CN214417516U - Feeding mechanism of automatic edge trimmer of punch press - Google Patents

Abstract

The utility model relates to a metal processing especially relates to a feed mechanism of automatic bead cutter of punch press, including vibration dish, crooked guide rail and linear guide, this device is applicable to and carries U-shaped or C shape work piece, and this type of work piece has a pair of parallel platelike structure, has logical groove between a pair of platelike structure. The work piece is stacked on the vibration dish, and the motor drives the vibration dish and rotates, and partial work piece can be pushed up the backup pad. And due to the structure of the workpiece, the plate-shaped structure on one side of the workpiece is contacted with the supporting plate, and the through groove is opened towards the side surface. The structure can convey the workpiece, and can adjust the position and the angle of the workpiece in the conveying process, thereby facilitating subsequent processing.

Description

Feeding mechanism of automatic edge trimmer of punch press

Technical Field

The utility model relates to a metalworking especially relates to a feed mechanism of automatic bead cutter of punch press.

Background

The feeding device in the prior art has a single function, and the effect cannot meet the feeding requirement of special workpieces.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome exist among the prior art not enough, provide a feed mechanism of automatic bead cutter of punch press.

The utility model discloses a realize through following technical scheme:

a feeding mechanism of an automatic edge trimmer of a punch press comprises a vibrating disk, a curved guide rail and a linear guide rail, wherein the vibrating disk is connected with an output shaft of a motor, a material guide shell is arranged above the vibrating disk and comprises a supporting plate and a baffle, the supporting plate and the baffle are integrally formed, the supporting plate extends in the direction of a conical spiral, the baffle is positioned on the outer side of a supporting plate, the lower end of the supporting plate is connected with the vibrating disk, the upper end of the supporting plate is connected with an auxiliary slideway, the auxiliary slideway comprises a lower plate and an upper plate, the lower plate inclines downwards, the upper end of the lower plate is connected with the upper end of the supporting plate, the upper plate is parallel to the lower plate, the upper plate is positioned above the lower plate and is provided with a gap, the upper plate is fixedly connected with the lower plate, the curved guide rail is of a curved plate-shaped structure, the upper end of the curved guide rail is aligned with the lower end of the upper plate, the linear guide rail comprises a U-shaped groove, a push block and a cylinder, the push block is positioned in the U-shaped groove and is connected with the free end of the cylinder, the lower end of the bending guide rail is positioned above the U-shaped groove.

According to the above technical solution, preferably, the lower end of the curved guide rail is provided with a guide plate, the thickness of the guide plate is greater than that of the curved guide rail, and a guide inclined surface is provided at a joint of the guide plate and the curved guide rail.

According to the above technical solution, preferably, the auxiliary slide and the curved guide rail are provided with an auxiliary baffle and a curved baffle on the side surfaces thereof, respectively.

The utility model has the advantages that: the device is suitable for conveying U-shaped or C-shaped workpieces, wherein the workpieces have a pair of parallel plate-shaped structures, and a through groove is formed between the pair of plate-shaped structures. The work piece is stacked on the vibration dish, and the motor drives the vibration dish and rotates, and partial work piece can be pushed up the backup pad. And due to the structure of the workpiece, the plate-shaped structure on one side of the workpiece is contacted with the supporting plate, and the through groove is opened towards the side surface.

The vibration disc continuously rotates to continuously convey the workpiece to the supporting plate, so that the workpiece on the supporting plate is continuously pushed and conveyed forwards, and the workpiece is always pushed to the lower plate of the auxiliary slideway. The upper plate has a thickness smaller than the through groove of the workpiece and a gap between the upper plate and the lower plate is greater than a thickness of the plate-shaped structure of the workpiece, so that the upper plate is inserted into the through groove of the workpiece, thereby limiting an angle of the workpiece. The workpiece is pushed further and slides down along the lower plate, and when the workpiece is detached from the lower end of the lower plate, the upper end of the curved guide rail is inserted into the through groove of the workpiece. The workpiece slides along the bent guide rail until the workpiece is separated from the lower end of the bent guide rail and falls into the U-shaped groove. Due to the guiding of the bent guide rail, one side opening of the through groove of the workpiece is contacted with the bottom surface of the U-shaped groove. Then the cylinder pushes the push block and push block to push the workpiece to move forward continuously.

The structure can convey the workpiece, and can adjust the position and the angle of the workpiece in the conveying process, thereby facilitating subsequent processing.

