CN217252553U

CN217252553U - Rivet nut squeeze riveter

Info

Publication number: CN217252553U
Application number: CN202220122762.9U
Authority: CN
Inventors: 钱丰; 罗永奎
Original assignee: Ruiente Intelligent Equipment Dongguan Co ltd
Current assignee: Ruiente Intelligent Equipment Dongguan Co ltd
Priority date: 2022-01-18
Filing date: 2022-01-18
Publication date: 2022-08-23
Anticipated expiration: 2032-01-18

Abstract

The utility model discloses a rivet nut squeeze riveter, which comprises a riveter body, a riveter component arranged on the riveter body, a discharging mechanism, a transfer mechanism and a feeding mechanism, wherein the transfer mechanism is provided with a material taking head, and the discharging mechanism is provided with a discharging clamp; the nut material pushing device comprises a nut material pushing mechanism, a nut material conveying mechanism and a nut material conveying mechanism, wherein the nut material conveying mechanism is connected with the nut material conveying mechanism through a nut material conveying mechanism; the transferring mechanism is of a swing structure and transfers nut materials from the material pushing mechanism to the material discharging clamp in a rotary swing mode. The utility model discloses a to move and carry mechanism and pushing equipment butt joint, pushing equipment and feeding mechanism butt joint, drop feed mechanism then sets up in the below of moving and carrying the mechanism, moves and carries the swing structure that the mechanism passes through the cam-type and shifts the nut material to drop feed mechanism from pushing equipment on, is pressed by the riveter subassembly again and rivets. Therefore, the high-degree automatic operation process can be realized, and manual intervention is basically not needed, so that the production efficiency is greatly improved.

Description

Rivet nut squeeze riveter

Technical Field

The utility model relates to the technical field of mechanical equipment, concretely relates to rivet nut squeeze riveter.

Background

In the manufacturing process of the rivet nut in the field of hardware product production, a process needs to perform riveting operation on the rivet nut. Most of the existing riveting machines for the pull riveting nuts have the following defects that more manual intervention is needed, especially in the feeding and transferring processes, so that the labor cost is higher, the production efficiency is lower, and certain personal injury risks exist; moreover, the structural layout of each mechanism of the equipment is not scientific and reasonable enough, so that materials and workpieces need to spend more time in the moving process, and the production efficiency is further influenced; in addition, some devices can automatically transfer materials, but the transfer mechanism is complex in structure and large in size, so that the devices are huge.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to prior art's defect, provide a structure simpler, the overall arrangement is more reasonable, the equipment size is littleer, production efficiency is higher, the manual intervention nut squeeze riveter still less.

In order to solve the technical problem, the utility model adopts the following technical scheme: the utility model provides a rivet nut squeeze riveter, including the fuselage with install riveter subassembly, drop feed mechanism on the fuselage, move and carry mechanism and feeding mechanism, move and carry the mechanism and have and be used for pressing from both sides the getting the material head of getting the nut material, drop feed mechanism is including the blowing anchor clamps that are used for bearing the nut material, the riveter subassembly sets up and forms the structure that can riveting down, its characterized in that in blowing anchor clamps top: the nut material pushing device is characterized by also comprising a material pushing mechanism which is arranged between the transferring mechanism and the feeding mechanism and is butted with the feeding mechanism so as to push the nut material to a position close to the transferring mechanism through the material pushing mechanism; the transferring mechanism is of a swing structure and transfers nut materials from the material pushing mechanism to the discharging clamp in a rotary swing mode.

Furthermore, the transfer mechanism is of a gear swing type structure and also comprises a cam arm, the cam arm is connected with a rotary cylinder to form a structure capable of rotating and swinging around a shaft, and the rotary cylinder is arranged on an installation plate positioned on the machine body; a lifting guide rail which can rotate and swing along with the cam arm to realize up-and-down movement is arranged on the cam arm through a strip-shaped hole, and a material taking head is arranged at the lower end of the lifting guide rail; a transverse moving guide rail is also arranged on the mounting plate, a transverse moving slide seat is erected on the transverse moving guide rail, and a lifting guide rail is arranged in the transverse moving slide seat, so that the transverse moving slide seat forms a structure capable of realizing left-right transverse moving along with the rotation and swing of the cam arm, and the material taking head can synchronously realize lifting movement and transverse movement; one end of the transverse moving guide rail is close to the material pushing mechanism, so that the material taking head can extend to the material pushing mechanism to take materials after moving to the end of the transverse moving guide rail along with the transverse moving sliding seat. The rotary swing type material moving mechanism can greatly reduce the transverse size of the moving mechanism, thereby reducing the size of the whole equipment.

