of the fourth bolt component, and the third self-locking plate can abut against the third fixing seat of the third bolt component or the fourth fixing seat of the fourth bolt component.
Preferably, a fifth bulge and a sixth bulge are respectively arranged on two opposite sides of the third self-locking plate, a fifth matching surface is arranged on the upper portion of the fifth bulge, and a sixth matching surface is arranged on the upper portion of the sixth bulge;
the third fixing seat of the third bolt component is arranged between the fourth matching surface and the fifth matching surface and can be in sliding contact with the fourth matching surface and the fifth matching surface, and the fourth fixing seat of the fourth bolt component is arranged on one side of the sixth matching surface and can be in sliding contact with the sixth matching surface.
Preferably, the multinational converter still including locating base in the casing, the base includes the base, locates support column on the base and locates on the base and two liang of baffles that set up relatively, every two the baffle interval forms the spacing groove, from the jam plate is located the spacing inslot can be followed the spacing groove is removed from the side to the side, every bolt subassembly install in on the support column and can follow the support column slides.
The utility model provides a multinational converter is through setting up a plurality of from the jam plate, when using one of them bolt subassembly, can promote corresponding from the jam plate removal in order to let out bolt subassembly when this bolt subassembly stretches out, and this bolt subassembly drives all the other from the jam plate removal simultaneously, make all the other from the jam plate keep out all the other bolt subassemblies respectively, stretch out with the relative casing of preventing all the other bolt subassemblies, thereby other bolt subassemblies can't stretch out outside the casing, effectively prevent that other bolt subassemblies from stretching out outside the casing and leading to the user to electrocute, thereby guarantee that this multinational converter security performance is good. Simultaneously, through setting up the jam plate along bolt assembly's flexible direction separately, the self-locking plate can be followed the left and right sides direction removal of casing and in order to open or block corresponding bolt assembly, and the self-locking plate removes the stroke little, and occupation space is little, simple structure and compactness.
Drawings
Fig. 1 is a perspective view of a multinational converter according to an embodiment of the present invention;
fig. 2 is an exploded perspective view of a multi-country converter according to an embodiment of the present invention;
fig. 3 is a perspective view of the multi-country converter according to the embodiment of the present invention with the housing removed;
fig. 4 is a perspective view of a partial structure of a multi-country converter according to an embodiment of the present invention;
fig. 5 is a cross-sectional view of a partial structure of a multi-country converter according to an embodiment of the present invention;
fig. 6 is a perspective view of the assembly of the base and the self-locking plate in the multi-country converter according to the embodiment of the present invention;
fig. 7 is a perspective view of a base in the multi-country converter according to an embodiment of the present invention;
fig. 8 is a cross-sectional view of a portion of a multi-country converter according to an embodiment of the present invention with a first latch assembly extended;
fig. 9 is a cross-sectional view of a portion of a multi-country converter according to an embodiment of the present invention, with a second latch assembly extending out of a housing;
fig. 10 is a cross-sectional view of a portion of a multi-country converter according to an embodiment of the present invention, with a third latch assembly extending out of the housing;
fig. 11 is a cross-sectional view of a portion of the structure of the multi-country converter according to the embodiment of the present invention when the fourth latch assembly protrudes out of the housing.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
The utility model provides a multinational converter is through setting up a plurality of from the jam plate, when using one of them bolt subassembly, can promote corresponding from the jam plate removal in order to let out bolt subassembly when this bolt subassembly stretches out, and this bolt subassembly drives all the other from the jam plate removal simultaneously, make all the other from the jam plate keep out all the other bolt subassemblies respectively, stretch out with the relative casing of preventing all the other bolt subassemblies, thereby other bolt subassemblies can't stretch out outside the casing, effectively prevent that other bolt subassemblies from stretching out outside the casing and leading to the user to electrocute, thereby guarantee that this multinational converter security performance is good. Simultaneously, through setting up the jam plate along bolt assembly's flexible direction separately, the self-locking plate can be followed the left and right sides direction removal of casing and in order to open or block corresponding bolt assembly, and the self-locking plate removes the stroke little, and occupation space is little, simple structure and compactness.
