CN216680066U - Mechanical-electronic automatic riveting, punching and riveting device - Google Patents

Abstract

The utility model relates to a mechanical-electronic automatic rivet assembling, punching and riveting device which comprises a lower die base plate, a cushion block, a lower die fixing plate, a lower die block and an upper die assembly positioned above the lower die block, wherein the upper die assembly comprises an upper die base plate, an upper die fixing plate, an upper die plate and an upper die block, the lower die fixing plate is provided with a rivet feeding assembly, the rivet feeding assembly comprises a vibration feeding disc, a rivet feeding slide rail, a rivet moving slide rail and a moving air cylinder, a material pushing block is arranged on an air cylinder rod of the moving air cylinder, a riveting cavity is formed in the lower die block, the front end of the rivet moving slide rail extends into the riveting cavity, the lower die base plate is provided with a riveting air cylinder, and an air cylinder rod of the riveting air cylinder is provided with a riveting ejector rod. According to the utility model, the rivet feeding assembly and the riveting ejector rod are directly arranged on the stamping die, so that rivets are directly punched on the stamping die, and the production efficiency is improved; rivet feed subassembly adopts vibration feed dish and moves the automatic sorting feed that the material cylinder realized the rivet, and degree of automation is high, and production efficiency is high, reduces artifically.

Description

Mechanical-electronic automatic riveting, punching and riveting device

Technical Field

The utility model relates to the technical field of riveting equipment, in particular to a mechanical-electronic automatic rivet assembling, punching and riveting device.

Background

Sheet metal parts are commonly used as component materials, and rivets are generally provided on the sheet metal parts for connection to each other and to other components. The existing production process of the sheet metal part mainly comprises the steps of producing the sheet metal part through a stamping die, and riveting the sheet metal part on a riveting machine after the sheet metal part is stamped. The mode has low production efficiency, and the workpieces are transported in different equipment, thereby consuming manpower.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model aims to provide a mechanical-electronic automatic rivet assembling, punching and riveting device.

The technical scheme adopted by the utility model for solving the technical problems is as follows: a mechanical electronic automatic rivet stamping riveting device comprises a lower die base plate, a cushion block arranged on the lower die base plate, a lower die fixing plate arranged on the cushion block, a lower die plate arranged on the lower die fixing plate, a lower die block arranged at the top of the lower die plate, and an upper die assembly positioned above the lower die block, wherein the upper die assembly comprises an upper die base plate, an upper die fixing plate arranged at the bottom of the upper die base plate, an upper die plate arranged on the upper die fixing plate, and an upper die block arranged at the bottom of the upper die plate, a rivet feeding assembly is arranged on the lower die fixing plate at the rear side of the lower die plate, the rivet feeding assembly comprises a vibration feeding disc, a rivet feeding slide rail arranged on the lower die fixing plate, a rivet moving slide rail horizontally arranged on the lower die fixing plate, and a moving air cylinder arranged on the lower die fixing plate, one end of the rivet feeding slide rail is communicated with the outlet of the vibration feeding disc, the other end of the rivet feeding slide rail is communicated with the middle part of the rivet moving slide rail, the moving cylinder is positioned on the lower die fixing plate at the tail end of the rivet moving slide rail, a push block is arranged on the cylinder rod of the moving cylinder and is matched with the chute of the rivet moving slide rail, the lower die block is provided with a riveting cavity, the front end of the rivet moving slide rail extends into the riveting cavity, the lower die bottom plate is provided with a riveting cylinder, the cylinder rod of the riveting cylinder is provided with a riveting ejector rod which is positioned in the riveting cavity, the cylinder rod of the riveting cylinder is vertically arranged, the rivet moving slide rail extends forwards and backwards, the moving cylinder is in a retraction state, the push block is positioned in the chute at the tail end of the rivet moving slide rail, and the moving cylinder is in an extension state, the material pushing block is positioned in a sliding groove at the front end of the rivet moving sliding rail.

In the design, the rivet feeding assembly and the riveting ejector rod are directly arranged on the stamping die, so that rivets are directly punched on the stamping die, and the production efficiency is improved; rivet feed subassembly adopts vibration feed dish and moves the automatic sorting feed that the material cylinder realized the rivet, and degree of automation is high, and production efficiency is high, reduces artifically.

As a further improvement of the design, the front end of the material pushing block faces towards the rivet feeding slide rail and one side of the rivet moving slide rail connection is provided with an arc-shaped limiting notch, the rivet moving slide rail and one side of the rivet feeding slide rail connection are provided with a guide groove, and the guide groove extends along the length direction of the slide groove. The arc-shaped limiting notch, the guide groove and the rivet moving slide rail realize that a single rivet is pushed to a specified position and the rivet is guaranteed to be stable and not to tip over in the pushing process.