Furthermore, the material pushing mechanism comprises a material clamping seat, a pushing guide rail and a pushing cylinder, the material clamping seat is arranged on the pushing guide rail, and the pushing guide rail is arranged on the machine body; the propelling movement cylinder is installed on the propelling movement guide rail, and the material grip slipper is connected with the propelling movement cylinder.

Preferably, the feeding mechanism is a vibration disc feeding mechanism, the vibration disc feeding mechanism is connected with a feeding track, and the feeding track is in butt joint with the material clamping seat.

Furthermore, a clamping groove is arranged at one end, close to the transfer mechanism, of the material clamping seat, and the clamping groove is opened towards one side of the feeding track, so that nut materials are fed into the clamping groove through the feeding track. After the nut material enters the material clamping groove, the pushing cylinder pushes the material clamping seat to the other end of the pushing guide rail, the rotating cylinder drives the cam arm to enable the material taking head to move to the position above the material clamping groove to take materials, and then the material taking head returns to the position above the material placing clamp to place materials.

Further, the blowing anchor clamps are installed on a telescopic sliding plate, and telescopic sliding plate erects in a fixing base and is connected with telescopic cylinder, and the fixing base is fixed on the mounting panel, and telescopic cylinder installs in the fixing base, through telescopic cylinder drive telescopic sliding plate with blowing anchor clamps propelling movement to get stub bar or riveter subassembly below to can carry out the blowing and press and rivet.

Furthermore, a protective cover is arranged on the machine body, the lower end of the protective cover is opened to expose the discharging clamp and is used for moving the moving mechanism to take materials, and the moving mechanism and the riveting gun assembly are covered by the protective cover so as to prevent accidents from occurring during riveting.

Further, a touch screen is arranged on the machine body as an operation panel.

Further, still be provided with on the fuselage and collect the box, collect the box and be located the below of riveter subassembly, can be used to collect the blind rivet nut who accomplishes the pressure riveting operation.

The utility model discloses a to move and carry mechanism and pushing equipment butt joint, pushing equipment and feeding mechanism butt joint, and drop feed mechanism then sets up in the below of moving and carrying the mechanism, moves and carries the swing structure that the mechanism passes through the cam-type and shifts the nut material to drop feed mechanism from pushing equipment on, is pressed by the riveter subassembly again and rivets. Therefore, the high-degree automatic operation process can be realized, and manual intervention is basically not needed, so that the production efficiency is greatly improved.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

FIG. 2 is an overall view of another aspect of the present invention;

FIG. 3 is a view showing the whole structure of the protection cover according to the present invention;

fig. 4 is a partially enlarged view of fig. 3.

In the figure, 1 is a machine body, 11 is a protective cover, 12 is a mounting plate, 13 is a touch screen, 2 is a transfer mechanism, 21 is a material taking head, 22 is a lifting guide rail, 23 is a transverse sliding seat, 24 is a transverse sliding guide rail, 25 is a cam arm, 26 is a rotary cylinder, 3 is a material placing mechanism, 31 is a material placing clamp, 32 is a telescopic sliding plate, 33 is a fixed seat, 34 is a telescopic cylinder, 4 is a riveter component, 5 is a material pushing mechanism, 51 is a material clamping seat, 52 is a pushing guide rail, 53 is a pushing cylinder, 54 is a material clamping groove, 61 is a vibrating disc feeding mechanism, 62 is a feeding rail, and 7 is a collecting box.

