CN210730872U - Automatic blanking mechanism - Google Patents

Abstract

The utility model discloses an automatic blanking mechanism, including pay-off track, cylinder and motor, pay-off track level sets up in the frame and is provided with the rack on the pay-off track, and the cylinder passes through the motor and sets up perpendicularly on the pay-off track, and the motor is provided with the gear that can mesh with the rack mutually, and the cylinder bottom is connected with electro-magnet and induction controller, and induction controller controls the power switch-on or the disconnection of electro-magnet. When materials are taken, the electromagnet is powered on, the cylinder drives the electromagnet to vertically downwards move to the position of the tooling plate, the electromagnet adsorbs the products at the bottom of the cylinder and drives the products to upwards move, after the electromagnets move to the set position, the cylinder stops vertical movement, the motor drives the cylinder to horizontally move to the position above the material turnover box along the feeding track, at the moment, the cylinder stops horizontal movement and vertically downwards moves, after the set distance is reached, the induction controller controls the power supply of the electromagnet to be disconnected, at the moment, the products fall into the material turnover box, and placement is completed.

Description

Automatic blanking mechanism

Technical Field

The utility model relates to an automatic blanking mechanism.

Background

Child safety seat ISOFIX needs earlier at the assembly rivet in-process to combine and imbed in the frock board with the spare part product, then assembles the rivet and carries out the riveting, and the riveting shaping back needs the manual work to carry out taking and laying of spare part product, and degree of automation is low and inefficiency.

SUMMERY OF THE UTILITY MODEL

To the above problem, the utility model provides an automatic blanking mechanism realizes the full-automatic of spare part product and takes and lay, and degree of automation is high and efficient.

For realizing above-mentioned technical purpose, reach above-mentioned technological effect, the utility model discloses a following technical scheme realizes:

the utility model provides an automatic blanking mechanism, includes pay-off track, cylinder and motor, pay-off track level sets up in the frame and is provided with the rack on the pay-off track, the cylinder passes through the motor and sets up perpendicularly on the pay-off track, the motor is provided with the gear that can mesh with the rack mutually, the cylinder bottom is connected with electro-magnet and induction controller, induction controller controls the power switch-on or the disconnection of electro-magnet.

Preferably, the bottom of the cylinder is connected with a connecting plate, and electromagnets and induction controllers are symmetrically arranged at two ends of the connecting plate.

Preferably, the electromagnet is cylindrical and is arranged on the lower surface of the connecting plate, and the induction controller is arranged on the upper surface of the connecting plate.

Preferably, the feeding rail is plate-shaped, a through hole which is communicated up and down is formed in the center of the feeding rail along the length direction, and the rack is arranged on the edge of the through hole.

Preferably, still include the material turnover box, the material turnover box sets up in the terminal below of pay-off track.

Preferably, the material turnover box is a plastic box body.

The utility model has the advantages that:

the product embedding is in the equipment template, and the equipment template is installed in the backup pad, and equipment template and backup pad form the frock board, and the slider that the product passes through the frock board circulates to each station along the transmission track, and after the riveting, the product circulates to the doffer below.

When materials are taken, the electromagnet is powered on, the cylinder drives the electromagnet to vertically downwards move to the position of the tooling plate, the electromagnet adsorbs the products at the bottom of the cylinder and drives the products to upwards move, after the electromagnet moves to a set position, the cylinder stops vertical movement, the motor drives the cylinder to horizontally move to the position above the material turnover box along the feeding track, at the moment, the cylinder stops horizontal movement and vertically downwards moves, after a set distance is reached, the induction controller controls the power supply of the electromagnet to be disconnected, at the moment, the products fall into the material turnover box to complete placement, and the cylinder returns to the initial position in the original way to start the next cycle.

Drawings

Fig. 1 is a schematic structural view of an automatic blanking mechanism of the present invention;

FIG. 2 is a schematic structural view of the full-automatic riveting apparatus of the present invention;

the reference numerals of the drawings have the following meanings:

1: a cylinder; 2: a feeding track; 3: a motor; 4: an electromagnet; 5: assembling the template; 6: an induction controller; 7: producing a product; 8: a slider; 9: a connecting plate; 10: a material turnover box; 11: a transfer track; 12: and a support plate.

Detailed Description

The technical solution of the present invention is further described in detail below with reference to the accompanying drawings and specific embodiments, so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not limited to the present invention.

As shown in fig. 1 and 2, an automatic blanking mechanism comprises a feeding rail 2, a cylinder 1 and a motor 3, wherein the feeding rail 2 is horizontally arranged on a rack, taking the direction of fig. 2 as an example, the leftmost side of the feeding rail 2 is a material taking position, and the rightmost side is a material placing position, and preferably, a material turnover box 10 is arranged below the material placing position, that is, the material turnover box 10 is arranged below the tail end of the feeding rail 2, wherein the material turnover box 10 is preferably a plastic box body, such as a PE material, a PP material and the like.

