CN114678711B

CN114678711B - Thin transfer conductive structure

Info

Publication number: CN114678711B
Application number: CN202210080710.4A
Authority: CN
Inventors: 胡孙跃; 胡晨风; 谭平; 勾振华; 唐红霞
Original assignee: Hangzhou Joye Technology Co ltd
Current assignee: Hangzhou Joye Technology Co ltd
Priority date: 2021-09-01
Filing date: 2022-01-24
Publication date: 2023-10-13
Anticipated expiration: 2042-01-24
Also published as: CN114678711A; CN113725646A

Abstract

The invention discloses a thin transfer conductive structure, which comprises a transfer structure and a conductive structure, wherein the transfer structure is connected through the conductive structure, the conductive structure comprises a plurality of metal needles and a plurality of connecting pieces for connecting the metal needles, the metal needles are provided with a plurality of connecting holes, and the connecting pieces are matched with the connecting holes. The invention provides a thin transfer conductive structure, which is used for indoor decoration and has a branching function of one inlet and multiple outlets.

Description

Thin transfer conductive structure

Technical Field

The invention relates to an electrical device, in particular to a thin transfer conductive structure.

Background

As modern construction progresses, a complex environment requires a wide variety of circuitry. Modern designs of public office buildings, intelligent buildings, and the like also require preset service facilities that provide multiple uses for convenient installation and complex use. Wiring is the most basic process of decoration, other works can be carried out successively only if electric lines are arranged, wiring is very important, because electricity is indispensable every day in our daily life, and branch circuits are often needed in the wiring process, so that a power line adapter capable of carrying in and out one by one is needed, and if the problems are not properly processed in advance, a lot of unnecessary troubles are caused for future life.

At present, the power line adapter for indoor decoration is commonly connected in series through three cores, so that branch wiring is complicated, potential safety hazard is large, efficiency is low, site operation is disordered, procedures are numerous, manual operation is purely performed, site wiring is slow, and project overall delivery period is long; or the power line transfer piece is used for transferring, when wiring lines need to be changed, the lines are inconvenient to detach or rearrange, and flexible wiring cannot be realized.

For example, an improved cable branch box adapter disclosed in chinese patent literature, its publication number CN206401554U, including slot and socket, be provided with first contact lever in the slot, the cavity inside wall is provided with arc recess, the socket includes the socket handle that is provided with the power cord in, be connected with the socket head on the socket handle, the socket head front end is connected with the insert portion that is used for inserting the cavity, be provided with the second contact lever in the butt joint passageway, first contact lever and second contact lever can contact in the butt joint passageway, be provided with the arc protruding step that uses with arc recess cooperation at insert portion lateral surface, simple structure, reasonable in design, through using adapter to get in with the fine switching of cable branch box, the shortcoming is that only can once advance one, can not satisfy the needs of advancing many adapters when interior decoration, can not realize the function of branch wiring through the switching structure.

Disclosure of Invention

The invention aims to solve the problems that when a power line is required to be branched in indoor decoration in the prior art, the three core wires can be simply connected in series, branch wiring is complicated and potential safety hazard is large, and provides a thin transfer conductive structure which realizes that the transfer conductive structure for indoor decoration has a branching function of one inlet and one outlet.

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

a thin transfer conductive structure comprising:

the switching structure is used for branching one input and multiple outputs and is connected through the conductive structure;

the conductive structure is used for being correspondingly connected with the fire zero-ground three-core wire, the conductive structure is arranged inside the switching structure and comprises a plurality of metal needles and a plurality of connecting pieces used for connecting the metal needles, the metal needles are provided with a plurality of connecting holes, and the connecting pieces are matched with the connecting holes.

