CN217995700U - Metal sheet sliding feeding device - Google Patents

Abstract

The utility model discloses a sheetmetal slip feed arrangement, include feeding mechanism, guide rail mechanism, processing tool, move material mechanism. The feeding mechanism is respectively positioned at two ends of the processing jig guide rail mechanism, and the material moving mechanism is arranged at the upper position between the guide rail mechanism and the processing jig. The guide rail mechanism and the processing jig are positioned on the same straight line. One end of the guide rail mechanism, which is far away from the feeding mechanism, is provided with a preparation station, the material moving mechanism is provided with two material moving shifting blocks, one of the material moving shifting blocks moves the workpiece to the preparation station, and the other material moving shifting block moves the workpiece to the processing jig. In the device, a feeding mechanism provides a workpiece, the workpiece is conveyed to the front end of a processing jig along with a guide rail mechanism, and the workpiece is input into the processing jig by a material moving mechanism; when feeding is carried out each time, the material moving mechanism moves two workpieces close to the processing jig, one workpiece enters the preparation station, and the other workpiece is moved into the processing jig.

Description

Metal sheet sliding feeding device

Technical Field

The utility model relates to an automatic change processing technology field, in particular to sheetmetal slip feed arrangement.

Background

The metal sheet feeding mechanism is a machine that orders randomly stacked metal sheets and feeds the metal sheets to other processes in a predetermined manner.

The existing metal sheet feeding mechanism can only tidy and move a metal sheet, cannot judge the current state of the metal sheet by self, and adjusts the metal sheet to be in a preset state. In the process of adjusting the state of the metal sheet, if the holes formed in the metal sheet are not symmetrical and are not on the center line, the face orientation and the hole orientation of the metal sheet need to be adjusted.

Moreover, the existing feeding mechanism has low efficiency.

SUMMERY OF THE UTILITY MODEL

According to an aspect of the present invention, there is provided a sheet metal slide feed apparatus, comprising

A feed mechanism configured to provide a workpiece;

one end of the guide rail mechanism is connected with the discharge end of the feeding mechanism;

the processing jig is positioned at the other end of the guide rail mechanism and connected with the other end of the guide rail mechanism;

a material moving mechanism arranged at the upper position between the guide rail mechanism and the processing jig,

one end of the guide rail mechanism, which is far away from the feeding mechanism, is provided with a preparation station, the material moving mechanism is provided with two material moving shifting blocks, one of the material moving shifting blocks moves the workpiece to the preparation station, and the other material moving shifting block moves the workpiece to the processing jig.

The utility model provides an automation equipment of slidingtype feeding is carried out to the sheetmetal. In the device, a feeding mechanism provides a workpiece, the workpiece is conveyed to the front end of a processing jig along with a guide rail mechanism, and the workpiece is input into the processing jig by a material moving mechanism; when feeding is performed each time, the material moving mechanism moves two workpieces close to the processing jig, one workpiece enters the preparation station, and the other workpiece moves to the processing jig.

In some embodiments, the guide rail mechanism comprises a guide rail and a limiting assembly, one end of the guide rail is connected with the discharge end of the feeding mechanism, the preparation station is arranged at the other end of the guide rail, the limiting assembly is arranged on one side of the guide rail, and the working end of the limiting assembly is positioned at the joint of the guide rail and the limiting assembly.

Therefore, the guide rail mechanism consists of a guide rail, a preparation station and a limiting assembly.

In some embodiments, the limiting assembly comprises a first driving member, a top column and a pushing column, the top column is slidably arranged on the end surface of the guide track, the first driving member is fixed on one side of the guide track, and the pushing column is arranged at the driving end of the first driving member;

the lower end of the push column is provided with a first inclined plane, and the upper end of the push column is provided with a second inclined plane matched with the first inclined plane.

Therefore, when materials exist in the material moving station, the top column is in contact with the push column, and the upper end of the top column penetrates through the guide rail to prevent the workpieces from entering the preparation station; meanwhile, the material distributing function is also realized. Meanwhile, the material distribution device can also be used for distributing materials, and one workpiece is input into the preparation station each time.

In some embodiments, a preparation rail connected with the guide rail is arranged on the preparation station, and limiting grooves are arranged on two sides of the end face of the preparation rail and used for limiting the workpiece.

From this, the both sides limit of work piece is followed by spacing in the spacing groove, carries on spacingly to the work piece, prevents its perk.

In some embodiments, prepare to be equipped with the stopper on the station, the stopper with expect to form the profile modeling groove between the track, the cross-section of shifting the material shifting block is similar with the shape in profile modeling groove.

Therefore, when the material moving shifting block moves materials, the material moving shifting block is just embedded into the profiling groove, and the material moving shifting block can be used for accurately positioning the moving materials of the workpiece.