As a further improvement of the design, a magnet for adsorbing the rivet is arranged in the arc-shaped limiting notch, the riveting ejector rod is a stepped shaft with a small top and a large bottom, and the outer diameter of the top of the riveting ejector rod is smaller than the aperture of the through hole at the tail end of the rivet. Further preventing the rivet from accidentally separating from the material pushing block.

As a further improvement of the design, the lower module is elastically connected with floating blocks which are symmetrical front and back, the floating blocks are connected with the lower module in a sliding manner, and one side, opposite to the floating blocks, of the floating blocks is provided with a guide chute for guiding the material belt. The floating material block and the guide chute are convenient for guiding the sheet metal part and avoiding the rivet when the rivet is fed.

The utility model has the beneficial effects that: according to the utility model, the rivet feeding assembly and the riveting ejector rod are directly arranged on the stamping die, so that rivets are directly punched on the stamping die, and the production efficiency is improved; rivet feed subassembly adopts vibration feed dish and moves the automatic sorting feed that the material cylinder realized the rivet, and degree of automation is high, and production efficiency is high, reduces artifically.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall perspective view of the present invention.

FIG. 2 is a partially enlarged view of the joint between the rivet feeding slide rail and the rivet moving slide rail of the present invention.

Fig. 3 is a partially enlarged schematic view of the riveting position of the present invention.

In the drawing, 1, a lower die bottom plate, 2, a riveting cylinder, 3, a cushion block, 4, a vibration feeding disc, 5, a floating block, 6, a guide groove, 7, a rivet feeding slide rail, 8, an upper die bottom plate, 9, a rivet moving slide rail, 10, a moving cylinder, 11, a lower die fixing plate, 12, a lower die plate, 13, a lower die block, 14, a pushing block, 15, a slide groove, 16, an upper die block, 17, an upper die plate, 18, an upper die fixing plate, 19, a guide groove, 20, an arc limiting notch, 21, a magnet, 22, a riveting cavity and 23, a riveting ejector rod are arranged.

Detailed Description

The present invention will now be described in detail with reference to the drawings and specific embodiments, wherein the exemplary embodiments and descriptions are provided only for the purpose of illustrating the present invention and are not to be construed as limiting the present invention.

Example (b): a mechanical-electronic automatic riveting device for stamping rivets comprises a lower die base plate 1, a cushion block 3 arranged on the lower die base plate 1, a lower die fixing plate 11 arranged on the cushion block 3, a lower die plate 12 arranged on the lower die fixing plate 11, a lower die block 13 arranged at the top of the lower die plate 12 and an upper die assembly arranged above the lower die block 13, wherein the upper die assembly comprises an upper die base plate 8, an upper die fixing plate 18 arranged at the bottom of the upper die base plate 8, an upper die plate 17 arranged on the upper die fixing plate 18 and an upper die block 16 arranged at the bottom of the upper die plate 17, a rivet feeding assembly is arranged on the lower die fixing plate 11 at the rear side of the lower die plate 12 and comprises a vibration feeding disc 5, rivet feeding slide rails 7 arranged on the lower die fixing plate 11 and rivet moving slide rails 9, horizontally arranged on the lower die fixing plate 11, A material moving cylinder 10 arranged on the lower die fixing plate 11, one end of the rivet feeding slide rail 7 is communicated with an outlet of the vibration feeding disc 5, the other end of the rivet feeding slide rail 7 is communicated with the middle part of the rivet moving slide rail 9, the material moving cylinder 10 is arranged on the lower die fixing plate 11 at the tail end of the rivet moving slide rail 9, a material pushing block 14 is arranged on a cylinder rod of the material moving cylinder 10, the material pushing block 14 is matched with a chute 15 of the rivet moving slide rail 9, the lower die block 13 is provided with a riveting cavity 22, the front end of the rivet moving slide rail 9 extends into the riveting cavity 22, a riveting cylinder 2 is arranged on the lower die base plate 1, a riveting ejector rod 23 is arranged on the cylinder rod of the riveting cylinder 2, the riveting ejector rod 23 is arranged in the riveting cavity 22, the cylinder rod of the riveting cylinder 2 is vertically arranged, and the rivet moving slide rail 9 extends forwards and backwards, the material moving cylinder 10 is in a retraction state, the material pushing block 14 is located in a sliding groove 15 at the tail end of the rivet material moving sliding rail 9, the material moving cylinder 10 is in an extension state, and the material pushing block 14 is located in the sliding groove 15 at the front end of the rivet material moving sliding rail 9.