Referring to fig. 1 to 5, the multi-country converter includes: the shell body 1 is provided with a jack 13; the plug pin components 2 are movably arranged on the shell 1, the plug pin components 2 can stretch out and draw back along the up-down direction of the shell 1, and the plug pin components 2 can be accommodated in the shell 1 or extend out relative to the shell 1; the self-locking plates 3 are arranged in the shell 1 along the telescopic direction of the bolt component 2, and the self-locking plates 3 are arranged adjacent to each other and can move along the left and right direction of the shell 1; when one of the bolt components 2 extends out relative to the shell 1, the bolt component 2 pushes the corresponding self-locking plate 3 to move so as to release the bolt component 2, and the bolt component 2 simultaneously drives the other self-locking plates 3 to move, so that the other self-locking plates 3 respectively resist the other bolt components 2 to extend out relative to the shell 1.
The utility model discloses multinational converter is through setting up a plurality of from the jam plate, when using one of them bolt subassembly, can promote corresponding from the jam plate removal in order to let out bolt subassembly when this bolt subassembly stretches out, and this bolt subassembly drives all the other from the jam plate removal simultaneously, make all the other from the jam plate keep out all the other relative casings of bolt subassembly respectively and stretch out, thereby other bolt subassemblies can't stretch out outside the casing, prevent effectively that other bolt subassemblies from stretching out outside the casing and leading to the user to electrocute, thereby guarantee that this multinational converter security performance is good. Simultaneously, through the flexible direction setting of locking plate along bolt subassembly separately, the left and right sides direction removal in order to open or block corresponding bolt subassembly of casing can be followed to the self-locking plate, simple structure, and self-locking plate occupation space is little.
In the embodiment of the present invention, the housing 1 includes a bottom shell 11 and an upper shell 12 assembled with the bottom shell 11 to form a complete accommodating space, and the latch assembly 2 can extend and retract along the upper and lower directions of the bottom shell 11 and the upper shell 12. The upper case 12 is provided at its surface with a plurality of jacks 13 for charging a user.
Referring to fig. 6-7, as an embodiment of the present invention, the multi-country converter further includes a base 4 disposed in the housing 1, the base 4 includes a base 41, a supporting pillar 42 disposed on the base 41, and two partitions 43 disposed on the base and opposite to each other, a spacing groove 44 is formed between every two partitions 42, the self-locking plate 3 is disposed in the spacing groove 44 and can move left and right along the spacing groove 44, and each pin assembly 2 is mounted on the supporting pillar 42 and can slide along the supporting pillar 42. The self-locking plate is limited by the limiting groove, so that the self-locking plate can move stably in the moving process.
The embodiment of the utility model provides an in, every bolt subassembly 2 all includes a fixing base 21, the toggle button 22 of being connected with fixing base 21 and be fixed in the participate in 23 on the fixing base 21, toggle button 22 can follow casing 1 and slide and drive participate in 23 relative casing 1 and stretch out or accept in casing 1, every auto-lock board 3 is located between two adjacent bolt subassembly 2's fixing base 21, bolt subassembly 2's fixing base 21 and auto-lock board 3 cooperation set up and can drive auto-lock board 3 and remove between two adjacent fixing bases 21.
When using one of the bolt assemblies 2, the toggle button 22 corresponding to the bolt assembly 2 is toggled, and the toggle button 22 drives the fixing base 21 to move downwards along the casing 1, so that the pin 23 on the fixing base 21 extends out relative to the casing 1. Bolt subassembly 2 stretches out the in-process, the fixing base 21 of bolt subassembly 2 promotes the self-locking plate 3 that corresponds and removes, make this self-locking plate 3 remove in order to let out bolt subassembly 2, fixing base 21 of bolt subassembly 2 directly promotes or promote all the other self-locking plates 3 through this self-locking plate 3 and remove and support the fixing base 21 of keeping out other bolt subassemblies 2 simultaneously, thereby make the fixing base 21 of other bolt subassemblies 2 unable casing 1 relatively remove, and then prevent that other bolt subassemblies from stretching out relatively, when guaranteeing that a bolt subassembly stretches out, all the other bolt subassemblies can't stretch out relatively, and the security performance is good.