Through implementing above-mentioned scheme, when needs power cord branch when overcoming among the prior art interior decoration, can only carry out simple series connection through three heart yearns, branch wiring loaded down with trivial details and the big problem of potential safety hazard, provide a thin type switching conductive structure, realize that the adaptor that is used for interior decoration has the separated time function of one business turn over more. The external plug is connected with the conductive structure through the switching structure, the metal needle is the copper needle, each copper needle is connected with one of the three core wires, the conductive function of the switching piece is realized, the connecting piece is connected with the incoming wire and the outgoing wire through the connecting hole on the copper needle, the switching function of the switching piece is realized, the branching of one inlet and one outlet and the function of high wiring flexibility are realized, the requirements of modern building decoration are met, and particularly when the lines are required to be changed, the lines are convenient to detach or rearrange, the efficiency is improved, and the rapid recombination is realized.

Preferably, the metal pins comprise a first metal pin for connecting an incoming line and a second metal pin for connecting an outgoing line. Each adapter piece is provided with a first metal needle and a plurality of second metal needles, the first metal needles are used for connecting incoming wires, and the second metal needles are used for connecting outgoing wires, so that the branching function of one inlet and one outlet is realized.

Preferably, the conductive structure is externally provided with a thin transfer shell matched with the conductive structure, the transfer structure is fixed on the thin transfer shell, and the thin transfer shell is provided with a plurality of clamping pieces for being clamped with the plug. The thin transfer shell is matched with the conductive structure, the conductive structure is wrapped exactly by the thin transfer shell, so that the insulation function is realized, the transfer structure is fixed on the thin transfer shell and is of a hollow structure, the middle of the transfer structure is provided with a clamping piece through a power line and a copper needle, the clamping piece is clamped with an external plug, and the clamping piece is provided with a barb structure, so that the transfer structure is not easy to fall off after being connected with the plug.

Preferably, the clamping piece comprises a limiting block and a plurality of protruding blocks, the protruding blocks arranged on the same clamping piece are connected through the limiting block, one end of each protruding block is fixed on the thin adapter shell, and an elastic structure used for being clamped with the plug is arranged at the other end of each protruding block. The lug is rectangular plastic part that one end had elasticity barb structure, the stopper is for having the rectangle plastic part of certain thickness, be connected with the stopper between the lug, the lug is used for preventing that the transfer structure from droing by oneself after being connected with the plug, the stopper is used for strengthening the lug and prescribing a limit to transfer structure and plug hookup location, prevent that the plug from inserting the adaptor too deeply, lead to the adaptor to damage, transfer structure's length is greater than the length of stopper, be less than the length of lug, be convenient for transfer structure and plug junction and spacing, lug one end is equipped with elasticity barb structure, be difficult for droing by oneself after with external plug joint.

Preferably, an intermediate reinforcing plate is arranged between the conductive structure and the thin transfer shell, and the intermediate reinforcing plate is clamped with the thin transfer shell. The middle reinforcing plate is arranged between the conductive structure and the thin transfer shell and is clamped with the thin transfer shell, so that the connecting piece is not in direct contact with the thin transfer shell, electric leakage is prevented, the structure of the transfer piece is compact, the stress effect of the transfer piece is enhanced, and the anti-collision and anti-extrusion capabilities of the transfer piece are improved.

Preferably, the bottom of the middle reinforcing plate is provided with a plurality of grooves matched with the connecting pieces, and the middle reinforcing plate is embedded with a shock absorber for damping. The bottom of the middle reinforcing plate is provided with a plurality of grooves, and the connecting piece is matched with the grooves and can be embedded in the middle reinforcing plate, so that the connecting piece is not easy to damage, and the shock absorber embedded in the middle reinforcing plate is used for damping.

Preferably, the thin adapter shell comprises a front cover and a rear cover, wherein the front cover is integrally formed, the rear cover is integrally formed, and the front cover and the rear cover are welded through ultrasonic waves. The front cover and the rear cover are respectively formed integrally, are convenient to process and attractive in appearance, the front cover and the rear cover are welded by ultrasonic waves, the ultrasonic waves are transmitted to the surfaces of two objects to be welded by utilizing high-frequency vibration waves, under the condition of pressurization, the surfaces of the two objects are mutually rubbed to form fusion between molecular layers, a welding material is not fused, the characteristics of fragile metals are not easy, the conductivity after welding is good, the resistance coefficient is extremely low or nearly zero, the requirements on the surface of the welded metal are low, the welding can be carried out by oxidation or electroplating, the welding time is short, no soldering flux, gas or welding flux is needed, and the welding is spark-free and environment-friendly and safe. And the front cover and the rear cover can not be disassembled after being fixed together, thereby meeting the requirement that the interior decoration can not be exposed and electrified.