The cylinder 1 is vertically arranged on the feeding track 2 through the motor 3, the bottom of the cylinder 1 is connected with the electromagnet 4 and the induction controller 6, the induction controller 6 controls the power supply of the electromagnet 4 to be switched on or off, the electromagnet 4 vertically moves up and down through the cylinder 1, a rack is horizontally arranged on the feeding track 2, a gear which can be meshed with the rack is arranged on the motor 3, and the electromagnet 4 horizontally moves through the feeding track 2.

As a preferable structure, the feeding track 2 is plate-shaped, a through hole which is communicated up and down is arranged in the center of the feeding track 2 along the length direction, the rack is arranged at the edge of the through hole, and the gear of the motor drives the cylinder 1 to move horizontally along the through hole.

Preferably, the bottom of the cylinder 1 is connected with a connecting plate 9, two ends of the connecting plate 9 are symmetrically provided with electromagnets 4 and induction controllers 6, at least 2 electromagnets 4 arranged on the connecting plate 9 can ensure the stability of material taking and material placing, in fig. 1, the two electromagnets 4 are cylindrical and arranged on the lower surface of the connecting plate 9, and the corresponding two induction controllers 6 are arranged on the upper surface of the connecting plate 9 and used for inductively controlling the on-off of the power supply of the electromagnets 4, when the power supply of the electromagnets 4 is switched on, the electromagnets 4 can adsorb the products 7, and when the power supply of the electromagnets 4 is switched off, the electromagnets 4 do not adsorb the products 7, thereby realizing material taking and material placing.

The product 7 is embedded in the assembly template 5, the assembly template 5 is installed on the supporting plate 12, the assembly template 5 and the supporting plate 12 form a tooling plate, the product 7 circulates to each station along the transmission rail 11 through the slide block 8 of the tooling plate, and after riveting, the product 7 circulates to the lower side of the blanking device.

When a material taking signal is received by the blanking mechanism, the electromagnet is powered on, the air cylinder 1 drives the electromagnet 4 to vertically downwards move to the position of a tooling plate, the electromagnet at the left end and the right end can adsorb a product 7 in the downwards moving process, after the induction controllers at the left end and the right end sense the electromagnet to adsorb the product 7 at the bottom of the air cylinder, the air cylinder 1 drives the product 7 to upwards move, the air cylinder stops vertical movement after moving to a set position, the motor drives the air cylinder to horizontally move along a feeding track to the upper part of the material turnover box, the air cylinder stops horizontal movement after reaching the upper part of the material turnover box, the air cylinder starts vertical downwards movement, when the induction controllers at the left end and the right end sense the product 7 to reach the material box or the set position simultaneously, a signal is sent, the power supply of the electromagnet is disconnected, the product 7 falls into the material turnover box at the moment, the placement is completed, the air cylinder returns, the full-automatic taking and placing of the part products are realized, and the automation degree and the efficiency are high.

The above is only the preferred embodiment of the present invention, and not the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings are utilized, or directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an automatic blanking mechanism, includes pay-off track (2), cylinder (1) and motor (3), its characterized in that, pay-off track (2) level sets up in the frame and is provided with the rack on pay-off track (2), cylinder (1) sets up on pay-off track (2) perpendicularly through motor (3), motor (3) are provided with the gear that can mesh with the rack mutually, cylinder (1) bottom is connected with electro-magnet (4) and induction controller (6), induction controller (6) control the power switch-on or the disconnection of electro-magnet (4).

2. The automatic blanking mechanism of claim 1, characterized in that a connecting plate (9) is connected to the bottom of the cylinder (1), and electromagnets (4) and an induction controller (6) are symmetrically arranged at two ends of the connecting plate (9).

3. The automatic blanking mechanism of claim 2, wherein the electromagnet (4) is cylindrical and is arranged on the lower surface of the connecting plate (9), and the induction controller (6) is arranged on the upper surface of the connecting plate (9).

4. The automatic blanking mechanism of claim 1, wherein the feeding rail (2) is plate-shaped, a through hole which is communicated with each other up and down is formed in the center of the feeding rail (2) along the length direction, and the rack is arranged at the edge of the through hole.

5. The automatic blanking mechanism of claim 1, characterized by further comprising a material turnover box (10), wherein the material turnover box (10) is arranged below the end of the feeding track (2).

6. The automatic blanking mechanism of claim 5, wherein the material turnover box (10) is a plastic box.

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