CN210350123U - Convenient installation type integral type socket side by side - Google Patents

Abstract

The embodiment of the utility model discloses convenient installation type integral type socket side by side, including socket ontology, socket ontology's bottom is equipped with three at least plug bushes of group, socket ontology's lower part is equipped with three at least copper bars, every group all be equipped with buckle subassembly on the plug bush, buckle subassembly includes left elasticity buckle and the right elasticity buckle that links to each other with adjacent plug bush, the copper bar is inserted and is located between adjacent left elasticity buckle and the right elasticity buckle, left side elasticity buckle and right elasticity buckle all compress tightly with the copper bar through the elasticity that self arrives, the wiring hole that is used for the wiring is seted up at the both ends of copper bar. The socket has the technical effect of effectively improving the wiring efficiency of the socket.

Description

Convenient installation type integral type socket side by side

Technical Field

The embodiment of the utility model provides a relate to socket technical field, concretely relates to convenient installation type integral type socket side by side.

Background

The power socket is a device which can be used for electrifying the household appliance and the portable small-sized equipment, and the power socket is a female joint with a socket or a concave hole and is used for inserting a power plug so as to conduct a power well plug to the electric appliance.

Present socket is a plurality of structures side by side and sets up, and install and use in inserting the row, every socket mainly links to each other through the welded mode when the wiring, need stretch into the plug bush that corresponds with the joint of electric wire when the welding in, then weld in also inserting the plug bush with welder, because socket structure itself is not big, the space of plug bush is also littleer, need just can accomplish the welding with wire joint and welder's head butt joint accuracy when the welding like this, otherwise cause false welding or rosin joint easily, influence the welded quality. The socket in the power strip is often two or more than the socket in each socket, so that each welding point needs to be sufficiently welded, and the efficiency is low. How to reduce the efficiency of the socket and wire installation is a problem to be solved.

SUMMERY OF THE UTILITY MODEL

Therefore, the embodiment of the utility model provides a convenient installation type integral type socket side by side to solve among the prior art because the problem that the overall installation effectiveness is low that socket ontology and wire welding lead to inconveniently.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions:

the utility model provides a convenient installation type integral type socket side by side, includes socket ontology, socket ontology's bottom is equipped with three at least plug bushes of group, socket ontology's lower part is equipped with three at least copper bars, every group all be equipped with buckle subassembly on the plug bush, buckle subassembly includes left elasticity buckle and the right elasticity buckle that links to each other with adjacent plug bush, the copper bar is inserted and is located between adjacent left elasticity buckle and the right elasticity buckle, left side elasticity buckle and right elasticity buckle all compress tightly with the copper bar through the elasticity that self arrives, the wiring hole that is used for the wiring is seted up at the both ends of copper bar.

Further, socket ontology is equipped with at least two sets ofly and multiunit socket ontology sets up side by side, the copper bar sets up along the direction of arranging of a plurality of sockets, and the plug bush of homopolarity sets up along socket ontology's the direction collineation of arranging on different socket ontology to the plug bush of different polarities is on socket ontology's the direction collineation not, and every copper bar all links to each other with the buckle subassembly on the plug bush of the homopolarity in the different socket ontology.

Further, the width of left side elasticity buckle is greater than the width of right side elasticity buckle, right side elasticity buckle is located the middle part position of adjacent left side elasticity buckle, the spread groove that holds right side elasticity buckle is seted up at the middle part of left side elasticity buckle, and when not being equipped with the copper bar between left side elasticity buckle and right side elasticity buckle, right side elasticity buckle stretches into in the spread groove.

Further, the middle section of the left elastic buckle is folded towards the position of the adjacent copper bar, and a left buckling barb is formed; the right elastic buckle is turned over towards the position of the adjacent copper bar close to the middle section, and forms a right buckling barb; the socket comprises a copper strip and is characterized in that a left buckling convex hull and a right buckling convex hull are fixedly arranged on the side walls of two sides of the copper strip respectively, a left buckling barb and the left buckling convex hull are buckled with each other on one side of the socket body away from the socket body, and a right buckling barb and the right buckling convex hull are buckled with each other on one side of the socket body away from the socket body.

