CN209918627U - Direction-changing feeding mechanism for workpieces - Google Patents

Abstract

The utility model discloses a diversion feed mechanism of work piece, be in including first conveyor components, setting the supporting component, the setting of first conveyor components one side are in rotary platform subassembly, the setting that just are relative with the supporting component of first conveyor components opposite side are in upset platform subassembly on the rotary platform subassembly, and set up second conveyor components on the upset platform subassembly, the work piece is carried by first conveyor components, when carry the work piece extremely during supporting component department, the supporting component can support work piece on the first conveyor components, upset platform subassembly is used for the work piece upset on the first conveyor components, the rotary platform subassembly is used for rotating the work piece to preset position, second conveyor components is with work piece propelling movement to host computer. Therefore, the utility model has the advantages of automatic feeding, operation are more convenient, can improve work efficiency, be fit for bulk production.

Description

Direction-changing feeding mechanism for workpieces

Technical Field

The utility model relates to a charging equipment field of work piece especially relates to a diversion feed mechanism of work piece.

Background

Chinese patent document CN 104690182a discloses a feeding assembly of a bending machine, which includes a feeding frame, wherein the feeding frame is provided with a feeding platform for bearing a workpiece to be bent and a feeding conveying assembly which is mounted on the feeding frame and can push the workpiece to be bent borne on the feeding platform, a feeding lifting mechanism is arranged between the feeding frame and the feeding platform, and the feeding lifting mechanism drives the feeding platform to ascend or descend between a feeding position and a discharging position; the feeding platform or the feeding frame is provided with a material poking mechanism which can push a workpiece to be bent and loaded on the feeding platform; when the feeding platform is positioned at a feeding position, the feeding conveying assembly pushes a workpiece to be bent; when the feeding platform is located at a discharging position, the workpiece to be bent is pushed by the material pushing mechanism.

The feeding assembly of the bending machine in the prior art has the following defects in the use process: because the workpiece to be bent is horizontally arranged on the feeding platform, the upper and lower heights of the feeding lifting mechanism are adjusted, and the workpiece to be bent is pushed to the bending machine main body by the material pushing mechanism, the feeding assembly is only suitable for horizontal feeding and is suitable for feeding large commercial air conditioner fins, and the workpiece to be bent transferred from some previous working procedures is vertically arranged, the feeding assembly of the mechanism is not suitable for use, at the moment, the problem that people often manually place the workpiece to be bent horizontally and then feed by using the feeding assembly is solved. Therefore, the material poking mechanism needs manual operation, has large workload, high cost, low efficiency and inconvenient use, and is not suitable for mass production because the material poking mechanism pokes a small number of materials each time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic material loading, operate more convenient, can improve work efficiency, be fit for the diversion feed mechanism of the work piece of bulk production.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a diversion feed mechanism of work piece, including first conveyor components, set up the supporting component of first conveyor components one side, set up and be in the rotary platform subassembly opposite with the supporting component of first conveyor components opposite side, set up and be in upset platform subassembly on the rotary platform subassembly, and set up the second conveyor components on the upset platform subassembly, the work piece is carried by first conveyor components, when with the work piece carry supporting component department, the supporting component can support the work piece on the first conveyor components, upset platform subassembly is used for overturning the work piece on the first conveyor components, the rotary platform subassembly is used for rotating the work piece to preset position, second conveyor components is with work piece propelling movement to host computer.

As the utility model discloses an improvement, first conveying component includes the carriage, sets up conveyer belt on the carriage to and be used for driving the first power supply of conveyer belt operation, supporting component and rotary platform subassembly set up along the direction of advance of conveyer belt the both sides of conveyer belt, during the use, the work piece is arranged in remove along with the conveyer belt on the conveyer belt.

As the utility model discloses an improvement, the supporting component includes the support frame, establishes the slide rail unit that is used for driving the support frame motion of support frame bottom to and be used for driving the second power supply of slide rail unit motion, the drive of second power supply the support frame is to the direction removal that is close to or keeps away from the conveyer belt.