As an embodiment of the utility model, every is equipped with an arch respectively from the relative both sides of jam plate 3, every bellied upper portion is equipped with a fitting surface, when one of them bolt subassembly 2 is relative casing 1 and is stretched out, this bolt subassembly's fixing base 21 and the fitting surface cooperation that corresponds on the jam plate 3 contact and promote this from jam plate 3 and remove, and this bolt subassembly 2 drives all the other from jam plate 3 and removes, make all the other fixing bases of all the other bolt subassemblies of keeping out respectively from the arch of jam plate 3, make all the other bolt subassemblies can't stretch out relative casing. The matching surface can be an inclined surface or a curved surface. In this embodiment, the mating surface is provided as a bevel.
In this embodiment, the cooperation is kept out with the fixing base 21 of bolt subassembly 2 to the arch through self-locking plate 3, has restricted fixing base 21's removal to prevent that participate in 23 on the fixing base 21 and stretch out for casing 1, because the protruding direct and fixing base 21 cooperation butt of bolt subassembly 2 of self-locking plate 3 need not directly to participate in 23 and keep out, effectively prevents to participate in 23's damage.
Referring to fig. 8, as an embodiment of the present invention, a positioning protrusion 30 is formed at the top of each self-locking plate 3, and each positioning protrusion 30 is movably disposed between the fixing seats 21 of two adjacent plug pin assemblies 2. Through setting up location bump 30, location bump 30 cooperates the contact with the fixing base 21 of bolt subassembly 2 in order to restrict the removal stroke of every auto-lock board, guarantees the accurate cooperation of auto-lock board 3 and the fixing base of each bolt subassembly.
As an embodiment of the present invention, the latch assembly 2 includes a first latch assembly 24, a second latch assembly 25, and a third latch assembly 26; the self-locking plate 3 includes a first self-locking plate 31 and a second self-locking plate 32, the first self-locking plate 31 is disposed between the first fixing seat 241 of the first plug pin assembly 24 and the second fixing seat 251 of the second plug pin assembly 25, and the second self-locking plate 32 is disposed between the second fixing seat 251 of the second plug pin assembly 25 and the third fixing seat 261 of the third plug pin assembly 26.
The first self-locking plate 31 can move between the first fixing seat 241 of the first plug pin assembly 24 and the second fixing seat 251 of the second plug pin assembly 25 and is abutted against the first fixing seat 241 of the first plug pin assembly 24 or the second fixing seat 251 of the second plug pin assembly 25; the second self-locking plate 32 is movable between the second fixing seat 251 of the second plug pin assembly 25 and the third fixing seat 261 of the third plug pin assembly 26 and abuts against the second fixing seat 251 of the second plug pin assembly 25 or the third fixing seat 261 of the third plug pin assembly 26.
In this embodiment, the first plug pin assembly 24 includes a first fixing base 241, a first toggle button 242 connected to the first fixing base 241, and a first pin 243 fixed on the first fixing base 241; the second plug pin assembly 25 includes a second fixing seat 251, a second toggle button 252 connected to the second fixing seat 251, and a second plug pin 253 fixed to the second fixing seat 251; the third latch assembly 26 includes a third fixing seat 261, a third toggle button 262 connected to the third fixing seat 261, and a third pin 263 fixed to the third fixing seat 261.
Referring to fig. 5 again, in the embodiment of the present invention, the first protrusion 311 and the second protrusion 312 are respectively disposed on two opposite sides of the first self-locking plate 31, the first mating surface 3111 is disposed on the upper portion of the first protrusion 311, and the second mating surface 3121 is disposed on the upper portion of the second protrusion 312; the opposite two sides of the second self-locking plate 32 are respectively provided with a third protrusion 321 and a fourth protrusion 322, the upper portion of the third protrusion 321 is provided with a third matching surface 3211, and the upper portion of the fourth protrusion 322 is provided with a fourth matching surface 3221.
The first fixing seat 241 of the first pin assembly 24 is disposed at a side of the first matching surface 3111 and can be in sliding contact with the first matching surface 3111, the second fixing seat 251 of the second pin assembly 25 is disposed between the second matching surface 3121 and the third matching surface 3211 and can be in sliding contact with the second matching surface 3121 and the third matching surface 3211, and the third fixing seat 261 of the third pin assembly 26 is disposed at a side of the fourth matching surface 3221 and can be in sliding contact with the fourth matching surface 3221.
