CN213646954U - Chamfering equipment for inverted-U-shaped steel sheet - Google Patents

Abstract

The utility model relates to a chamfering device for an inverted U-shaped steel sheet, which belongs to the technical field of mechanical processing equipment and comprises a processing platform, a feeding mechanism, a material staggering mechanism, a feeding mechanism, an unloading mechanism and a chamfering mechanism, wherein a staggered trough is arranged on the processing platform, one side of the staggered trough is provided with a track A connected with the staggered trough, the feeding mechanism and the feeding mechanism are both positioned at the other side of the staggered trough, the unloading mechanism is positioned at the other end of the track A, the chamfering mechanism is positioned above the track A, the staggered trough can be movably arranged in the staggered trough, the staggered trough is connected with the feeding mechanism to accommodate U-shaped steel sheets during feeding, the staggered trough communicates the track A and the feeding mechanism to push the U-shaped steel sheets into the track A through the feeding mechanism during feeding, and by adopting the structure, the chamfering device for the inverted U-shaped steel sheet fully automatically processes without manual participation, the error of manual work to product quality is avoided, and production efficiency and product rate of certified products are greatly improved.

Description

Chamfering equipment for inverted-U-shaped steel sheet

Technical Field

The utility model belongs to the technical field of machining equipment, in particular to a chamfering equipment for n shape steel sheet.

Background

Some electric appliance products need to bend the steel sheet into a U-shaped shape and punch holes in the middle of the U-shaped shape, such as a mesh enclosure around the blade of an electric shaver, wherein a long circular hole is arranged in the middle of the mesh enclosure.

Therefore, the chamfering equipment for the n-shaped steel sheet, which has the advantages of automatic chamfering and high production efficiency, is urgently needed to appear.

SUMMERY OF THE UTILITY MODEL

The utility model provides a chamfering equipment for arched steel sheet for solve among the prior art artifical chamfer arched steel sheet inefficiency, product uniformity poor, unsafe technical problem.

The utility model discloses a following technical scheme realizes: the utility model provides a chamfer equipment for # shape steel sheet, includes processing platform, feeding mechanism, wrong material mechanism, feed mechanism, shedding mechanism and chamfer mechanism, be equipped with wrong silo on the processing platform, wrong silo one side is equipped with the track A who meets with wrong silo, feed mechanism and feeding mechanism all are located wrong silo opposite side, shedding mechanism is located the track A other end, chamfer mechanism is located track A top, wrong movable the installing of feed mechanism is in wrong silo, during the pay-off, wrong material mechanism meets with feeding mechanism in order to accomodate the U-shaped steel sheet, during the material loading, wrong material mechanism intercommunication track A and feed mechanism are in order to pass through feed mechanism pushes away the U-shaped steel sheet on the track A.

Further, for realize better the utility model discloses, feeding mechanism includes straight vibration ware and vibration dish, be equipped with track B on the straight vibration ware, track B one end is connected with the discharge gate of vibration dish, the track B other end meets with wrong feed mechanism.

Further, for realize better the utility model discloses, mistake feed mechanism includes wrong material piece and cylinder A, wrong material piece slidable mounting is in the wrong silo, cylinder A's piston rod is connected with wrong material piece and makes a round trip the translation in wrong silo in order to promote wrong material piece, be equipped with track C on the wrong material piece, track C staggers and is located track B below with track B in vertical direction.

Further, for better realizing the utility model discloses, feed mechanism includes material loading pole and cylinder B, the material loading pole is parallel and aligns track A, the cross sectional shape of material loading pole is the n shape, cylinder B's piston rod links firmly with the material loading pole in order to promote the material loading pole translation on track A.

Further, for better realizing the utility model discloses, shedding mechanism includes unloading pole and cylinder C, the unloading pole is parallel and aligns track B, the cross sectional shape of unloading pole is the ^ shaped, cylinder C's piston rod links firmly with the unloading pole in order to promote the translation of unloading pole on track A.