Furthermore, the joint surface of the left elastic buckle and the copper bar is a first clamping surface, the joint surface of the right elastic buckle and the copper bar is a second clamping surface, and when the copper bar is clamped, the first clamping surface and the second clamping surface are turned to be parallel to the side wall surface of the copper bar and then clamp the copper bar.

Furthermore, the bottom of the socket body is provided with positioning grooves arranged along the length direction of the copper bars, and the copper bars positioned at the bottom of the socket body are inserted into the adjacent positioning grooves.

Furthermore, one end of the copper bar positioned at the bottom of the socket is positioned right below the socket body of the adjacent plug bush, and the position of the socket body corresponding to the end part of the adjacent copper bar is provided with a welding groove with the width larger than that of the positioning groove.

Furthermore, the position department that the copper bar corresponds left elasticity buckle both sides has all set firmly the limiting plate, two the limiting plate pastes with the lateral wall of left elasticity buckle both sides respectively mutually.

The embodiment of the utility model provides a have following advantage:

plug bush on the socket ontology is when the wiring, the copper bar passes through external force, lean on left elasticity buckle and the automatic back chucking that slides in of right elasticity buckle top V-arrangement hypotenuse direction, then wiring end and the wiring hole welding connection on the copper bar of electric wire, because wiring department is located socket ontology's the outside this moment, the wiring is more convenient and fast, efficiency is higher, because convenient operation, the condition of pseudo-soldering or rosin joint has effectively been avoided, the copper bar is stable with being connected of buckle subassembly department, it is swift, so the not smooth condition of electric current can not appear here.

After the wiring is accomplished, socket ontology can place in the shell of row of inserting, and the copper bar is followed the bottom of locating the shell, and the user can not touch, just can not produce danger yet.

When a plurality of socket bodies in a row of inserting are connected, every copper bar can link to each other with the buckle subassembly of this internal homopolar plug bush of every socket in this row of inserting, and the plug bush of the same polarity in this row of inserting only need connect a copper bar like this to connect the line at the both ends of this copper bar, realized the wiring in the homopolar plug bush in this row of inserting promptly, effectively reduced the quantity of splice, improved the efficiency of row of inserting equipment by a wide margin.

Left elasticity buckle and right elasticity buckle when pressing from both sides tightly the copper bar, left lock barb on the left elasticity buckle can block the protruding closure of left lock on the left lock subassembly, and right lock barb on the right elasticity buckle can block the protruding closure of right lock on the right lock subassembly, and then the copper bar can the chucking in buckle subassembly. Set up first clamp surface on left elasticity buckle, set up the second on right elasticity buckle and press from both sides tightly with the both sides of copper bar respectively and prevent that the copper bar from taking place the skew.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a schematic view of an overall structure of an integrated side-by-side socket of a convenient installation type according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a second clamping surface of a conveniently-installed integrated side-by-side socket buckle assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a first clamping surface of a conveniently-installed integrated side-by-side socket buckle assembly according to an embodiment of the present invention;

fig. 4 is a schematic view of a connection relationship between a conveniently-installed integrated side-by-side socket buckle assembly and a copper bar provided by an embodiment of the present invention;

fig. 5 is a connection relation cross-sectional view of convenient installation type integral type socket buckle subassembly side by side and copper bar that the embodiment of the utility model provides.

In the figure: 1. a socket body; 11. positioning a groove; 12. welding a groove; 2. inserting a sleeve; 3. a buckle assembly; 31. a left elastic buckle; 32. a right elastic buckle; 33. connecting grooves; 34. a left buckling barb; 35. a right fastening barb; 36. a first clamping surface; 37. a second clamping surface; 4. a copper bar; 41. a wiring hole; 42. a left buckling convex hull; 43. the right buckling convex hull; 44. and a limiting plate.