As shown in fig. 8, in this embodiment, when the first pin assembly 24 is used, the first toggle button 242 of the first pin assembly 24 is toggled, the first pin 243 of the first pin assembly 24 moves downward, the first fixing seat 241 of the first pin assembly 24 is in sliding contact with the first matching surface 3111 of the first self-locking plate 31 and continuously moves downward, the first fixing seat 241 of the first pin assembly 24 continuously pushes the first self-locking plate 31 to move rightward until the positioning protruding point 30 of the first self-locking plate 31 is in matching contact with the second fixing seat 251 of the second pin assembly 25, at this time, the second protruding portion 312 of the first self-locking plate 31 is located below the second fixing seat 251 of the second pin assembly 25 and abuts against the second fixing seat 251 of the second pin assembly 25, so that the second fixing seat 251 of the second pin assembly 25 cannot move downward, thereby preventing the second pin assembly 25 from extending out relative to the housing 1. Meanwhile, the first self-locking plate 31 pushes the second self-locking plate 32 to move rightwards in the process of moving rightwards, so that the positioning salient points 30 of the second self-locking plate 32 are in fit contact with the third fixing seat 261 of the third bolt assembly 26, at the moment, the fourth protrusions 322 of the second self-locking plate 32 are positioned below the third fixing seat 261 of the third bolt assembly 26 and abut against the third fixing seat 261 of the third bolt assembly 26, the third fixing seat 261 of the third bolt assembly 26 cannot move downwards, self-locking of the second bolt assembly 25 and the third bolt assembly 26 is achieved, it is guaranteed that the second bolt assembly 25 and the third bolt assembly 26 cannot extend out relative to the shell, the self-locking function is achieved, and the safety protection effect is achieved.
As shown in fig. 9, when the second pin assembly 25 is used, the second toggle button 252 of the second pin assembly 25 is toggled, the second pin 252 of the second pin assembly 25 moves downward, the second fixing seat 251 of the second pin assembly 25 moves downward along the second matching surface 3121 of the first self-locking plate 31 and the third matching surface 3211 of the second self-locking plate 32, and pushes the first self-locking plate 31 to move leftward, and pushes the second self-locking plate 32 to move rightward, until the positioning protrusion 30 of the first self-locking plate 31 is in matching contact with the first fixing seat 241 of the first pin assembly 24 and the positioning protrusion 30 of the second self-locking plate 32 is in matching contact with the third fixing seat 261 of the third pin assembly 26, and at this time, the first protrusion 311 of the first self-locking plate 31 is located below the first fixing seat 241 of the first pin assembly 24 and abuts against the first fixing seat 241 of the first pin assembly 24, and the fourth protrusion 322 of the second self-locking plate 32 is located below the third fixing seat 261 of the third pin assembly 26 and abuts against the third fixing seat 261 of the third pin assembly 26 And the fixing seats 261 are used, so that the first plug pin assembly 24 and the third plug pin assembly 26 cannot move downwards, and the first plug pin assembly 24 and the third plug pin assembly 26 cannot extend out relative to the shell when the first plug pin assembly 24 extends out, thereby realizing a self-locking function.
As shown in fig. 10, when the third pin assembly 26 is used, the third toggle button 262 of the third pin assembly 26 is toggled, the third pin 263 of the third pin assembly 26 moves downward, the third fixing seat 261 of the third pin assembly 26 moves downward along the fourth matching surface 3221 of the second self-locking plate 32 and pushes the second self-locking plate 32 to move leftward, the second self-locking plate 32 pushes the first self-locking plate 31 to move leftward until the positioning protruding point 30 of the first self-locking plate 31 is in matching contact with the first fixing seat 241 of the first pin assembly 24 and the positioning protruding point 30 of the second self-locking plate 32 is in matching contact with the second fixing seat 251 of the second pin assembly 25, at this time, the first protrusion 311 of the first self-locking plate 31 is located below the first fixing seat 241 of the first pin assembly 24 and abuts against the first fixing seat 241 of the first pin assembly 24, the third protrusion 321 of the second self-locking plate 32 is located below the second fixing seat 251 of the second pin assembly 25 and abuts against the second fixing seat 251 of the second pin assembly 25, therefore, the first bolt component 24 and the second bolt component 25 cannot move downwards, the self-locking of the first bolt component 24 and the second bolt component 25 is realized, the first bolt component 24 and the second bolt component 25 cannot extend out relative to the shell when the third bolt component 26 extends out, and the self-locking function is realized.