As the utility model discloses an improvement, the upset platform subassembly includes the upset platform, drives the first speed reducer that the upset platform overturned, and is used for the drive the third power supply of first speed reducer action.

As an improvement of the utility model, the rotary platform subassembly includes the base plate, fixes second speed reducer on the base plate, with first gear that the second speed reducer is connected, with first gear engagement's second gear, by second gear drives rotatory first rotor plate to and the fourth power supply that provides power, the upset platform subassembly sets up on the first rotor plate.

As the utility model discloses an improvement, second conveying component is including setting up ask flitch unit, be used for the drive on the upset platform ask the fifth power supply that flitch unit removed to set up ask on the flitch unit and can follow ask ball screw that flitch unit removed, by ball screw drives the push pedal of removal to and the sixth power supply of drive ball screw motion, the push pedal is in ball screw's effect is used for promoting the work piece on the host computer down.

As the improvement of the utility model, hold in the palm the flitch unit including the support flitch that is used for the bearing work piece, drive the slide rail sliding block set that holds in the palm the flitch removal to and be used for the grip block of centre gripping work piece.

The utility model discloses owing to include first conveying assembly, set up in the supporting component of first conveying assembly one side, set up in the rotating platform subassembly of the opposite side of first conveying assembly and relative with the supporting component, set up the upset platform subassembly on the rotating platform subassembly, and set up the second conveying assembly on the upset platform subassembly, the work piece is carried by first conveying assembly, when carrying the work piece to the supporting component department, the work piece on the first conveying assembly can be supported to the supporting component, the upset platform subassembly is used for overturning the work piece on the first conveying assembly, the rotating platform subassembly is used for rotating the work piece to preset position, the second conveying assembly pushes the work piece to the host computer; the utility model is suitable for a vertical material loading of carrying the work piece of coming to can realize automatic feeding, need not manual operation, great reduction staff's work load, efficiency is higher, and it is more convenient to use, moreover, the utility model discloses the material loading can be in batches the material loading at every turn, and the quantity of material loading at every turn is more, can satisfy in mass production's demand.

Drawings

FIG. 1 is a front view of an embodiment of the present invention;

fig. 2 is a left side view of the present invention;

fig. 3 is a right side view of the present invention;

fig. 4 is a top view of the present invention;

fig. 5 is a perspective view of the present invention;

FIG. 6 is a schematic view of a workpiece on a first transport assembly;

FIG. 7 is a schematic view of a workpiece resting on a support plate;

FIG. 8 is a schematic view of a workpiece abutting the flipping platform about to be flipped;

FIG. 9 is a schematic view of the workpiece just prior to rotation after it has been flipped;

fig. 10 is a schematic view of the workpiece after rotation.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments:

referring to fig. 1 to 5, fig. 1 to 5 disclose an embodiment of a direction-changing feeding mechanism for a workpiece, which includes a first conveying assembly 1, a supporting assembly 2 disposed on one side of the first conveying assembly 1, a rotating platform assembly 3 disposed on the other side of the first conveying assembly 1 and opposite to the supporting assembly 2, a turning platform assembly 4 disposed on the rotating platform assembly 3, and a second conveying assembly 5 disposed on the turning platform assembly 4, when in use, a workpiece 9 is vertically placed on the first conveying assembly 1 for conveying, and the workpiece 9 is conveyed by the first conveying assembly 1, in the present invention, specifically, the first conveying assembly 1 includes a conveying frame 11, a conveying belt 12 disposed on the conveying frame 11, and a first power source 13 for driving the conveying belt 12 to run, the supporting component 2 and the rotary platform component 3 are respectively arranged at two sides of the conveyor belt 12 along the advancing direction of the conveyor belt 12, the utility model is in a use state as shown in fig. 6 to 10, when in use, the workpiece 9 is arranged on the conveyor belt 120 and moves along with the conveyor belt 12, when the workpiece 9 is conveyed to the position corresponding to the supporting component 2, the supporting component 2 supports the workpiece 9 on the first conveying component 1, the overturning platform component 4 is used for overturning the workpiece 9 on the first conveying component 1, so as to overturn the workpiece 9 from the state of being vertically arranged on the first conveying component 1 to the state of being horizontally arranged on the overturning platform component 4, then, the rotary platform component 3 is used for rotating the workpiece 9 to a preset position which is convenient for entering the host, the second conveying component 5 pushes the workpiece 9 on the rotary platform component 3 to the host, the main machine performs the next process on the workpiece 9. The utility model is suitable for a vertical material loading of carrying work piece 9 of coming to can realize automatic feeding, need not manual operation, great reduction staff's work load, efficiency is higher, and it is more convenient to use, moreover, the utility model discloses the device material loading can be in batches the material loading at every turn, and the quantity of material loading at every turn is more, can satisfy in mass production's demand.