In some embodiments, the material moving mechanism includes a frame, a second driving element, a sliding plate, a sliding block, and a third driving element, the sliding plate is disposed on the frame in a laterally slidable manner, the second driving element is disposed on the frame and is in driving connection with the sliding plate, the sliding block is disposed on the sliding plate in a vertically slidable manner, the third driving element is disposed on the sliding plate and is in driving connection with the sliding block, and both the two material moving shifting blocks are disposed on the sliding block.

From this, move material mechanism and constitute by above-mentioned structure, the horizontal drive is responsible for to the second driving piece, and the vertical drive is responsible for to the third driving piece.

In some embodiments, the material moving mechanism further comprises a transverse guide rail, a vertical guide rail, and a sliding plate, wherein the transverse guide rail is arranged on the frame, the second driving element is arranged at one end of the transverse guide rail, the sliding block is arranged on the sliding plate through the vertical slide rail, and the third driving element is arranged at the upper end of the vertical guide rail.

Therefore, the sliding stability can be improved by the slidable installation of the guide rail.

In some embodiments, the material moving mechanism further comprises two buffering assemblies, the two buffering assemblies are arranged on the rack and located at two ends of the transverse guide rail, and the buffering assemblies and the sliding plate can be separated and abutted.

Thereby, the buffer member can buffer the slide plate.

In some embodiments, the lower end of the material moving shifting block is provided with a limiting convex point, and the workpiece is provided with a limiting hole corresponding to the limiting convex point.

Therefore, the workpiece is moved by matching the limiting convex points and the limiting holes.

In some embodiments, the feeding mechanism is a vibrating disk.

Thus, the feeding is performed by using a vibration disc mode.

Drawings

Fig. 1 is a schematic perspective view of a metal sheet sliding feeding device according to an embodiment of the present invention.

Fig. 2 is a schematic top view of the sheet metal slide feeder shown in fig. 1.

Fig. 3 isbase:Sub>A schematic sectional view along the directionbase:Sub>A-base:Sub>A in fig. 2.

Fig. 4 is a partially enlarged schematic view of fig. 3.

Fig. 5 is a schematic view of a part of the structure of the sheet metal slide feeder shown in fig. 1.

Reference numbers in the figures: 100-feeding mechanism, 200-guide rail mechanism, 210-preparation station, 211-anticipating rail, 212-limiting groove, 213-limiting block, 214-profiling groove, 220-guiding rail, 230-limiting component, 231-first driving component, 232-top column, 2321-first inclined plane, 233-pushing column, 2331-second inclined plane, 300-processing jig, 301-clamping groove, 400-material moving mechanism, 410-material moving shifting block, 411-limiting salient point, 420-rack, 430-second driving component, 440-sliding plate, 450-sliding block, 460-third driving component, 470-transverse guide rail, 480-vertical guide rail, 490-buffer component, a-workpiece and a 1-limiting hole.

Detailed Description

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

Fig. 1 to 5 schematically show a metal sheet sliding feeding device according to an embodiment of the present invention, which includes a feeding mechanism 100, a guide rail mechanism 200, a processing jig 300, and a material moving mechanism 400. The feeding mechanism 100 and the processing jig 300 are respectively located at two ends of the guide rail mechanism 200, and the material moving mechanism 400 is located above the guide rail mechanism 200 and the processing jig 300. The feed mechanism 100 is configured to provide a workpiece a; the guide rail mechanism 200 is configured to guide the feeding of the workpiece a; the material moving mechanism 400 is configured to move the workpiece a from the guide rail mechanism 200 to the processing fixture 300; the processing jig 300 is configured to move the workpiece a to the processing station. The guide rail mechanism 200 and the processing jig 300 are located on the same straight line.

One end of the guide rail mechanism 200, which is far away from the feeding mechanism 100, is provided with a preparation station 210, the material moving mechanism 400 is provided with two material moving shifting blocks 410, one of the material moving shifting blocks 410 moves the workpiece a to the preparation station 210, and the other material moving shifting block 410 moves the workpiece a to the processing fixture 300.

In the device, a workpiece a is provided by a feeding mechanism 100, the workpiece a is conveyed to the front end of a processing jig 300 along with a guide rail mechanism 200, and the workpiece a is input into the processing jig 300 by a material moving mechanism 400; during each feeding operation, the material moving mechanism 400 moves two workpieces a close to the processing fixture 300, wherein one workpiece a enters the preparation station 210, and the other workpiece a moves into the processing fixture 300.