As shown in fig. 11, as an embodiment of the present invention, the latch assembly further includes a fourth latch assembly 27; the self-locking plate 3 further includes a third self-locking plate 33, the third self-locking plate 33 is disposed between the third fixing seat 261 of the third latch assembly 26 and the fourth fixing seat 271 of the fourth latch assembly 27, the third self-locking plate 33 can move between the third fixing seat 261 of the third latch assembly 26 and the fourth fixing seat 271 of the fourth latch assembly 27, and the third self-locking plate 33 can block the third fixing seat 261 of the third latch assembly 26 or the fourth fixing seat 271 of the fourth latch assembly 27.
In the embodiment of the present invention, the opposite sides of the third self-locking plate 33 are respectively provided with a fifth protrusion 331 and a sixth protrusion 332, the upper portion of the fifth protrusion 331 is provided with a fifth engagement surface 3311, and the upper portion of the sixth protrusion 332 is provided with a sixth engagement surface 3321; the third fixing seat 261 of the third plug pin assembly 26 is disposed between the fourth matching surface 3221 and the fifth matching surface 3311 and is capable of sliding contact with the fourth matching surface 3221 and the fifth matching surface 3311, and the fourth fixing seat 271 of the fourth plug pin assembly 27 is disposed at one side of the sixth matching surface 3321 and is capable of sliding contact with the sixth matching surface 3321.
In this embodiment, when the fourth pin assembly 27 is used, the fourth toggle button 272 of the fourth pin assembly 27 is toggled, the fourth pin 273 of the fourth pin assembly 27 moves downward, the fourth fixing seat 271 of the fourth pin assembly 27 moves downward along the sixth mating surface 3321 of the third self-locking plate 33 and pushes the third self-locking plate 33 to move leftward, the third self-locking plate 33 pushes the second self-locking plate 32 and the first self-locking plate 31 to move leftward during moving leftward until the positioning protrusion 30 of the third self-locking plate 33 is in mating contact with the third fixing seat 261 of the third pin assembly 26, the positioning protrusion 30 of the second self-locking plate 32 is in mating contact with the second fixing seat 251 of the second pin assembly 25, and the positioning protrusion 30 of the first self-locking plate 31 is in mating contact with the first fixing seat 241 of the first pin assembly 24. At this time, the first protrusion 311 of the first self-locking plate 31 is located below the first fixing seat 241 of the first pin assembly 24 and abuts against the first fixing seat 241 of the first pin assembly 24, the third protrusion 321 of the second self-locking plate 32 is located below the second fixing seat 251 of the second pin assembly 25 and abuts against the second fixing seat 251 of the second pin assembly 25, the fifth protrusion 331 of the third self-locking plate 33 is located below the third fixing seat 261 of the third pin assembly 26 and abuts against the third fixing seat 261 of the third pin assembly 26, therefore, the first bolt component 24, the second bolt component 25 and the third bolt component 26 cannot move downwards, the self-locking of the first bolt component 24, the second bolt component 25 and the third bolt component 26 is realized, the first bolt component 24, the second bolt component 25 and the third bolt component 26 cannot stretch out relative to the shell when the fourth bolt component 27 stretches out, and the self-locking function is realized.
In the embodiment of the present invention, the first pin assembly 24, the second pin assembly 25, the third pin assembly 26 and the fourth pin assembly 27 are respectively an english standard pin assembly, a american standard pin assembly, an australian standard pin assembly and an european standard pin assembly. The first pin assembly 24, the second pin assembly 25, the third pin assembly 26 and the fourth pin assembly 27 may also be set as pin assemblies of other national standards.
As an embodiment of the present invention, a plurality of self-locking plates 3 are disposed in a coplanar manner. Specifically, the first self-locking plate 31, the second self-locking plate 32, and the third self-locking plate 33 are located on the same plane. Through setting up first auto-lock board, second auto-lock board and third auto-lock board on the coplanar, through effectively saving occupation space, compact structure, the atress is balanced between the lock board separately moreover, makes the motion of lock board separately more steady.