Drawings

Fig. 1 shows a schematic front view structure diagram of an embodiment of the present invention.

Fig. 2 shows a schematic front view structure diagram of an embodiment of the present invention.

In the figure: 1. the vibration plate comprises a vibration plate, 2 parts of a bent guide rail, 3 parts of a support plate, 4 parts of a baffle, 5 parts of a lower plate, 6 parts of an upper plate, 7 parts of a U-shaped groove, 8 parts of a push block, 9 parts of an air cylinder, 10 parts of a guide plate and 11 parts of a guide inclined plane.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in the figure, the utility model relates to a feed mechanism of automatic bead cutter of punch press, including vibration dish 1, curved guide 2 and linear guide. The vibration disk can be driven by the motor to rotate so as to provide power for feeding. The curved guide rail is used for overturning the workpiece in the feeding process. The linear guide rail is used for finishing final feeding and conveying the workpiece in the adjusted state to the next station.

The vibrating plate is connected to an output shaft of a motor (not shown), and the output shaft of the motor drives the vibrating plate to rotate. A material guide shell is arranged above the vibrating disk and can be fixedly connected with an external structure, so that the material guide shell is relatively fixed relative to the vibrating disk. The material guide shell comprises a supporting plate 3 and a baffle 4, the supporting plate is used for supporting moving workpieces, and the baffle is used for placing the workpieces to fall out of the supporting plate. Backup pad and baffle integrated into one piece, the backup pad uses the toper spiral direction to extend, and the baffle is located the outside of backup pad, and the vibration dish is connected to the lower extreme of backup pad, and the auxiliary sliding way is connected to the upper end of backup pad, and the lower extreme of backup pad is the minor diameter end of toper spiral, and the upper end of backup pad is the major diameter end of toper spiral.

The auxiliary slide way comprises a lower plate 5 and an upper plate 6, wherein the lower plate is used for supporting a workpiece, and the upper plate is used for limiting the state of the workpiece when the workpiece is conveyed. The lower plate inclines downwards to enable the workpiece to slide downwards. The upper end of the lower plate is connected with the upper end of the supporting plate and can receive the workpiece output from the supporting plate. The upper plate is parallel to the lower plate, the upper plate is positioned above the lower plate and has a gap, the upper plate can be inserted into the through groove of the workpiece, and the upper plate is fixedly connected with the lower plate.

The bending guide rail is of a downward bending plate-shaped structure, so that the workpiece slides downwards along the bending guide rail, and the workpiece rotates to adjust the angle of the workpiece. The upper end of the bent guide rail is aligned with the lower end of the upper plate, and can receive a workpiece sliding along the upper plate, so that the bent guide rail is inserted into the through groove of the workpiece.

The linear guide rail comprises a U-shaped groove 7, a push block 8 and an air cylinder 9, the U-shaped groove is used for receiving a workpiece sliding from the bent guide rail, the push block is used for pushing the workpiece to advance, and the air cylinder provides power for the push block. The ejector pad is arranged in the U-shaped groove, the ejector pad is connected with the free end of the air cylinder, the lower end of the bent guide rail is arranged above the U-shaped groove, and a workpiece on the bent guide rail can fall into the U-shaped groove.

The working principle of the embodiment is as follows: the device is suitable for conveying U-shaped or C-shaped workpieces, wherein the workpieces have a pair of parallel plate-shaped structures, and a through groove is formed between the pair of plate-shaped structures. The work piece is stacked on the vibration dish, and the motor drives the vibration dish and rotates, and partial work piece can be pushed up the backup pad. And due to the structure of the workpiece, the plate-shaped structure on one side of the workpiece is contacted with the supporting plate, and the through groove is opened towards the side surface.

The vibration disc continuously rotates to continuously convey the workpiece to the supporting plate, so that the workpiece on the supporting plate is continuously pushed and conveyed forwards, and the workpiece is always pushed to the lower plate of the auxiliary slideway. The upper plate has a thickness smaller than the through groove of the workpiece and a gap between the upper plate and the lower plate is greater than a thickness of the plate-shaped structure of the workpiece, so that the upper plate is inserted into the through groove of the workpiece, thereby limiting an angle of the workpiece. The workpiece is pushed further and slides down along the lower plate, and when the workpiece is detached from the lower end of the lower plate, the upper end of the curved guide rail is inserted into the through groove of the workpiece. The workpiece slides along the bent guide rail until the workpiece is separated from the lower end of the bent guide rail and falls into the U-shaped groove. Due to the guiding of the bent guide rail, one side opening of the through groove of the workpiece is contacted with the bottom surface of the U-shaped groove. Then the cylinder pushes the push block and push block to push the workpiece to move forward continuously.