Preferably, the thin adapter shell is provided with a fixing piece for connecting with the metal box. Because of interior decoration requirement, the adaptor needs to be installed inside the metal box, and the adaptor is connected with the metal box through bolts on the fixing piece, so that the safety requirement in the field is met, and the adaptor is convenient to disassemble and assemble.

Preferably, the front cover is provided with a positioning column, and the rear cover is provided with a positioning hole for adapting to the positioning column. The positioning column of the front cover is matched with the positioning hole of the rear cover, so that the positioning of the front cover and the rear cover in the ultrasonic welding processing process is facilitated.

Preferably, the shock absorber comprises a piston cylinder, a piston and a piston rod, wherein one end of the piston rod is connected with the piston, and the other end of the piston rod is in sliding connection with a port of the piston cylinder. When the middle reinforcing plate vibrates, the piston in the shock absorber is driven to move up and down, so that longitudinal vibration is reduced.

Preferably, the piston rod drives the piston to reciprocate in the piston cylinder, oil is arranged in the piston cylinder, a plurality of through holes for passing through the oil are formed in the piston, an elastomer for vibration reduction and noise reduction is arranged on the shock absorber, and the elastomer is sleeved outside the piston cylinder. When the piston moves up and down, oil liquid needs to flow back and forth to the other side of the piston through the through hole in the piston, at the moment, friction between the inner wall of the piston cylinder and the oil liquid and internal friction of oil liquid molecules form damping force on the piston moving up and down, so that vibration energy is converted into oil liquid heat energy, the heat is dissipated through the heat conducting plate on the outer side wall of the piston cylinder, the elastic body is a spring and is sleeved outside the piston cylinder, and when the piston moves up and down, the elastic body is compressed or stretched to further damp.

The invention has the following beneficial effects: (1) the device has a branching function of one inlet and multiple outlets; (2) The ultrasonic welding device has the advantages that the circuit which is not exposed outside is not arranged, the shell which is welded and processed by ultrasonic waves cannot be disassembled, and various potential safety hazards are eliminated; (3) The switching conductive structure is not easy to fall off by itself when being connected with an external plug.

Drawings

The invention is further illustrated by the following figures and examples.

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic diagram of a conductive structure according to the present invention;

FIG. 3 is a schematic view of the structure of the middle reinforcing plate and the connecting member according to the present invention;

FIG. 4 is a schematic view of the structure of the rear cover in the present invention;

FIG. 5 is a schematic view of the structure of the front cover in the present invention;

FIG. 6 is a schematic diagram of example four of the present invention;

fig. 7 is a schematic structural view of a shock absorber according to the present invention.

In the figure: the connecting structure comprises a connecting structure 1, a female head 1.1, a male head 1.2, a connecting piece body 2, a thin connecting shell 3, a front cover 3.1, a rear cover 3.2, a conductive structure 4, a connecting piece 4.1, a metal needle 4.2, a first metal needle 4.2.1, a second metal needle 4.2.2, a clamping piece 5, a limiting block 5.1, a protruding block 5.2, an elastic structure 6, a middle reinforcing plate 7, a groove 8, a connecting hole 9, a fixing piece 10, a positioning column 13, a positioning hole 14, a shock absorber 15, a piston cylinder 16, a piston 17 and a piston rod 18.