The utility model provides a multinational converter is through setting up a plurality of from the jam plate, when using one of them bolt subassembly, can promote corresponding from the jam plate removal in order to let out bolt subassembly when this bolt subassembly stretches out, and this bolt subassembly drives all the other from the jam plate removal simultaneously, make all the other from the jam plate keep out all the other bolt subassemblies respectively, stretch out with the relative casing of preventing all the other bolt subassemblies, thereby other bolt subassemblies can't stretch out outside the casing, effectively prevent that other bolt subassemblies from stretching out outside the casing and leading to the user to electrocute, thereby guarantee that this multinational converter security performance is good. Simultaneously, through setting up the jam plate along bolt assembly's flexible direction separately, the self-locking plate can be followed the left and right sides direction removal of casing and in order to open or block corresponding bolt assembly, and the self-locking plate removes the stroke little, and occupation space is little, simple structure and compactness.
The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (10)
1. A multi-national converter, comprising:
a housing;
the bolt components are movably arranged in the shell, can stretch out and draw back along the vertical direction of the shell, and can be accommodated in the shell or extend out relative to the shell; and
the self-locking plates are arranged in the shell along the telescopic direction of the bolt component, are arranged adjacent to each other and can move along the left and right direction of the shell;
when one of the bolt assemblies extends out relative to the shell, the bolt assemblies push the self-locking plates corresponding to the bolt assemblies to move so as to open the bolt assemblies, and the bolt assemblies simultaneously drive the other self-locking plates to move so that the other self-locking plates respectively resist the other bolt assemblies to extend out relative to the shell.
2. The multi-country converter according to claim 1, wherein each of the latch assemblies includes a holder, a toggle button connected to the holder, and a pin fixed to the holder; each self-locking plate is arranged between the fixing seats of two adjacent bolt assemblies, and the fixing seats of the bolt assemblies are matched with the self-locking plates and can drive the self-locking plates to move between the two adjacent fixing seats.
3. The multinational converter according to claim 2, wherein each of the self-locking plates is provided at opposite sides thereof with a projection, and an upper portion of each of the projections is provided with a mating surface; when one of the bolt assemblies extends out relative to the shell, the fixing seat of the bolt assembly is in matched contact with the matching surface corresponding to the self-locking plate and pushes the self-locking plate to move, and the bolt assembly drives the rest of the self-locking plates to move, so that the protrusions of the rest of the self-locking plates respectively abut against the fixing seats of the rest of the bolt assemblies.
4. The multi-country converter according to claim 2 or 3, wherein a positioning bump is formed on the top of each self-locking plate, and each positioning bump is movably arranged between the two fixing seats of two adjacent plug pin assemblies.
5. The multinational converter according to claim 1, wherein the plurality of self-locking plates are disposed coplanar.
6. The multi-country converter according to claim 3, wherein the latch assembly comprises a first latch assembly, a second latch assembly and a third latch assembly; the self-locking plate comprises a first self-locking plate and a second self-locking plate, the first self-locking plate is arranged between a first fixed seat of the first bolt assembly and a second fixed seat of the second bolt assembly, and the second self-locking plate is arranged between a second fixed seat of the second bolt assembly and a third fixed seat of the third bolt assembly; the first self-locking plate can move between the first fixed seat of the first bolt component and the second fixed seat of the second bolt component and resist against the first fixed seat of the first bolt component or the second fixed seat of the second bolt component; the second self-locking plate can move between the second fixed seat of the second bolt component and the third fixed seat of the third bolt component and is abutted against the second fixed seat of the second bolt component or the third fixed seat of the third bolt component.
7. The multinational converter according to claim 6, wherein the first self-locking plate is provided with a first protrusion and a second protrusion on opposite sides thereof, respectively, wherein the first protrusion is provided with a first mating surface on an upper portion thereof, and the second protrusion is provided with a second mating surface on an upper portion thereof; a third bulge and a fourth bulge are respectively arranged on two opposite sides of the second self-locking plate, a third matching surface is arranged on the upper portion of the third bulge, and a fourth matching surface is arranged on the upper portion of the fourth bulge;
the first fixing seat of the first bolt assembly is arranged on one side of the first matching surface and can be in sliding contact with the first matching surface, the second fixing seat of the second bolt assembly is arranged between the second matching surface and the third matching surface and can be in sliding contact with the second matching surface and the third matching surface, and the third fixing seat of the third bolt assembly is arranged on one side of the fourth matching surface and can be in sliding contact with the fourth matching surface.
