CN216370035U - Inside rivet material loading drive arrangement of hardware mould - Google Patents

Abstract

The utility model discloses an internal rivet feeding driving device of a hardware mould, which is used for stamping riveting equipment, wherein the stamping riveting equipment comprises a stamping part moving up and down; the two sides of the power transmission part II are respectively provided with a connecting part, the two sides of the power transmission part II are connected with the power transmission part I through the connecting parts, the power transmission part I is in transmission connection with the stamping part and reciprocates up and down along with the stamping part, and the power transmission part I drives the power transmission part II to reciprocate left and right. The second power transmission component brings the rivet into a preset riveting hole of a product to complete riveting operation.

Description

Inside rivet material loading drive arrangement of hardware mould

Technical Field

The utility model relates to a riveting device, in particular to a rivet feeding driving device in a hardware mould.

Background

At present, the requirement of enterprises on production speed is continuously improved, so the optimization requirement of a riveting machine is urgent, most of rivets are conveyed to a riveting position in a pneumatic, hydraulic and other modes in the conventional riveting work in a mold, and the driving device has a complex structure and large occupied space, needs additional air source and electric power for driving, and increases the processing cost.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model aims to provide a rivet feeding driving device inside a hardware mould. The device can drive other devices to move together through the reciprocating motion of punching press part, finally in automatic propelling movement rivet propelling movement to the predetermined riveting hole of product, do not need extra power, carry out the riveting to the product in mould production product process, a structure is simple, low cost, high reliability, the product is after accomplishing the production equipment, rivet 150pcs or 200pcs can be carried in one minute in the production process, carry out the operation in high-speed punching press fairly, the productivity effect is greatly improved.

The rivet feeding driving device in the hardware mould comprises a power transmission part I and a power transmission part II; the two sides of the power transmission part II are respectively provided with a connecting part, the two sides of the power transmission part II are connected with the power transmission part I through the connecting parts, the power transmission part I is in transmission connection with the stamping part and reciprocates up and down along with the stamping part, and the power transmission part I drives the power transmission part II to reciprocate left and right.

The utility model has the beneficial effects that: the riveting device is simple in structure, does not need additional power drive, is low in cost and strong in reliability, and can greatly improve the production benefit.

Further, the first power transmission part comprises a pair of oppositely arranged slotting tools.

Further, the power transmission member may include a slider.

Further, a moving surface for movement is arranged on the slotting tool.

Furthermore, the connecting portion comprises a first clamping groove and a roller, the first clamping groove is located on two sides of the length direction of the sliding block, the axial direction of the first clamping groove is the same as the thickness direction of the sliding block, and the roller is installed in the first clamping groove.

Furthermore, the shape of a cross section of the clamping groove is an arc.

Further, the roller is cylindrical.

Furthermore, the diameter of the clamping groove is 0.3-0.5mm larger than that of the roller.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below.

FIG. 1 is a schematic view of a rivet loading driving structure inside a hardware mold;

fig. 2 is a schematic view of a slider structure.

Wherein the reference numbers referred to in the figures are as follows:

a slider 1; a roller 2; a slotting tool 3; a motion surface 4; a first clamping groove 5; a second clamping groove 6; a fixed seat 7; a fixed plate 8; and a third clamping groove 9.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-2, the rivet feeding driving device inside the hardware mold is used for stamping riveting equipment, the stamping riveting equipment comprises a stamping part moving up and down, and the rivet feeding driving device inside the hardware mold comprises a first power transmission part and a second power transmission part; the two sides of the power transmission part II are respectively provided with a connecting part, the two sides of the power transmission part II are connected with the power transmission part I through the connecting parts, the power transmission part I is in transmission connection with the stamping part and reciprocates up and down along with the stamping part, and the power transmission part I drives the power transmission part II to reciprocate left and right.

In the embodiment, the slotting tool is driven to move up and down by the vertically reciprocating stamping part on the stamping and riveting equipment, the moving surface arranged on the slotting tool drives the sliding block to move left and right in a reciprocating manner, the sliding block brings the rivet into a preset riveting hole of a product, and after the riveting operation is completed, the slotting tool 3 brings the sliding block 1 back to the rivet receiving position to prepare for the next riveting operation.

In some embodiments, the connecting portion may adopt a structure that the connecting portion includes a first engaging groove 5 and a roller 2, the first engaging groove 5 is located on both sides of the slider 1 in the length direction, the axial direction of the first engaging groove 5 is the same as the thickness direction of the slider 1, and the roller 2 is installed in the first engaging groove (5).