Detailed Description

In the embodiment, referring to fig. 1-4, the rivet nut squeeze riveter includes a machine body 1, and a riveter assembly 4, a material placing mechanism 3, a transfer mechanism 2 and a feeding mechanism which are mounted on the machine body 1, wherein the transfer mechanism 2 has a material taking head 21 for taking nut materials, the material placing mechanism 3 includes a material placing clamp 31 for bearing the nut materials, and the riveter assembly 4 is arranged above the material placing clamp 31 to form a structure capable of riveting downwards; the nut material conveying device further comprises a material pushing mechanism 5, wherein the material pushing mechanism 5 is arranged between the transferring mechanism 2 and the feeding mechanism and is in butt joint with the feeding mechanism, so that nut materials are pushed to a position close to the transferring mechanism 2 through the material pushing mechanism 5, and the transferring mechanism 2 can conveniently take the materials; the transferring mechanism 2 is of a swing type structure, and transfers nut materials from the material pushing mechanism 5 to the discharging clamp 31 in a rotary swing mode.

The transfer mechanism 2 is of a gear swing type structure and further comprises a cam arm 25, the cam arm 25 is connected with a rotary cylinder 26 to form a structure capable of swinging around a shaft in a rotating mode, and the rotary cylinder 26 is installed on an installation plate 12 located on the machine body 1; a lifting guide rail 22 which can rotate and swing along with the cam arm 25 to realize vertical movement is arranged on the cam arm 25 through a strip-shaped hole, and the material taking head 21 is arranged at the lower end of the lifting guide rail 22; a transverse moving guide rail 24 is further arranged on the mounting plate 12, a transverse moving slide 23 is erected on the transverse moving guide rail 24, and a lifting guide rail 22 is arranged in the transverse moving slide 23, so that the transverse moving slide 23 forms a structure capable of realizing left-right transverse moving along with the rotation and swing of a cam arm 25, and thus, the material taking head 21 can synchronously realize lifting movement and transverse movement; one end of the transverse moving guide rail 24 is close to the pushing mechanism 5, so that the material taking head 21 moves to the end of the transverse moving guide rail 24 along with the transverse moving slide seat 23 and then can extend to the pushing mechanism 5 to take materials. The rotary swing type material moving mechanism can greatly reduce the transverse size of the moving mechanism, thereby reducing the size of the whole equipment.

The pushing mechanism 5 comprises a material clamping seat 51, a pushing guide rail 52 and a pushing cylinder 53, the material clamping seat 51 is erected on the pushing guide rail 52, and the pushing guide rail 52 is installed on the machine body 1; the pushing cylinder 53 is installed on the pushing guide rail 52, and the material clamping seat 51 is connected with the pushing cylinder 53.

The feeding mechanism is a vibrating disk feeding mechanism 61, the vibrating disk feeding mechanism 61 is connected with a feeding track 62, and the feeding track 62 is in butt joint with the material clamping seat 51.

A material clamping groove 54 is arranged at one end of the material clamping seat 51 close to the transfer mechanism 2, and one side of the material clamping groove 54 facing the feeding rail 62 is opened so as to feed nut materials into the material clamping groove 54 from the feeding rail 62. After nut materials enter the material clamping groove 54, the pushing cylinder 53 pushes the material clamping seat 51 to the other end of the pushing guide rail 52, the rotating cylinder 26 drives the cam arm 25 to enable the material taking head 21 to move to the position above the material clamping groove 54 to take the materials, and then the materials return to the position above the material discharging clamp 31 to discharge the materials. After the nut material is placed, the riveter component 4 descends to carry out riveting, and rises to reset after the riveting is finished.

Blowing anchor clamps 31 are installed on a telescopic sliding plate 32, and telescopic sliding plate 32 erects in a fixing base 33 and is connected with telescopic cylinder 34, and fixing base 33 is fixed on mounting panel 12, and telescopic cylinder 34 is installed in fixing base 33, through telescopic cylinder 34 drive telescopic sliding plate 32 with blowing anchor clamps 31 propelling movement to getting stub bar 21 or riveter subassembly 4 below to can carry out the blowing and rivet by pressure.

The protective cover 11 is arranged on the machine body 1, the lower end of the protective cover 11 is opened to expose the discharging clamp 31 and be used for the transferring mechanism 2 to take materials, and the transferring mechanism 2 and the riveter assembly 4 are covered by the protective cover 11 so as to prevent accidents from occurring during riveting.

