CN110224267B - Electronic connector with multiple assembly modes - Google Patents

Abstract

The invention relates to the technical field of electronic connectors, and discloses an electronic connector with various assembly modes, which comprises a first fastening piece, at least one absorption piece and a second fastening piece, wherein the first fastening piece is provided with a first absorption surface, the second fastening piece is provided with a second absorption surface, and the absorption pieces are fixedly connected with the first fastening piece and the second fastening piece respectively; when the first fastening piece is vertically arranged, the adsorption piece is adsorbed, and the electronic connector can be moved to a processing position; the space for providing a lower suction nozzle of the chip mounter for processing is increased, so that vertical direct insertion can be realized rapidly, and direct insertion in the positive and negative positions is realized; the chip mounter is provided with the first fastening piece and the second fastening piece, the chip mounter can directly adsorb the outer surfaces of the first fastening piece and the second fastening piece to realize horizontal direct insertion, direct insertion in the opposite directions is realized, the electronic connector can be quickly installed through the chip mounter, manual intervention is not needed in the whole process, the production cost is reduced, and larger production benefit is obtained.

Description

Electronic connector with multiple assembly modes

Technical Field

The invention relates to the technical field of electronic connectors, in particular to an electronic connector with multiple assembly modes.

Background

An electrical connector (also commonly referred to as a circuit connector, an electrical connector) bridging two conductors on a circuit so that current or signals can flow from one conductor to the conductor arrangement of the other conductor; the device is widely applied to various electric circuits and plays a role in connecting or disconnecting current or signals; the connection may be temporary and easily pluggable at any time, or may be a permanent junction between electrical devices or wires.

At present, along with the development of technology, automatic equipment replaces people to accelerate increasingly, but many electronic connector pins are not reasonably designed, and the product suction surface is not assembled automatically, so that automatic assembly cannot be adopted, and the electronic connector pins are placed one by one manually.

In the prior art, the electronic connectors need to be put one by one manually in actual production and use, and the production cost is too high; the electronic connector cannot be assembled directly through the existing assembly machine tool, the production cost is increased due to the fact that a special sucking disc is additionally arranged, and the special adaptation of a single electronic connector is needed; the cost of the molds to produce the different electronic connectors is prohibitive.

Disclosure of Invention

The invention aims to provide an electronic connector with various assembly modes, and aims to solve the problem that the existing electronic connector cannot be assembled directly through an existing assembly machine tool.

The invention is realized in that the electronic connector with multiple assembly modes comprises a first fastening piece, at least one absorption piece and a second fastening piece, wherein the first fastening piece is provided with a first absorption surface, the second fastening piece is provided with a second absorption surface, and the absorption pieces are fixedly connected with the first fastening piece and the second fastening piece respectively; when the first fasteners are vertically arranged, the adsorbing member is adsorbed, and the electronic connector can be moved to a processing position; when the first fastening piece is horizontally arranged, the first adsorption surface is adsorbed by the chip mounter, and the electronic connector can be moved to a processing position; when the second fastening piece is horizontally arranged, the second adsorption surface is adsorbed by the chip mounter, and the electronic connector can be moved to a processing position.

Further, the electronic connector comprises a lower contact piece, the adsorption piece comprises a first block body, a second block body, a lower contact block for bearing the first block body and the second block body, and a first loading groove, the lower contact block is arranged on the upper end face of the lower contact piece, the first block body, the second block body and the lower contact block form the first loading groove, a third adsorption surface is formed on the upper end face of the second block body, a fourth adsorption surface is formed on the upper end face of the first block body, and when the third adsorption surface and the fourth adsorption surface are adsorbed by the chip mounter at the same time, the electronic connector can be sucked up and moved to a processing position.

Further, the first block is arranged in parallel with the second block, the first close-fitting member is arranged in parallel with the second close-fitting member, and the first close-fitting member is arranged at right angles to the lower contact member.

Further, the novel solar cell panel further comprises a left plate and a right plate, wherein the left plate is provided with a second loading groove, the right plate is provided with a third loading groove, and the second loading groove is opposite to the third loading groove and the first loading groove.

Further, the second adsorption surface is formed on the outward outer end surface of the second fastening member, the second fastening member further comprises a first strip-shaped through hole, a second strip-shaped through hole and a third strip-shaped through hole, the first strip-shaped through hole is arranged in the middle area of the second fastening member from top to bottom, the second strip-shaped through hole and the third strip-shaped through hole are symmetrically arranged by taking the first strip-shaped through hole as a symmetrical line, and the second strip-shaped through hole and the third strip-shaped through hole are upwards arranged from the lower end of the second fastening member.