The utility model discloses in, it is concrete, supporting component 2 includes support frame 21, establishes the slide rail unit 22 that is used for driving the motion of support frame 21 bottom to and be used for driving the second power supply 23 of the motion of slide rail unit 22, the drive of second power supply 23 support frame 21 is to the direction removal that is close to or keeps away from conveyer belt 12, the utility model discloses in, be equipped with backup pad 210 on the support frame 21, backup pad 210 is used for direct and treats processing work piece 9 contact and support and treat processing work piece 9, the utility model discloses in, thereby support frame 21 passes through backup pad 210 and treats processing work piece 9 contact support treat processing work piece 9, work as when upset platform subassembly 4 overturns and treat processing work piece 9, can prevent to treat processing work piece 9 and empty to help upset platform subassembly 4 upset to treat processing work piece 9.

In the present invention, specifically, the turning platform assembly 4 includes a turning platform 41, a first speed reducer 42 for driving the turning platform 41 to turn, and a third power source 43 for driving the first speed reducer 42 to move; in this embodiment, the overturning platform 41 is connected to the first speed reducer 42, the third power source 43 is connected to the first speed reducer 42, and during operation, the third power source 43 drives the first speed reducer 42 to work, so as to drive the overturning platform 41 to overturn, and the overturning platform 41 then overturns the workpiece 9 to be processed, which is vertically placed on the conveyor belt 12, to be horizontally placed on the overturning platform 41.

In the present invention, specifically, the rotating platform assembly 3 includes a base plate 31, a second speed reducer 32 fixed on the base plate 31, a first gear 33 connected to the second speed reducer 32, a second gear 34 engaged with the first gear 33, a first rotating plate 35 driven by the second gear 34 to rotate, and a fourth power source 36 providing power, the turning platform 41 is disposed on the first rotating plate 35, in this embodiment, when operating, the fourth power source 36 drives the second speed reducer 32 to operate, so as to drive the first gear 33 to rotate, since the first gear 33 is engaged with the second gear 34, the second gear 34 also rotates under the driving of the first gear 33, so as to drive the first rotating plate 35 to rotate, since the turning platform 41 is located on the first rotating plate 35, therefore, the workpiece 9 to be machined on the turning platform 41 is also rotated, thereby rotating to a predetermined position.

In the present invention, specifically, the second conveying assembly 5 includes a retainer plate unit 51 disposed on the turning platform 41, a fifth power source 52 for driving the retainer plate unit 51 to move, a ball screw 53 disposed on the retainer plate unit 51 and movable with the retainer plate unit 51, a push plate 54 driven by the ball screw 53 to move, and a sixth power source 55 for driving the ball screw 53 to move, in the present invention, specifically, the retainer plate unit 51 includes a retainer plate 511 for supporting the workpiece 9, a slide rail slider group 512 for driving the retainer plate to move, and a clamping plate 513 for clamping the workpiece 9, the push plate 54 is used for pushing the workpiece 9 to the host under the action of the ball screw 53, in the present embodiment, when the workpiece 9 to be processed is placed on the retainer plate 511, the clamping plate 513 clamps the workpiece 9 to be processed from both sides, therefore, the slide rail sliding block set 512 is driven to work by the fifth power source 52, the retainer plate 511 is driven by the slide rail sliding block set 512 to move forward, so as to drive the workpiece 9 to be machined to move forward, after the workpiece is moved to a preset position, the sixth power source 55 drives the ball screw 53 to move, the ball screw 53 drives the push plate 54 to move forward and close to the workpiece 9 to be machined, along with the movement of the ball screw 53, the push plate 54 pushes the workpiece 9 to be machined, so as to push the workpiece 9 to be machined to a host, and finally the workpiece 9 enters the host for machining.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes are intended to fall within the scope of the claims.