A touch panel is also provided as an operation panel 13 on the body 1.

Still be provided with on fuselage 1 and collect box 7, collect box 7 and be located the below of riveter subassembly 4, can be used to collect the rivet nut who accomplishes the pressure riveting operation.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, i.e. the present invention is intended to cover all equivalent variations and modifications within the scope of the present invention.

Claims

1. The utility model provides a rivet nut squeeze riveter, includes the fuselage and installs riveter subassembly, drop feed mechanism on the fuselage, moves and carries mechanism and feeding mechanism, moves and carries the mechanism and have the material head of getting that is used for pressing from both sides the nut material, drop feed mechanism is including the blowing anchor clamps that are used for bearing the nut material, and the riveter subassembly sets up and forms the structure that can rivet the pressure down, its characterized in that in blowing anchor clamps top: the nut material pushing device is characterized by also comprising a material pushing mechanism which is arranged between the transferring mechanism and the feeding mechanism and is butted with the feeding mechanism so as to push the nut material to a position close to the transferring mechanism through the material pushing mechanism; the transfer mechanism is of a swing structure and transfers nut materials from the material pushing mechanism to the material discharging clamp in a rotary swing mode.

2. The blind rivet nut squeeze riveter of claim 1, characterized in that: the transfer mechanism is of a gear swing type structure and further comprises a cam arm, the cam arm is connected with a rotary cylinder to form a structure capable of rotating and swinging around a shaft, and the rotary cylinder is arranged on an installation plate on the machine body; a lifting guide rail which can rotate and swing along with the cam arm to realize up-and-down movement is arranged on the cam arm through a strip-shaped hole, and a material taking head is arranged at the lower end of the lifting guide rail; a transverse moving guide rail is also arranged on the mounting plate, a transverse moving slide seat is erected on the transverse moving guide rail, and a lifting guide rail is arranged in the transverse moving slide seat, so that the transverse moving slide seat forms a structure capable of realizing left-right transverse moving along with the rotary swing of the cam arm; one end of the transverse moving guide rail is close to the material pushing mechanism, so that the material taking head can extend to the material pushing mechanism to take materials after moving to the end of the transverse moving guide rail along with the transverse moving sliding seat.

3. The blind rivet nut squeeze riveter of claim 2, characterized in that: the material pushing mechanism comprises a material clamping seat, a pushing guide rail and a pushing cylinder, the material clamping seat is arranged on the pushing guide rail, and the pushing guide rail is arranged on the machine body; the propelling movement cylinder is installed on the propelling movement guide rail, and the material grip slipper is connected with the propelling movement cylinder.

4. The blind rivet nut squeeze riveter of claim 3, characterized in that: the feeding mechanism is a vibrating disk feeding mechanism, the vibrating disk feeding mechanism is connected with a feeding track, and the feeding track is in butt joint with the material clamping seat.

5. The blind rivet nut squeeze riveter of claim 4, characterized in that: one end of the material clamping seat close to the transfer mechanism is provided with a clamping groove, and the clamping groove is opened towards one side of the feeding track so as to feed nut materials into the clamping groove through the feeding track.

6. The blind rivet nut squeeze riveter of claim 5, characterized in that: blowing anchor clamps are installed on a telescopic sliding plate, and telescopic sliding plate rack is established in a fixing base and is connected with telescopic cylinder, and the fixing base is fixed on the mounting panel, and telescopic cylinder installs in the fixing base, through telescopic cylinder drive telescopic sliding plate with blowing anchor clamps propelling movement to getting stub bar or riveter subassembly below.

7. The blind rivet nut squeeze riveter of claim 6, characterized in that: the machine body is provided with a protective cover, the lower end of the protective cover is opened to expose the discharging clamp, and the moving and carrying mechanism and the riveter component are covered by the protective cover.

8. The blind rivet nut squeeze riveter of claim 7, characterized in that: a touch screen is also arranged on the machine body as an operation panel.

9. The blind rivet nut squeeze riveter of claim 1, characterized in that: still be provided with on the fuselage and collect the box, collect the box and be located the below of riveter subassembly.