Further, for better realizing the utility model discloses, wrong silo tank bottom is equipped with the blanking mouth, the blanking mouth is located between track A and the feed mechanism.

Further, in order to realize better the utility model discloses, still include fixture, fixture includes two tight pieces of clamp and two cylinder D, two it establishes to press from both sides tight piece branch track A's both sides, two the one end that the tight piece of clamp kept away from track A respectively connects one cylinder D's piston rod.

Further, in order to realize better the utility model discloses, chamfer mechanism includes spindle motor, tool bit and first framework, the tool bit is installed on spindle motor's power take off, first framework top is equipped with motor A, be equipped with the first ball screw mechanism of vertical direction in the first framework, the lead screw and the motor A transmission of first ball screw mechanism are connected, first ball screw mechanism's nut is connected with spindle motor, spindle motor pass through vertical slider slide rail structure with vertical direction sliding connection is followed to first framework.

Further, in order to better realize the utility model discloses, still include the second framework, second framework one side is equipped with motor B, be equipped with the second ball screw mechanism of horizontal direction in the second framework, the lead screw and the motor B transmission of second ball screw mechanism are connected, the nut of second ball screw mechanism with first framework is connected, first framework pass through horizontal slider slide rail structure with second framework is along horizontal direction sliding connection.

Further, for better realizing the utility model discloses, still include controller and display screen, mistake material mechanism, feed mechanism, shedding mechanism and chamfer mechanism all with the controller electricity is connected and is passed through display screen output device parameter.

The utility model discloses compare in prior art and have following beneficial effect:

the utility model provides a chamfering device for an inverted U-shaped steel sheet, which comprises a processing platform, a feeding mechanism, a material staggering mechanism, a feeding mechanism, an unloading mechanism and a chamfering mechanism, wherein a material staggering groove is arranged on the processing platform, a track A connected with the material staggering groove is arranged on one side of the material staggering groove, the feeding mechanism and the feeding mechanism are both arranged on the other side of the material staggering groove, the unloading mechanism is arranged on the other end of the track A, the chamfering mechanism is arranged above the track A and can be movably arranged in the material staggering groove, during feeding, the material staggering mechanism is connected with the feeding mechanism to accommodate the U-shaped steel sheet, during feeding, the material staggering mechanism is communicated with the track A and the feeding mechanism to push the U-shaped steel sheet into the track A through the feeding mechanism, by adopting the structure, after the inverted U-shaped steel sheet is received by the feeding mechanism one by one during use, the material staggering mechanism is horizontally moved between the track A and the feeding mechanism, the feeding mechanism pushes the inverted U-shaped steel sheet onto the, make chamfering machine construct automatic completion chamfer processing, discharge mechanism lifts the U-shaped steel sheet off from track A again, and discharge mechanism, feed mechanism and mistake feed mechanism return in proper order, make mistake feed mechanism receive next U-shaped steel sheet and begin next chamfer production, full automatic processing need not artifical the participation, has avoided artifical error to product quality, improves production efficiency and product rate of certified products greatly, makes the utility model discloses a practicality is stronger.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of a chamfering apparatus for U-shaped steel sheets according to the present invention;

FIG. 2 is a top view of the chamfering apparatus for U-shaped steel sheets of the present invention after hiding the chamfering mechanism;

fig. 3 is a schematic structural diagram of the chamfering mechanism of the present invention.

In the figure:

1-processing a platform; 11-staggered trough; 111-blanking port; 12-track a; 2-a feeding mechanism; 21-a linear vibrator; 211-track B; 22-a vibrating disk; 3-a material staggering mechanism; 31-a fault block; 311-track C; 32-cylinder A; 4-a feeding mechanism; 41-a feeding rod; 42-cylinder B; 5-a discharging mechanism; 51-a discharge bar; 52-cylinder C; 6-chamfering mechanism; 61-spindle motor; 62-a cutter head; 63-a first frame; 631-motor a; 632 — a first ball screw mechanism; 633-vertical slider rail configuration; 64-a second frame; 641-motor B; 642-a second ball screw mechanism; 643 — horizontal slider slide track configuration; 7-a clamping mechanism; 71-a clamping block; 72-cylinder D; 8-display screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Example 1:

in the present embodiment, a chamfering apparatus for n-shaped steel sheets, as shown in fig. 1, 2 and 3, includes a processing platform 1, a feeding mechanism 2, a material staggering mechanism 3, a feeding mechanism 4, an unloading mechanism 5 and a chamfering mechanism 6, specifically, a material staggering slot 11 is provided on the processing platform 1, a track a12 connected to the material staggering slot 11 is provided on one side of the material staggering slot 11, the track a12 is horizontally perpendicular to the material staggering slot 11, and preferably, the cross-sectional shape of the track a12 matches the shape of the n-shaped steel sheets, so that the n-shaped steel sheets can be buckled on the track a12 and horizontally translated, the feeding mechanism 4 and the feeding mechanism 2 are both located on the other side of the material staggering slot 11, the feeding mechanism 4 and the feeding mechanism 2 are both parallel and spaced, the unloading mechanism 5 is located on the other side of the track a12, the chamfering mechanism 6 is located above the track a12, the material staggering mechanism 3 is movably installed in the material staggering tank 11, during feeding, the material staggering mechanism 3 is connected with the feeding mechanism 2 to accommodate the U-shaped steel sheet, and during feeding, the material staggering mechanism 3 is communicated with the track A12 and the feeding mechanism 4 to push the U-shaped steel sheet onto the track A12 through the feeding mechanism 4.

Adopt this structure, above-mentioned staggered feed mechanism 3 receives above-mentioned U-shaped steel sheet that above-mentioned feeding mechanism 2 carried one by one during the use after, above-mentioned staggered feed mechanism 3 translation is to above-mentioned track A12 and between above-mentioned feed mechanism 4, above-mentioned feed mechanism 4 pushes away above-mentioned U-shaped steel sheet to above-mentioned track A12, makes above-mentioned chamfer mechanism 6 accomplish chamfer processing automatically, and above-mentioned discharge mechanism 5 lifts above-mentioned U-shaped steel sheet from above-mentioned track A12 again, and then above-mentioned discharge mechanism 5, feed mechanism 4 and staggered feed mechanism 3 return in proper order, make staggered feed mechanism 3 receive next the U-shaped steel sheet begins chamfer production next time, full automatic processing need not artifical the participation, has avoided artifical error to product quality, improves production efficiency and product quality rate greatly, makes the utility model discloses a practicality is stronger.

Example 2:

in this embodiment, as shown in fig. 1 and 2, the feeding mechanism 2 includes a straight vibrator 21 and a vibrating disk 22, the straight vibrator 21 is provided with a track B211, one end of the track B211 is connected to a discharge port of the vibrating disk 22, the other end of the track B211 is connected to the material staggering mechanism 3, when in use, the n-shaped steel sheet to be processed is placed in the vibrating disk 22, the vibrating disk 22 can arrange the workpiece orderly by vibration in a vertical direction and ascend along a spiral track inside the workpiece, so as to automatically and orderly arrange the n-shaped steel sheet orderly and accurately convey the n-shaped steel sheet to the track B211 of the straight vibrator 21, and the n-shaped steel sheet on the track B211 gradually slides to the other end of the track B211 by the vibration of the straight vibrator 21 and slides to the material staggering mechanism 3 connected to the other end of the track B211, therefore, the automatic cutting and orderly feeding of the n-shaped steel sheet is achieved, as optimization, the section shape of the track B211 is matched with the shape of the n-shaped steel sheet, and the straight vibrator 21 and the vibrator are the prior art, so repeated description of the structure is omitted.