Detailed Description

First embodiment:

as shown in fig. 1 or fig. 2, a thin transfer conductive structure comprises a transfer structure 1 and a conductive structure 4, wherein the transfer structure 1 is connected through the conductive structure 4, the conductive structure 4 comprises a plurality of metal pins 4.2 and a plurality of connecting pieces 4.1 for connecting the metal pins 4.2, the metal pins 4.2 are provided with a plurality of connecting holes 9, and the connecting pieces 4.1 are matched with the connecting holes 9; the metal pins 4.2 comprise a first metal pin 4.2.1 for connecting incoming wires and a second metal pin 4.2.2 for connecting outgoing wires; the conductive structure 4 is provided with a thin transfer shell 3 matched with the conductive structure 4, and the transfer structure 1 is fixed on the thin transfer shell 3; the thin adapter shell 3 is provided with a plurality of clamping pieces 5 for being clamped with the plug; the clamping piece 5 comprises a limiting block 5.1 and a plurality of protruding blocks 5.2, the protruding blocks 5.2 arranged on the same clamping piece 5 are connected through the limiting block 5.1, the length of the limiting block 5.1 is smaller than that of the switching structure 1, and the length of the protruding blocks 5.2 is larger than that of the switching structure 1; one end of the protruding block 5.2 is fixed on the thin transfer shell 3, the other end is provided with an elastic structure 6 for being clamped with a plug, and the thin transfer shell 3 is provided with a fixing piece 10 for being connected with a metal box.

In the technical scheme, a female head 1.1 is arranged on the switching structure 1 and used for connecting an incoming line, a plurality of male heads 1.2 are arranged on the switching structure 1 and used for connecting outgoing lines, three external core wires are connected with the female head 1.1 and the male head 1.2, then the male head 1.2 and the female head 1.1 are connected through a conductive structure 4, an external plug is connected with the conductive structure 4 through the switching structure 1, a metal needle 4.2 is a copper needle, each copper needle is connected with one of the three core wires, the conductive function of the switching element is realized, the switching element 4.1 is connected with the incoming line and the outgoing line through a connecting hole 9 on the copper needle, the switching element is connected with the incoming line and the outgoing line, the branching and wiring functions of one incoming and more outgoing lines are realized, the functions of high flexibility are realized, the switching element is convenient to detach or rearrange the lines, the switching element is convenient, the efficiency is improved, and the switching element is fast to reorganize; be equipped with joint spare 5 on thin type adapter housing 3, joint spare 5 and external plug joint, lug 5.2 is the rectangular form working of plastics that one end has elastic barb structure, stopper 5.1 is for having the rectangular form working of plastics of certain thickness, connect with stopper 5.1 between lug 5.2, lug 5.2 is used for preventing that adapter structure 1 from coming off by oneself after being connected with the plug, stopper 5.1 is used for consolidating lug 5.2 and prescribing a limit to adapter structure 1 and plug hookup location, prevent that the plug from inserting adapter structure 1 too dark, lead to the adapter to damage, elastic structure 6 is elastic barb shape, the joint of being convenient for, adapter structure 1's length is greater than the length of stopper 5.1, be less than the length of lug 5.2, be convenient for adapter structure 1 and plug junction and spacing, so, lug 5.2's joint spacing and stopper 5.1 spacing form double spacing, make the connection firm, prevent adapter or external plug damage. Each adapter piece is provided with a first metal needle 4.2.1 and a plurality of second metal needles 4.2.2, the first metal needles 4.2.1 are used for connecting incoming wires, and the second metal needles 4.2.2 are used for connecting outgoing wires, so that the branching function of one inlet and one outlet is realized; the thin transfer shell 3 is matched with the conductive structure 4, the conductive structure 4 is just completely wrapped by the thin transfer shell 3, so that an insulating function is realized, the transfer structure 1 is fixed on the thin transfer shell 3, the transfer structure 1 is of a hollow structure, and the middle part of the transfer structure is provided with a power line and a copper needle; because of interior decoration requirement, the adaptor needs to be installed inside the metal box, and the adaptor is connected with the metal box through the bolts on the fixing piece 10, so that the safety requirement in the field is met, and the adaptor is convenient to disassemble and assemble.

Specific embodiment II:

as shown in fig. 3, based on embodiment 1, an intermediate reinforcing plate 7 is disposed between the conductive structure 4 and the thin transfer case 3, and the intermediate reinforcing plate 7 is clamped with the thin transfer case 3; the bottom of the middle reinforcing plate 7 is provided with a plurality of grooves 8 which are matched with the connecting pieces 4.1, and the middle reinforcing plate 7 is embedded with a shock absorber 15 for damping.