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

A convenient installation type integrated side-by-side socket is shown in figure 1 and comprises a socket body 1, an inserting sleeve 2, a buckle assembly 3 and a copper strip 4. Socket ontology 1 level sets up, and socket ontology 1 is equipped with at least two sets ofly and evenly arranges along same direction, and socket ontology 1 assembles the row of inserting after the wiring is accomplished in, and socket ontology 1's specific quantity is confirmed according to the quantity of socket ontology 1 in the row of inserting that designs, can be for 2 groups, 3 groups, 4 groups even more.

The plug bushes 2 are arranged on the lower portion of the socket body 1, at least three groups of plug bushes 2 are arranged on each group of socket body 1, the number of the plug bushes 2 can be four or five, and the number of the plug bushes 2 is determined according to specific design. The multiple groups of plug bushes 2 are equally divided into three types: and the L-pole plug bush, the N-pole plug bush and the E-pole plug bush respectively correspond to the live wire, the zero wire and the grounding wire. The following description will be given by taking three sets of plug bushes 2 provided on each socket body 1 as an example:

as shown in fig. 2 and 3, three groups of sleeves 2 are respectively provided with: the L pole plug bush, the N pole plug bush and the E pole plug bush are arranged in a collinear manner along the arrangement direction of the socket body 1 on the socket bodies 1 in the same polarity, and the plug bushes 2 in different polarities are not collinear in the arrangement direction of the socket body 1. Plug bush 2 is prior art, and no longer give unnecessary details here, and buckle subassembly 3 is total to be multiunit and locate every plug bush 2 on, and buckle subassembly 3 includes left elasticity buckle 31 and right elasticity buckle 32, and left elasticity buckle 31 and right elasticity buckle 32 all with adjacent plug bush 2 fixed connection. The ends of the left elastic buckle 31 and the right elastic buckle 32 far away from the socket body 1 are the tops of the two.

The total three and the average level setting of copper bar 4, socket 1's lower part is located to two copper bars 4, and socket 1's bottom one side is located to third copper bar 4, and every copper bar 4 all distributes along socket 1's the direction of arranging, and wiring hole 41 has all been seted up to the tip of every copper bar 4 for weld with the electric wire.

The constant head tank 11 that the direction of arranging along socket ontology 1 set up is seted up to socket ontology 1's bottom, and copper bar 4 level is inserted and is located adjacent constant head tank 11 in, and then constant head tank 11 plays the effect of direction and location to copper bar 4, prevents the skew of copper bar 4. One end of copper bar 4 is located one side of socket ontology 1, and the other end is located the bottom of adjacent socket ontology 1, and oval-shaped welding groove 12 has been seted up to the position department that the bottom of socket ontology 1 corresponds 4 tip of adjacent copper bar, and the width of welding groove 12 is greater than the width of constant head tank 11, and when it had and prevents 4 overlengths of copper bar, can make the tip of copper bar 4 wiring more easily.

Each copper bar 4 is connected with the buckle components 3 on the plug bushes 2 with the same polarity in the three socket bodies 1. Left elasticity buckle 31 and right elasticity buckle 32 that are located socket ontology 1 bottom all stretch out and divide in adjacent constant head tank 11 and locate the both sides of constant head tank 11, and copper bar 4 inserts and locates between adjacent left elasticity buckle 31 and right elasticity buckle 32, and left elasticity buckle 31 and right elasticity buckle 32 all have elasticity and compress tightly copper bar 4 in the centre through the elasticity of self.

The width of left side elasticity buckle 31 is greater than the width of right side elasticity buckle 32, right side elasticity buckle 32 is located the middle part position of adjacent left elasticity buckle 31, and the connecting groove 33 that holds right side elasticity buckle 32 is seted up at the middle part of left side elasticity buckle 31, and when not being equipped with copper bar 4 between left side elasticity buckle 31 and right side elasticity buckle 32, right side elasticity buckle 32 stretches into in the connecting groove 33. When not being equipped with copper bar 4 between left side elasticity buckle 31 and the right elasticity buckle 32 like this, right side elasticity buckle 32 stretches into in the connecting groove 33, if not set up connecting groove 33, left side elasticity buckle 31 and right elasticity buckle 32 can produce wearing and tearing because of collision each other.