In this embodiment, as shown in fig. 2, the error mechanism 3 includes an error block 31 and a cylinder a32, the error block 31 is slidably mounted in the error slot 11, a piston rod of the cylinder a32 is connected to the error block 31 to push the error block 31 to move back and forth in the error slot 11, meanwhile, a track C311 is provided on the error block 31, the track C311 is vertically staggered from the track B211 and is located below the track B211, so that an n-shaped steel sheet on the track B211 slides down and directly falls on the track B211, the track C311 is disconnected from the track B211, the track C311 is not affected by vibration of the track B211, and the n-shaped steel sheet smoothly falls on the track C311, and as an optimization, the cross-sectional shape of the track C311 matches with the shape of the n-shaped steel sheet.

Example 3:

in this embodiment, as shown in fig. 2, the feeding mechanism 4 includes a feeding rod 41 and a cylinder B42, the feeding rod 41 is parallel and aligned with the track a12, the cross-sectional shape of the feeding rod 41 is n-shaped to match the shapes of the track a12 and the track C311, a piston rod of the cylinder B42 is fixedly connected to the feeding rod 41, the material staggering mechanism 3 translates between the track a12 and the feeding mechanism 4 during feeding, the track C311 of the material staggering mechanism 3 communicates between the track a12 and the feeding rod 41, so that the cylinder B42 can push the feeding rod 41 to translate on the track a12 and the track C311, and push the n-shaped steel piece on the track C311 to the track a12, and the chamfering process can be started when the steel piece reaches the chamfering process station.

In this embodiment, as shown in fig. 2, the discharging mechanism 5 includes a discharging rod 51 and an air cylinder C52, the discharging rod 51 is parallel to and aligned with the track B211, the discharging rod 51 has a n-shaped cross section to match with the track a12, a piston rod of the air cylinder C52 is fixed to the discharging rod 51 to push the discharging rod 51 to move horizontally on the track a12, after the chamfering is completed, the material staggering mechanism 3 and the material loading mechanism 4 return to each other, first, the material loading rod 41 of the material loading mechanism 4 returns to disengage from the track C311 of the material staggering mechanism 3, and the material staggering piece 31 of the material staggering mechanism 3 returns to contact with the track B211 of the material loading mechanism 2, and at the same time, the discharging rod 51 is pushed by the air cylinder C52 to push the n-shaped steel piece on the track a12 reversely to disengage from the track a12, so that the n-shaped steel piece falls into the staggering tank 11, preferably, a blanking opening 111 is formed at the bottom of the staggered trough 11, and the blanking opening 111 is located between the rail a12 and the feeding mechanism 4, so that the n-shaped steel sheet separated from the rail a12 directly falls out of the processing platform 1 from the blanking opening 111 of the staggered trough 11 and is collected.

As a more preferable embodiment of this embodiment, as shown in fig. 2, the clamping device 7 further comprises two clamping blocks 71 and two cylinders D72, the two clamping blocks 71 are respectively disposed on two sides of the rail a12, one ends of the two clamping blocks 71 away from the rail a12 are respectively connected to a piston rod of the cylinder D72, when the n-shaped steel piece is pushed into the rail a12 by the feeding rod 41 and reaches the processing position, the two cylinders D72 are respectively activated to clamp and fix the n-shaped steel piece from two sides by the two clamping blocks 71, at which time the feeding mechanism 4 and the material staggering mechanism 3 can be retracted to the initial position in advance so as to facilitate the processing step of the next n-shaped steel piece, thereby improving the production efficiency.

Example 4:

in this embodiment, as shown in fig. 3, the chamfering mechanism 6 includes a spindle motor 61, a tool bit 62 and a first frame 63, the tool bit 62 is mounted on the power output end of the spindle motor 61, the top of the tool bit 62 has a truncated cone structure, and thus, the tool bit fits into the oblong hole of the n-shaped steel piece, and chamfering processing on both sides of the hole can be completed in one stroke.