In the technical scheme, the middle reinforcing plate is arranged between the conductive structure 4 and the thin transfer shell 3 and is clamped with the thin transfer shell 3, so that the connecting piece is not in direct contact with the thin transfer shell 3, electric leakage is prevented, the structure of the transfer piece is compact, the stress effect of the transfer piece is enhanced, and the anti-collision and anti-extrusion capabilities of the transfer piece are improved; the bottom of the middle reinforcing plate 7 is provided with a plurality of grooves 8, and the connecting piece 4.1 is matched with the grooves 8 and can be embedded in the middle reinforcing plate 7, so that the connecting piece 4.1 is not easy to damage, and the vibration damper 15 is used for reducing vibration and prolonging the service life of the device.

Third embodiment:

as shown in fig. 4 or fig. 5, based on embodiment 2, the thin transfer case 3 includes a front cover 3.1 and a rear cover 3.2, the front cover 3.1 is integrally formed, the rear cover 3.2 is integrally formed, and the front cover 3.1 and the rear cover 3.2 are welded by ultrasonic waves; the front cover 3.1 is provided with a positioning column 13, and the rear cover 3.2 is provided with a positioning hole 14 for adapting to the positioning column 13.

In the technical scheme, the front cover 3.1 and the rear cover 3.2 are respectively formed integrally, so that the processing is convenient, the appearance is attractive, the front cover 3.1 and the rear cover 3.2 are welded by ultrasonic waves, the ultrasonic waves are transmitted to the surfaces of two objects to be welded by utilizing high-frequency vibration waves, under the condition of pressurization, the surfaces of the two objects are mutually rubbed to form fusion between molecular layers, a welding material is not fused and has the characteristic of fragile metal, the conductivity after welding is good, the resistance coefficient is extremely low or almost zero, the requirements on the surface of the welded metal are low, the welding time is short, no soldering flux, gas and welding flux are needed, and the welding is spark-free, environment-friendly and safe; the front cover 3.1 and the rear cover 3.2 are fixed together and cannot be disassembled, the requirement that the interior decoration cannot be exposed and electrified is met, the positioning column 13 of the front cover 3.1 is matched with the positioning hole 14 of the rear cover 3.2, and the positioning of the front cover 3.1 and the rear cover 3.2 in the ultrasonic welding processing process is facilitated.

Fourth embodiment:

as shown in fig. 6, on the basis of embodiment 3, the conductive structure 4 is a laterally expandable structure, and three copper pins and three connecting pieces 4.2 are added on the basis of one-in-three-out.

In the technical scheme, three copper needles are correspondingly connected through the fire zero-ground three-core wire, so that the adapter realizes the functions of one inlet and five outlets, and so on, and under the condition of not exceeding overload, two outlet wire ends can be increased every time three copper needles and three connecting pieces 4.2 are added.

Fifth embodiment:

as shown in fig. 7, in the embodiment 4, the shock absorber 15 includes a piston cylinder 16, a piston 17, and a piston rod 18, one end of the piston rod 18 is connected to the piston 17, and the other end of the piston rod 18 is slidably connected to a port of the piston cylinder 16. The piston rod 18 drives the piston 17 to reciprocate in the piston cylinder 16, oil is arranged in the piston cylinder 16, a plurality of through holes for passing through the oil are formed in the piston 17, an elastomer for vibration reduction and noise reduction is arranged on the damper 15, and the elastomer is sleeved outside the piston cylinder 16.

In the technical scheme, when the middle reinforcing plate vibrates, the piston in the shock absorber is driven to move up and down, so that longitudinal vibration is reduced. When the piston moves up and down, oil liquid needs to flow back and forth to the other side of the piston through the through hole in the piston, at the moment, friction between the inner wall of the piston cylinder and the oil liquid and internal friction of oil liquid molecules form damping force on the piston moving up and down, so that vibration energy is converted into oil liquid heat energy, the heat is dissipated through the heat conducting plate on the outer side wall of the piston cylinder, the elastic body is a spring and is sleeved outside the piston cylinder, and when the piston moves up and down, the elastic body is compressed or stretched to further damp.

