CN218139982U

CN218139982U - Rotary automatic squeeze riveter

Info

Publication number: CN218139982U
Application number: CN202221719547.3U
Authority: CN
Inventors: 闫斌
Original assignee: Shenzhen Linglve CNC Equipment Co Ltd
Current assignee: Shenzhen Linglve CNC Equipment Co Ltd
Priority date: 2022-07-06
Filing date: 2022-07-06
Publication date: 2022-12-27
Anticipated expiration: 2032-07-06

Abstract

The utility model discloses a rotary automatic squeeze riveter, which comprises a squeeze riveter component, wherein the squeeze riveter component comprises a rotary automatic squeeze riveter frame component, a DD motor, a rivet suction nozzle component, a jig conveying component and a computer; the DD motor and the rivet suction nozzle assembly are arranged on the rotary automatic riveting machine frame assembly; the computer is arranged on the side surface of the frame component of the rotary automatic riveting press; the utility model is arranged on the rotary automatic riveting press frame component through the DD motor and the rivet suction nozzle component; the computer is arranged on the side surface of the frame component of the rotary automatic riveting press; automatic pressure riveter frame subassembly of rotation type passes through wire connection control automatic pressure riveter frame subassembly of rotation type, DD motor, rivet suction nozzle subassembly and tool conveying subassembly, and this automation equipment can reduce manual operation, comes to press the operation of riveting for the cell-phone shell by automatic machine, increases the yields and the production efficiency of product to encapsulate into the module, reinforcing commonality.

Description

Rotary automatic squeeze riveter

Technical Field

The utility model relates to an automation equipment field, concretely relates to automatic squeeze riveter of rotation type.

Background

The existing mobile phone shell is generally internally provided with a plastic component, and the plastic component is used for mounting parts such as an antenna and the like so as to meet the transmission requirement of mobile phone signals; because the mobile phone shell is divided into a plurality of sections by the plastic part, each section can be conducted when surface treatment such as anodic oxidation and the like is carried out, a layer of better oxidation film can be conducted on the surface of the mobile phone shell, and therefore the mobile phone shell and the plastic glue component are in bridging connection and conduction through rivets before anodic oxidation;

in the conventional art, the rivet of cell-phone shell and the bridging of plastics gluey subassembly comes the pressfitting through the manual work, leads to the rivet location inaccuracy easily and has not hard up and insecure problem, and this processing technology is inefficient, still damages the product structure easily, produces the defective products.

Disclosure of Invention

The utility model aims to solve the technical problem of providing a rotary automatic squeeze riveter; this automation equipment can reduce manual operation, comes to press the operation of riveting for the cell-phone shell by automatic machine, increases the yields and the production efficiency of product to encapsulate into the module, reinforcing commonality.

The utility model discloses automatic squeeze riveter of rotation type is realized through following technical scheme: the riveting machine comprises a riveting machine component, wherein the riveting machine component comprises a rotary automatic riveting machine frame component, a DD motor, a rivet suction nozzle component, a jig conveying component and a computer;

the DD motor and the rivet suction nozzle assembly are arranged on the rotary automatic riveting machine frame assembly; the computer is arranged on the side surface of the frame component of the rotary automatic riveting press; the rotary automatic riveting machine frame assembly is connected with and controls the rotary automatic riveting machine frame assembly, the DD motor, the rivet suction nozzle assembly and the jig conveying assembly through leads.

According to the preferred technical scheme, the rotary automatic riveting press frame assembly comprises a vertical plate A, a vertical plate B, a top plate, a bottom plate, reinforcing ribs, a trackless screw machine fixing plate, a trackless screw machine, an inductor mounting metal plate, a photoelectric switch, an electromagnetic valve assembly, an electric cylinder, a sliding table air cylinder mounting plate, a sliding table air cylinder and an air cylinder pressing block;

the vertical plate A and the vertical plate B are adjacently connected; the two sides of the vertical plate A and the vertical plate B are respectively connected with a bottom plate and a top plate; a trackless screw machine fixing plate and an inductor installation metal plate and a photoelectric switch are arranged on the side surface of the vertical plate A; the trackless screw machine is arranged on the inductor mounting metal plate and is arranged on the trackless screw machine fixing plate;

reinforcing ribs are arranged between the fixed plate and the vertical plate A of the trackless screw machine, between the top plate and the vertical plate A and between the top plate and the vertical plate B;

and the top plate is provided with a solenoid valve assembly, an electric cylinder, a sliding table cylinder mounting plate, a sliding table cylinder and a cylinder pressing block.

According to the preferable technical scheme, the DD motor and rivet nozzle assembly comprises a DD motor fixing block, a DD motor fixing plate, a DD motor, a rotary joint mounting metal plate, a rotary block, a bearing, a fixing ring, a rotary plate, a top block, a nozzle fixing block, a nozzle screwing block, a nozzle and a spring;

the upper surface of the DD motor fixing plate is connected with a rotary joint through a rotary joint mounting metal plate; more than one DD motor fixing block is arranged on the lower surface of the DD motor fixing plate; the DD motor is arranged in the DD motor fixing block;

the DD motor is provided with a rotating block; a bearing is arranged on the rotating block; the bearing is provided with a rotating plate through a fixed ring;

suction nozzle fixing blocks are arranged on a plurality of brackets of the rotating plate; the upper end of the suction nozzle fixing block is sequentially provided with a spring and a top block; the lower upper end of the suction nozzle fixing block is sequentially provided with a suction nozzle screwing block and a suction nozzle.