In this embodiment, a motor a631 is disposed at the top of the first frame 63, a first vertical ball screw mechanism 632 is disposed in the first frame 63, a screw of the first ball screw mechanism 632 is in transmission connection with the motor a631, a nut of the first ball screw mechanism 632 is connected with the spindle motor 61, the spindle motor 61 is in sliding connection with the first frame 63 through a vertical slider rail structure 633 along a vertical direction, when in use, the motor a631 drives the screw of the first ball screw mechanism 632 to rotate forward or backward, so that the nut of the first ball screw mechanism 632 translates up and down, and further the spindle motor 61 translates up and down together, thereby completing the tool setting operation before the tool bit 62 approaches the steel sheet to be processed and the tool retracting operation after the chamfering operation, and the vertical slider rail structure 633 stabilizes the spindle motor 61 translating up and down, the vertical slider-slide structure 633 includes a slider disposed on the spindle motor 61 and a slide disposed on the first frame 63.

Further, as shown in fig. 2, the cutting tool further comprises a second frame 64, a motor B641 is disposed on one side of the second frame 64, a second ball screw mechanism 642 in the horizontal direction is disposed in the second frame 64, a screw of the second ball screw mechanism 642 is in transmission connection with the motor B641, a nut of the second ball screw mechanism 642 is connected with the first frame 63, the first frame 63 is in sliding connection with the second frame 64 in the horizontal direction via a horizontal slider-slide rail structure 643, when in use, the motor B641 is activated to drive a screw of the second ball screw mechanism 642 to rotate forward or backward, so that the nut of the second ball screw mechanism 642 moves horizontally, and the first frame 63 moves horizontally, so that the cutting head 62 connected to the first frame 63 moves horizontally, and the cutting head 62 moves horizontally along the slot on the inverted U-shaped steel sheet, thereby completing a path from one end to the other end of the long round slot on the cutting head 62, the horizontal slider rail structure 643 stabilizes the left-right translation of the first frame 63 without causing any deflection, and the horizontal slider rail structure 643 includes a slider provided in the first frame 63 and a rail provided in the second frame 64.

Example 5:

the embodiment is further optimized on the basis of the above embodiment, and in this embodiment, the present embodiment further comprises a controller and a display 8, the material staggering mechanism 3, the feeding mechanism 4, the discharging mechanism 5 and the chamfering mechanism 6 are all electrically connected to the controller and output device parameters through the display 8, the chamfering process of the present invention is that, firstly, through the combined action of the vibration disk 22 and the straight vibrator 21 of the feeding mechanism 2, one orderly n-shaped steel piece to be processed is conveyed to the material staggering mechanism 3, the vibration disk 22 and the straight vibrator 21 are stopped, and then the cylinder a32 of the material staggering mechanism 3 pushes the material staggering piece 31 to translate along the material staggering slot 11 to between the track a12 and the feeding mechanism 4, the feeding rod 41 of the feeding mechanism 4 translates under the action of the cylinder a32 to push the n-shaped steel piece on the material staggering mechanism 3 to enter the track a12, the controller controls the pushing distance of the loading rod 41 to make the U-shaped steel sheet just reach the processing position, and then the clamping mechanism 7 is started to fasten the U-shaped steel sheet, the chamfering mechanism 6 is started to drive the cutter head 62 to align the U-shaped steel sheet and descend to set the cutter and horizontally translate, thereby completing chamfering of the long hole on the U-shaped steel sheet, and at the same time, the controller controls the loading rod 41 to retreat, and then the wrong material block 31 to retreat, so as to transport the next U-shaped steel sheet, after the chamfering is completed, the chamfering mechanism 6 retreats to the initial position, and at the same time the clamping mechanism 7 loosens the U-shaped steel sheet, and then the cylinder C52 of the unloading mechanism 5 is started to push the unloading rod 51 to push the U-shaped steel sheet to separate from the rail A12, and drop and collect from the dropping port 111 on the wrong material tank 11, thereby completing the chamfering processing of the U-shaped steel sheet, automatically transporting and processing, the production efficiency is high, and the product consistency is ensured.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a chamfer equipment for # -shaped steel sheet which characterized in that: including processing platform, feeding mechanism, wrong material mechanism, feed mechanism, shedding mechanism and chamfer mechanism, the last wrong silo that is equipped with of processing platform, wrong silo one side is equipped with the track A who meets with wrong silo, feed mechanism and feeding mechanism all are located wrong silo opposite side, shedding mechanism is located the track A other end, chamfer mechanism is located track A top, but wrong material mechanism movable mounting is in wrong silo, during the pay-off, wrong material mechanism meets in order to accomodate the U-shaped steel sheet with feeding mechanism, during the material loading, wrong material mechanism intercommunication track A and feeding mechanism are in order to pass through feeding mechanism pushes away the U-shaped steel sheet on the track A.