Furthermore, the adaptor provided by the invention is a thin adaptor, and when the hollowed-out distance for the raised floor is smaller, the thin adaptor can be used in a 40-screen of furniture, and the thickness of the thin adaptor is 2.69cm-2.71cm.

Further, the conductive structure 4 is a longitudinally expandable structure, six copper needles and six connecting pieces 4.2 are added on the basis of the original one-in-three-out structure, three copper needles are correspondingly connected through fire zero-ground three-core wires, so that the adapter realizes the one-in-seven-out function, and the four wire outlets can be added every time six copper needles and six connecting pieces 4.2 are added under the condition of not exceeding overload.

Claims

1. A thin transfer conductive structure, comprising:

the switching structure (1) is used for branching one inlet and one outlet, and the switching structure (1) is connected through the conductive structure (4);

the conductive structure (4) is used for being correspondingly connected with the fire zero-ground three-core wire, the conductive structure (4) is arranged inside the switching structure (1), the conductive structure (4) comprises a plurality of metal needles (4.2) and a plurality of connecting pieces (4.1) used for connecting the metal needles (4.2), the metal needles (4.2) are provided with a plurality of connecting holes (9), and the connecting pieces (4.1) are matched with the connecting holes (9);

the conductive structure (4) is externally provided with a thin transfer shell (3) which is matched with the conductive structure (4).

2. A slim transfer conductive structure according to claim 1, wherein said metal pins (4.2) comprise a first metal pin (4.2.1) for connecting an incoming line and a second metal pin (4.2.2) for connecting an outgoing line.

3. The thin transfer conductive structure according to claim 1, wherein the transfer structure (1) is fixed on a thin transfer shell (3), and a plurality of clamping pieces (5) for being clamped with a plug are arranged on the thin transfer shell (3).

4. A thin transfer conductive structure according to claim 3, characterized in that the clamping piece (5) comprises a limiting block (5.1) and a plurality of protruding blocks (5.2), the protruding blocks (5.2) arranged on the same clamping piece (5) are connected together through the limiting block (5.1), one end of each protruding block (5.2) is fixed on the thin transfer shell (3), and the other end of each protruding block is provided with an elastic structure (6) for being clamped with a plug.

5. The thin transfer conductive structure according to claim 4, wherein an intermediate reinforcing plate (7) is arranged between the conductive structure (4) and the thin transfer shell (3), and the intermediate reinforcing plate (7) is clamped with the thin transfer shell (3).

6. The thin transfer conductive structure according to claim 5, wherein a plurality of grooves (8) matched with the connecting pieces (4.1) are formed in the bottom of the middle reinforcing plate (7), and vibration dampers (15) used for vibration reduction are embedded in the middle reinforcing plate (7).

7. A thin transfer conductive structure according to claim 3, wherein the thin transfer case (3) comprises a front cover (3.1) and a rear cover (3.2), the front cover (3.1) is integrally formed, the rear cover (3.2) is integrally formed, and the front cover (3.1) and the rear cover (3.2) are welded by ultrasonic waves.

8. A thin transfer conductive structure according to claim 3 or 4 or 5 or 6 or 7, wherein the thin transfer case (3) is provided with a fixing member (10) for connecting with a metal box.

9. The thin transfer conductive structure according to claim 6, wherein the shock absorber (15) comprises a piston cylinder (16), a piston (17) and a piston rod (18), one end of the piston rod (18) is connected with the piston (17), and the other end of the piston rod (18) is slidably connected with a port of the piston cylinder (16).

10. The thin transfer conductive structure according to claim 9, wherein the piston rod (18) drives the piston (17) to reciprocate in the piston cylinder (16), oil is arranged in the piston cylinder (16), a plurality of through holes for passing through the oil are formed in the piston (17), an elastomer for vibration reduction and noise reduction is arranged on the damper (15), and the elastomer is sleeved outside the piston cylinder (16).