As shown in fig. 4 and 5, a left fastening convex hull 42 is fixedly arranged on a side wall of the copper bar 4 close to the adjacent left elastic buckle 31, and a right fastening convex hull 43 is fixedly arranged on a side wall of the copper bar 4 close to the adjacent right elastic buckle 32. The middle section of the left elastic buckle 31 is folded towards the position of the adjacent copper bar 4 and forms a left buckle barb 34, and the outer surface of the folded part forms a first clamping surface 36; the middle section of the right elastic buckle 32 is folded towards the position of the adjacent copper bar 4, and forms a right buckle barb 35, and the outer surface of the folded part forms a second clamping surface 37. The left fastening barb 34 and the left fastening convex hull 42 are fastened to each other at one side far away from the socket body 1, and the right fastening barb 35 and the right fastening convex hull 43 are fastened to each other at one side far away from the socket body 1.

Therefore, when the copper bar 4 is not arranged between the left elastic buckle 31 and the right elastic buckle 32, the first clamping surface 36 and the second clamping surface 37 are in an inclined state, when the copper bar 4 is clamped, the first clamping surface 36 and the second clamping surface 37 are turned to be parallel to the side wall surface of the copper bar 4 to clamp the copper bar 4, at the moment, the first clamping surface 36 and the side wall surface adjacent to the copper bar 4 are coplanar, and the first clamping surface 36 and the side wall surface adjacent to the copper bar 4 are planar.

Left elasticity buckle 31 and right elasticity buckle 32 are when pressing from both sides tightly copper bar 4, and left lock barb 34 on the left elasticity buckle 31 can block left lock convex closure 42 on the left lock subassembly, and right lock barb 35 on the right elasticity buckle 32 can block right lock convex closure 43 on the right lock subassembly, and then copper bar 4 can the chucking in buckle subassembly 3. A first clamping surface 36 is arranged on the left elastic buckle 31, and a second clamping surface 37 is arranged on the right elastic buckle 32 to be respectively clamped with two sides of the copper bar 4 so as to prevent the copper bar 4 from deviating.

The copper bar 4 located at the bottom side of the socket body 1 is directly clamped by the left elastic buckle 31 and the right elastic buckle 32 without contacting with the side wall surface of the socket body 1.

The position department that copper bar 4 corresponds adjacent left elasticity buckle 31 both sides all sets firmly the limiting plate 44 that the perpendicular to copper bar 4 side wall face set up, thereby two limiting plates 44 paste the lateral wall of left elasticity buckle 31 both sides respectively mutually and fix a position copper bar 4 more conveniently for left elasticity buckle 31 and the mutual joint of left lock convex closure 42, right elasticity buckle 32 and the mutual joint of right lock convex closure 43, and can not take place the dislocation.

The top of left side elasticity buckle 31 is turned over towards the one side of keeping away from right elasticity buckle 32 top and is turned over towards the one side of keeping away from left elasticity buckle 31 top, and top combination between them forms the V-arrangement groove, and when copper bar 4 inserted, the V-arrangement groove led to copper bar 4.

The main advantages of the present application are: plug bush 2 on socket ontology 1 is when the wiring, copper bar 4 passes through external force, lean on left elasticity buckle 31 and right elasticity buckle 32 top V-arrangement hypotenuse direction automatic slip back chucking, then the wiring end of electric wire and the wiring hole 41 welding connection on the copper bar 4, because wiring department is located socket ontology 1's the outside this moment, the wiring is more convenient and fast, the efficiency is higher, because convenient operation, the condition of pseudo-soldering or rosin joint has effectively been avoided, the connection of copper bar 4 and buckle subassembly 3 department is stable, and is swift, so the not smooth condition of electric current can not appear here.

After the wiring is completed, the socket body 1 can be placed in the shell of the power strip, the copper bar 4 is arranged at the bottom of the shell in a following manner, and a user cannot touch the copper bar, so that danger cannot be generated.