In some embodiments, the first power transmission component may adopt a structure that the first power transmission component includes a pair of oppositely disposed slotting tools 3, and the slotting tools 3 are provided with moving surfaces 4 for relative movement with the sliding blocks 1. The slotting tool 3 is arranged in a bilateral symmetry mode, the moving surface 4 of the left slotting tool 3 is inwards recessed in the middle of the slotting tool 3 to form an inward moving surface, the moving surface of the right slotting tool is outwards protruded in the middle of the slotting tool 3 to form an outward moving surface, the two moving surfaces are matched, so that when the slotting tool 3 moves up and down, the sliding block 1 can move left and right under the action of the moving surface 4 to convey rivets into preset riveting holes of products, then returns to the rivet receiving position, and waits for next conveying.

In some embodiments, the first locking groove 5 may adopt a structure that the cross section of the first locking groove 5 is shaped as a major arc, and the diameter of the first locking groove 5 is 0.3-0.5mm larger than the diameter of the roller 2. The shape of the cross section is a major arc, so that the roller 2 moves in the first clamping groove 5 and cannot roll out, and the effect of connecting the slotting tool 3 with the sliding block 1 is achieved.

In some embodiments, the roller 2 may adopt a structure scheme that the roller 2 is cylindrical, and the sliding block 1 and the slotting tool 5 are connected in a rolling manner through the roller 2 of the connecting part. The rolling type connection reduces the friction force between the sliding block 1 and the slotting tool 5, and the service life is prolonged.

In some embodiments, the second power transmission part may adopt the following structural scheme, the second power transmission part includes a sliding block 1, and a second clamping groove 6 is arranged in the middle of the sliding block 1. And a fixing seat 7 is arranged in the second clamping groove 6, the fixing seat 7 is fixed on the sliding block 1 through a fixing plate 8, a third clamping groove 9 is formed in the fixing seat and used for fixing rivets transmitted from the outside, and after the rivets are fixed, the fixing seat 7 moves along with the sliding block 1 and conveys the rivets to preset riveting holes of products.

The working principle of the utility model is as follows:

as shown in fig. 1, after the rivet coming from the outside enters the third clamping groove 9 on the fixing seat 7, the slotting tool 3 moves downward under the driving of the punching part and drives the roller 2 to roll, the roller 2 drives the slider 1 and the fixing seat 7 to move leftward together, and the rivet is conveyed into the predetermined riveting holes of the two products to rivet the products.

After the riveting work is finished, the inserting cutter 3 moves upwards, the roller 2 is driven to roll, the roller 2 drives the sliding block 1 to move rightwards, the fixed seat 2 is driven to return to the original position, and preparation is made for the next riveting work.

It will be apparent to those skilled in the art that various changes and modifications can be made without departing from the inventive concept thereof, and these changes and modifications can be made without departing from the spirit and scope of the utility model.

Claims (8)

1. A rivet feeding driving device inside a hardware mould is used for stamping riveting equipment, wherein the stamping riveting equipment comprises a stamping part moving up and down, and is characterized in that the rivet feeding driving device inside the hardware mould comprises a power transmission part I and a power transmission part II; the two sides of the power transmission part II are respectively provided with a connecting part, the two sides of the power transmission part II are connected with the power transmission part I through the connecting parts, the power transmission part I is in transmission connection with the stamping part and reciprocates up and down along with the stamping part, and the power transmission part I drives the power transmission part II to reciprocate left and right.

2. The internal rivet feeding driving device of hardware mould of claim 1, characterized in that the first power transmission component comprises a pair of oppositely arranged slotting tools (3).

3. The internal rivet feeding driving device of hardware mould according to claim 1, characterized in that the power transmission part two comprises a slide block (1).

4. A rivet feeding and driving device inside a hardware mould according to claim 2, characterized in that a moving surface (4) for movement is arranged on the slotting cutter (3).

5. The internal rivet feeding driving device for hardware molds according to claim 3, characterized in that the connecting portion comprises a first clamping groove (5) and a roller (2), the first clamping groove (5) is located on two sides of the length direction of the sliding block (1), the axial direction of the first clamping groove (5) is the same as the thickness direction of the sliding block (1), and the roller (2) is installed in the first clamping groove (5).

6. The internal rivet feeding driving device for hardware molds according to claim 5, characterized in that the cross section of the first clamping groove (5) is in a major arc shape.

7. A driving device for internal rivet feeding of hardware mould according to claim 5, characterized in that the roller (2) is cylindrical.

8. The internal rivet feeding driving device for hardware molds according to claim 5, characterized in that the diameter of the first clamping groove (5) is 0.3-0.5mm larger than that of the roller (2).

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