Further, the left plate, the right plate, the first fastening piece and the second fastening piece are enclosed to form an access slot; the electronic connector of multiple assembly modes further comprises a contact pin, the contact pin is provided with an extending part and a bending part, the lower contact piece is provided with a penetrating hole, the contact pin penetrates through the penetrating hole, the contact pin outwards forms the bending part, and the extending part is vertically arranged in the access slot.

Further, the outward outer end surface of the first proximate forms the first suction surface, and the outward outer end surface of the second proximate forms the second suction surface.

Further, the lower end face of the lower contact is formed with an extension groove in which the bent portion is embedded.

Further, the electronic connector of the multiple assembly modes comprises at least one adsorption piece and at least two paired pins, wherein the pins are arranged side by side, and the first abutting piece and the second abutting piece are arranged in pairs.

Further, the inner surface of the second abutment forms at least one projection.

Compared with the prior art, the electronic connector with multiple assembly modes has the beneficial effects that: the space for providing a lower suction nozzle of the chip mounter for processing is increased, so that vertical direct insertion can be realized rapidly, and direct insertion in the positive and negative positions is realized; the chip mounter is provided with the first fastening piece and the second fastening piece, the chip mounter can directly adsorb the outer surfaces of the first fastening piece and the second fastening piece to realize horizontal direct insertion, direct insertion in the opposite directions is realized, the electronic connector can be quickly installed through the chip mounter, manual intervention is not needed in the whole process, the production cost is reduced, and larger production benefit is obtained.

Drawings

FIG. 1 is a schematic perspective view of an electronic connector according to various assembly methods of the present invention;

FIG. 2 is a schematic top view of a bottom of an electronic connector according to various embodiments of the present invention;

FIG. 3 is a schematic perspective view of the back side of an electronic connector according to various embodiments of the present invention;

fig. 4 is a schematic perspective view of embodiment 2 of an electronic connector according to various assembling modes provided by the present invention;

fig. 5 is a schematic perspective view of embodiment 3 of an electronic connector according to various assembling modes provided by the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The implementation of the present invention will be described in detail below with reference to specific embodiments.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present invention, it should be understood that, if there is an azimuth or positional relationship indicated by terms such as "upper", "lower", "left", "right", etc., based on the azimuth or positional relationship shown in the drawings, it is only for convenience of describing the present invention and simplifying the description, but it is not indicated or implied that the apparatus or element referred to must have a specific azimuth, be constructed and operated in a specific azimuth, and thus terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limitations of the present patent, and specific meanings of the terms described above may be understood by those skilled in the art according to specific circumstances.

Referring to fig. 1-3, a preferred embodiment of the present invention is provided.

The electronic connector with multiple assembly modes solves the problem that an existing electronic connector cannot be assembled directly through an existing assembly machine tool.

The electronic connector with various assembly modes comprises a first fastening piece 1, at least one absorption piece 2 and a second fastening piece 3, wherein the first fastening piece 1 is provided with a first absorption surface 11, the second fastening piece 3 is provided with a second absorption surface 31, and the absorption piece 2 is fixedly connected with the first fastening piece 1 and the second fastening piece 3 respectively; when the first fastening member 1 is vertically arranged, the adsorbing member 2 is adsorbed, and the electronic connector can be moved to the processing position; when the first fastening piece 1 is transversely arranged, the first adsorption surface 11 is adsorbed by the chip mounter, and the electronic connector can be moved to a processing position; when the second fastening member 3 is arranged laterally, the second suction surface 31 is sucked by the mounter, and the electronic connector can be moved to the processing position.

The space for providing a lower suction nozzle of the chip mounter for processing is increased, so that vertical direct insertion can be realized rapidly, and direct insertion in the positive and negative positions is realized; the chip mounter is provided with the first fastening piece 1 and the second fastening piece 3, the chip mounter can directly adsorb the outer surfaces of the first fastening piece 1 and the second fastening piece 3 to realize horizontal direct insertion, forward and reverse direct insertion is realized, the electronic connector can be quickly mounted through the chip mounter, manual intervention is not needed in the whole process, the production cost is reduced, and larger production benefit is obtained.

Specifically, the lower contact 7 is further included, the adsorbing member 2 includes a first block 21, a second block 22, a lower contact block 23 for supporting the first block 21 and the second block 22, and a first loading slot 24, the lower contact block 23 is disposed on an upper end surface of the lower contact 7, the first block 21, the second block 22 and the lower contact block 23 form the first loading slot 24, a third adsorbing surface 221 is formed on an upper end surface of the second block 22, a fourth adsorbing surface 211 is formed on an upper end surface of the first block 21, and when the third adsorbing surface 221 and the fourth adsorbing surface 211 are simultaneously adsorbed by the chip mounter, the electronic connector can be sucked and moved to the processing position.

By providing the third suction surface 221, the chip mounter can suck the third suction surface 221 and the fourth suction surface 211 during processing, so that the electronic connector can be quickly sucked up to the processing station.

Specifically, the width of the second block 22 is larger than the width of the first block 21, and the insertion arrangement can be performed quickly when the plug is inserted into the electronic connector.

Specifically, the first block 21 is arranged in parallel with the second block 22, the first and second fasteners 1, 3 are arranged in parallel, and the first fastener 1 and the lower contact 7 are formed with a right angle connection arrangement; the second abutment 3 also forms a right angle arrangement with the lower contact 7, by providing a right angle in a flat manner, so that the electronic connector can be placed in a stable and flat manner on the station to be processed.

Specifically, the upper surfaces of the first block 21 and the second block 22 are arranged flush, and the upper surfaces of the first block 21 and the second block 22 can be easily sucked by the suction cup.

Specifically, the left plate 4 and the right plate 5 are further included, the left plate 4 is formed with a second loading slot, the right plate 5 is formed with a third loading slot, and the second loading slot is arranged opposite to the third loading slot and the first loading slot 24.

Through setting up left plate 4 and right plate 5, the second loading groove and the first loading groove 24 on the left plate 4 are just right to be arranged, and the third loading groove and the first loading groove 24 on the right plate 5 are just right to be arranged to can guarantee that the plug can insert in the electronic connector steadily.

Specifically, the outward outer end surface of the second fastening member 3 forms a second adsorption surface 31, the second fastening member 3 further includes a first strip-shaped through hole 32, a second strip-shaped through hole 33, and a third strip-shaped through hole 34, the first strip-shaped through hole 32 is disposed in a middle area of the second fastening member 3 from top to bottom, the second strip-shaped through hole 33 and the third strip-shaped through hole 34 are symmetrically disposed with the first strip-shaped through hole 32 as a symmetry line, and the second strip-shaped through hole 33 and the third strip-shaped through hole 34 are disposed upward from a lower end of the second fastening member 3.

By arranging the first strip-shaped through hole 32, the second strip-shaped through hole 33 and the third strip-shaped through hole 34, the protruding blocks on the plug can be embedded into the first strip-shaped through hole 32, the second strip-shaped through hole 33 and the third strip-shaped through hole 34, so that the plug can be stabilized; meanwhile, the first strip-shaped through hole 32, the second strip-shaped through hole 33 and the third strip-shaped through hole 34 can be matched with the circuit board and can be used for isolating the circuit board from the electronic connector.

Specifically, the lower end of the second proximate member 3 is fixedly connected with one end of the lower contact member 7, and the lower end of the first proximate member 1 is fixedly connected with one end of the lower contact member 7; the lower contact 7 is fixedly connected to the first and second fastening elements 1, 3, so that no errors are made during the installation.

Specifically, the left plate 4, the right plate 5, the first fastening piece 1 and the second fastening piece 3 are enclosed to form an access slot; the electronic connector with various assembly modes further comprises a contact pin 6, wherein the contact pin 6 is provided with an extending part 61 and a bending part 62, the lower contact 7 is provided with a penetrating hole, the contact pin 6 penetrates through the penetrating hole, the contact pin 6 outwards forms the bending part 62, and the extending part 61 is vertically arranged in the access slot; by providing the pins 6 and determining that the pins 6 are formed with the bent portions 62 facing outward, the electronic connector can be ensured to be inserted straight in a horizontal manner.

Specifically, the lower end surface of the lower contact 7 is formed with an extension groove 72, and the bent portion 62 is embedded in the extension groove 72; by providing the extension groove 72, loading can be stabilized at the time of loading; further, since the extension groove 72 is formed, the bent portion 62 may not directly contact the circuit board at the processing position.

Specifically, the lower contact 7 is further formed with a groove 71, the groove 71 being used to reduce the weight of the electronic connector in various assembly modes; thereby achieving a further reduction of consumables.

Specifically, the outward outer end surface of the first fastening member 1 forms a first suction surface 11, and the outward outer end surface of the second fastening member 3 forms a second suction surface 31; by providing the first suction surface 11 and the second suction surface 31, the electronic connector can be sucked and moved by the chip mounter.