When a plurality of socket ontology 1 to in the row of inserting connect the line, every copper bar 4 can link to each other with buckle subassembly 3 of plug bush 2 of homopolarity in every socket ontology 1 in this row of inserting, the plug bush 2 of the same polarity in this row of inserting only need connect a copper bar 4 like this, and connect the line at the both ends of this copper bar 4, the simultaneous wiring of homopolarity plug bush 2 in this row of inserting has been realized promptly, the quantity of welding department has effectively been reduced, the efficiency of row of inserting equipment has been improved by a wide margin.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (8)

1. The utility model provides a convenient installation type integral type socket side by side, includes socket ontology, socket ontology's bottom is equipped with three at least plug bushes of group, a serial communication port, socket ontology's lower part is equipped with three at least copper bars, every group all be equipped with buckle subassembly on the plug bush, buckle subassembly includes left elasticity buckle and the right elasticity buckle that links to each other with adjacent plug bush, the copper bar is inserted and is located between adjacent left elasticity buckle and the right elasticity buckle, left side elasticity buckle and right elasticity buckle all compress tightly with the copper bar through elasticity that self arrived, the wiring hole that is used for the wiring is seted up at the both ends of copper bar.

2. The easy-to-install one-piece side-by-side socket according to claim 1, wherein the socket body is provided with at least two sets and a plurality of sets of socket bodies arranged side by side, the copper bars are arranged along the arrangement direction of the plurality of sockets, the plug bushes with the same polarity on different socket bodies are arranged collinearly along the arrangement direction of the socket bodies, the plug bushes with different polarities are not collinear in the arrangement direction of the socket bodies, and each copper bar is connected with the buckle assembly on the plug bushes with the same polarity in different socket bodies.

3. The socket of claim 1, wherein the width of the left elastic buckle is greater than the width of the right elastic buckle, the right elastic buckle is located at the middle position of the adjacent left elastic buckle, a connecting groove for accommodating the right elastic buckle is formed in the middle of the left elastic buckle, and when no copper strip is arranged between the left elastic buckle and the right elastic buckle, the right elastic buckle extends into the connecting groove.

4. The easy-to-install one-piece side-by-side socket of claim 1, wherein the middle section of the left resilient latch is folded over toward the position of the adjacent copper bar and forms a left latch barb; the middle section of the right elastic buckle is turned over towards the position of the adjacent copper bar, and a right buckling barb is formed; the socket comprises a copper strip and is characterized in that a left buckling convex hull and a right buckling convex hull are fixedly arranged on the side walls of two sides of the copper strip respectively, a left buckling barb and the left buckling convex hull are buckled with each other on one side of the socket body away from the socket body, and a right buckling barb and the right buckling convex hull are buckled with each other on one side of the socket body away from the socket body.

5. The easy-to-mount integrated side-by-side socket according to claim 1, wherein the joint surface of the left resilient clip and the copper bar is a first clamping surface, the joint surface of the right resilient clip and the copper bar is a second clamping surface, and when the socket is in a state of clamping the copper bar, the first clamping surface and the second clamping surface are turned to be parallel to the side wall surface of the copper bar and then clamp the copper bar.

6. The easy-to-install one-piece side-by-side socket as claimed in claim 2, wherein the bottom of the socket body is formed with positioning grooves along the length direction of the copper bars, and the copper bars at the bottom of the socket body are inserted into the adjacent positioning grooves.

7. The easy-to-install one-piece side-by-side socket according to claim 6, wherein one end of the copper bar at the bottom of the socket is located right below the socket body of the adjacent plug bush, and the socket body is provided with a welding groove with a width larger than that of the positioning groove at a position corresponding to the end of the adjacent copper bar.

8. The conveniently-installed integrated side-by-side socket according to claim 1, wherein limiting plates are fixedly arranged at positions of the copper bar corresponding to two sides of the left elastic buckle, and the two limiting plates are respectively attached to side walls of two sides of the left elastic buckle.

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