According to the preferable technical scheme, the jig conveying assembly comprises a linear module A with a servo motor, a carrier fixing plate, a linear module B with a servo motor, a rivet hole jig, a positioning pin, a jig bottom plate, a supporting column, a slider mounting plate, a drag chain metal plate and a drag chain;

a linear module B with a servo motor is arranged on the linear module A; a slide block mounting plate is arranged on the side surface of a linear module B of the servo motor;

the sliding block mounting plate is mounted on the surface of the sliding block mounting plate; the upper end of the slide block mounting plate is provided with a jig bottom plate through more than one support column; the rivet hole jig is fixed on the surface of the jig bottom plate through more than one positioning pin.

The utility model has the advantages that: the automatic riveting machine is arranged on the rotary automatic riveting machine frame component through a DD motor and a rivet suction nozzle component; the computer is arranged on the side surface of the frame component of the rotary automatic riveting press; the automatic machine frame assembly that rivets of rotation type passes through the automatic machine frame assembly that rivets of wire connection control rotation type, DD motor, rivet suction nozzle subassembly and tool conveying subassembly, and this automation equipment can reduce manual operation, comes to press the operation of riveting for the cell-phone shell by automatic machine, increases the yields and the production efficiency of product to encapsulate into the module, reinforcing commonality.

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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the rotary automatic squeeze riveter of the present invention;

FIG. 2 is a perspective view of a frame assembly of the rotary automatic riveter;

FIG. 3 is a perspective view of the DD motor and rivet nozzle assembly;

fig. 4 is a perspective view of the jig conveying assembly.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

As shown in fig. 1, the automatic rotary squeeze riveter of the present invention comprises a squeeze riveter assembly, which comprises a frame assembly 100 of the automatic rotary squeeze riveter, a DD motor and rivet nozzle assembly 200, a jig conveying assembly 300 and a computer 400;

As shown in fig. 2, in this embodiment, the frame assembly of the rotary automatic squeeze riveter includes a vertical plate a110, a vertical plate B120, a top plate 130, a bottom plate 140, a reinforcing rib 150, a trackless screw machine fixing plate 160, a trackless screw machine 170, a sensor mounting plate 180, a photoelectric switch 190, a solenoid valve assembly 1100, an electric cylinder 1110, a sliding table cylinder mounting plate 1120, a sliding table cylinder 1130, and a cylinder press 1140;

the vertical plate A110 and the vertical plate B120 are adjacently connected; the two sides of the vertical plate A110 and the vertical plate B120 are respectively connected with a bottom plate 130 and a top plate 140; a trackless screw machine fixing plate 160, an inductor mounting metal plate 180 and a photoelectric switch 190 are mounted on the side surface of the vertical plate A110; the trackless screw machine 170 is arranged on the inductor mounting metal plate 180 and is arranged on the trackless screw machine fixing plate 160;

reinforcing ribs 150 are arranged between the trackless screw machine fixing plate 160 and the vertical plate A110, between the top plate 140 and the vertical plate A110, and between the top plate 140 and the vertical plate B120;

the top plate 140 is provided with a solenoid valve assembly 1100, an electric cylinder 1110, a sliding table cylinder mounting plate 1120, a sliding table cylinder 1130 and a cylinder pressing block 1140;

the frame assembly of the rotary automatic squeeze riveter is used for installing and fixing the whole device.

As shown in fig. 3, in the present embodiment, the DD motor and rivet nozzle assembly 200 includes a DD motor fixing block 210, a DD motor fixing plate 220, a DD motor 230, a rotary joint 240, a rotary joint mounting plate 250, a rotary block 260, a bearing 270, a fixing ring 280, a rotary plate 290, a top block 2100, a nozzle fixing block 2110, a nozzle tightening block 2120, a nozzle 2130, and a spring 2140;

the upper surface of the DD motor fixing plate 220 is connected to the rotary joint 240 through a rotary joint mounting metal plate 250; more than one DD motor fixing block 210 is arranged on the lower surface of the DD motor fixing plate 220; the DD motor 230 is disposed in the DD motor fixing block 210;

DD motor 230 has rotating block 260 mounted thereon; the rotating block 260 is provided with a bearing 270; the bearing 270 is provided with a rotating plate 290 through a fixed ring 280;

the suction nozzle fixing blocks 2110 are mounted on a plurality of supports of the rotating plate 290; the upper end of the suction nozzle fixing block 2110 is sequentially provided with a spring 2140 and a top block 2100; the lower upper end of the suction nozzle fixing block 2110 is sequentially provided with a suction nozzle screwing block 2120 and a suction nozzle 2130; the rotary joint 240 is used for supplying air to the suction nozzle 2130;

the DD motor and rivet nozzle assembly 200 is used to mount rivets on a product in a trackless screw machine.