8. The multinational converter of claim 7, wherein the latch assembly further comprises a fourth latch assembly; the self-locking plate further comprises a third self-locking plate, the third self-locking plate is arranged between a third fixing seat of the third bolt component and a fourth fixing seat of the fourth bolt component, the third self-locking plate can move between the third fixing seat of the third bolt component and the fourth fixing seat of the fourth bolt component, and the third self-locking plate can abut against the third fixing seat of the third bolt component or the fourth fixing seat of the fourth bolt component.
9. The multinational converter according to claim 8, wherein the third self-locking plate is provided with a fifth protrusion and a sixth protrusion on opposite sides thereof, respectively, wherein a fifth mating surface is provided on an upper portion of the fifth protrusion, and a sixth mating surface is provided on an upper portion of the sixth protrusion;
the third fixing seat of the third bolt component is arranged between the fourth matching surface and the fifth matching surface and can be in sliding contact with the fourth matching surface and the fifth matching surface, and the fourth fixing seat of the fourth bolt component is arranged on one side of the sixth matching surface and can be in sliding contact with the sixth matching surface.
10. The multinational converter according to claim 1, further comprising a base disposed in the housing, wherein the base comprises a base, a support pillar disposed on the base, and two opposite partitions disposed on the base, wherein a spacing groove is formed between every two partitions, the self-locking plate is disposed in the spacing groove and can move left and right along the spacing groove, and each of the latch assemblies is mounted on the support pillar and can slide along the support pillar.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920805968.XU CN209993778U (en) | 2019-05-30 | 2019-05-30 | Multinational converter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920805968.XU CN209993778U (en) | 2019-05-30 | 2019-05-30 | Multinational converter |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209993778U true CN209993778U (en) | 2020-01-24 |
Family
ID=69295855
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920805968.XU Active CN209993778U (en) | 2019-05-30 | 2019-05-30 | Multinational converter |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209993778U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110190454A (en) * | 2019-05-30 | 2019-08-30 | 公牛集团股份有限公司 | A kind of multinational converter |
-
2019
- 2019-05-30 CN CN201920805968.XU patent/CN209993778U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110190454A (en) * | 2019-05-30 | 2019-08-30 | 公牛集团股份有限公司 | A kind of multinational converter |
WO2020238782A1 (en) * | 2019-05-30 | 2020-12-03 | 公牛集团股份有限公司 | International adapter |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN107181115B (en) | Power socket capable of freely replacing plug | |
US7547219B2 (en) | Electrical safety adaptor with replaceable head unit | |
US20050225933A1 (en) | Battery pack locking apparatus for mobile communication terminals | |
EP3707783B1 (en) | Push-on socket | |
JP2016051309A (en) | Docking device | |
US11349258B2 (en) | Self-locking plug | |
CN209993778U (en) | Multinational converter | |
CN107809035B (en) | Power supply adapter | |
US8011940B1 (en) | Power socket device having switches | |
WO2020238782A1 (en) | International adapter | |
CN209981670U (en) | Multinational converter | |
CN213659410U (en) | Detachable keyboard | |
CN110994309B (en) | Multifunctional adapter plug | |
CN211182748U (en) | Replaceable plug structure | |
CN209993844U (en) | Converter | |
CN108565603B (en) | Lock catch structure of connector | |
CN203377460U (en) | A novel travel adaptor | |
EP4376231A1 (en) | Adapter, electrical apparatus system and operating method therefor | |
CN221379860U (en) | Portable wireless charging | |
US20240258745A1 (en) | Connector outer housing | |
CN210779239U (en) | Converter convenient to equipment | |
CN217788982U (en) | Multi-pin group converter simultaneous-outlet prevention structure | |
CN211266869U (en) | Detachable touch switch with battery | |
CN104659538A (en) | Socket connector | |
CN210379517U (en) | Safety socket |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |