CN218926806U - PIN needle equipment - Google Patents

Abstract

The utility model relates to the technical field of PIN needle assembly, in particular to PIN needle assembly equipment, which comprises a rack, a control unit, a charging tray assembly, a vibration feeding assembly, a turnover PIN needle feeding assembly, a contact PIN assembly and a pressing assembly.

Description

PIN needle equipment

Technical Field

The utility model relates to the technical field of PIN needle assembly, in particular to PIN needle assembly equipment.

Background

The PIN needle is assembled in the interface body to form a PIN interface for use as a connection part in an electronic product. The assembly of PIN needle contains processes such as pay-off, contact PIN, riveting, receipts material, and current equipment is most all gone on these steps separately, and need the manual work to carry out material loading and unloading, need carry and transport the interface in the in-process of processing, has increased time cost and cost of labor to the packaging efficiency is low, the damage of interface appears easily in the in-process of carrying.

Disclosure of Invention

In order to solve the problems, the utility model provides PIN needle assembling equipment which is simple in structure, reasonable in design, capable of realizing automatic assembling of PIN needles and high in processing efficiency.

The technical scheme adopted by the utility model is as follows:

a PIN needle assembling device comprises a frame, a control unit, a material tray assembly, a vibration feeding assembly, a turnover PIN needle feeding assembly, a contact PIN assembly and a pressing assembly;

the control unit is arranged on the frame and is respectively connected with the material tray assembly, the vibration feeding assembly, the overturning PIN feeding needle assembly, the contact PIN assembly and the pressing assembly;

the feeding disc assembly is provided with a feeding disc and a receiving disc, the feeding disc is arranged on the frame and used for conveying the interface main body material, and the receiving disc is arranged on the frame and used for receiving materials;

the vibration feeding component is arranged on the rack and is used for conveying PIN needles to be assembled to the overturning PIN needle conveying component;

the PIN overturning and transferring assembly is arranged on the rack, is respectively connected with the vibration feeding disc and the PIN inserting assembly, and is used for overturning the PIN conveyed by the vibration feeding disc to the vertical direction and conveying the PIN to the PIN inserting assembly;

the PIN assembly is arranged on the rack and is used for inserting the PIN needle conveyed by the overturning PIN sending needle into the interface main body material to be assembled;

the pressing assembly is arranged on the frame and positioned below the PIN inserting assembly and is used for positioning in the PIN inserting process and pressing and assembling the PIN and the interface main body material.

Further, an installation seat is arranged on the frame, and an assembly station and a feeding channel for the interface main body material to be assembled to pass through are arranged on the installation seat.

Further, the overturning PIN needle conveying assembly comprises a transverse conveying structure, an overturning structure, a vertical conveying structure and an infrared sensor;

the transverse conveying structure is connected with the vibration feeding component;

the vertical conveying structure is arranged on the mounting seat;

the overturning structure is respectively connected with the transverse conveying structure and the vertical conveying structure;

the infrared inductor is installed in the installation seat and connected with the overturning structure.

Further, the overturning structure comprises a rotating seat, a rotating block and a driving cylinder;

the rotating seat is respectively connected with the transverse conveying structure and the vertical conveying structure;

the rotating block is positioned in the rotating seat and is used for rotating and feeding;

the driving cylinder is connected with the rotating block and used for driving the rotating block to rotate.

Further, the contact pin assembly comprises a feeding steel pipe and a pressing driving piece;

the pushing-down driving piece is arranged on the mounting seat and connected with the feeding steel pipe and used for driving the feeding steel pipe to move up and down so as to conduct contact pin.

Further, the mounting seat is provided with a guide hole for limiting the movable position of the feeding steel pipe.

Further, the pressing assembly comprises a first pressing block, a second pressing block and a gear driving piece;

the first pressing block and the second pressing block are respectively arranged on the frame and are respectively arranged on two sides of the assembly station.

The beneficial effects of the utility model are as follows:

the utility model comprises a frame, a control unit, a material tray assembly, a vibration feeding assembly, a PIN overturning and feeding assembly, a PIN inserting assembly and a pressing assembly.

Drawings

FIG. 1 is a schematic diagram of the structure of some embodiments of the present application;

FIG. 2 is a schematic diagram illustrating a connection structure of a mounting base, a pin assembly, and a pressing assembly according to some embodiments of the present application;

reference numerals illustrate: the PIN feeding machine comprises a frame 1, a mounting seat 11, a feeding channel 12, a control unit 2, a material tray assembly 3, a material tray 31, a material receiving tray 32, a vibration feeding assembly 4, a turnover PIN feeding assembly 5, a transverse conveying structure 51, a turnover structure 52, a vertical conveying structure 53, a PIN inserting assembly 6, a feeding steel pipe 61, a pressing driving piece 62, a pressing assembly 7, a first pressing block 71 and a gear driving piece 72.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "front", "rear", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; may be mechanically coupled, directly coupled, or indirectly coupled via an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1-2, the PIN assembling device in this embodiment includes a frame 1, a control unit 2, a tray assembly 3, a vibration feeding assembly 4, a PIN feeding assembly 5, a PIN insertion assembly 6 and a pressing assembly 7;

the control unit 2 is arranged on the frame 1 and is respectively connected with the material tray assembly 3, the vibration feeding assembly 4, the overturning PIN feeding needle assembly 5, the contact PIN assembly 6 and the pressing assembly 7;

the material tray assembly 3 is provided with a material feeding tray 31 and a material receiving tray 32, the material feeding tray 31 is arranged on the frame 1 and is used for conveying interface main materials, and the material receiving tray 32 is arranged on the frame 1 and is used for receiving materials;

the vibration feeding component 4 is arranged on the frame 1 and is used for conveying PIN needles to be assembled to the overturning PIN needle feeding component;

the overturning PIN feeding needle assembly 5 is arranged on the frame 1, is respectively connected with the vibration feeding disc 31 and the PIN inserting assembly 6, and is used for overturning the PIN needles conveyed by the vibration feeding disc 31 to the vertical direction and conveying the PIN needles to the PIN inserting assembly 6;

the PIN assembly 6 is arranged on the frame 1 and is used for inserting the PIN PINs conveyed by the overturning PIN conveying PIN assembly 5 into the interface main body material to be assembled;

the pressing component 7 is installed on the frame 1 and located below the PIN component 6, and is used for positioning the PIN inserting process and pressing and assembling the PIN and the interface main body material.

This embodiment simple structure, reasonable in design, during processing, can carry out the pay-off of waiting to assemble interface main part material through charging tray subassembly 3 to and the receipts material of assembled product, vibration pay-off subassembly 4 wherein carries out PIN needle material and carries out PIN needle subassembly 5 upset pay-off through the upset, later contact PIN subassembly 6 inserts the PIN needle and waits to assemble interface main part material, accomplishes the equipment under the effect of pressfitting subassembly 7, and it can realize automatic equipment processing, and machining efficiency is high.

In some embodiments, the frame 1 is provided with a mounting seat 11, and the mounting seat 11 is provided with an assembling station and a feeding channel 12 for passing through interface main body materials to be assembled.

In the embodiment, the assembly station and the feeding channel 12 are arranged, so that feeding, processing and assembly are facilitated.

In some embodiments, the flip PIN needle assembly 5 includes a lateral transport structure 51, a flip structure 52, a vertical transport structure 53, and an infrared sensor;

the transverse conveying structure 51 is connected with the vibration feeding assembly 4;

the vertical conveying structure 53 is installed on the installation seat 11;

the overturning structures 52 are respectively connected with the transverse conveying structures 51 and the vertical conveying structures 53;

the infrared sensor is mounted on the mounting seat 11 and connected with the turnover structure 52.

Specifically, the turning structure 52 includes a rotating base, a rotating block, and a driving cylinder;

the rotating seat is respectively connected with the transverse conveying structure 51 and the vertical conveying structure 53;

the rotating block is positioned in the rotating seat and is used for rotating and feeding;

the driving cylinder is connected with the rotating block and used for driving the rotating block to rotate.

The structure setting of PIN needle subassembly 5 is transferred in the turnover that specifically shows wherein in this embodiment, its simple structure, reasonable in design, the pay-off process can overturn the PIN needle, make the PIN needle be located the vertical direction, so that the contact PIN action of contact PIN subassembly 6 of rear end, simultaneously, in this embodiment, through setting up infrared inductor, can effectively detect out the lack material condition, just overturn the pay-off under the PIN needle material condition, so as to guarantee the accuracy of pay-off, thereby ensure the steady quality of follow-up assembled product, in particular, can all set up to the duplex position with contact PIN subassembly 6 of rear end and pay-off, in order to further improve pay-off packaging efficiency.

Further, the pin assembly 6 includes a feed steel pipe 61 and a push-down driver 62;

the pressing driving member 62 is mounted on the mounting seat 11, connected to the feeding steel pipe 61, and configured to drive the feeding steel pipe 61 to move up and down, so as to perform pin insertion.

In this embodiment, the feeding steel pipe 61 may be a thin steel pipe with a pipe diameter slightly larger than the PIN, so as to perform stable feeding.

Specifically, the mounting seat 11 is provided with a guide hole for limiting the movable position of the feeding steel pipe 61.

In this embodiment, by setting the guide hole, the guiding and limiting of the vertical movement of the feeding steel pipe 61 can be effectively realized, so as to realize accurate contact pin.

In some embodiments, the press assembly 7 includes a first press block 71, a second press block (not shown in the drawings), and a gear drive 72;

the first pressing block 71 and the second pressing block are respectively installed on the frame 1, and are respectively arranged on two sides of the assembling station.

In this embodiment, through setting up gear drive piece 72 with first pressfitting piece 71 with the second pressfitting piece is connected, can realize coordinated control portably to be convenient for carry out preliminary extrusion location in the contact pin in-process and accomplish the further pressfitting equipment after the contact pin action, its simple structure, control is convenient, and the equipment is effectual.

The foregoing examples illustrate only a few embodiments of the utility model and are described in detail herein without thereby limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (7)

1. The PIN needle assembling equipment is characterized by comprising a rack, a control unit, a material tray assembly, a vibration feeding assembly, a turnover PIN needle feeding assembly, a contact PIN assembly and a pressing assembly;

the control unit is arranged on the frame and is respectively connected with the material tray assembly, the vibration feeding assembly, the overturning PIN feeding needle assembly, the contact PIN assembly and the pressing assembly;

the feeding disc assembly is provided with a feeding disc and a receiving disc, the feeding disc is arranged on the frame and used for conveying the interface main body material, and the receiving disc is arranged on the frame and used for receiving materials;

the vibration feeding component is arranged on the rack and is used for conveying PIN needles to be assembled to the overturning PIN needle conveying component;

the PIN overturning and transferring assembly is arranged on the rack, is respectively connected with the vibration feeding assembly and the PIN inserting assembly, and is used for overturning the PIN conveyed by the vibration feeding assembly to the vertical direction and conveying the PIN to the PIN inserting assembly;

the PIN assembly is arranged on the rack and is used for inserting the PIN PINs conveyed by the overturning PIN conveying PIN assembly into the interface main body material to be assembled;

the pressing assembly is arranged on the frame and positioned below the PIN inserting assembly and is used for positioning in the PIN inserting process and pressing and assembling the PIN and the interface main body material.

2. The PIN needle assembly device according to claim 1, wherein a mounting seat is arranged on the frame, and an assembly station and a feeding channel for passing through interface main body materials to be assembled are arranged on the mounting seat.

3. The PIN needle assembly device of claim 2, wherein the flip PIN needle feed assembly comprises a lateral transport structure, a flip structure, a vertical transport structure, and an infrared sensor;

the transverse conveying structure is connected with the vibration feeding component;

the vertical conveying structure is arranged on the mounting seat;

the overturning structure is respectively connected with the transverse conveying structure and the vertical conveying structure;

the infrared inductor is installed in the installation seat and connected with the overturning structure.

4. A PIN needle assembly device according to claim 3, wherein the flip structure comprises a swivel, a swivel block and a drive cylinder;

the rotating seat is respectively connected with the transverse conveying structure and the vertical conveying structure;

the rotating block is positioned in the rotating seat and is used for rotating and feeding;

the driving cylinder is connected with the rotating block and used for driving the rotating block to rotate.

5. The PIN needle assembly device of claim 4, wherein said PIN assembly comprises a feed steel tube and a push-down driver;

the pushing-down driving piece is arranged on the mounting seat and connected with the feeding steel pipe and used for driving the feeding steel pipe to move up and down so as to conduct contact pin.

6. The PIN needle assembly device of claim 5, wherein the mounting base is provided with a guide hole for limiting the movable position of the feeding steel pipe.

7. The PIN needle assembly device of claim 2, wherein the press-fit assembly comprises a first press-fit block, a second press-fit block, and a gear drive;

the first pressing block and the second pressing block are respectively arranged on the frame and are respectively arranged on two sides of the assembly station.

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