As shown in fig. 4, in the present embodiment, the jig conveying assembly includes a linear module a310 with a servo motor, a carrier fixing plate 320, a linear module B330 with a servo motor, a rivet hole jig 340, a positioning pin 350, a jig base plate 360, a supporting column 370, a slider mounting plate 380, a drag chain sheet metal 390, and a drag chain 3100;

a linear module B330 with a servo motor is arranged on the linear module A310; a slider mounting plate 380 is arranged on the side surface of the linear module B330 of the servo motor;

the slider mounting plate 380 is mounted on the surface of the slider mounting plate 380; the upper end of the slider mounting plate 380 is provided with a jig bottom plate 360 through more than one support column 370; the rivet hole jig 340 is fixed on the surface of a jig base plate 360 through more than one positioning pin 350;

the jig conveying assembly is used for conveying the jig to the loading and unloading and rivet mounting positions; the component is fixed on a bottom plate of the automatic riveting machine frame component through a linear module A with a servo motor; the positioning pin A is used for fixing a product and a jig;

in this embodiment, the electronic box 400 mainly includes a PLC controller, a touch panel, a switching power supply, a servo driver, an electromagnetic contactor, a start/stop/emergency stop button, and the like.

The action flow of the rotary automatic squeeze riveter is as follows:

1. the jig 340 is adjusted to move to the loading and unloading position by controlling the linear modules A310 and B330 with the servo motors to take out the finished products, and then the unprocessed products are placed (note that the unprocessed products are aligned with the positioning pins 350 on the jig 340 during loading); then the slide tables of the linear modules a310 and B330 move the unprocessed products to the processing place.

2. After the processed product is moved to a processing position, the position, needing riveting, of the product is moved to the position right below the suction nozzle A2130, then the electric cylinder 1110 is pressed downwards, the rivet on the suction nozzle A2130 is pressed into a product groove to reach the position, and then the electric cylinder 1110 is reset; after the suction nozzle A2130 is reset under the action of the spring 2140, the DD motor rotates by 230 degrees, the suction nozzle A2130 is moved to the position above the trackless screw machine 170 through the rotating block 260 and the rotating plate 290, the sliding table air cylinder 1130 controls the air cylinder pressing block 1140 to press down at the moment, so that the suction nozzle A2130 sucks rivets from the trackless screw machine 170, and then the air cylinder 1130 and the suction nozzle A2130 are reset; when the suction nozzle A2130 moves to the upper part of the trackless screw machine 170, the rotating plate 290 moves the suction nozzle B2130 to be machined to the machining position, meanwhile, the linear modules A310 and B330 with the servo motors adjust the positions of the jigs 340 to enable the next position of the product to be riveted to move to the position right below the suction nozzle B2130, and then the electric cylinder 1110 presses downwards to complete the next riveting.

3. And (5) repeating the action of the step 2 until the product is pressed and riveted, then transferring the product to an upper blanking part for blanking, and then placing the unprocessed product for processing.

The above description is only a specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the creative work should be covered within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an automatic squeeze riveter of rotation type, includes squeeze riveter subassembly, its characterized in that: the squeeze riveter component comprises a rotary automatic squeeze riveter frame component, a DD motor, a rivet suction nozzle component, a jig conveying component and a computer;

2. The rotary automatic squeeze riveter of claim 1, characterized in that: the rotary automatic riveting press frame assembly comprises vertical plates A, vertical plates B, a top plate, a bottom plate, reinforcing ribs, a trackless screw machine fixing plate, a trackless screw machine, an inductor mounting metal plate, a photoelectric switch, an electromagnetic valve assembly, an electric cylinder, a sliding table cylinder mounting plate, a sliding table cylinder and a cylinder pressing block;

3. The rotary automatic squeeze riveter according to claim 1, wherein: the DD motor and rivet suction nozzle assembly comprises a DD motor fixing block, a DD motor fixing plate, a DD motor, a rotary joint mounting metal plate, a rotary block, a bearing, a fixing ring, a rotary plate, a jacking block, a suction nozzle fixing block, a suction nozzle screwing block, a suction nozzle and a spring;

the upper surface of the DD motor fixing plate is provided with a metal plate through a rotary joint to connect the rotary joint; more than one DD motor fixing block is arranged on the lower surface of the DD motor fixing plate; the DD motor is arranged in the DD motor fixing block;

4. The rotary automatic squeeze riveter of claim 1, characterized in that: the jig conveying assembly comprises a linear module A with a servo motor, a carrier fixing plate, a linear module B with a servo motor, a rivet hole jig, a positioning pin, a jig bottom plate, a supporting column, a slider mounting plate, a drag chain metal plate and a drag chain;

the sliding block mounting plate is mounted on the surface of the sliding block mounting plate; the upper end of the sliding block mounting plate is provided with a jig bottom plate through more than one supporting column; the rivet hole jig is fixed on the surface of the jig bottom plate through more than one positioning pin.