Specifically, the electronic connector with various assembly modes comprises at least one adsorption piece 2 and at least two paired pins 6, wherein the pins 6 are arranged side by side, and the first and second fastening pieces 1 and 3 are arranged in pairs; by providing at least two pins 6 and at least one suction member 2, it is ensured that the electronic connector can be moved by suction and that a plug can be inserted.

In particular, the inner surface of the second abutment 3 forms at least one projection for mating arrangement with the plug.

Example 2 provided for the present invention is described with reference to fig. 4.

The electronic connector with various assembly modes comprises a first proximate part 1, two adsorption parts 2, a second proximate part 3 and six contact pins 6, wherein the two adsorption parts 2 are arranged between every two contact pins 6, and the six contact pins 6 can be arranged quickly by one time.

Example 3 provided for the present invention is described with reference to fig. 5.

The electronic connector with various assembly modes comprises a first proximate part 1, an adsorption part 2, a second proximate part 3 and five contact pins 6, wherein one adsorption part 2 is arranged between three contact pins 6 and two contact pins 6, and six contact pins 6 can be arranged at a time.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (9)

1. The electronic connector is characterized by comprising a first fastening piece, at least one absorption piece and a second fastening piece, wherein the first fastening piece is provided with a first absorption surface, the second fastening piece is provided with a second absorption surface, and the absorption pieces are fixedly connected with the first fastening piece and the second fastening piece respectively; when the first fasteners are vertically arranged, the suction members are sucked, and the electronic connector can be moved to a processing position; when the first fastening piece is horizontally arranged, the first adsorption surface is adsorbed by the chip mounter, and the electronic connector can be moved to a processing position; when the second fastening piece is horizontally arranged, the second adsorption surface is adsorbed by the chip mounter, and the electronic connector can be moved to a processing position;

the electronic connector comprises a first block body, a second block body, a lower contact block for supporting the first block body and the second block body, and a first loading groove, wherein the lower contact block is arranged on the upper end face of the lower contact piece, the first loading groove is formed by the first block body, the second block body and the lower contact block, a third adsorption surface is formed on the upper end face of the second block body, a fourth adsorption surface is formed on the upper end face of the first block body, and when the third adsorption surface and the fourth adsorption surface are adsorbed by a chip mounter at the same time, the electronic connector can be sucked up and moved to a processing position; the width of the second block is greater than the width of the first block.

2. The multiple mount electronic connector of claim 1, wherein the first block is disposed in parallel with the second block, the first abutment is disposed in parallel with the second abutment, and the first abutment is disposed at a right angle to the lower contact.

3. The multiple mount electronic connector of claim 2, further comprising a left plate member formed with a second loading slot and a right plate member formed with a third loading slot, the second loading slot being disposed directly opposite the third loading slot and the first loading slot.

4. The electronic connector according to claim 3, wherein the outward outer end surface of the second fastening member forms the second adsorption surface, the second fastening member further comprises a first bar-shaped through hole, a second bar-shaped through hole and a third bar-shaped through hole, the first bar-shaped through hole is arranged in the middle area of the second fastening member from top to bottom, the second bar-shaped through hole and the third bar-shaped through hole are symmetrically arranged by taking the first bar-shaped through hole as a symmetrical line, and the second bar-shaped through hole and the third bar-shaped through hole are upwards arranged from the lower end of the second fastening member.

5. The multiple mount electronic connector of claim 4, wherein the left plate, the right plate, the first abutment, and the second abutment are enclosed to form an access slot; the electronic connector of multiple assembly modes further comprises a contact pin, the contact pin is provided with an extending part and a bending part, the lower contact piece is provided with a penetrating hole, the contact pin penetrates through the penetrating hole, the contact pin outwards forms the bending part, and the extending part is vertically arranged in the access slot.

6. The multiple mount electronic connector of claim 5, wherein the outwardly facing outer end surface of the first abutment forms the first suction surface and the outwardly facing outer end surface of the second abutment forms the second suction surface.

7. The multiple mount electronic connector according to claim 6, wherein the lower end surface of the lower contact is formed with an extension groove, and the bent portion is embedded in the extension groove.

8. The multiple mount electronic connector of claim 7, wherein the multiple mount electronic connector includes at least one of the suction members and at least two paired pins, the pins being arranged side-by-side, the first and second connectors being arranged in pairs.

9. A multiple mount electronic connector according to any one of claims 1-3, wherein the inner surface of the second abutment forms at least one projection.