2. Chamfering apparatus for n-shaped steel sheets as claimed in claim 1, wherein: the feeding mechanism comprises a straight vibration device and a vibration disc, a track B is arranged on the straight vibration device, one end of the track B is connected with a discharge hole of the vibration disc, and the other end of the track B is connected with the material staggering mechanism.

3. Chamfering apparatus for n-shaped steel sheets as claimed in claim 2, wherein: the staggered material mechanism comprises a staggered material block and a cylinder A, the staggered material block is slidably mounted in the staggered material groove, a piston rod of the cylinder A is connected with the staggered material block to push the staggered material block to translate back and forth in the staggered material groove, a track C is arranged on the staggered material block, and the track C and the track B are staggered in the vertical direction and are located below the track B.

4. Chamfering apparatus for n-shaped steel sheets as claimed in claim 3, wherein: feed mechanism includes material loading pole and cylinder B, the material loading pole is parallel and aligns track A, the cross sectional shape of material loading pole is the n shape, cylinder B's piston rod links firmly with the material loading pole in order to promote the material loading pole translation on track A.

5. Chamfering apparatus for n-shaped steel sheets as claimed in claim 4, wherein: unloading mechanism includes discharge bar and cylinder C, the discharge bar is parallel and aligns track B, the cross sectional shape of discharge bar is the ^ shaped, cylinder C's piston rod links firmly with the discharge bar in order to promote the translation of discharge bar on track A.

6. Chamfering apparatus for n-shaped steel sheets as claimed in claim 5, wherein: the staggered material groove is characterized in that a blanking port is arranged at the bottom of the staggered material groove and is located between the track A and the feeding mechanism.

7. Chamfering apparatus for n-shaped steel sheets as claimed in claim 6, wherein: the clamping mechanism comprises two clamping blocks and two cylinders D, the two clamping blocks are arranged on two sides of the track A, and one end, far away from the track A, of each clamping block is connected with a piston rod of the cylinder D.

8. Chamfering apparatus for n-shaped steel sheets according to any one of claims 1 to 7, characterized in that: the chamfering mechanism comprises a spindle motor, a tool bit and a first frame body, the tool bit is installed at the power output end of the spindle motor, a motor A is arranged at the top of the first frame body, a first ball screw mechanism in the vertical direction is arranged in the first frame body, a lead screw of the first ball screw mechanism is in transmission connection with the motor A, a nut of the first ball screw mechanism is connected with the spindle motor, and the spindle motor is connected with the first frame body in a sliding mode along the vertical direction through a vertical sliding block sliding rail structure.

9. The chamfering apparatus for n-shaped steel sheets according to claim 8, wherein: the motor B is arranged on one side of the second frame body, a second ball screw mechanism in the horizontal direction is arranged in the second frame body, a screw of the second ball screw mechanism is in transmission connection with the motor B, a nut of the second ball screw mechanism is connected with the first frame body, and the first frame body is in sliding connection with the second frame body along the horizontal direction through a horizontal sliding block sliding rail structure.

10. The chamfering apparatus for n-shaped steel sheets according to claim 9, wherein: the automatic material-staggering device is characterized by further comprising a controller and a display screen, wherein the material-staggering mechanism, the feeding mechanism, the discharging mechanism and the chamfering mechanism are all electrically connected with the controller and output equipment parameters through the display screen.

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