Referring to fig. 1, the guide rail mechanism 200 includes a guide rail 220 and a limiting assembly 230, one end of the guide rail 220 is connected to the discharge end of the feeding mechanism 100, the preparation station 210 is disposed at the other end of the guide rail 220, the limiting assembly 230 is disposed at one side of the guide rail 220, and the working end of the limiting assembly 230 is located at the connection position of the guide rail 220 and the limiting assembly 230. The guide rail mechanism 200 is composed of a guide rail 220, a preparation station 210 and a limiting component 230.

With reference to fig. 3-4, the limiting assembly 230 includes a first driving member 231, a top post 232, and a pushing post 233, wherein the top post 232 is slidably disposed on the end surface of the guiding track 220, the first driving member 231 is fixed on one side of the guiding track 220, and the pushing post 233 is disposed at the driving end of the first driving member 231;

the lower end of the top post 232 is provided with a first inclined surface 2321, and the upper end of the push post 233 is provided with a second inclined surface 2331 matching the first inclined surface 2321. When materials exist in the material moving station, the top column 232 is in contact with the push column 233, and the upper end of the top column 232 penetrates through the guide rail 220 to prevent the workpiece a from entering the preparation station 210; simultaneously, the material distributing function is also realized. At the same time, it is also possible to feed one workpiece a at a time into the preparation station 210 as a material-dividing function.

With reference to fig. 3-4, the preparation station 210 is provided with a prediction rail 211 engaged with the guide rail 220, and both sides of the end surface of the prediction rail 211 are provided with a limiting groove 212, and the limiting groove 212 limits the workpiece a. The two side edges of the workpiece a are limited in the limiting groove 212 to limit the workpiece a and prevent the workpiece a from tilting.

With reference to fig. 3-5, the preparation station 210 is provided with a stopper 213, an imitated groove 214 is formed between the stopper 213 and the expected track 211, and the cross section of the material moving shifting block 410 is similar to the shape of the imitated groove 214. When the material moving shifting block 410 is used for moving materials, the material moving shifting block is just embedded into the profiling groove 214, and the material moving of the workpiece a can be accurately positioned by the material moving shifting block 410.

Referring to fig. 1, the material moving mechanism 400 includes a frame 420, a second driving element 430, a sliding plate 440, a sliding block 450, and a third driving element 460, wherein the sliding plate 440 is disposed on the frame 420 in a transversely slidable manner, the second driving element 430 is disposed on the frame 420 and is in driving connection with the sliding plate 440, the sliding block 450 is disposed on the sliding plate 440 in a vertically slidable manner, the third driving element 460 is disposed on the sliding plate 440 and is in driving connection with the sliding block 450, and both the material moving blocks 410 are disposed on the sliding block 450. The material moving mechanism 400 is formed by the above structure, the second driving element 430 is responsible for transverse driving, and the third driving element 460 is responsible for vertical driving. The driving direction of the second driving member 430 is a horizontal driving direction, and the driving direction thereof is an extending direction of the rail mechanism 200, and the driving direction of the third driving member 460 is a vertical driving direction.

Referring to fig. 1, the material moving mechanism 400 further includes a transverse guide rail 470, a vertical guide rail 480, and a sliding plate 440 disposed on the frame 420 through the transverse guide rail 470, the second driving member 430 is disposed at one end of the transverse guide rail 470, the sliding block 450 is disposed on the sliding plate 440 through the vertical guide rail, and the third driving member 460 is disposed at an upper end of the vertical guide rail 480. The sliding stability can be improved by the slidable mounting of the guide rail.

Referring to fig. 1, the moving mechanism 400 further includes two buffering assemblies 490, the two buffering assemblies 490 are disposed on the frame 420 and located at two ends of the transverse rail 470, and the buffering assemblies 490 can be separated from and abutted against the sliding plate 440. The buffering assembly 490 can buffer the sliding plate 440.

With reference to fig. 3-4, the lower end of the material moving shifting block 410 is provided with a limiting protruding point 411, and a limiting hole a1 is formed on the workpiece a corresponding to the limiting protruding point 411. The workpiece a is moved by the matching of the limiting convex point 411 and the limiting hole a1.

Preferably, the feeding mechanism 100 is a vibrating disk. The material is supplied by a vibration disc mode. The processing jig 300 is provided with a clamping groove 301 connected with the expected rail 211, and two ends of the workpiece a are embedded into the clamping groove 301 for fixing, so that the processing is convenient.

In this embodiment, the first driving element 231, the second driving element 430 and the third driving element 460 are all pneumatic linear driving elements.

The application of this device uses this device on disc processing equipment, specifically as follows, and processing equipment includes feed arrangement, still includes board, processingequipment, discharging device, disc device, and feed arrangement, processingequipment, discharging device, disc device all locate on the board, and feed arrangement, processingequipment, discharging device are located around the disc device, and processing tool 300 circumference array is on the border of disc device.