In the design, the rivet feeding assembly and the riveting ejector rod 23 are directly arranged on the stamping die, so that rivets are directly punched on the stamping die, and the production efficiency is improved; rivet feed subassembly adopts vibration feed dish 5 and moves material cylinder 10 and realize the automatic sorting feed of rivet, and degree of automation is high, and production efficiency is high, reduces artifically.

As a further improvement of the design, an arc-shaped limiting notch 20 is arranged at the front end of the material pushing block 14 towards the connecting side of the rivet feeding slide rail 7 and the rivet moving slide rail 9, a guiding groove 19 is arranged at the connecting side of the rivet moving slide rail 9 and the rivet feeding slide rail 7, and the guiding groove 19 extends along the length direction of the sliding groove 15. The arc-shaped limiting notch 20, the guide groove 19 and the rivet moving slide rail 9 realize that a single rivet is pushed to a specified position and the rivet is guaranteed to be stable and not to tip over in the pushing process.

As a further improvement of the design, a magnet 21 for adsorbing the rivet is arranged in the arc-shaped limiting notch 20, the riveting ejector rod 23 is a stepped shaft with a small top and a large bottom, and the outer diameter of the top of the riveting ejector rod 23 is smaller than the aperture of the through hole at the tail end of the rivet. Further preventing the rivet from accidentally disengaging the pusher block 14.

As a further improvement of the design, the lower module 13 is elastically connected with a floating block 5 which is symmetrical in front and back, the floating block 5 is connected with the lower module 13 in a sliding manner, and a material guide groove 6 for guiding the material belt is arranged on one side, opposite to the floating block 5. The floating material block 5 and the guide chute 6 are convenient for guiding the sheet metal part and avoiding rivets during rivet feeding.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (4)

1. A mechanical electronic automatic rivet stamping riveting device comprises a lower die base plate, a cushion block arranged on the lower die base plate, a lower die fixing plate arranged on the cushion block, a lower die plate arranged on the lower die fixing plate, a lower die block arranged at the top of the lower die plate, and an upper die assembly positioned above the lower die block, wherein the upper die assembly comprises an upper die base plate, an upper die fixing plate arranged at the bottom of the upper die base plate, an upper die plate arranged on the upper die fixing plate, and an upper die block arranged at the bottom of the upper die plate, and is characterized in that a rivet feeding assembly is arranged on the lower die fixing plate at the rear side of the lower die plate, and comprises a vibration feeding disc, a rivet feeding slide rail arranged on the lower die fixing plate, a rivet moving slide rail horizontally arranged on the lower die fixing plate, and a moving air cylinder arranged on the lower die fixing plate, one end of the rivet feeding slide rail is communicated with the outlet of the vibration feeding disc, the other end of the rivet feeding slide rail is communicated with the middle part of the rivet moving slide rail, the moving cylinder is positioned on the lower die fixing plate at the tail end of the rivet moving slide rail, a push block is arranged on the cylinder rod of the moving cylinder and is matched with the chute of the rivet moving slide rail, the lower die block is provided with a riveting cavity, the front end of the rivet moving slide rail extends into the riveting cavity, the lower die bottom plate is provided with a riveting cylinder, the cylinder rod of the riveting cylinder is provided with a riveting ejector rod which is positioned in the riveting cavity, the cylinder rod of the riveting cylinder is vertically arranged, the rivet moving slide rail extends forwards and backwards, the moving cylinder is in a retraction state, the push block is positioned in the chute at the tail end of the rivet moving slide rail, and the moving cylinder is in an extension state, the material pushing block is positioned in a sliding groove at the front end of the rivet moving sliding rail.

2. The mechanical-electronic automatic riveting and punching device as claimed in claim 1, wherein the front end of the pusher block is provided with an arc-shaped limit notch towards the side where the rivet feeding slide rail is connected with the rivet moving slide rail, the side where the rivet moving slide rail is connected with the rivet feeding slide rail is provided with a guide groove, and the guide groove extends along the length direction of the slide groove.

3. The device according to claim 2, wherein a magnet for attracting a rivet is arranged in the arc-shaped limiting notch, the riveting ejector rod is a stepped shaft with a small top and a large bottom, and the outer diameter of the top of the riveting ejector rod is smaller than the diameter of the through hole at the tail end of the rivet.

4. The mechano-electronic automated rivet punching and riveting device as recited in claim 1, wherein the lower die block is elastically connected with front and back symmetrical float blocks, the float blocks are slidably connected with the lower die block, and a material guide chute for guiding the material strip is arranged on the opposite side of the float blocks.

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