Claims (7)

1. The workpiece turning and feeding mechanism is characterized by comprising a first conveying assembly (1), a supporting assembly (2) arranged on one side of the first conveying assembly (1), a rotating platform assembly (3) arranged on the other side of the first conveying assembly (1) and opposite to the supporting assembly (2), a turning platform assembly (4) arranged on the rotating platform assembly (3), and a second conveying assembly (5) arranged on the turning platform assembly (4), wherein a workpiece (9) is conveyed by the first conveying assembly (1), when the workpiece (9) is conveyed to the supporting assembly (2), the supporting assembly (2) supports the workpiece (9) on the first conveying assembly (1), the turning platform assembly (4) is used for turning the workpiece (9) on the first conveying assembly (1), and the rotating platform assembly (3) is used for rotating the workpiece (9) to a preset position, the second conveying assembly (5) pushes the workpiece (9) to the host machine.

2. The direction-changing feeding mechanism of the workpiece, as recited in claim 1, is characterized in that the first conveying assembly (1) comprises a conveying frame (11), a conveying belt (12) arranged on the conveying frame (11), and a first power source (13) for driving the conveying belt (12) to run, the supporting assembly (2) and the rotating platform assembly (3) are arranged on two sides of the conveying belt (12) along the advancing direction of the conveying belt (12), and when in use, the workpiece (9) is arranged on the conveying belt (12) and moves along with the conveying belt (12).

3. The direction-changing feeding mechanism for the workpiece, as recited in claim 1 or 2, is characterized in that the supporting assembly (2) comprises a supporting frame (21), a sliding rail unit (22) arranged at the bottom of the supporting frame (21) and used for driving the supporting frame (21) to move, and a second power source (23) used for driving the sliding rail unit (22) to move, wherein the second power source (23) drives the supporting frame (21) to move towards or away from the conveyor belt (12).

4. The direction-changing feeding mechanism for the workpiece according to claim 1 or 2, wherein the overturning platform assembly (4) comprises an overturning platform (41), a first speed reducer (42) driving the overturning platform (41) to overturn, and a third power source (43) for driving the first speed reducer (42) to act.

5. The direction-changing feeding mechanism of a workpiece according to claim 1 or 2, wherein the rotating platform assembly (3) comprises a base plate (31), a second speed reducer (32) fixed on the base plate (31), a first gear (33) connected with the second speed reducer (32), a second gear (34) meshed with the first gear (33), a first rotating plate (35) driven by the second gear (34) to rotate, and a fourth power source (36) for providing power, and the overturning platform assembly (4) is arranged on the first rotating plate (35).

6. The direction-changing feeding mechanism of the workpiece according to claim 1 or 2, wherein the second conveying assembly (5) comprises a retainer plate unit (51) arranged on the overturning platform (41), a fifth power source (52) for driving the retainer plate unit (51) to move, a ball screw (53) arranged on the retainer plate unit (51) and capable of moving along with the retainer plate unit (51), a push plate (54) driven by the ball screw (53) to move, and a sixth power source (55) for driving the ball screw (53) to move, wherein the push plate (54) is used for pushing the workpiece (9) to the main machine under the action of the ball screw (53).

7. The direction-changing feeding mechanism of the workpiece is characterized in that the retainer plate unit (51) comprises a retainer plate (511) for retaining the workpiece (9), a slide rail slider group (512) for driving the retainer plate to move, and a clamping plate (513) for clamping the workpiece (9).

Images