The disc processing apparatus works as follows:

s1, feeding:

the feeding mechanism 100 feeds a workpiece a; the workpiece a enters the guide rail mechanism 200 and is conveyed by the guide rail mechanism 200, and when the workpiece a enters; the material moving mechanism 400 is started, the second driving element 430 and the third driving element 460 jointly drive the material moving shifting blocks 410 to approach the workpiece a, one of the two material moving shifting blocks 410 moves the workpiece a to the preparation station 210, and the other material moving shifting block 410 moves the workpiece a to the processing fixture 300.

(work a is carried to the working end of each apparatus along with the disk apparatus)

And S2, processing the workpiece a by the processing device.

S3, discharging, wherein the discharging device discharges the workpiece a.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which all fall within the scope of the invention.

Claims (10)

1. The sheet metal sliding feeding device is characterized by comprising

A feeding mechanism (100) configured to supply a workpiece (a);

one end of the guide rail mechanism (200) is connected with the discharge end of the feeding mechanism (100);

the processing jig (300) is positioned at the other end of the guide rail mechanism (200) and connected with the other end of the guide rail mechanism;

a material moving mechanism (400) which is arranged at the upper position between the guide rail mechanism (200) and the processing fixture (300),

one end, far away from the feeding mechanism (100), of the guide rail mechanism (200) is provided with a preparation station (210), the material moving mechanism (400) is provided with two material moving shifting blocks (410), one of the material moving shifting blocks (410) moves the workpiece (a) to the preparation station (210), and the other material moving shifting block (410) moves the workpiece (a) to the processing jig (300).

2. The sliding metal sheet feeding device according to claim 1, wherein the guide rail mechanism (200) comprises a guide rail (220) and a limiting assembly (230), one end of the guide rail (220) is connected with the discharging end of the feeding mechanism (100), the preparation station (210) is arranged at the other end of the guide rail (220), the limiting assembly (230) is arranged at one side of the guide rail (220), and the working end of the limiting assembly (230) is positioned at the joint of the guide rail (220) and the limiting assembly (230).

3. The sliding metal sheet feeding device according to claim 2, wherein the limiting assembly (230) comprises a first driving member (231), a top post (232) and a push post (233), the top post (232) is slidably arranged on the end surface of the guide track (220), the first driving member (231) is fixed on one side of the guide track (220), and the push post (233) is arranged at the driving end of the first driving member (231);

the lower end of the top column (232) is provided with a first inclined plane (2321), and the upper end of the push column (233) is provided with a second inclined plane (2331) matched with the first inclined plane (2321).

4. The metal sheet sliding feeding device according to claim 2, wherein a pre-feeding track (211) connected with the guide track (220) is arranged on the preparation station (210), limiting grooves (212) are arranged on two sides of the end surface of the pre-feeding track (211), and the limiting grooves (212) limit the workpiece (a).

5. The sliding metal sheet feeding device according to claim 4, wherein a limiting block (213) is arranged on the preparation station (210), a profile groove (214) is formed between the limiting block (213) and the anticipation track (211), and the cross section of the material shifting block (410) is similar to the profile groove (214).

6. The sliding metal sheet feeding device according to claim 1, wherein the material moving mechanism (400) comprises a frame (420), a second driving member (430), a sliding plate (440), a sliding block (450), and a third driving member (460), the sliding plate (440) is transversely slidably disposed on the frame (420), the second driving member (430) is disposed on the frame (420) and drivingly connected to the sliding plate (440), the sliding block (450) is vertically slidably disposed on the sliding plate (440), the third driving member (460) is disposed on the sliding plate (440) and drivingly connected to the sliding block (450), and both of the material moving blocks (410) are disposed on the sliding block (450).

7. The sheet metal sliding feeding device according to claim 6, wherein the moving mechanism (400) further comprises a transverse guide rail (470), a vertical guide rail (480), the sliding plate (440) is arranged on the frame (420) through the transverse guide rail (470), the second driving member (430) is arranged at one end of the transverse guide rail (470), the sliding block (450) is arranged on the sliding plate (440) through the vertical slide rail, and the third driving member (460) is arranged at the upper end of the vertical guide rail (480).

8. The sheet metal slide feeder according to claim 6, wherein the moving mechanism (400) further comprises two damping members (490), the two damping members (490) are disposed on the frame (420) at two ends of the cross rail (470), and the damping members (490) are detachably abutted against the sliding plate (440).

9. The metal sheet sliding feeding device according to any one of claims 1 to 8, wherein the lower end of the material moving shifting block (410) is provided with a limit salient point (411), and a limit hole (a 1) is formed on the workpiece (a) corresponding to the limit salient point (411).

10. A sliding feed device for metal sheets according to any one of claims 1 to 8, characterised in that said feed means (100) is a vibrating disc.

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