The structure can convey the workpiece, and can adjust the position and the angle of the workpiece in the conveying process, thereby facilitating subsequent processing.

According to the above embodiment, preferably, the lower end of the curved guide rail is provided with the guide plate 10, the thickness of the guide plate is larger than that of the curved guide rail, and the joint of the guide plate and the curved guide rail is provided with the guide inclined surface 11. The increase of the thickness of the guide plate can further limit the angle of the workpiece, and the workpiece is prevented from inclining on the bent guide rail and rotating when falling onto the U-shaped groove. The guide ramp facilitates the introduction of the workpiece from the curved guide rail into the guide plate.

According to the above embodiment, it is preferable that the auxiliary chute and the curved guide rail are provided at their sides with the auxiliary baffle and the curved baffle, respectively (not shown). The auxiliary baffle prevents the workpiece from separating from the auxiliary slideway, and the bent baffle prevents the workpiece from separating from the bent baffle.

The utility model has the advantages that: the device is suitable for conveying U-shaped or C-shaped workpieces, wherein the workpieces have a pair of parallel plate-shaped structures, and a through groove is formed between the pair of plate-shaped structures. The work piece is stacked on the vibration dish, and the motor drives the vibration dish and rotates, and partial work piece can be pushed up the backup pad. And due to the structure of the workpiece, the plate-shaped structure on one side of the workpiece is contacted with the supporting plate, and the through groove is opened towards the side surface.

The vibration disc continuously rotates to continuously convey the workpiece to the supporting plate, so that the workpiece on the supporting plate is continuously pushed and conveyed forwards, and the workpiece is always pushed to the lower plate of the auxiliary slideway. The upper plate has a thickness smaller than the through groove of the workpiece and a gap between the upper plate and the lower plate is greater than a thickness of the plate-shaped structure of the workpiece, so that the upper plate is inserted into the through groove of the workpiece, thereby limiting an angle of the workpiece. The workpiece is pushed further and slides down along the lower plate, and when the workpiece is detached from the lower end of the lower plate, the upper end of the curved guide rail is inserted into the through groove of the workpiece. The workpiece slides along the bent guide rail until the workpiece is separated from the lower end of the bent guide rail and falls into the U-shaped groove. Due to the guiding of the bent guide rail, one side opening of the through groove of the workpiece is contacted with the bottom surface of the U-shaped groove. Then the cylinder pushes the push block and push block to push the workpiece to move forward continuously.

The structure can convey the workpiece, and can adjust the position and the angle of the workpiece in the conveying process, thereby facilitating subsequent processing.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (3)

1. The utility model provides a feed mechanism of automatic bead cutter of punch press which characterized in that: the vibration plate is connected with an output shaft of a motor, a guide shell is arranged above the vibration plate and comprises a supporting plate and a baffle plate which are integrally formed, the supporting plate extends in the direction of a conical spiral, the baffle plate is positioned on the outer side of the supporting plate, the lower end of the supporting plate is connected with the vibration plate, the upper end of the supporting plate is connected with an auxiliary slide way, the auxiliary slide way comprises a lower plate and an upper plate, the lower plate inclines downwards, the upper end of the lower plate is connected with the upper end of the supporting plate, the upper plate is parallel to the lower plate, the upper plate is positioned above the lower plate and provided with a gap, the upper plate is fixedly connected with the lower plate, the bent guide rail is of a bent plate-shaped structure, the upper end of the bent guide rail is aligned with the lower end of the upper plate, and the linear guide rail comprises a U-shaped groove, the push block is located in the U-shaped groove and connected with the free end of the air cylinder, and the lower end of the bent guide rail is located above the U-shaped groove.

2. The feeding mechanism of the automatic edge trimmer of the punch press according to claim 1, characterized in that: the lower end of the bent guide rail is provided with a guide plate, the thickness of the guide plate is larger than that of the bent guide rail, and a guide inclined plane is arranged at the joint of the guide plate and the bent guide rail.

3. The feeding mechanism of the automatic edge trimmer of the punch press according to claim 1, characterized in that: the side surfaces of the auxiliary slideway and the bent guide rail are respectively provided with an auxiliary baffle and a bent baffle.

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